1. ========================= SEAF 1.0.1.0 - C_XX 2. 3. Commencé à: 12:55:14 le 04/03/2019 4. 5. Valeur(s) recherchée(s): 6. Bing 7. 8. Légende: TC => Date de création, TM => Date de modification, DA => Dernier accès 9. 10. (!) --- Recherche registre 11. 12. ====== Fichier(s) ====== 13. 14. 15. "C:\ProgramData\AVAST Software\Avast\pam\icons\bing_com.png" [ NOT_CONTENT_INDEXED|ARCHIVE | 5 Ko ] 16. TC: 10/03/2017,09:45:54 | TM: 10/03/2017,09:45:54 | DA: 10/03/2017,09:45:54 17. 18. 19. ========================= 20. 21. 22. "C:\Users\All Users\AVAST Software\Avast\pam\icons\bing_com.png" [ NOT_CONTENT_INDEXED|ARCHIVE | 5 Ko ] 23. TC: 10/03/2017,09:45:54 | TM: 10/03/2017,09:45:54 | DA: 10/03/2017,09:45:54 24. 25. 26. ========================= 27. 28. 29. "C:\Users\SAMSUNG\AppData\Local\Google\Chrome\User Data\Profile 2\Extensions\ibbfklbaljofpaanmpaeadejijfdddco\1.2.2_0\icons\bing.svg" [ NOT_CONTENT_INDEXED|ARCHIVE | 1 Ko ] 30. TC: 14/03/2018,12:23:17 | TM: 22/03/2017,07:22:20 | DA: 14/03/2018,12:23:17 31. 32. 33. ========================= 34. 35. 36. "C:\Users\SAMSUNG\AppData\Local\Microsoft\BingSvc\BingSvc.exe" [ NOT_CONTENT_INDEXED|ARCHIVE | 144 Ko ] 37. TC: 03/02/2016,19:41:09 | TM: 03/02/2016,19:51:23 | DA: 03/02/2016,19:51:23 38. 39. 40. ========================= 41. 42. 43. "C:\Users\SAMSUNG\AppData\Roaming\Mozilla\Firefox\Profiles\r738pixk.default\extensions\bingsearch.full@microsoft.com.xpi" [ NOT_CONTENT_INDEXED|ARCHIVE | 17 Ko ] 44. TC: 03/02/2016,19:40:53 | TM: 03/02/2016,19:40:53 | DA: 03/02/2016,19:40:53 45. 46. 47. ========================= 48. 49. 50. "C:\Users\SAMSUNG\AppData\Roaming\Mozilla\Firefox\Profiles\r738pixk.default\searchplugins\bing-.xml" [ NOT_CONTENT_INDEXED|ARCHIVE | 6 Ko ] 51. TC: 03/02/2016,19:41:09 | TM: 03/02/2016,19:41:09 | DA: 03/02/2016,19:41:09 52. 53. 54. ========================= 55. 56. 57. 58. ====== Entrée(s) du registre ====== 59. 60. 61. [HKLM\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 62. ""="Bing" (REG_SZ) 63. 64. [HKLM\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 65. "URL"="http://www.bing.com/search?q={searchTerms}&FORM=IE8SRC" (REG_SZ) 66. 67. [HKLM\Software\Microsoft\Speech\PhoneConverters\Tokens\Chinese] 68. "PhoneMap"="- 0001 ! 0002 & 0003 , 0004 . 0005 ? 0006 _ 0007 + 0008 * 0009 1 000A 2 000B 3 000C 4 000D 5 000E a 000F ai 0010 an 0011 ang 0012 ao 0013 ba 0014 bai 0015 ban 0016 bang 0017 bao 0018 bei 0019 ben 001A beng 001B bi 001C bian 001D biao 001E bie 001F bin 0020 bing 0021 bo 0022 bu 0023 ca 0024 cai 0025 can 0026 cang 0027 cao 0028 ce 0029 cen 002A ceng 002B cha 002C chai 002D chan 002E chang 002F chao 0030 che 0031 chen 0032 cheng 0033 chi 0034 chong 0035 chou 0036 chu 0037 chuai 0038 chuan 0039 chuang 003A chui 003B chun 003C chuo 003D ci 003E cong 003F cou 0040 cu 0041 cuan 0042 cui 0043 cun 0044 cuo 0045 da 0046 dai 0047 dan 0048 dang 0049 dao 004A de 004B dei 004C den 004D deng 004E di 004F dia 0050 dian 0051 diao 0052 die 0053 ding 0054 diu 0055 dong 0056 dou 0057 du 0058 duan 0059 dui 005A dun 005B duo 005C e 005D ei 005E en 005F er 0060 fa 0061 fan 0062 fang 0063 fei 0064 fen 0065 feng 0066 fo 0067 fou 0068 fu 0069 ga 006A gai 006B gan 006C gang 006D gao 006E ge 006F gei 0070 gen 0071 geng 0072 gong 0073 gou 0074 gu 0075 gua 0076 guai 0077 guan 0078 guang 0079 gui 007A gun 007B guo 007C ha 007D hai 007E han 007F hang 0080 hao 0081 he 0082 hei 0083 hen 0084 heng 0085 hong 0086 hou 0087 hu 0088 hua 0089 huai 008A huan 008B huang 008C hui 008D hun 008E huo 008F ji 0090 jia 0091 jian 0092 jiang 0093 jiao 0094 jie 0095 jin 0096 jing 0097 jiong 0098 jiu 0099 ju 009A juan 009B jue 009C jun 009D ka 009E kai 009F kan 00A0 kang 00A1 kao 00A2 ke 00A3 kei 00A4 ken 00A5 keng 00A6 kong 00A7 kou 00A8 ku 00A9 kua 00AA kuai 00AB kuan 00AC kuang 00AD kui 00AE kun 00AF kuo 00B0 la 00B1 lai 00B2 lan 00B3 lang 00B4 lao 00B5 le 00B6 lei 00B7 leng 00B8 li 00B9 lia 00BA lian 00BB liang 00BC liao 00BD lie 00BE lin 00BF ling 00C0 liu 00C1 lo 00C2 long 00C3 lou 00C4 lu 00C5 luan 00C6 lue 00C7 lun 00C8 luo 00C9 lv 00CA ma 00CB mai 00CC man 00CD mang 00CE mao 00CF me 00D0 mei 00D1 men 00D2 meng 00D3 mi 00D4 mian 00D5 miao 00D6 mie 00D7 min 00D8 ming 00D9 miu 00DA mo 00DB mou 00DC mu 00DD na 00DE nai 00DF nan 00E0 nang 00E1 nao 00E2 ne 00E3 nei 00E4 nen 00E5 neng 00E6 ni 00E7 nian 00E8 niang 00E9 niao 00EA nie 00EB nin 00EC ning 00ED niu 00EE nong 00EF nou 00F0 nu 00F1 nuan 00F2 nue 00F3 nuo 00F4 nv 00F5 o 00F6 ou 00F7 pa 00F8 pai 00F9 pan 00FA pang 00FB pao 00FC pei 00FD pen 00FE peng 00FF pi 0100 pian 0101 piao 0102 pie 0103 pin 0104 ping 0105 po 0106 pou 0107 pu 0108 qi 0109 qia 010A qian 010B qiang 010C qiao 010D qie 010E qin 010F qing 0110 qiong 0111 qiu 0112 qu 0113 quan 0114 que 0115 qun 0116 ran 0117 rang 0118 rao 0119 re 011A ren 011B reng 011C ri 011D rong 011E rou 011F ru 0120 ruan 0121 rui 0122 run 0123 ruo 0124 sa 0125 sai 0126 san 0127 sang 0128 sao 0129 se 012A sen 012B seng 012C sha 012D shai 012E shan 012F shang 0130 shao 0131 she 0132 shei 0133 shen 0134 sheng 0135 shi 0136 shou 0137 shu 0138 shua 0139 shuai 013A shuan 013B shuang 013C shui 013D shun 013E shuo 013F si 0140 song 0141 sou 0142 su 0143 suan 0144 sui 0145 sun 0146 suo 0147 ta 0148 tai 0149 tan 014A tang 014B tao 014C te 014D tei 014E teng 014F ti 0150 tian 0151 tiao 0152 tie 0153 ting 0154 tong 0155 tou 0156 tu 0157 tuan 0158 tui 0159 tun 015A tuo 015B wa 015C wai 015D wan 015E wang 015F wei 0160 wen 0161 weng 0162 wo 0163 wu 0164 xi 0165 xia 0166 xian 0167 xiang 0168 xiao 0169 xie 016A xin 016B xing 016C xiong 016D xiu 016E xu 016F xuan 0170 xue 0171 xun 0172 ya 0173 yan 0174 yang 0175 yao 0176 ye 0177 yi 0178 yin 0179 ying 017A yo 017B yong 017C you 017D yu 017E yuan 017F yue 0180 yun 0181 za 0182 zai 0183 zan 0184 zang 0185 zao 0186 ze 0187 zei 0188 zen 0189 zeng 018A zha 018B zhai 018C zhan 018D zhang 018E zhao 018F zhe 0190 zhei 0191 zhen 0192 zheng 0193 zhi 0194 zhong 0195 zhou 0196 zhu 0197 zhua 0198 zhuai 0199 zhuan 019A zhuang 019B zhui 019C zhun 019D zhuo 019E zi 019F zong 01A0 zou 01A1 zu 01A2 zuan 01A3 zui 01A4 zun 01A5 zuo 01A6" (REG_SZ) 69. 70. [HKLM\Software\Microsoft\Windows NT\CurrentVersion\Perflib\009] 71. "Help"="3 72. The System performance object consists of counters that apply to more than one instance of a component processors on the computer. 73. 5 74. The Memory performance object consists of counters that describe the behavior of physical and virtual memory on the computer. Physical memory is the amount of random access memory on the computer. Virtual memory consists of the space in physical memory and on disk. Many of the memory counters monitor paging, which is the movement of pages of code and data between disk and physical memory. Excessive paging, a symptom of a memory shortage, can cause delays which interfere with all system processes. 75. 7 76. % Processor Time is the percentage of elapsed time that the processor spends to execute a non-Idle thread. It is calculated by measuring the percentage of time that the processor spends executing the idle thread and then subtracting that value from 100%. (Each processor has an idle thread that consumes cycles when no other threads are ready to run). This counter is the primary indicator of processor activity, and displays the average percentage of busy time observed during the sample interval. It should be noted that the accounting calculation of whether the processor is idle is performed at an internal sampling interval of the system clock (10ms). On todays fast processors, % Processor Time can therefore underestimate the processor utilization as the processor may be spending a lot of time servicing threads between the system clock sampling interval. Workload based timer applications are one example of applications which are more likely to be measured inaccurately as timers are signaled just after the sample is taken. 77. 9 78. % Total DPC Time is the average percentage of time that all processors spend receiving and servicing deferred procedure calls (DPCs). (DPCs are interrupts that run at a lower priority than the standard interrupts). It is the sum of Processor: % DPC Time for all processors on the computer, divided by the number of processors. System: % Total DPC Time is a component of System: % Total Privileged Time because DPCs are executed in privileged mode. DPCs are counted separately and are not a component of the interrupt count. This counter displays the average busy time as a percentage of the sample time. 79. 11 80. File Read Operations/sec is the combined rate of file system read requests to all devices on the computer, including requests to read from the file system cache. It is measured in numbers of reads. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 81. 13 82. File Write Operations/sec is the combined rate of the file system write requests to all devices on the computer, including requests to write to data in the file system cache. It is measured in numbers of writes. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 83. 15 84. File Control Operations/sec is the combined rate of file system operations that are neither reads nor writes, such as file system control requests and requests for information about device characteristics or status. This is the inverse of System: File Data Operations/sec and is measured in number of operations perf second. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 85. 17 86. File Read Bytes/sec is the overall rate at which bytes are read to satisfy file system read requests to all devices on the computer, including reads from the file system cache. It is measured in number of bytes per second. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 87. 19 88. File Write Bytes/sec is the overall rate at which bytes are written to satisfy file system write requests to all devices on the computer, including writes to the file system cache. It is measured in number of bytes per second. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 89. 21 90. File Control Bytes/sec is the overall rate at which bytes are transferred for all file system operations that are neither reads nor writes, including file system control requests and requests for information about device characteristics or status. It is measured in numbers of bytes. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 91. 23 92. % Total Interrupt Time is the average percentage of time that all processors spend receiving and servicing hardware interrupts during sample intervals, where the value is an indirect indicator of the activity of devices that generate interrupts. It is the sum of Processor: % Interrupt Time for of all processors on the computer, divided by the number of processors. DPCs are counted separately and are not a component of the interrupt count. This value is an indirect indicator of the activity of devices that generate interrupts, such as the system timer, the mouse, disk drivers, data communication lines, network interface cards and other peripheral devices. 93. 25 94. Available Bytes is the amount of physical memory, in bytes, immediately available for allocation to a process or for system use. It is equal to the sum of memory assigned to the standby (cached), free and zero page lists. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 95. 27 96. Committed Bytes is the amount of committed virtual memory, in bytes. Committed memory is the physical memory which has space reserved on the disk paging file(s). There can be one or more paging files on each physical drive. This counter displays the last observed value only; it is not an average. 97. 29 98. Page Faults/sec is the average number of pages faulted per second. It is measured in number of pages faulted per second because only one page is faulted in each fault operation, hence this is also equal to the number of page fault operations. This counter includes both hard faults (those that require disk access) and soft faults (where the faulted page is found elsewhere in physical memory.) Most processors can handle large numbers of soft faults without significant consequence. However, hard faults, which require disk access, can cause significant delays. 99. 31 100. Commit Limit is the amount of virtual memory that can be committed without having to extend the paging file(s). It is measured in bytes. Committed memory is the physical memory which has space reserved on the disk paging files. There can be one paging file on each logical drive). If the paging file(s) are be expanded, this limit increases accordingly. This counter displays the last observed value only; it is not an average. 101. 33 102. Write Copies/sec is the rate at which page faults are caused by attempts to write that have been satisfied by coping of the page from elsewhere in physical memory. This is an economical way of sharing data since pages are only copied when they are written to; otherwise, the page is shared. This counter shows the number of copies, without regard for the number of pages copied in each operation. 103. 35 104. Transition Faults/sec is the rate at which page faults are resolved by recovering pages that were being used by another process sharing the page, or were on the modified page list or the standby list, or were being written to disk at the time of the page fault. The pages were recovered without additional disk activity. Transition faults are counted in numbers of faults; because only one page is faulted in each operation, it is also equal to the number of pages faulted. 105. 37 106. Cache Faults/sec is the rate at which faults occur when a page sought in the file system cache is not found and must be retrieved from elsewhere in memory (a soft fault) or from disk (a hard fault). The file system cache is an area of physical memory that stores recently used pages of data for applications. Cache activity is a reliable indicator of most application I/O operations. This counter shows the number of faults, without regard for the number of pages faulted in each operation. 107. 39 108. Demand Zero Faults/sec is the rate at which a zeroed page is required to satisfy the fault. Zeroed pages, pages emptied of previously stored data and filled with zeros, are a security feature of Windows that prevent processes from seeing data stored by earlier processes that used the memory space. Windows maintains a list of zeroed pages to accelerate this process. This counter shows the number of faults, without regard to the number of pages retrieved to satisfy the fault. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 109. 41 110. Pages/sec is the rate at which pages are read from or written to disk to resolve hard page faults. This counter is a primary indicator of the kinds of faults that cause system-wide delays. It is the sum of Memory\\Pages Input/sec and Memory\\Pages Output/sec. It is counted in numbers of pages, so it can be compared to other counts of pages, such as Memory\\Page Faults/sec, without conversion. It includes pages retrieved to satisfy faults in the file system cache (usually requested by applications) non-cached mapped memory files. 111. 43 112. Page Reads/sec is the rate at which the disk was read to resolve hard page faults. It shows the number of reads operations, without regard to the number of pages retrieved in each operation. Hard page faults occur when a process references a page in virtual memory that is not in working set or elsewhere in physical memory, and must be retrieved from disk. This counter is a primary indicator of the kinds of faults that cause system-wide delays. It includes read operations to satisfy faults in the file system cache (usually requested by applications) and in non-cached mapped memory files. Compare the value of Memory\\Pages Reads/sec to the value of Memory\\Pages Input/sec to determine the average number of pages read during each operation. 113. 45 114. Processor Queue Length is the number of threads in the processor queue. Unlike the disk counters, this counter counters, this counter shows ready threads only, not threads that are running. There is a single queue for processor time even on computers with multiple processors. Therefore, if a computer has multiple processors, you need to divide this value by the number of processors servicing the workload. A sustained processor queue of less than 10 threads per processor is normally acceptable, dependent of the workload. 115. 47 116. Thread State is the current state of the thread. It is 0 for Initialized, 1 for Ready, 2 for Running, 3 for Standby, 4 for Terminated, 5 for Wait, 6 for Transition, 7 for Unknown. A Running thread is using a processor; a Standby thread is about to use one. A Ready thread wants to use a processor, but is waiting for a processor because none are free. A thread in Transition is waiting for a resource in order to execute, such as waiting for its execution stack to be paged in from disk. A Waiting thread has no use for the processor because it is waiting for a peripheral operation to complete or a resource to become free. 117. 49 118. Pages Output/sec is the rate at which pages are written to disk to free up space in physical memory. Pages are written back to disk only if they are changed in physical memory, so they are likely to hold data, not code. A high rate of pages output might indicate a memory shortage. Windows writes more pages back to disk to free up space when physical memory is in short supply. This counter shows the number of pages, and can be compared to other counts of pages, without conversion. 119. 51 120. Page Writes/sec is the rate at which pages are written to disk to free up space in physical memory. Pages are written to disk only if they are changed while in physical memory, so they are likely to hold data, not code. This counter shows write operations, without regard to the number of pages written in each operation. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 121. 53 122. The Browser performance object consists of counters that measure the rates of announcements, enumerations, and other Browser transmissions. 123. 55 124. Announcements Server/sec is the rate at which the servers in this domain have announced themselves to this server. 125. 57 126. Pool Paged Bytes is the size, in bytes, of the paged pool, an area of system memory (physical memory used by the operating system) for objects that can be written to disk when they are not being used. Memory\\Pool Paged Bytes is calculated differently than Process\\Pool Paged Bytes, so it might not equal Process\\Pool Paged Bytes\\_Total. This counter displays the last observed value only; it is not an average. 127. 59 128. Pool Nonpaged Bytes is the size, in bytes, of the nonpaged pool, an area of system memory (physical memory used by the operating system) for objects that cannot be written to disk, but must remain in physical memory as long as they are allocated. Memory\\Pool Nonpaged Bytes is calculated differently than Process\\Pool Nonpaged Bytes, so it might not equal Process\\Pool Nonpaged Bytes\\_Total. This counter displays the last observed value only; it is not an average. 129. 61 130. Pool Paged Allocs is the number of calls to allocate space in the paged pool. The paged pool is an area of system memory (physical memory used by the operating system) for objects that can be written to disk when they are not being used. It is measured in numbers of calls to allocate space, regardless of the amount of space allocated in each call. This counter displays the last observed value only; it is not an average. 131. 63 132. Pool Paged Resident Bytes is the current size, in bytes, of the paged pool. The paged pool is an area of system memory (physical memory used by the operating system) for objects that can be written to disk when they are not being used. Space used by the paged and nonpaged pools are taken from physical memory, so a pool that is too large denies memory space to processes. This counter displays the last observed value only; it is not an average. 133. 65 134. Pool Nonpaged Allocs is the number of calls to allocate space in the nonpaged pool. The nonpaged pool is an area of system memory area for objects that cannot be written to disk, and must remain in physical memory as long as they are allocated. It is measured in numbers of calls to allocate space, regardless of the amount of space allocated in each call. This counter displays the last observed value only; it is not an average. 135. 67 136. Bytes Total/sec is the total rate of bytes sent to or received from the network by the protocol, but only for the frames (packets) which carry data. This is the sum of Frame Bytes/sec and Datagram Bytes/sec. 137. 69 138. System Code Total Bytes is the size, in bytes, of the pageable operating system code currently in virtual memory. It is a measure of the amount of physical memory being used by the operating system that can be written to disk when not in use. This value is calculated by summing the bytes in Ntoskrnl.exe, Hal.dll, the boot drivers, and file systems loaded by Ntldr/osloader. This counter does not include code that must remain in physical memory and cannot be written to disk. This counter displays the last observed value only; it is not an average. 139. 71 140. System Code Resident Bytes is the size, in bytes of the operating system code currently in physical memory that can be written to disk when not in use. This value is a component of Memory\\System Code Total Bytes, which also includes operating system code on disk. Memory\\System Code Resident Bytes (and Memory\\System Code Total Bytes) does not include code that must remain in physical memory and cannot be written to disk. This counter displays the last observed value only; it is not an average. 141. 73 142. System Driver Total Bytes is the size, in bytes, of the pageable virtual memory currently being used by device drivers. Pageable memory can be written to disk when it is not being used. It includes physical memory (Memory\\System Driver Resident Bytes) and code and data paged to disk. It is a component of Memory\\System Code Total Bytes. This counter displays the last observed value only; it is not an average. 143. 75 144. System Driver Resident Bytes is the size, in bytes, of the pageable physical memory being used by device drivers. It is the working set (physical memory area) of the drivers. This value is a component of Memory\\System Driver Total Bytes, which also includes driver memory that has been written to disk. Neither Memory\\System Driver Resident Bytes nor Memory\\System Driver Total Bytes includes memory that cannot be written to disk. 145. 77 146. System Cache Resident Bytes is the size, in bytes, of the pageable operating system code in the file system cache. This value includes only current physical pages and does not include any virtual memory pages not currently resident. It does equal the System Cache value shown in Task Manager. As a result, this value may be smaller than the actual amount of virtual memory in use by the file system cache. This value is a component of Memory\\System Code Resident Bytes which represents all pageable operating system code that is currently in physical memory. This counter displays the last observed value only; it is not an average. 147. 79 148. Announcements Domain/sec is the rate at which a domain has announced itself to the network. 149. 81 150. Election Packets/sec is the rate at which browser election packets have been received by this workstation. 151. 83 152. Mailslot Writes/sec is the rate at which mailslot messages have been successfully received. 153. 85 154. Server List Requests/sec is the rate at which requests to retrieve a list of browser servers have been processed by this workstation. 155. 87 156. The Cache performance object consists of counters that monitor the file system cache, an area of physical memory that stores recently used data as long as possible to permit access to the data without having to read from the disk. Because applications typically use the cache, the cache is monitored as an indicator of application I/O operations. When memory is plentiful, the cache can grow, but when memory is scarce, the cache can become too small to be effective. 157. 89 158. Data Maps/sec is the frequency that a file system such as NTFS, maps a page of a file into the file system cache to read the page. 159. 91 160. Sync Data Maps/sec counts the frequency that a file system, such as NTFS, maps a page of a file into the file system cache to read the page, and wishes to wait for the page to be retrieved if it is not in main memory. 161. 93 162. Async Data Maps/sec is the frequency that an application using a file system, such as NTFS, to map a page of a file into the file system cache to read the page, and does not wait for the page to be retrieved if it is not in main memory. 163. 95 164. Data Map Hits is the percentage of data maps in the file system cache that could be resolved without having to retrieve a page from the disk, because the page was already in physical memory. 165. 97 166. Data Map Pins/sec is the frequency of data maps in the file system cache that resulted in pinning a page in main memory, an action usually preparatory to writing to the file on disk. While pinned, a page's physical address in main memory and virtual address in the file system cache will not be altered. 167. 99 168. Pin Reads/sec is the frequency of reading data into the file system cache preparatory to writing the data back to disk. Pages read in this fashion are pinned in memory at the completion of the read. While pinned, a page's physical address in the file system cache will not be altered. 169. 101 170. Sync Pin Reads/sec is the frequency of reading data into the file system cache preparatory to writing the data back to disk. Pages read in this fashion are pinned in memory at the completion of the read. The file system will not regain control until the page is pinned in the file system cache, in particular if the disk must be accessed to retrieve the page. While pinned, a page's physical address in the file system cache will not be altered. 171. 103 172. Async Pin Reads/sec is the frequency of reading data into the file system cache preparatory to writing the data back to disk. Pages read in this fashion are pinned in memory at the completion of the read. The file system will regain control immediately even if the disk must be accessed to retrieve the page. While pinned, a page's physical address will not be altered. 173. 105 174. Pin Read Hits is the percentage of pin read requests that hit the file system cache, i.e., did not require a disk read in order to provide access to the page in the file system cache. While pinned, a page's physical address in the file system cache will not be altered. The LAN Redirector uses this method for retrieving data from the cache, as does the LAN Server for small transfers. This is usually the method used by the disk file systems as well. 175. 107 176. Copy Reads/sec is the frequency of reads from pages of the file system cache that involve a memory copy of the data from the cache to the application's buffer. The LAN Redirector uses this method for retrieving information from the file system cache, as does the LAN Server for small transfers. This is a method used by the disk file systems as well. 177. 109 178. Sync Copy Reads/sec is the frequency of reads from pages of the file system cache that involve a memory copy of the data from the cache to the application's buffer. The file system will not regain control until the copy operation is complete, even if the disk must be accessed to retrieve the page. 179. 111 180. Async Copy Reads/sec is the frequency of reads from pages of the file system cache that involve a memory copy of the data from the cache to the application's buffer. The application will regain control immediately even if the disk must be accessed to retrieve the page. 181. 113 182. Copy Read Hits is the percentage of cache copy read requests that hit the cache, that is, they did not require a disk read in order to provide access to the page in the cache. A copy read is a file read operation that is satisfied by a memory copy from a page in the cache to the application's buffer. The LAN Redirector uses this method for retrieving information from the cache, as does the LAN Server for small transfers. This is a method used by the disk file systems as well. 183. 115 184. MDL Reads/sec is the frequency of reads from the file system cache that use a Memory Descriptor List (MDL) to access the data. The MDL contains the physical address of each page involved in the transfer, and thus can employ a hardware Direct Memory Access (DMA) device to effect the copy. The LAN Server uses this method for large transfers out of the server. 185. 117 186. Sync MDL Reads/sec is the frequency of reads from the file system cache that use a Memory Descriptor List (MDL) to access the pages. The MDL contains the physical address of each page in the transfer, thus permitting Direct Memory Access (DMA) of the pages. If the accessed page(s) are not in main memory, the caller will wait for the pages to fault in from the disk. 187. 119 188. Async MDL Reads/sec is the frequency of reads from the file system cache that use a Memory Descriptor List (MDL) to access the pages. The MDL contains the physical address of each page in the transfer, thus permitting Direct Memory Access (DMA) of the pages. If the accessed page(s) are not in main memory, the calling application program will not wait for the pages to fault in from disk. 189. 121 190. MDL Read Hits is the percentage of Memory Descriptor List (MDL) Read requests to the file system cache that hit the cache, i.e., did not require disk accesses in order to provide memory access to the page(s) in the cache. 191. 123 192. Read Aheads/sec is the frequency of reads from the file system cache in which the Cache detects sequential access to a file. The read aheads permit the data to be transferred in larger blocks than those being requested by the application, reducing the overhead per access. 193. 125 194. Fast Reads/sec is the frequency of reads from the file system cache that bypass the installed file system and retrieve the data directly from the cache. Normally, file I/O requests invoke the appropriate file system to retrieve data from a file, but this path permits direct retrieval of data from the cache without file system involvement if the data is in the cache. Even if the data is not in the cache, one invocation of the file system is avoided. 195. 127 196. Sync Fast Reads/sec is the frequency of reads from the file system cache that bypass the installed file system and retrieve the data directly from the cache. Normally, file I/O requests invoke the appropriate file system to retrieve data from a file, but this path permits direct retrieval of data from the cache without file system involvement if the data is in the cache. Even if the data is not in the cache, one invocation of the file system is avoided. If the data is not in the cache, the request (application program call) will wait until the data has been retrieved from disk. 197. 129 198. Async Fast Reads/sec is the frequency of reads from the file system cache that bypass the installed file system and retrieve the data directly from the cache. Normally, file I/O requests will invoke the appropriate file system to retrieve data from a file, but this path permits data to be retrieved from the cache directly (without file system involvement) if the data is in the cache. Even if the data is not in the cache, one invocation of the file system is avoided. If the data is not in the cache, the request (application program call) will not wait until the data has been retrieved from disk, but will get control immediately. 199. 131 200. Fast Read Resource Misses/sec is the frequency of cache misses necessitated by the lack of available resources to satisfy the request. 201. 133 202. Fast Read Not Possibles/sec is the frequency of attempts by an Application Program Interface (API) function call to bypass the file system to get to data in the file system cache that could not be honored without invoking the file system. 203. 135 204. Lazy Write Flushes/sec is the rate at which the Lazy Writer thread has written to disk. Lazy Writing is the process of updating the disk after the page has been changed in memory, so that the application that changed the file does not have to wait for the disk write to be complete before proceeding. More than one page can be transferred by each write operation. 205. 137 206. Lazy Write Pages/sec is the rate at which the Lazy Writer thread has written to disk. Lazy Writing is the process of updating the disk after the page has been changed in memory, so that the application that changed the file does not have to wait for the disk write to be complete before proceeding. More than one page can be transferred on a single disk write operation. 207. 139 208. Data Flushes/sec is the rate at which the file system cache has flushed its contents to disk as the result of a request to flush or to satisfy a write-through file write request. More than one page can be transferred on each flush operation. 209. 141 210. Data Flush Pages/sec is the number of pages the file system cache has flushed to disk as a result of a request to flush or to satisfy a write-through file write request. More than one page can be transferred on each flush operation. 211. 143 212. % User Time is the percentage of elapsed time the processor spends in the user mode. User mode is a restricted processing mode designed for applications, environment subsystems, and integral subsystems. The alternative, privileged mode, is designed for operating system components and allows direct access to hardware and all memory. The operating system switches application threads to privileged mode to access operating system services. This counter displays the average busy time as a percentage of the sample time. 213. 145 214. % Privileged Time is the percentage of elapsed time that the process threads spent executing code in privileged mode. When a Windows system service in called, the service will often run in privileged mode to gain access to system-private data. Such data is protected from access by threads executing in user mode. Calls to the system can be explicit or implicit, such as page faults or interrupts. Unlike some early operating systems, Windows uses process boundaries for subsystem protection in addition to the traditional protection of user and privileged modes. Some work done by Windows on behalf of the application might appear in other subsystem processes in addition to the privileged time in the process. 215. 147 216. Context Switches/sec is the combined rate at which all processors on the computer are switched from one thread to another. Context switches occur when a running thread voluntarily relinquishes the processor, is preempted by a higher priority ready thread, or switches between user-mode and privileged (kernel) mode to use an Executive or subsystem service. It is the sum of Thread\\Context Switches/sec for all threads running on all processors in the computer and is measured in numbers of switches. There are context switch counters on the System and Thread objects. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 217. 149 218. Interrupts/sec is the average rate, in incidents per second, at which the processor received and serviced hardware interrupts. It does not include deferred procedure calls (DPCs), which are counted separately. This value is an indirect indicator of the activity of devices that generate interrupts, such as the system clock, the mouse, disk drivers, data communication lines, network interface cards, and other peripheral devices. These devices normally interrupt the processor when they have completed a task or require attention. Normal thread execution is suspended. The system clock typically interrupts the processor every 10 milliseconds, creating a background of interrupt activity. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 219. 151 220. System Calls/sec is the combined rate of calls to operating system service routines by all processes running on the computer. These routines perform all of the basic scheduling and synchronization of activities on the computer, and provide access to non-graphic devices, memory management, and name space management. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 221. 153 222. Level 1 TLB Fills/sec is the frequency of faults that occur when reference is made to memory whose Page Table Entry (PTE) is not in the Translation Lookaside Buffer (TLB). On some computers this fault is handled by software loading the PTE into the TLB, and this counter is incremented. 223. 155 224. Level 2 TLB Fills/sec is the frequency of faults that occur when reference is made to memory whose Page Table Entry (PTE) is not in the Translation Lookaside Buffer (TLB), nor is the page containing the PTE. On some computers this fault is handled by software loading the PTE into the TLB, and this counter is incremented. 225. 157 226. % User Time is the percentage of elapsed time that the process threads spent executing code in user mode. Applications, environment subsystems, and integral subsystems execute in user mode. Code executing in user mode cannot damage the integrity of the Windows executive, kernel, and device drivers. Unlike some early operating systems, Windows uses process boundaries for subsystem protection in addition to the traditional protection of user and privileged modes. Some work done by Windows on behalf of the application might appear in other subsystem processes in addition to the privileged time in the process. 227. 159 228. % Privileged Time is the percentage of elapsed time that the process threads spent executing code in privileged mode. When a Windows system service is called, the service will often run in privileged mode to gain access to system-private data. Such data is protected from access by threads executing in user mode. Calls to the system can be explicit or implicit, such as page faults or interrupts. Unlike some early operating systems, Windows uses process boundaries for subsystem protection in addition to the traditional protection of user and privileged modes. Some work done by Windows on behalf of the application might appear in other subsystem processes in addition to the privileged time in the process. 229. 161 230. Enumerations Server/sec is the rate at which server browse requests have been processed by this workstation. 231. 163 232. Enumerations Domain/sec is the rate at which domain browse requests have been processed by this workstation. 233. 165 234. Enumerations Other/sec is the rate at which browse requests processed by this workstation are not domain or server browse requests. 235. 167 236. Missed Server Announcements is the number of server announcements that have been missed due to configuration or allocation limits. 237. 169 238. Missed Mailslot Datagrams is the number of Mailslot Datagrams that have been discarded due to configuration or allocation limits. 239. 171 240. Missed Server List Requests is the number of requests to retrieve a list of browser servers that were received by this workstation, but could not be processed. 241. 173 242. Virtual Bytes Peak is the maximum size, in bytes, of virtual address space the process has used at any one time. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. However, virtual space is finite, and the process might limit its ability to load libraries. 243. 175 244. Virtual Bytes is the current size, in bytes, of the virtual address space the process is using. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite, and the process can limit its ability to load libraries. 245. 177 246. Page Faults/sec is the rate at which page faults by the threads executing in this process are occurring. A page fault occurs when a thread refers to a virtual memory page that is not in its working set in main memory. This may not cause the page to be fetched from disk if it is on the standby list and hence already in main memory, or if it is in use by another process with whom the page is shared. 247. 179 248. Working Set Peak is the maximum size, in bytes, of the Working Set of this process at any point in time. The Working Set is the set of memory pages touched recently by the threads in the process. If free memory in the computer is above a threshold, pages are left in the Working Set of a process even if they are not in use. When free memory falls below a threshold, pages are trimmed from Working Sets. If they are needed they will then be soft-faulted back into the Working Set before they leave main memory. 249. 181 250. Working Set is the current size, in bytes, of the Working Set of this process. The Working Set is the set of memory pages touched recently by the threads in the process. If free memory in the computer is above a threshold, pages are left in the Working Set of a process even if they are not in use. When free memory falls below a threshold, pages are trimmed from Working Sets. If they are needed they will then be soft-faulted back into the Working Set before leaving main memory. 251. 183 252. Page File Bytes Peak is the maximum amount of virtual memory, in bytes, that this process has reserved for use in the paging file(s). Paging files are used to store pages of memory used by the process that are not contained in other files. Paging files are shared by all processes, and the lack of space in paging files can prevent other processes from allocating memory. If there is no paging file, this counter reflects the maximum amount of virtual memory that the process has reserved for use in physical memory. 253. 185 254. Page File Bytes is the current amount of virtual memory, in bytes, that this process has reserved for use in the paging file(s). Paging files are used to store pages of memory used by the process that are not contained in other files. Paging files are shared by all processes, and the lack of space in paging files can prevent other processes from allocating memory. If there is no paging file, this counter reflects the current amount of virtual memory that the process has reserved for use in physical memory. 255. 187 256. Private Bytes is the current size, in bytes, of memory that this process has allocated that cannot be shared with other processes. 257. 189 258. % Processor Time is the percentage of elapsed time that all of process threads used the processor to execution instructions. An instruction is the basic unit of execution in a computer, a thread is the object that executes instructions, and a process is the object created when a program is run. Code executed to handle some hardware interrupts and trap conditions are included in this count. 259. 191 260. % Processor Time is the percentage of elapsed time that all of process threads used the processor to execution instructions. An instruction is the basic unit of execution in a computer, a thread is the object that executes instructions, and a process is the object created when a program is run. Code executed to handle some hardware interrupts and trap conditions are included in this count. 261. 193 262. % User Time is the percentage of elapsed time that this thread has spent executing code in user mode. Applications, environment subsystems, and integral subsystems execute in user mode. Code executing in user mode cannot damage the integrity of the Windows NT Executive, Kernel, and device drivers. Unlike some early operating systems, Windows NT uses process boundaries for subsystem protection in addition to the traditional protection of user and privileged modes. These subsystem processes provide additional protection. Therefore, some work done by Windows NT on behalf of your application might appear in other subsystem processes in addition to the privileged time in your process. 263. 195 264. % Privileged Time is the percentage of elapsed time that the process threads spent executing code in privileged mode. When a Windows system service in called, the service will often run in privileged mode to gain access to system-private data. Such data is protected from access by threads executing in user mode. Calls to the system can be explicit or implicit, such as page faults or interrupts. Unlike some early operating systems, Windows uses process boundaries for subsystem protection in addition to the traditional protection of user and privileged modes. Some work done by Windows on behalf of the application might appear in other subsystem processes in addition to the privileged time in the process. 265. 197 266. Context Switches/sec is the rate of switches from one thread to another. Thread switches can occur either inside of a single process or across processes. A thread switch can be caused either by one thread asking another for information, or by a thread being preempted by another, higher priority thread becoming ready to run. Unlike some early operating systems, Windows NT uses process boundaries for subsystem protection in addition to the traditional protection of user and privileged modes. These subsystem processes provide additional protection. Therefore, some work done by Windows NT on behalf of an application appear in other subsystem processes in addition to the privileged time in the application. Switching to the subsystem process causes one Context Switch in the application thread. Switching back causes another Context Switch in the subsystem thread. 267. 199 268. Current Disk Queue Length is the number of requests outstanding on the disk at the time the performance data is collected. It also includes requests in service at the time of the collection. This is a instantaneous snapshot, not an average over the time interval. Multi-spindle disk devices can have multiple requests that are active at one time, but other concurrent requests are awaiting service. This counter might reflect a transitory high or low queue length, but if there is a sustained load on the disk drive, it is likely that this will be consistently high. Requests experience delays proportional to the length of this queue minus the number of spindles on the disks. For good performance, this difference should average less than two. 269. 201 270. % Disk Time is the percentage of elapsed time that the selected disk drive was busy servicing read or write requests. 271. 203 272. % Disk Read Time is the percentage of elapsed time that the selected disk drive was busy servicing read requests. 273. 205 274. % Disk Write Time is the percentage of elapsed time that the selected disk drive was busy servicing write requests. 275. 207 276. Avg. Disk sec/Transfer is the time, in seconds, of the average disk transfer. 277. 209 278. Avg. Disk sec/Read is the average time, in seconds, of a read of data from the disk. 279. 211 280. Avg. Disk sec/Write is the average time, in seconds, of a write of data to the disk. 281. 213 282. Disk Transfers/sec is the rate of read and write operations on the disk. 283. 215 284. Disk Reads/sec is the rate of read operations on the disk. 285. 217 286. Disk Writes/sec is the rate of write operations on the disk. 287. 219 288. Disk Bytes/sec is the rate bytes are transferred to or from the disk during write or read operations. 289. 221 290. Disk Read Bytes/sec is the rate at which bytes are transferred from the disk during read operations. 291. 223 292. Disk Write Bytes/sec is rate at which bytes are transferred to the disk during write operations. 293. 225 294. Avg. Disk Bytes/Transfer is the average number of bytes transferred to or from the disk during write or read operations. 295. 227 296. Avg. Disk Bytes/Read is the average number of bytes transferred from the disk during read operations. 297. 229 298. Avg. Disk Bytes/Write is the average number of bytes transferred to the disk during write operations. 299. 231 300. The Process performance object consists of counters that monitor running application program and system processes. All the threads in a process share the same address space and have access to the same data. 301. 233 302. The Thread performance object consists of counters that measure aspects of thread behavior. A thread is the basic object that executes instructions on a processor. All running processes have at least one thread. 303. 235 304. The Physical Disk performance object consists of counters that monitor hard or fixed disk drive on a computer. Disks are used to store file, program, and paging data and are read to retrieve these items, and written to record changes to them. The values of physical disk counters are sums of the values of the logical disks (or partitions) into which they are divided. 305. 237 306. The Logical Disk performance object consists of counters that monitor logical partitions of a hard or fixed disk drives. Performance Monitor identifies logical disks by their a drive letter, such as C. 307. 239 308. The Processor performance object consists of counters that measure aspects of processor activity The processor is the part of the computer that performs arithmetic and logical computations, initiates operations on peripherals, and runs the threads of processes. A computer can have multiple processors. The processor object represents each processor as an instance of the object. 309. 241 310. % Total Processor Time is the average percentage of time that all processors on the computer are executing non-idle threads. This counter was designed as the primary indicator of processor activity on multiprocessor computers. It is equal to the sum of Process: % Processor Time for all processors, divided by the number of processors. It is calculated by summing the time that all processors spend executing the thread of the Idle process in each sample interval, subtracting that value from 100%, and dividing the difference by the number of processors on the computer. (Each processor has an Idle thread which consumes cycles when no other threads are ready to run). For example, on a multiprocessor computer, a value of 50% means that all processors are busy for half of the sample interval, or that half of the processors are busy for all of the sample interval. This counter displays the average percentage of busy time observed during the sample interval. It is calculated by monitoring the time the service was inactive, and then subtracting that value from 100%. 311. 243 312. % Total User Time is the average percentage of non-idle time all processors spend in user mode. It is the sum of Processor: % User Time for all processors on the computer, divided by the number of processors. System: % Total User Time and System: % Total Privileged Time sum to % Total Processor Time, but not always to 100%. (User mode is a restricted processing mode designed for applications, environment subsystems, and integral subsystems. The alternative, privileged mode, is designed for operating system components and allows direct access to hardware and all memory. The operating system switches application threads to privileged mode to access operating system services). This counter displays the average busy time as a percentage of the sample time. 313. 245 314. % Total Privileged Time is the average percentage of non-idle time all processors spend in privileged (kernel) mode. It is the sum of Processor: % Privileged Time for all processors on the computer, divided by the number of processors. System: % Total User Time and System: % Total Privileged Time sum to % Total Processor Time, but not always to 100%. (Privileged mode is an processing mode designed for operating system components which allows direct access to hardware and all memory. The operating system switches application threads to privileged mode to access operating system services. The alternative, user mode, is a restricted processing mode designed for applications and environment subsystems). This counter displays the average busy time as a percentage of the sample time. 315. 247 316. Total Interrupts/sec is the combined rate of hardware interrupts received and serviced by all processors on the computer It is the sum of Processor: Interrupts/sec for all processors, and divided by the number of processors, and is measured in numbers of interrupts. It does not include DPCs, which are counted separately. This value is an indirect indicator of the activity of devices that generate interrupts, such as the system timer, the mouse, disk drivers, data communication lines, network interface cards and other peripheral devices. These devices normally interrupt the processor when they have completed a task or require attention. Normal thread execution is suspended during interrupts. Most system clocks interrupt the processor every 10 milliseconds, creating a background of interrupt activity. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 317. 249 318. Processes is the number of processes in the computer at the time of data collection. This is an instantaneous count, not an average over the time interval. Each process represents the running of a program. 319. 251 320. Threads is the number of threads in the computer at the time of data collection. This is an instantaneous count, not an average over the time interval. A thread is the basic executable entity that can execute instructions in a processor. 321. 253 322. Events is the number of events in the computer at the time of data collection. This is an instantaneous count, not an average over the time interval. An event is used when two or more threads try to synchronize execution. 323. 255 324. Semaphores is the number of semaphores in the computer at the time of data collection. This is an instantaneous count, not an average over the time interval. Threads use semaphores to obtain exclusive access to data structures that they share with other threads. 325. 257 326. Mutexes counts the number of mutexes in the computer at the time of data collection. This is an instantaneous count, not an average over the time interval. Mutexes are used by threads to assure only one thread is executing a particular section of code. 327. 259 328. Sections is the number of sections in the computer at the time of data collection. This is an instantaneous count, not an average over the time interval. A section is a portion of virtual memory created by a process for storing data. A process can share sections with other processes. 329. 261 330. The Object performance object consists of counters that monitor logical objects in the system, such as processes, threads, mutexes, and semaphores. This information can be used to detect the unnecessary consumption of computer resources. Each object requires memory to store basic information about the object. 331. 263 332. The Redirector performance object consists of counter that monitor network connections originating at the local computer. 333. 265 334. Bytes Received/sec is the rate of bytes coming in to the Redirector from the network. It includes all application data as well as network protocol information (such as packet headers). 335. 267 336. Packets Received/sec is the rate at which the Redirector is receiving packets (also called SMBs or Server Message Blocks). Network transmissions are divided into packets. The average number of bytes received in a packet can be obtained by dividing Bytes Received/sec by this counter. Some packets received might not contain incoming data (for example an acknowledgment to a write made by the Redirector would count as an incoming packet). 337. 269 338. Read Bytes Paging/sec is the rate at which the Redirector is attempting to read bytes in response to page faults. Page faults are caused by loading of modules (such as programs and libraries), by a miss in the Cache (see Read Bytes Cache/sec), or by files directly mapped into the address space of applications (a high-performance feature of Windows NT). 339. 271 340. Read Bytes Non-Paging/sec are those bytes read by the Redirector in response to normal file requests by an application when they are redirected to come from another computer. In addition to file requests, this counter includes other methods of reading across the network such as Named Pipes and Transactions. This counter does not count network protocol information, just application data. 341. 273 342. Read Bytes Cache/sec is the rate at which applications are accessing the file system cache by using the Redirector. Some of these data requests are satisfied by retrieving the data from the cache. Requests that miss the Cache cause a page fault (see Read Bytes Paging/sec). 343. 275 344. Read Bytes Network/sec is the rate at which applications are reading data across the network. This occurs when data sought in the file system cache is not found there and must be retrieved from the network. Dividing this value by Bytes Received/sec indicates the proportion of application data traveling across the network. (see Bytes Received/sec). 345. 277 346. Bytes Transmitted/sec is the rate at which bytes are leaving the Redirector to the network. It includes all application data as well as network protocol information (such as packet headers and the like). 347. 279 348. Packets Transmitted/sec is the rate at which the Redirector is sending packets (also called SMBs or Server Message Blocks). Network transmissions are divided into packets. The average number of bytes transmitted in a packet can be obtained by dividing Bytes Transmitted/sec by this counter. 349. 281 350. Write Bytes Paging/sec is the rate at which the Redirector is attempting to write bytes changed in the pages being used by applications. The program data changed by modules (such as programs and libraries) that were loaded over the network are 'paged out' when no longer needed. Other output pages come from the file system cache (see Write Bytes Cache/sec). 351. 283 352. Write Bytes Non-Paging/sec is the rate at which bytes are written by the Redirector in response to normal file outputs by an application when they are redirected to another computer. In addition to file requests, this count includes other methods of writing across the network, such as Named Pipes and Transactions. This counter does not count network protocol information, just application data. 353. 285 354. Write Bytes Cache/sec is the rate at which applications on your computer are writing to the file system cache by using the Redirector. The data might not leave your computer immediately; it can be retained in the cache for further modification before being written to the network. This saves network traffic. Each write of a byte into the cache is counted here. 355. 287 356. Write Bytes Network/sec is the rate at which applications are writing data across the network. This occurs when the file system cache is bypassed, such as for Named Pipes or Transactions, or when the cache writes the bytes to disk to make room for other data. Dividing this counter by Bytes Transmitted/sec will indicate the proportion of application data being to the network (see Transmitted Bytes/sec). 357. 289 358. File Read Operations/sec is the rate at which applications are asking the Redirector for data. Each call to a file system or similar Application Program Interface (API) call counts as one operation. 359. 291 360. Read Operations Random/sec counts the rate at which, on a file-by-file basis, reads are made that are not sequential. If a read is made using a particular file handle, and then is followed by another read that is not immediately the contiguous next byte, this counter is incremented by one. 361. 293 362. Read Packets/sec is the rate at which read packets are being placed on the network. Each time a single packet is sent with a request to read data remotely, this counter is incremented by one. 363. 295 364. Reads Large/sec is the rate at which reads over 2 times the server's negotiated buffer size are made by applications. Too many of these could place a strain on server resources. This counter is incremented once for each read. It does not count packets. 365. 297 366. Read Packets Small/sec is the rate at which reads less than one-fourth of the server's negotiated buffer size are made by applications. Too many of these could indicate a waste of buffers on the server. This counter is incremented once for each read. It does not count packets. 367. 299 368. File Write Operations/sec is the rate at which applications are sending data to the Redirector. Each call to a file system or similar Application Program Interface (API) call counts as one operation. 369. 301 370. Write Operations Random/sec is the rate at which, on a file-by-file basis, writes are made that are not sequential. If a write is made using a particular file handle, and then is followed by another write that is not immediately the next contiguous byte, this counter is incremented by one. 371. 303 372. Write Packets/sec is the rate at which writes are being sent to the network. Each time a single packet is sent with a request to write remote data, this counter is incremented by one. 373. 305 374. Writes Large/sec is the rate at which writes are made by applications that are over 2 times the server's negotiated buffer size. Too many of these could place a strain on server resources. This counter is incremented once for each write: it counts writes, not packets. 375. 307 376. Write Packets Small/sec is the rate at which writes are made by applications that are less than one-fourth of the server's negotiated buffer size. Too many of these could indicate a waste of buffers on the server. This counter is incremented once for each write: it counts writes, not packets. 377. 309 378. Reads Denied/sec is the rate at which the server is unable to accommodate requests for Raw Reads. When a read is much larger than the server's negotiated buffer size, the Redirector requests a Raw Read which, if granted, would permit the transfer of the data without lots of protocol overhead on each packet. To accomplish this the server must lock out other requests, so the request is denied if the server is really busy. 379. 311 380. Writes Denied/sec is the rate at which the server is unable to accommodate requests for Raw Writes. When a write is much larger than the server's negotiated buffer size, the Redirector requests a Raw Write which, if granted, would permit the transfer of the data without lots of protocol overhead on each packet. To accomplish this the server must lock out other requests, so the request is denied if the server is really busy. 381. 313 382. Network Errors/sec is the rate at which serious unexpected errors are occurring. Such errors generally indicate that the Redirector and one or more Servers are having serious communication difficulties. For example an SMB (Server Manager Block) protocol error is a Network Error. An entry is written to the System Event Log and provide details. 383. 315 384. Server Sessions counts the total number of security objects the Redirector has managed. For example, a logon to a server followed by a network access to the same server will establish one connection, but two sessions. 385. 317 386. Server Reconnects counts the number of times your Redirector has had to reconnect to a server in order to complete a new active request. You can be disconnected by the Server if you remain inactive for too long. Locally even if all your remote files are closed, the Redirector will keep your connections intact for (nominally) ten minutes. Such inactive connections are called Dormant Connections. Reconnecting is expensive in time. 387. 319 388. Connects Core counts the number of connections you have to servers running the original MS-Net SMB protocol, including MS-Net itself and Xenix and VAX's. 389. 321 390. Connects LAN Manager 2.0 counts connections to LAN Manager 2.0 servers, including LMX servers. 391. 323 392. Connects LAN Manager 2.1 counts connections to LAN Manager 2.1 servers, including LMX servers. 393. 325 394. Connects Windows NT counts the connections to Windows 2000 or earlier computers. 395. 327 396. Server Disconnects counts the number of times a Server has disconnected your Redirector. See also Server Reconnects. 397. 329 398. Server Sessions Hung counts the number of active sessions that are timed out and unable to proceed due to a lack of response from the remote server. 399. 331 400. The Server performance object consists of counters that measure communication between the local computer and the network. 401. 333 402. The number of bytes the server has received from the network. Indicates how busy the server is. 403. 335 404. The number of bytes the server has sent on the network. Indicates how busy the server is. 405. 337 406. Thread Wait Reason is only applicable when the thread is in the Wait state (see Thread State). It is 0 or 7 when the thread is waiting for the Executive, 1 or 8 for a Free Page, 2 or 9 for a Page In, 3 or 10 for a Pool Allocation, 4 or 11 for an Execution Delay, 5 or 12 for a Suspended condition, 6 or 13 for a User Request, 14 for an Event Pair High, 15 for an Event Pair Low, 16 for an LPC Receive, 17 for an LPC Reply, 18 for Virtual Memory, 19 for a Page Out; 20 and higher are not assigned at the time of this writing. Event Pairs are used to communicate with protected subsystems (see Context Switches). 407. 339 408. % DPC Time is the percentage of time that the processor spent receiving and servicing deferred procedure calls (DPCs) during the sample interval. DPCs are interrupts that run at a lower priority than standard interrupts. % DPC Time is a component of % Privileged Time because DPCs are executed in privileged mode. They are counted separately and are not a component of the interrupt counters. This counter displays the average busy time as a percentage of the sample time. 409. 341 410. The number of sessions that have been closed due to their idle time exceeding the AutoDisconnect parameter for the server. Shows whether the AutoDisconnect setting is helping to conserve resources. 411. 343 412. The number of sessions that have been closed due to unexpected error conditions or sessions that have reached the autodisconnect timeout and have been disconnected normally. 413. 345 414. The number of sessions that have terminated normally. Useful in interpreting the Sessions Times Out and Sessions Errored Out statistics--allows percentage calculations. 415. 347 416. The number of sessions that have been forced to logoff. Can indicate how many sessions were forced to logoff due to logon time constraints. 417. 349 418. The number of failed logon attempts to the server. Can indicate whether password guessing programs are being used to crack the security on the server. 419. 351 420. The number of times opens on behalf of clients have failed with STATUS_ACCESS_DENIED. Can indicate whether somebody is randomly attempting to access files in hopes of getting at something that was not properly protected. 421. 353 422. The number of times accesses to files opened successfully were denied. Can indicate attempts to access files without proper access authorization. 423. 355 424. The number of times an internal Server Error was detected. Unexpected errors usually indicate a problem with the Server. 425. 357 426. The number of times the server has rejected blocking SMBs due to insufficient count of free work items. Indicates whether the MaxWorkItem or MinFreeWorkItems server parameters might need to be adjusted. 427. 359 428. The number of times STATUS_DATA_NOT_ACCEPTED was returned at receive indication time. This occurs when no work item is available or can be allocated to service the incoming request. Indicates whether the InitWorkItems or MaxWorkItems parameters might need to be adjusted. 429. 361 430. The number of successful open attempts performed by the server of behalf of clients. Useful in determining the amount of file I/O, determining overhead for path-based operations, and for determining the effectiveness of open locks. 431. 363 432. The number of files currently opened in the server. Indicates current server activity. 433. 365 434. The number of sessions currently active in the server. Indicates current server activity. 435. 367 436. The number of searches for files currently active in the server. Indicates current server activity. 437. 369 438. The number of bytes of non-pageable computer memory the server is using. This value is useful for determining the values of the MaxNonpagedMemoryUsage value entry in the Windows NT Registry. 439. 371 440. The number of times allocations from nonpaged pool have failed. Indicates that the computer's physical memory is too small. 441. 373 442. The maximum number of bytes of nonpaged pool the server has had in use at any one point. Indicates how much physical memory the computer should have. 443. 375 444. The number of bytes of pageable computer memory the server is currently using. Can help in determining good values for the MaxPagedMemoryUsage parameter. 445. 377 446. The number of times allocations from paged pool have failed. Indicates that the computer's physical memory or paging file are too small. 447. 379 448. The maximum number of bytes of paged pool the server has had allocated. Indicates the proper sizes of the Page File(s) and physical memory. 449. 381 450. Server Announce Allocations Failed/sec is the rate at which server (or domain) announcements have failed due to lack of memory. 451. 383 452. Mailslot Allocations Failed is the number of times the datagram receiver has failed to allocate a buffer to hold a user mailslot write. 453. 385 454. Mailslot Receives Failed indicates the number of mailslot messages that could not be received due to transport failures. 455. 387 456. Mailslot Writes Failed is the total number of mailslot messages that have been successfully received, but that could not be written to the mailslot. 457. 389 458. Bytes Total/sec is the rate the Redirector is processing data bytes. This includes all application and file data in addition to protocol information such as packet headers. 459. 391 460. File Data Operations/sec is the rate at which the Redirector is processing data operations. One operation should include many bytes, since each operation has overhead. The efficiency of this path can be determined by dividing the Bytes/sec by this counter to obtain the average number of bytes transferred per operation. 461. 393 462. Current Commands counter indicates the number of pending commands from the local computer to all destination servers. If the Current Commands counter shows a high number and the local computer is idle, this may indicate a network-related problem or a redirector bottleneck on the local computer. 463. 395 464. The number of bytes the server has sent to and received from the network. This value provides an overall indication of how busy the server is. 465. 397 466. % Interrupt Time is the time the processor spends receiving and servicing hardware interrupts during sample intervals. This value is an indirect indicator of the activity of devices that generate interrupts, such as the system clock, the mouse, disk drivers, data communication lines, network interface cards and other peripheral devices. These devices normally interrupt the processor when they have completed a task or require attention. Normal thread execution is suspended during interrupts. Most system clocks interrupt the processor every 10 milliseconds, creating a background of interrupt activity. suspends normal thread execution during interrupts. This counter displays the average busy time as a percentage of the sample time. 467. 399 468. The NWLink NetBIOS performance object consists of counters that monitor IPX transport rates and connections. 469. 401 470. Packets/sec is the rate the Redirector is processing data packets. One packet includes (hopefully) many bytes. We say hopefully here because each packet has protocol overhead. You can determine the efficiency of this path by dividing the Bytes/sec by this counter to determine the average number of bytes transferred/packet. You can also divide this counter by Operations/sec to determine the average number of packets per operation, another measure of efficiency. 471. 405 472. Context Blocks Queued per second is the rate at which work context blocks had to be placed on the server's FSP queue to await server action. 473. 407 474. File Data Operations/ sec is the combined rate of read and write operations on all logical disks on the computer. This is the inverse of System: File Control Operations/sec. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 475. 409 476. % Free Space is the percentage of total usable space on the selected logical disk drive that was free. 477. 411 478. Free Megabytes displays the unallocated space, in megabytes, on the disk drive in megabytes. One megabyte is equal to 1,048,576 bytes. 479. 413 480. Connections Open is the number of connections currently open for this protocol. This counter shows the current count only and does not accumulate over time. 481. 415 482. Connections No Retries is the total count of connections that were successfully made on the first try. This number is an accumulator and shows a running total. 483. 417 484. Connections With Retries is the total count of connections that were made after retrying the attempt. A retry occurs when the first connection attempt failed. This number is an accumulator and shows a running total. 485. 419 486. Disconnects Local is the number of session disconnections that were initiated by the local computer. This number is an accumulator and shows a running total. 487. 421 488. Disconnects Remote is the number of session disconnections that were initiated by the remote computer. This number is an accumulator and shows a running total. 489. 423 490. Failures Link is the number of connections that were dropped due to a link failure. This number is an accumulator and shows a running total. 491. 425 492. Failures Adapter is the number of connections that were dropped due to an adapter failure. This number is an accumulator and shows a running total. 493. 427 494. Connection Session Timeouts is the number of connections that were dropped due to a session timeout. This number is an accumulator and shows a running total. 495. 429 496. Connections Canceled is the number of connections that were canceled. This number is an accumulator and shows a running total. 497. 431 498. Failures Resource Remote is the number of connections that failed because of resource problems or shortages on the remote computer. This number is an accumulator and shows a running total. 499. 433 500. Failures Resource Local is the number of connections that failed because of resource problems or shortages on the local computer. This number is an accumulator and shows a running total. 501. 435 502. Failures Not Found is the number of connection attempts that failed because the remote computer could not be found. This number is an accumulator and shows a running total. 503. 437 504. Failures No Listen is the number of connections that were rejected because the remote computer was not listening for connection requests. 505. 439 506. Datagrams/sec is the rate at which datagrams are processed by the computer. This counter displays the sum of datagrams sent and datagrams received. A datagram is a connectionless packet whose delivery to a remote is not guaranteed. 507. 441 508. Datagram Bytes/sec is the rate at which datagram bytes are processed by the computer. This counter is the sum of datagram bytes that are sent as well as received. A datagram is a connectionless packet whose delivery to a remote is not guaranteed. 509. 443 510. Datagrams Sent/sec is the rate at which datagrams are sent from the computer. A datagram is a connectionless packet whose delivery to a remote computer is not guaranteed. 511. 445 512. Datagram Bytes Sent/sec is the rate at which datagram bytes are sent from the computer. A datagram is a connectionless packet whose delivery to a remote computer is not guaranteed. 513. 447 514. Datagrams Received/sec is the rate at which datagrams are received by the computer. A datagram is a connectionless packet whose delivery to a remote computer is not guaranteed. 515. 449 516. Datagram Bytes Received/sec is the rate at which datagram bytes are received by the computer. A datagram is a connectionless packet whose delivery to a remote computer is not guaranteed. 517. 451 518. Packets/sec is the rate at which packets are processed by the computer. This count is the sum of Packets Sent and Packets Received per second. This counter includes all packets processed: control as well as data packets. 519. 453 520. Packets Sent/sec is the rate at which packets are sent by the computer. This counter counts all packets sent by the computer, i.e. control as well as data packets. 521. 455 522. Packets Received/sec is the rate at which packets are received by the computer. This counter counts all packets processed: control as well as data packets. 523. 457 524. Frames/sec is the rate at which data frames (or packets) are processed by the computer. This counter is the sum of data frames sent and data frames received. This counter only counts those frames (packets) that carry data. 525. 459 526. Frame Bytes/sec is the rate at which data bytes are processed by the computer. This counter is the sum of data frame bytes sent and received. This counter only counts the byte in frames (packets) that carry data. 527. 461 528. Frames Sent/sec is the rate at which data frames are sent by the computer. This counter only counts the frames (packets) that carry data. 529. 463 530. Frame Bytes Sent/sec is the rate at which data bytes are sent by the computer. This counter only counts the bytes in frames (packets) that carry data. 531. 465 532. Frames Received/sec is the rate at which data frames are received by the computer. This counter only counts the frames (packets) that carry data. 533. 467 534. Frame Bytes Received/sec is the rate at which data bytes are received by the computer. This counter only counts the frames (packets) that carry data. 535. 469 536. Frames Re-Sent/sec is the rate at which data frames (packets) are re-sent by the computer. This counter only counts the frames or packets that carry data. 537. 471 538. Frame Bytes Re-Sent/sec is the rate at which data bytes are re-sent by the computer. This counter only counts the bytes in frames that carry data. 539. 473 540. Frames Rejected/sec is the rate at which data frames are rejected. This counter only counts the frames (packets) that carry data. 541. 475 542. Frame Bytes Rejected/sec is the rate at which data bytes are rejected. This counter only counts the bytes in data frames (packets) that carry data. 543. 477 544. Expirations Response is the count of T1 timer expirations. 545. 479 546. Expirations Ack is the count of T2 timer expirations. 547. 481 548. Window Send Maximum is the maximum number of bytes of data that will be sent before waiting for an acknowledgment from the remote computer. 549. 483 550. Window Send Average is the running average number of data bytes that were sent before waiting for an acknowledgment from the remote computer. 551. 485 552. Piggyback Ack Queued/sec is the rate at which piggybacked acknowledgments are queued. Piggyback acknowledgments are acknowledgments to received packets that are to be included in the next outgoing packet to the remote computer. 553. 487 554. Piggyback Ack Timeouts is the number of times that a piggyback acknowledgment could not be sent because there was no outgoing packet to the remote on which to piggyback. A piggyback ack is an acknowledgment to a received packet that is sent along in an outgoing data packet to the remote computer. If no outgoing packet is sent within the timeout period, then an ack packet is sent and this counter is incremented. 555. 489 556. The NWLink IPX performance object consists of counters that measure datagram transmission to and from computers using the IPX protocol. 557. 491 558. The NWLink SPX performance object consist of counters that measure data transmission and session connections for computers using the SPX protocol. 559. 493 560. The NetBEUI performance object consists of counters that measure data transmission for network activity which conforms to the NetBIOS End User Interface standard. 561. 495 562. The NetBEUI Resource performance object consists of counters that track the use of buffers by the NetBEUI protocol. 563. 497 564. Used Maximum is the maximum number of NetBEUI resources (buffers) in use at any point in time. This value is useful in sizing the maximum resources provided. The number in parentheses following the resource name is used to identify the resource in Event Log messages. 565. 499 566. Used Average is the current number of resources (buffers) in use at this time. The number in parentheses following the resource name is used to identify the resource in Event Log messages. 567. 501 568. Times Exhausted is the number of times all the resources (buffers) were in use. The number in parentheses following the resource name is used to identify the resource in Event Log messages. 569. 503 570. The NBT Connection performance object consists of counters that measure the rates at which bytes are sent and received over the NBT connection between the local computer and a remote computer. The connection is identified by the name of the remote computer. 571. 505 572. Bytes Received/sec is the rate at which bytes are received by the local computer over an NBT connection to some remote computer. All the bytes received by the local computer over the particular NBT connection are counted. 573. 507 574. Bytes Sent/sec is the rate at which bytes are sent by the local computer over an NBT connection to some remote computer. All the bytes sent by the local computer over the particular NBT connection are counted. 575. 509 576. Bytes Total/sec is the rate at which bytes are sent or received by the local computer over an NBT connection to some remote computer. All the bytes sent or received by the local computer over the particular NBT connection are counted. 577. 511 578. The Network Interface performance object consists of counters that measure the rates at which bytes and packets are sent and received over a TCP/IP network connection. It includes counters that monitor connection errors. 579. 513 580. Bytes Total/sec is the rate at which bytes are sent and received over each network adapter, including framing characters. Network Interface\Bytes Total/sec is a sum of Network Interface\Bytes Received/sec and Network Interface\Bytes Sent/sec. 581. 515 582. Packets/sec is the rate at which packets are sent and received on the network interface. 583. 517 584. Packets Received/sec is the rate at which packets are received on the network interface. 585. 519 586. Packets Sent/sec is the rate at which packets are sent on the network interface. 587. 521 588. Current Bandwidth is an estimate of the current bandwidth of the network interface in bits per second (BPS). For interfaces that do not vary in bandwidth or for those where no accurate estimation can be made, this value is the nominal bandwidth. 589. 523 590. Bytes Received/sec is the rate at which bytes are received over each network adapter, including framing characters. Network Interface\Bytes Received/sec is a subset of Network Interface\Bytes Total/sec. 591. 525 592. Packets Received Unicast/sec is the rate at which (subnet) unicast packets are delivered to a higher-layer protocol. 593. 527 594. Packets Received Non-Unicast/sec is the rate at which non-unicast (subnet broadcast or subnet multicast) packets are delivered to a higher-layer protocol. 595. 529 596. Packets Received Discarded is the number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their delivery to a higher-layer protocol. One possible reason for discarding packets could be to free up buffer space. 597. 531 598. Packets Received Errors is the number of inbound packets that contained errors preventing them from being deliverable to a higher-layer protocol. 599. 533 600. Packets Received Unknown is the number of packets received through the interface that were discarded because of an unknown or unsupported protocol. 601. 535 602. Bytes Sent/sec is the rate at which bytes are sent over each network adapter, including framing characters. Network Interface\Bytes Sent/sec is a subset of Network Interface\Bytes Total/sec. 603. 537 604. Packets Sent Unicast/sec is the rate at which packets are requested to be transmitted to subnet-unicast addresses by higher-level protocols. The rate includes the packets that were discarded or not sent. 605. 539 606. Packets Sent Non-Unicast/sec is the rate at which packets are requested to be transmitted to non-unicast (subnet broadcast or subnet multicast) addresses by higher-level protocols. The rate includes the packets that were discarded or not sent. 607. 541 608. Packets Outbound Discarded is the number of outbound packets that were chosen to be discarded even though no errors had been detected to prevent transmission. One possible reason for discarding packets could be to free up buffer space. 609. 543 610. Packets Outbound Errors is the number of outbound packets that could not be transmitted because of errors. 611. 545 612. Output Queue Length is the length of the output packet queue (in packets). If this is longer than two, there are delays and the bottleneck should be found and eliminated, if possible. Since the requests are queued by the Network Driver Interface Specification (NDIS) in this implementation, this will always be 0. 613. 547 614. The IP performance object consists of counters that measure the rates at which IP datagrams are sent and received by using IP protocols. It also includes counters that monitor IP protocol errors. 615. 549 616. Datagrams/sec is the rate, in incidents per second, at which IP datagrams were received from or sent to the interfaces, including those in error. Forwarded datagrams are not included in this rate. 617. 551 618. Datagrams Received/sec is the rate, in incidents per second, at which IP datagrams are received from the interfaces, including those in error. Datagrams Received/sec is a subset of Datagrams/sec. 619. 553 620. Datagrams Received Header Errors is the number of input datagrams that were discarded due to errors in the IP headers, including bad checksums, version number mismatch, other format errors, time-to-live exceeded, errors discovered in processing their IP options, etc. 621. 555 622. Datagrams Received Address Errors is the number of input datagrams that were discarded because the IP address in their IP header destination field was not valid for the computer. This count includes invalid addresses (for example, 0.0. 0.0) and addresses of unsupported Classes (for example, Class E). For entities that are not IP gateways and do not forward datagrams, this counter includes datagrams that were discarded because the destination address was not a local address. 623. 557 624. Datagrams Forwarded/sec is the rate, in incidents per second, at which attemps were made to find routes to forward input datagrams their final destination, because the local server was not the final IP destination. In servers that do not act as IP Gateways, this rate includes only packets that were source-routed via this entity, where the source-route option processing was successful. 625. 559 626. Datagrams Received Unknown Protocol is the number of locally-addressed datagrams that were successfully received but were discarded because of an unknown or unsupported protocol. 627. 561 628. Datagrams Received Discarded is the number of input IP datagrams that were discarded even though problems prevented their continued processing (for example, lack of buffer space). This counter does not include any datagrams discarded while awaiting re-assembly. 629. 563 630. Datagrams Received Delivered/sec is the rate, in incidents per second, at which input datagrams were successfully delivered to IP user-protocols, including Internet Control Message Protocol (ICMP). 631. 565 632. Datagrams Sent/sec is the rate, in incidents per second, at which IP datagrams were supplied for transmission by local IP user-protocols (including ICMP). This counter does not include any datagrams counted in Datagrams Forwarded/sec. Datagrams Sent/sec is a subset of Datagrams/sec. 633. 567 634. Datagrams Outbound Discarded is the number of output IP datagrams that were discarded even though no problems were encountered to prevent their transmission to their destination (for example, lack of buffer space). This counter includes datagrams counted in Datagrams Forwarded/sec that meet this criterion. 635. 569 636. Datagrams Outbound No Route is the number of IP datagrams that were discarded because no route could be found to transmit them to their destination. This counter includes any packets counted in Datagrams Forwarded/sec that meet this `no route' criterion. 637. 571 638. Fragments Received/sec is the rate, in incidents per second, at which IP fragments that need to be reassembled at this entity are received. 639. 573 640. Fragments Re-assembled/sec is the rate, in incidents per second, at which IP fragments were successfully reassembled. 641. 575 642. Fragment Re-assembly Failures is the number of failures detected by the IP reassembly algorithm, such as time outs, errors, etc. This is not necessarily a count of discarded IP fragments since some algorithms (notably RFC 815) lose track of the number of fragments by combining them as they are received. 643. 577 644. Fragmented Datagrams/sec is the rate, in incidents per second, at which datagrams are successfully fragmented. 645. 579 646. Fragmentation Failures is the number of IP datagrams that were discarded because they needed to be fragmented at but could not be (for example, because the `Don't Fragment' flag was set). 647. 581 648. Fragments Created/sec is the rate, in incidents per second, at which IP datagram fragments were generated as a result of fragmentation. 649. 583 650. The ICMP performance object consists of counters that measure the rates at which messages are sent and received by using ICMP protocols. It also includes counters that monitor ICMP protocol errors. 651. 585 652. Messages/sec is the total rate, in incidents per second, at which ICMP messages were sent and received by the entity. The rate includes messages received or sent in error. 653. 587 654. Messages Received/sec is the rate, in incidents per second at which ICMP messages were received. The rate includes messages received in error. 655. 589 656. Messages Received Errors is the number of ICMP messages that the entity received but had errors, such as bad ICMP checksums, bad length, etc. 657. 591 658. Received Destination Unreachable is the number of ICMP Destination Unreachable messages received. 659. 593 660. Received Time Exceeded is the number of ICMP Time Exceeded messages received. 661. 595 662. Received Parameter Problem is the number of ICMP Parameter Problem messages received. 663. 597 664. Received Source Quench is the number of ICMP Source Quench messages received. 665. 599 666. Received Redirect/sec is the rate, in incidents per second, at which ICMP Redirect messages were received. 667. 601 668. Received Echo/sec is the rate, in incidents per second, at which ICMP Echo messages were received. 669. 603 670. Received Echo Reply/sec is the rate, in incidents per second, at which ICMP Echo Reply messages were received. 671. 605 672. Received Timestamp/sec is the rate, in incidents per second at which ICMP Timestamp Request messages were received. 673. 607 674. Received Timestamp Reply/sec is the rate of ICMP Timestamp Reply messages received. 675. 609 676. Received Address Mask is the number of ICMP Address Mask Request messages received. 677. 611 678. Received Address Mask Reply is the number of ICMP Address Mask Reply messages received. 679. 613 680. Messages Sent/sec is the rate, in incidents per second, at which the server attempted to send. The rate includes those messages sent in error. 681. 615 682. Messages Outbound Errors is the number of ICMP messages that were not send due to problems within ICMP, such as lack of buffers. This value does not include errors discovered outside the ICMP layer, such as those recording the failure of IP to route the resultant datagram. In some implementations, none of the error types are included in the value of this counter. 683. 617 684. Sent Destination Unreachable is the number of ICMP Destination Unreachable messages sent. 685. 619 686. Sent Time Exceeded is the number of ICMP Time Exceeded messages sent. 687. 621 688. Sent Parameter Problem is the number of ICMP Parameter Problem messages sent. 689. 623 690. Sent Source Quench is the number of ICMP Source Quench messages sent. 691. 625 692. Sent Redirect/sec is the rate, in incidents per second, at which ICMP Redirect messages were sent. 693. 627 694. Sent Echo/sec is the rate of ICMP Echo messages sent. 695. 629 696. Sent Echo Reply/sec is the rate, in incidents per second, at which ICMP Echo Reply messages were sent. 697. 631 698. Sent Timestamp/sec is the rate, in incidents per second, at which ICMP Timestamp Request messages were sent. 699. 633 700. Sent Timestamp Reply/sec is the rate, in incidents per second, at which ICMP Timestamp Reply messages were sent. 701. 635 702. Sent Address Mask is the number of ICMP Address Mask Request messages sent. 703. 637 704. Sent Address Mask Reply is the number of ICMP Address Mask Reply messages sent. 705. 639 706. The TCP performance object consists of counters that measure the rates at which TCP Segments are sent and received by using the TCP protocol. It includes counters that monitor the number of TCP connections in each TCP connection state. 707. 641 708. Segments/sec is the rate at which TCP segments are sent or received using the TCP protocol. 709. 643 710. Connections Established is the number of TCP connections for which the current state is either ESTABLISHED or CLOSE-WAIT. 711. 645 712. Connections Active is the number of times TCP connections have made a direct transition to the SYN-SENT state from the CLOSED state. In other words, it shows a number of connections which are initiated by the local computer. The value is a cumulative total. 713. 647 714. Connections Passive is the number of times TCP connections have made a direct transition to the SYN-RCVD state from the LISTEN state. In other words, it shows a number of connections to the local computer, which are initiated by remote computers. The value is a cumulative total. 715. 649 716. Connection Failures is the number of times TCP connections have made a direct transition to the CLOSED state from the SYN-SENT state or the SYN-RCVD state, plus the number of times TCP connections have made a direct transition to the LISTEN state from the SYN-RCVD state. 717. 651 718. Connections Reset is the number of times TCP connections have made a direct transition to the CLOSED state from either the ESTABLISHED state or the CLOSE-WAIT state. 719. 653 720. Segments Received/sec is the rate at which segments are received, including those received in error. This count includes segments received on currently established connections. 721. 655 722. Segments Sent/sec is the rate at which segments are sent, including those on current connections, but excluding those containing only retransmitted bytes. 723. 657 724. Segments Retransmitted/sec is the rate at which segments are retransmitted, that is, segments transmitted containing one or more previously transmitted bytes. 725. 659 726. The UDP performance object consists of counters that measure the rates at which UDP datagrams are sent and received by using the UDP protocol. It includes counters that monitor UDP protocol errors. 727. 661 728. Datagrams/sec is the rate at which UDP datagrams are sent or received by the entity. 729. 663 730. Datagrams Received/sec is the rate at which UDP datagrams are delivered to UDP users. 731. 665 732. Datagrams No Port/sec is the rate of received UDP datagrams for which there was no application at the destination port. 733. 667 734. Datagrams Received Errors is the number of received UDP datagrams that could not be delivered for reasons other than the lack of an application at the destination port. 735. 669 736. Datagrams Sent/sec is the rate at which UDP datagrams are sent from the entity. 737. 671 738. Disk Storage device statistics from the foreign computer 739. 673 740. The number of allocation failures reported by the disk storage device 741. 675 742. System Up Time is the elapsed time (in seconds) that the computer has been running since it was last started. This counter displays the difference between the start time and the current time. 743. 677 744. The current number of system handles in use. 745. 679 746. Free System Page Table Entries is the number of page table entries not currently in used by the system. This counter displays the last observed value only; it is not an average. 747. 681 748. The number of threads currently active in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread. 749. 683 750. The current base priority of this process. Threads within a process can raise and lower their own base priority relative to the process' base priority. 751. 685 752. The total elapsed time, in seconds, that this process has been running. 753. 687 754. Alignment Fixups/sec is the rate, in incidents per seconds, at alignment faults were fixed by the system. 755. 689 756. Exception Dispatches/sec is the rate, in incidents per second, at which exceptions were dispatched by the system. 757. 691 758. Floating Emulations/sec is the rate of floating emulations performed by the system. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 759. 693 760. Logon/sec is the rate of all server logons. 761. 695 762. The current dynamic priority of this thread. The system can raise the thread's dynamic priority above the base priority if the thread is handling user input, or lower it towards the base priority if the thread becomes compute bound. 763. 697 764. The current base priority of this thread. The system can raise the thread's dynamic priority above the base priority if the thread is handling user input, or lower it towards the base priority if the thread becomes compute bound. 765. 699 766. The total elapsed time (in seconds) this thread has been running. 767. 701 768. The Paging File performance object consists of counters that monitor the paging file(s) on the computer. The paging file is a reserved space on disk that backs up committed physical memory on the computer. 769. 703 770. The amount of the Page File instance in use in percent. See also Process\\Page File Bytes. 771. 705 772. The peak usage of the Page File instance in percent. See also Process\\Page File Bytes Peak. 773. 707 774. Starting virtual address for this thread. 775. 709 776. Current User Program Counter for this thread. 777. 711 778. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. No Access protection prevents a process from writing to or reading from these pages and will generate an access violation if either is attempted. 779. 713 780. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. Read Only protection prevents the contents of these pages from being modified. Any attempts to write or modify these pages will generate an access violation. 781. 715 782. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. Read/Write protection allows a process to read, modify and write to these pages. 783. 717 784. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. Write Copy protection is used when memory is shared for reading but not for writing. When processes are reading this memory, they can share the same memory, however, when a sharing process wants to have write access to this shared memory, a copy of that memory is made. 785. 719 786. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. Executable memory is memory that can be executed by programs, but cannot be read or written. This type of protection is not supported by all processor types. 787. 721 788. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. Execute/Read Only memory is memory that can be executed as well as read. 789. 723 790. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. Execute/Read/Write memory is memory that can be executed by programs as well as read and modified. 791. 725 792. Mapped Space is virtual memory that has been mapped to a specific virtual address (or range of virtual addresses) in the process' virtual address space. Execute Write Copy is memory that can be executed by programs as well as read and written. This type of protection is used when memory needs to be shared between processes. If the sharing processes only read the memory, then they will all use the same memory. If a sharing process desires write access, then a copy of this memory will be made for that process. 793. 727 794. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. No Access protection prevents a process from writing to or reading from these pages and will generate an access violation if either is attempted. 795. 729 796. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. Read Only protection prevents the contents of these pages from being modified. Any attempts to write or modify these pages will generate an access violation. 797. 731 798. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. Read/Write protection allows a process to read, modify and write to these pages. 799. 733 800. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. Write Copy protection is used when memory is shared for reading but not for writing. When processes are reading this memory, they can share the same memory, however, when a sharing process wants to have read/write access to this shared memory, a copy of that memory is made. 801. 735 802. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. Executable memory is memory that can be executed by programs, but cannot be read or written. This type of protection is not supported by all processor types. 803. 737 804. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. Execute/Read Only memory is memory that can be executed as well as read. 805. 739 806. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. Execute/Read/Write memory is memory that can be executed by programs as well as read and modified. 807. 741 808. The Image performance object consists of counters that monitor the virtual address usage of images executed by processes on the computer. 809. 743 810. Reserved Space is virtual memory that has been reserved for future use by a process, but has not been mapped or committed. Execute Write Copy is memory that can be executed by programs as well as read and written. This type of protection is used when memory needs to be shared between processes. If the sharing processes only read the memory, then they will all use the same memory. If a sharing process desires write access, then a copy of this memory will be made for that process. 811. 745 812. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. No Access protection prevents a process from writing to or reading from these pages and will generate an access violation if either is attempted. 813. 747 814. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. Read Only protection prevents the contents of these pages from being modified. Any attempts to write or modify these pages will generate an access violation. 815. 749 816. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. Read/Write protection allows a process to read, modify and write to these pages. 817. 751 818. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. Write Copy protection is used when memory is shared for reading but not for writing. When processes are reading this memory, they can share the same memory, however, when a sharing process wants to have read/write access to this shared memory, a copy of that memory is made for writing to. 819. 753 820. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. Executable memory is memory that can be executed by programs, but cannot be read or written. This type of protection is not supported by all processor types. 821. 755 822. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. Execute/Read Only memory is memory that can be executed as well as read. 823. 757 824. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. Execute/Read/Write memory is memory that can be executed by programs as well as read and written. 825. 759 826. Unassigned Space is mapped and committed virtual memory in use by the process that is not attributable to any particular image being executed by that process. Execute Write Copy is memory that can be executed by programs as well as read and written. This type of protection is used when memory needs to be shared between processes. If the sharing processes only read the memory, then they will all use the same memory. If a sharing process desires write access, then a copy of this memory will be made for that process. 827. 761 828. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process No Access protection prevents a process from writing to or reading from these pages and will generate an access violation if either is attempted. 829. 763 830. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process Read Only protection prevents the contents of these pages from being modified. Any attempts to write or modify these pages will generate an access violation. 831. 765 832. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process Read/Write protection allows a process to read, modify and write to these pages. 833. 767 834. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process Write Copy protection is used when memory is shared for reading but not for writing. When processes are reading this memory, they can share the same memory, however, when a sharing process wants to have read/write access to this shared memory, a copy of that memory is made for writing to. 835. 769 836. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process Executable memory is memory that can be executed by programs, but cannot be read or written. This type of protection is not supported by all processor types. 837. 771 838. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process Execute/Read-Only memory is memory that can be executed as well as read. 839. 773 840. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process Execute/Read/Write memory is memory that can be executed by programs as well as read and written and modified. 841. 775 842. Image Space is the virtual address space in use by the images being executed by the process. This is the sum of all the address space with this protection allocated by images run by the selected process Execute Write Copy is memory that can be executed by programs as well as read and written. This type of protection is used when memory needs to be shared between processes. If the sharing processes only read the memory, then they will all use the same memory. If a sharing process desires write access, then a copy of this memory will be made for that process. 843. 777 844. Bytes Image Reserved is the sum of all virtual memory reserved by images within this process. 845. 779 846. Bytes Image Free is the amount of virtual address space that is not in use or reserved by images within this process. 847. 781 848. Bytes Reserved is the total amount of virtual memory reserved for future use by this process. 849. 783 850. Bytes Free is the total unused virtual address space of this process. 851. 785 852. ID Process is the unique identifier of this process. ID Process numbers are reused, so they only identify a process for the lifetime of that process. 853. 787 854. The Process Address Space performance object consists of counters that monitor memory allocation and use for a selected process. 855. 789 856. Image Space is the virtual address space in use by the selected image with this protection. No Access protection prevents a process from writing or reading these pages and will generate an access violation if either is attempted. 857. 791 858. Image Space is the virtual address space in use by the selected image with this protection. Read Only protection prevents the contents of these pages from being modified. Any attempts to write or modify these pages will generate an access violation. 859. 793 860. Image Space is the virtual address space in use by the selected image with this protection. Read/Write protection allows a process to read, modify and write to these pages. 861. 795 862. Image Space is the virtual address space in use by the selected image with this protection. Write Copy protection is used when memory is shared for reading but not for writing. When processes are reading this memory, they can share the same memory, however, when a sharing process wants to have read/write access to this shared memory, a copy of that memory is made for writing to. 863. 797 864. Image Space is the virtual address space in use by the selected image with this protection. Executable memory is memory that can be executed by programs, but cannot be read or written. This type of protection is not supported by all processor types. 865. 799 866. Image Space is the virtual address space in use by the selected image with this protection. Execute/Read Only memory is memory that can be executed as well as read. 867. 801 868. Image Space is the virtual address space in use by the selected image with this protection. Execute/Read/Write memory is memory that can be executed by programs as well as read and written. 869. 803 870. Image Space is the virtual address space in use by the selected image with this protection. Execute Write Copy is memory that can be executed by programs as well as read and written. This type of protection is used when memory needs to be shared between processes. If the sharing processes only read the memory, then they will all use the same memory. If a sharing process desires write access, then a copy of this memory will be made for that process. 871. 805 872. ID Thread is the unique identifier of this thread. ID Thread numbers are reused, so they only identify a thread for the lifetime of that thread. 873. 807 874. Mailslot Opens Failed/sec indicates the rate at which mailslot messages to be delivered to mailslots that are not present are received by this workstation. 875. 809 876. Duplicate Master Announcements indicates the number of times that the master browser has detected another master browser on the same domain. 877. 811 878. Illegal Datagrams/sec is the rate at which incorrectly formatted datagrams have been received by the workstation. 879. 813 880. Announcements Total/sec is the sum of Announcements Server/sec and Announcements Domain/sec. 881. 815 882. Enumerations Total/sec is the rate at which browse requests have been processed by this workstation. This is the sum of Enumerations Server/sec, Enumerations Domain/sec, and Enumerations Other/sec. 883. 817 884. The Thread Details performance object consists of counters that measure aspects of thread behavior that are difficult or time-consuming or collect. These counters are distinguished from those in the Thread object by their high overhead. 885. 819 886. Cache Bytes is the sum of the Memory\\System Cache Resident Bytes, Memory\\System Driver Resident Bytes, Memory\\System Code Resident Bytes, and Memory\\Pool Paged Resident Bytes counters. This counter displays the last observed value only; it is not an average. 887. 821 888. Cache Bytes Peak is the maximum number of bytes used by the file system cache since the system was last restarted. This might be larger than the current size of the cache. This counter displays the last observed value only; it is not an average. 889. 823 890. Pages Input/sec is the rate at which pages are read from disk to resolve hard page faults. Hard page faults occur when a process refers to a page in virtual memory that is not in its working set or elsewhere in physical memory, and must be retrieved from disk. When a page is faulted, the system tries to read multiple contiguous pages into memory to maximize the benefit of the read operation. Compare the value of Memory\\Pages Input/sec to the value of Memory\\Page Reads/sec to determine the average number of pages read into memory during each read operation. 891. 825 892. Transition Pages RePurposed is the rate at which the number of transition cache pages were reused for a different purpose. These pages would have otherwise remained in the page cache to provide a (fast) soft fault (instead of retrieving it from backing store) in the event the page was accessed in the future. Note these pages can contain private or sharable memory. 893. 873 894. The number of bytes transmitted total for this connection. 895. 875 896. The number of bytes received total for this connection. 897. 877 898. The number of data frames transmitted total for this connection. 899. 879 900. The number of data frames received total for this connection. 901. 881 902. The compression ratio for bytes being transmitted. 903. 883 904. The compression ratio for bytes being received. 905. 885 906. The total number of CRC Errors for this connection. CRC Errors occur when the frame received contains erroneous data. 907. 887 908. The total number of Timeout Errors for this connection. Timeout Errors occur when an expected is not received in time. 909. 889 910. The total number of Serial Overrun Errors for this connection. Serial Overrun Errors occur when the hardware cannot handle the rate at which data is received. 911. 891 912. The total number of Alignment Errors for this connection. Alignment Errors occur when a byte received is different from the byte expected. 913. 893 914. The total number of Buffer Overrun Errors for this connection. Buffer Overrun Errors when the software cannot handle the rate at which data is received. 915. 895 916. The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors for this connection. 917. 897 918. The number of bytes transmitted per second. 919. 899 920. The number of bytes received per second. 921. 901 922. The number of frames transmitted per second. 923. 903 924. The number of frames received per second. 925. 905 926. The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors per second. 927. 909 928. The total number of Remote Access connections. 929. 921 930. The WINS Server performance object consists of counters that monitor communications using the WINS Server service. 931. 923 932. Unique Registrations/sec is the rate at which unique registration are received by the WINS server. 933. 925 934. Group Registrations/sec is the rate at which group registration are received by the WINS server. 935. 927 936. Total Number of Registrations/sec is the sum of the Unique and Group registrations per sec. This is the total rate at which registration are received by the WINS server. 937. 929 938. Unique Renewals/sec is the rate at which unique renewals are received by the WINS server. 939. 931 940. Group Renewals/sec is the rate at which group renewals are received by the WINS server. 941. 933 942. Total Number of Renewals/sec is the sum of the Unique and Group renewals per sec. This is the total rate at which renewals are received by the WINS server. 943. 935 944. Total Number of Releases/sec is the rate at which releases are received by the WINS server. 945. 937 946. Total Number of Queries/sec is the rate at which queries are received by the WINS server. 947. 939 948. Unique Conflicts/sec is the rate at which unique registrations/renewals received by the WINS server resulted in conflicts with records in the database. 949. 941 950. Group Conflicts/sec is the rate at which group registration received by the WINS server resulted in conflicts with records in the database. 951. 943 952. Total Number of Conflicts/sec is the sum of the Unique and Group conflicts per sec. This is the total rate at which conflicts were seen by the WINS server. 953. 945 954. Total Number of Successful Releases/sec 955. 947 956. Total Number of Failed Releases/sec 957. 949 958. Total Number of Successful Queries/sec 959. 951 960. Total Number of Failed Queries/sec 961. 953 962. The total number of handles currently open by this process. This number is equal to the sum of the handles currently open by each thread in this process. 963. 1001 964. Services for Macintosh AFP File Server. 965. 1003 966. The maximum amount of paged memory resources used by the MacFile Server. 967. 1005 968. The current amount of paged memory resources used by the MacFile Server. 969. 1007 970. The maximum amount of nonpaged memory resources use by the MacFile Server. 971. 1009 972. The current amount of nonpaged memory resources used by the MacFile Server. 973. 1011 974. The number of sessions currently connected to the MacFile server. Indicates current server activity. 975. 1013 976. The maximum number of sessions connected at one time to the MacFile server. Indicates usage level of server. 977. 1015 978. The number of internal files currently open in the MacFile server. This count does not include files opened on behalf of Macintosh clients. 979. 1017 980. The maximum number of internal files open at one time in the MacFile server. This count does not include files opened on behalf of Macintosh clients. 981. 1019 982. The number of failed logon attempts to the MacFile server. Can indicate whether password guessing programs are being used to crack the security on the server. 983. 1021 984. The number of bytes read from disk per second. 985. 1023 986. The number of bytes written to disk per second. 987. 1025 988. The number of bytes received from the network per second. Indicates how busy the server is. 989. 1027 990. The number of bytes sent on the network per second. Indicates how busy the server is. 991. 1029 992. The number of outstanding work items waiting to be processed. 993. 1031 994. The maximum number of outstanding work items waiting at one time. 995. 1033 996. The current number of threads used by MacFile server. Indicates how busy the server is. 997. 1035 998. The maximum number of threads used by MacFile server. Indicates peak usage level of server. 999. 1051 1000. AppleTalk Protocol 1001. 1053 1002. Number of packets received per second by Appletalk on this port. 1003. 1055 1004. Number of packets sent per second by Appletalk on this port. 1005. 1057 1006. Number of bytes received per second by Appletalk on this port. 1007. 1059 1008. Number of bytes sent per second by Appletalk on this port. 1009. 1061 1010. Average time in milliseconds to process a DDP packet on this port. 1011. 1063 1012. Number of DDP packets per second received by Appletalk on this port. 1013. 1065 1014. Average time in milliseconds to process an AARP packet on this port. 1015. 1067 1016. Number of AARP packets per second received by Appletalk on this port. 1017. 1069 1018. Average time in milliseconds to process an ATP packet on this port. 1019. 1071 1020. Number of ATP packets per second received by Appletalk on this port. 1021. 1073 1022. Average time in milliseconds to process an NBP packet on this port. 1023. 1075 1024. Number of NBP packets per second received by Appletalk on this port. 1025. 1077 1026. Average time in milliseconds to process a ZIP packet on this port. 1027. 1079 1028. Number of ZIP packets per second received by Appletalk on this port. 1029. 1081 1030. Average time in milliseconds to process an RTMP packet on this port. 1031. 1083 1032. Number of RTMP packets per second received by Appletalk on this port. 1033. 1085 1034. Number of ATP requests retransmitted on this port. 1035. 1087 1036. Number of ATP release timers that have expired on this port. 1037. 1089 1038. Number of ATP Exactly-once transaction responses per second on this port. 1039. 1091 1040. Number of ATP At-least-once transaction responses per second on this port. 1041. 1093 1042. Number of ATP transaction release packets per second received on this port. 1043. 1095 1044. The current amount of nonpaged memory resources used by AppleTalk. 1045. 1097 1046. Number of packets routed in on this port. 1047. 1099 1048. Number of packets dropped due to resource limitations on this port. 1049. 1101 1050. Number of ATP requests retransmitted to this port. 1051. 1103 1052. Number of packets routed out on this port. 1053. 1111 1054. Provides Network Statistics for the local network segment via the Network Monitor Service. 1055. 1113 1056. The total number of frames received per second on this network segment. 1057. 1115 1058. The number of bytes received per second on this network segment. 1059. 1117 1060. The number of Broadcast frames received per second on this network segment. 1061. 1119 1062. The number of Multicast frames received per second on this network segment. 1063. 1121 1064. Percentage of network bandwidth in use on this network segment. 1065. 1125 1066. Percentage of network bandwidth which is made up of broadcast traffic on this network segment. 1067. 1127 1068. Percentage of network bandwidth which is made up of multicast traffic on this network segment. 1069. 1151 1070. The Telephony System 1071. 1153 1072. The number of telephone lines serviced by this computer. 1073. 1155 1074. The number of telephone devices serviced by this computer. 1075. 1157 1076. The number of telephone lines serviced by this computer that are currently active. 1077. 1159 1078. The number of telephone devices that are currently being monitored. 1079. 1161 1080. The rate of outgoing calls made by this computer. 1081. 1163 1082. The rate of incoming calls answered by this computer. 1083. 1165 1084. The number of applications that are currently using telephony services. 1085. 1167 1086. Current outgoing calls being serviced by this computer. 1087. 1169 1088. Current incoming calls being serviced by this computer. 1089. 1233 1090. Packet Burst Read NCP Count/sec is the rate of NetWare Core Protocol requests for Packet Burst Read. Packet Burst is a windowing protocol that improves performance. 1091. 1235 1092. Packet Burst Read Timeouts/sec is the rate the NetWare Service needs to retransmit a Burst Read Request because the NetWare server took too long to respond. 1093. 1237 1094. Packet Burst Write NCP Count/sec is the rate of NetWare Core Protocol requests for Packet Burst Write. Packet Burst is a windowing protocol that improves performance. 1095. 1239 1096. Packet Burst Write Timeouts/sec is the rate the NetWare Service needs to retransmit a Burst Write Request because the NetWare server took too long to respond. 1097. 1241 1098. Packet Burst IO/sec is the sum of Packet Burst Read NCPs/sec and Packet Burst Write NCPs/sec. 1099. 1261 1100. Logon Total includes all interactive logons, network logons, service logons, successful logon, and failed logons since the machine is last rebooted. 1101. 1301 1102. The Server Work Queues performance object consists of counters that monitor the length of the queues and objects in the queues. 1103. 1303 1104. Queue Length is the current length of the server work queue for this CPU. A sustained queue length greater than four might indicate processor congestion. This is an instantaneous count, not an average over time. 1105. 1305 1106. Active Threads is the number of threads currently working on a request from the server client for this CPU. The system keeps this number as low as possible to minimize unnecessary context switching. This is an instantaneous count for the CPU, not an average over time. 1107. 1307 1108. Available Threads is the number of server threads on this CPU not currently working on requests from a client. The server dynamically adjusts the number of threads to maximize server performance. 1109. 1309 1110. Every request from a client is represented in the server as a 'work item,' and the server maintains a pool of available work items per CPU to speed processing. This is the instantaneous number of available work items for this CPU. A sustained near-zero value indicates the need to increase the MinFreeWorkItems registry value for the Server service. This value will always be 0 in the Blocking Queue instance. 1111. 1311 1112. Every request from a client is represented in the server as a 'work item,' and the server maintains a pool of available work items per CPU to speed processing. When a CPU runs out of work items, it borrows a free work item from another CPU. An increasing value of this running counter might indicate the need to increase the 'MaxWorkItems' or 'MinFreeWorkItems' registry values for the Server service. This value will always be 0 in the Blocking Queue instance. 1113. 1313 1114. Every request from a client is represented in the server as a 'work item,' and the server maintains a pool of available work items per CPU to speed processing. A sustained value greater than zero indicates the need to increase the 'MaxWorkItems' registry value for the Server service. This value will always be 0 in the Blocking Queue instance. 1115. 1315 1116. Current Clients is the instantaneous count of the clients being serviced by this CPU. The server actively balances the client load across all of the CPU's in the system. This value will always be 0 in the Blocking Queue instance. 1117. 1317 1118. The rate at which the Server is receiving bytes from the network clients on this CPU. This value is a measure of how busy the Server is. 1119. 1319 1120. The rate at which the Server is sending bytes to the network clients on this CPU. This value is a measure of how busy the Server is. 1121. 1321 1122. The rate at which the Server is sending and receiving bytes with the network clients on this CPU. This value is a measure of how busy the Server is. 1123. 1323 1124. Read Operations/sec is the rate the server is performing file read operations for the clients on this CPU. This value is a measure of how busy the Server is. This value will always be 0 in the Blocking Queue instance. 1125. 1325 1126. Read Bytes/sec is the rate the server is reading data from files for the clients on this CPU. This value is a measure of how busy the Server is. 1127. 1327 1128. Write Operations/sec is the rate the server is performing file write operations for the clients on this CPU. This value is a measure of how busy the Server is. This value will always be 0 in the Blocking Queue instance. 1129. 1329 1130. Write Bytes/sec is the rate the server is writing data to files for the clients on this CPU. This value is a measure of how busy the Server is. 1131. 1331 1132. Total Bytes/sec is the rate the Server is reading and writing data to and from the files for the clients on this CPU. This value is a measure of how busy the Server is. 1133. 1333 1134. Total Operations/sec is the rate the Server is performing file read and file write operations for the clients on this CPU. This value is a measure of how busy the Server is. This value will always be 0 in the Blocking Queue instance. 1135. 1335 1136. DPCs Queued/sec is the average rate, in incidents per second, at which deferred procedure calls (DPCs) were added to the processor's DPC queue. DPCs are interrupts that run at a lower priority than standard interrupts. Each processor has its own DPC queue. This counter measures the rate that DPCs are added to the queue, not the number of DPCs in the queue. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 1137. 1337 1138. DPC Rate is the rate at which deferred procedure calls (DPCs) were added to the processors DPC queues between the timer ticks of the processor clock. DPCs are interrupts that run at alower priority than standard interrupts. Each processor has its own DPC queue. This counter measures the rate that DPCs were added to the queue, not the number of DPCs in the queue. This counter displays the last observed value only; it is not an average. 1139. 1343 1140. Total DPCs Queued/sec is the combined rate at which deferred procedure calls (DPCs) are added to the DPC queue of all processors on the computer. (DPCs are interrupts that run at a lower priority than standard interrupts). Each processor has its own DPC queue. This counter measures the rate at which DPCs are added to the queue, not the number of DPCs in the queue. It is the sum of Processor: DPCs Queued/sec for all processors on the computer, divided by the number of processors. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 1141. 1345 1142. Total DPC Rate is the combined rate at which deferred procedure calls (DPCs) are added to the DPC queues of all processors between timer ticks of each processor's system clock. (DPCs are interrupts that run at a lower priority than standard interrupts). Each processor has its own DPC queue. This counter measures the rate at which DPCs are added to the queue, not the number of DPCs in the queue. It is the sum of Processor: DPC Rate for all processors on the computer, divided by the number of processors. This counter displays the last observed value only; it is not an average. 1143. 1351 1144. % Registry Quota In Use is the percentage of the Total Registry Quota Allowed that is currently being used by the system. This counter displays the current percentage value only; it is not an average. 1145. 1361 1146. Counters that indicate the status of local and system Very Large memory allocations. 1147. 1363 1148. VLM % Virtual Size In Use 1149. 1365 1150. Current size of the process VLM Virtual memory space in bytes. 1151. 1367 1152. The peak size of the process VLM virtual memory space in bytes. This value indicates the maximum size of the process VLM virtual memory since the process started. 1153. 1369 1154. The current size of the process VLM virtual memory space in bytes that may be allocated. Note that the maximum allocation allowed may be smaller than this value due to fragmentation of the memory space. 1155. 1371 1156. The current size of committed VLM memory space for the current process in bytes. 1157. 1373 1158. The peak size of the committed VLM memory space in bytes for the current process since the process started. 1159. 1375 1160. The current size of all committed VLM memory space in bytes for the system. 1161. 1377 1162. The peak size of all committed VLM memory space in bytes since the system was started. 1163. 1379 1164. The current size of all committed shared VLM memory space in bytes for the system. 1165. 1381 1166. Available KBytes is the amount of physical memory, in Kilobytes, immediately available for allocation to a process or for system use. It is equal to the sum of memory assigned to the standby (cached), free and zero page lists. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 1167. 1383 1168. Available MBytes is the amount of physical memory, in Megabytes, immediately available for allocation to a process or for system use. It is equal to the sum of memory assigned to the standby (cached), free and zero page lists. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 1169. 1401 1170. Avg. Disk Queue Length is the average number of both read and write requests that were queued for the selected disk during the sample interval. 1171. 1403 1172. Avg. Disk Read Queue Length is the average number of read requests that were queued for the selected disk during the sample interval. 1173. 1405 1174. Avg. Disk Write Queue Length is the average number of write requests that were queued for the selected disk during the sample interval. 1175. 1407 1176. % Committed Bytes In Use is the ratio of Memory\\Committed Bytes to the Memory\\Commit Limit. Committed memory is the physical memory in use for which space has been reserved in the paging file should it need to be written to disk. The commit limit is determined by the size of the paging file. If the paging file is enlarged, the commit limit increases, and the ratio is reduced). This counter displays the current percentage value only; it is not an average. 1177. 1409 1178. The Full Image performance object consists of counters that monitor the virtual address usage of images executed by processes on the computer. Full Image counters are the same counters as contained in Image object with the only difference being the instance name. In the Full Image object, the instance name includes the full file path name of the loaded modules, while in the Image object only the filename is displayed. 1179. 1411 1180. The Creating Process ID value is the Process ID of the process that created the process. The creating process may have terminated, so this value may no longer identify a running process. 1181. 1413 1182. The rate at which the process is issuing read I/O operations. This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1183. 1415 1184. The rate at which the process is issuing write I/O operations. This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1185. 1417 1186. The rate at which the process is issuing read and write I/O operations. This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1187. 1419 1188. The rate at which the process is issuing I/O operations that are neither read nor write operations (for example, a control function). This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1189. 1421 1190. The rate at which the process is reading bytes from I/O operations. This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1191. 1423 1192. The rate at which the process is writing bytes to I/O operations. This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1193. 1425 1194. The rate at which the process is reading and writing bytes in I/O operations. This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1195. 1427 1196. The rate at which the process is issuing bytes to I/O operations that do not involve data such as control operations. This counter counts all I/O activity generated by the process to include file, network and device I/Os. 1197. 1451 1198. Displays performance statistics about a Print Queue. 1199. 1453 1200. Total number of jobs printed on a print queue since the last restart. 1201. 1455 1202. Number of bytes per second printed on a print queue. 1203. 1457 1204. Total number of pages printed through GDI on a print queue since the last restart. 1205. 1459 1206. Current number of jobs in a print queue. 1207. 1461 1208. Current number of references (open handles) to this printer. 1209. 1463 1210. Peak number of references (open handles) to this printer. 1211. 1465 1212. Current number of spooling jobs in a print queue. 1213. 1467 1214. Maximum number of spooling jobs in a print queue since last restart. 1215. 1469 1216. Total number of out of paper errors in a print queue since the last restart. 1217. 1471 1218. Total number of printer not ready errors in a print queue since the last restart. 1219. 1473 1220. Total number of job errors in a print queue since last restart. 1221. 1475 1222. Total number of calls from browse clients to this print server to request network browse lists since last restart. 1223. 1477 1224. Total number of calls from other print servers to add shared network printers to this server since last restart. 1225. 1479 1226. Working Set - Private displays the size of the working set, in bytes, that is use for this process only and not shared nor sharable by other processes. 1227. 1481 1228. Working Set - Shared displays the size of the working set, in bytes, that is sharable and may be used by other processes. Because a portion of a process' working set is shareable, does not necessarily mean that other processes are using it. 1229. 1483 1230. % Idle Time reports the percentage of time during the sample interval that the disk was idle. 1231. 1485 1232. Split IO/Sec reports the rate at which I/Os to the disk were split into multiple I/Os. A split I/O may result from requesting data of a size that is too large to fit into a single I/O or that the disk is fragmented. 1233. 1501 1234. Reports the accounting and processor usage data collected by each active named Job object. 1235. 1503 1236. Current % Processor Time shows the percentage of the sample interval that the processes in the Job object spent executing code. 1237. 1505 1238. Current % User mode Time shows the percentage of the sample interval that the processes in the Job object spent executing code in user mode. 1239. 1507 1240. Current % Kernel mode Time shows the percentage of the sample interval that the processes in the Job object spent executing code in kernel or privileged mode. 1241. 1509 1242. This Period mSec - Processor shows the time, in milliseconds, of processor time used by all the processes in the Job object, including those that have terminated or that are no longer associated with the Job object, since a time limit on the Job was established. 1243. 1511 1244. This Period mSec - User mode shows the time, in milliseconds, of user mode processor time used by all the processes in the Job object, including those that have terminated or that are no longer associated with the Job object, since a time limit on the Job was established. 1245. 1513 1246. This Period mSec - Kernel mode shows the time, in milliseconds, of kernel mode processor time used by all the processes in the Job object, including those that have terminated or that are no longer associated with the Job object, since a time limit on the Job was established. 1247. 1515 1248. Pages/Sec shows the page fault rate of all the processes in the Job object. 1249. 1517 1250. Process Count - Total shows the number of processes, both active and terminated, that are or have been associated with the Job object. 1251. 1519 1252. Process Count - Active shows the number of processes that are currently associated with the Job object. 1253. 1521 1254. Process Count - Terminated shows the number of processes that have been terminated because of a limit violation. 1255. 1523 1256. Total mSec - Processor shows the time, in milliseconds, of processor time used by all the processes in the Job object, including those that have terminated or that are no longer associated with the Job object, since the Job object was created. 1257. 1525 1258. Total mSec - User mode shows the time, in milliseconds, of user mode processor time used by all the processes in the Job object, including those that have terminated or that are no longer associated with the Job object, since the Job object was created. 1259. 1527 1260. Total mSec - Kernel mode shows the time, in milliseconds, of kernel mode processor time used by all the processes in the Job object, including those that have terminated or that are no longer associated with the Job object, since the Job object was created. 1261. 1537 1262. Received Packet Too Big is the number of received packets thatare larger than anticipated. 1263. 1539 1264. Received Membership Query is the number of packets received thatquery their membership to a group. 1265. 1541 1266. Received Membership Report is the number of packets received thatreport their membership to a group. 1267. 1543 1268. Received Membership Reduction is the number of packets received thatcancelled their membership to a group. 1269. 1545 1270. Received Router Solicit is the number of packets received thatsolicit the router. 1271. 1547 1272. Received Router Advert is the number of packets received thatadvert the router. 1273. 1549 1274. % Job object Details shows detailed performance information about the active processes that make up a Job object. 1275. 1551 1276. Received Neighbor Solicit is the number of packets received thatsolicit a neighbor. 1277. 1553 1278. Received Neighbor Advert is the number of packets received thatadvert a neighbor. 1279. 1555 1280. Sent Packet Too Big is the number of sent packets thatare larger than anticipated. 1281. 1557 1282. Sent Membership Query is the number of packets sent thatquery their membership to a group. 1283. 1559 1284. Sent Membership Report is the number of packets sent thatreport their membership to a group. 1285. 1561 1286. Sent Membership Reduction is the number of packets sent thatcancelled their membership to a group. 1287. 1563 1288. Sent Router Solicit is the number of packets sent thatsolicit the router. 1289. 1565 1290. Sent Router Advert is the number of packets sent thatadvert the router. 1291. 1567 1292. Sent Neighbor Solicit is the number of packets sent thatsolicit a neighbor. 1293. 1569 1294. Sent Neighbor Advert is the number of packets sent thatadvert a neighbor. 1295. 1571 1296. These counters track authentication performance on a per second basis. 1297. 1573 1298. This counter tracks the number of NTLM authentications processed by this computer per second. 1299. 1575 1300. This counter tracks the number of times that clients use a ticket to authenticate to this computer per second. 1301. 1577 1302. This counter tracks the number of Autonomous System (AS) requests that are being processed by the Key Distribution Center (KDC) per second. Clients use AS requests to obtain a ticket-granting ticket. 1303. 1579 1304. This counter tracks the number of ticket-granting service (TGS) requests that are being processed by the Key Distribution Center (KDC) per second. Clients use these TGS requests to obtain a service ticket, which allows a client to access resources on other computers. 1305. 1581 1306. This counter tracks the number of Secure Sockets Layer (SSL) entries that are currently stored in the secure channel (Schannel) session cache. The Schannel session cache stores information about successfully established sessions, such as SSL session IDs. Clients can use this information to reconnect to a server without performing a full SSL handshake. 1307. 1583 1308. This counter tracks the number of Secure Sockets Layer (SSL) entries that are currently stored in the secure channel (Schannel) session cache and that are currently in use. The Schannel session cache stores information about successfully established sessions, such as SSL session IDs. Clients can use this information to reconnect to a server without performaing a full SSL handshake. 1309. 1585 1310. This counter tracks the number of Secure Sockets Layer (SSL) full client-side handshakes that are being processed per second. During a handshake, signals are exchanged to acknowledge that communication can occur between computers or other devices. 1311. 1587 1312. This counter tracks the number of Secure Sockets Layer (SSL) client-side reconnect handshakes that are being processed per second. Reconnect handshakes allow session keys from previous SSL sessions to be used to resume a client/server connection, and they require less memory to process than full handshakes. 1313. 1589 1314. This counter tracks the number of Secure Sockets Layer (SSL) full server-side handshakes that are being processed per second. During a handshake, signals are exchanged to acknowledge that communication can occur between computers or other devices. 1315. 1591 1316. This counter tracks the number of Secure Sockets Layer (SSL) server-side reconnect handshakes that are being processed per second. Reconnect handshakes allow session keys from previous SSL sessions to be used to resume a client/server connection, and they require less memory to process than full handshakes. 1317. 1593 1318. This counter tracks the number of Digest authentications that are being processed per second. 1319. 1671 1320. These counters track the number of security resources and handles used per process. 1321. 1673 1322. This counter tracks the number of credential handles in use by a given process. Credential handles are handles to pre-existing credentials, such as a password, that are associated with a user and are established through a system logon. 1323. 1675 1324. This counter tracks the number of context handles in use by a given process. Context handles are associated with security contexts established between a client application and a remote peer. 1325. 1677 1326. Free & Zero Page List Bytes is the amount of physical memory, in bytes, that is assigned to the free and zero page lists. This memory does not contain cached data. It is immediately available for allocation to a process or for system use. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 1327. 1679 1328. Modified Page List Bytes is the amount of physical memory, in bytes, that is assigned to the modified page list. This memory contains cached data and code that is not actively in use by processes, the system and the system cache. This memory needs to be written out before it will be available for allocation to a process or for system use. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 1329. 1681 1330. Standby Cache Reserve Bytes is the amount of physical memory, in bytes, that is assigned to the reserve standby cache page lists. This memory contains cached data and code that is not actively in use by processes, the system and the system cache. It is immediately available for allocation to a process or for system use. If the system runs out of available free and zero memory, memory on lower priority standby cache page lists will be repurposed before memory on higher priority standby cache page lists. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 1331. 1683 1332. Standby Cache Normal Priority Bytes is the amount of physical memory, in bytes, that is assigned to the normal priority standby cache page lists. This memory contains cached data and code that is not actively in use by processes, the system and the system cache. It is immediately available for allocation to a process or for system use. If the system runs out of available free and zero memory, memory on lower priority standby cache page lists will be repurposed before memory on higher priority standby cache page lists. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 1333. 1685 1334. Standby Cache Core Bytes is the amount of physical memory, in bytes, that is assigned to the core standby cache page lists. This memory contains cached data and code that is not actively in use by processes, the system and the system cache. It is immediately available for allocation to a process or for system use. If the system runs out of available free and zero memory, memory on lower priority standby cache page lists will be repurposed before memory on higher priority standby cache page lists. For a full explanation of the memory manager, refer to MSDN and/or the System Performance and Troubleshooting Guide chapter in the Windows Server 2003 Resource Kit. 1335. 1747 1336. % Idle Time is the percentage of time the processor is idle during the sample interval 1337. 1749 1338. % C1 Time is the percentage of time the processor spends in the C1 low-power idle state. % C1 Time is a subset of the total processor idle time. C1 low-power idle state enables the processor to maintain its entire context and quickly return to the running state. Not all systems support the % C1 state. 1339. 1751 1340. % C2 Time is the percentage of time the processor spends in the C2 low-power idle state. % C2 Time is a subset of the total processor idle time. C2 low-power idle state enables the processor to maintain the context of the system caches. The C2 power state is a lower power and higher exit latency state than C1. Not all systems support the C2 state. 1341. 1753 1342. % C3 Time is the percentage of time the processor spends in the C3 low-power idle state. % C3 Time is a subset of the total processor idle time. When the processor is in the C3 low-power idle state it is unable to maintain the coherency of its caches. The C3 power state is a lower power and higher exit latency state than C2. Not all systems support the C3 state. 1343. 1755 1344. C1 Transitions/sec is the rate that the CPU enters the C1 low-power idle state. The CPU enters the C1 state when it is sufficiently idle and exits this state on any interrupt. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 1345. 1757 1346. C2 Transitions/sec is the rate that the CPU enters the C2 low-power idle state. The CPU enters the C2 state when it is sufficiently idle and exits this state on any interrupt. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 1347. 1759 1348. C3 Transitions/sec is the rate that the CPU enters the C3 low-power idle state. The CPU enters the C3 state when it is sufficiently idle and exits this state on any interrupt. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval. 1349. 1761 1350. Heap performance counters for must used heaps 1351. 1763 1352. Memory actively used by this heap (FreeBytes + AllocatedBytes) 1353. 1765 1354. Total virtual address space reserved for this heap (includes uncommitted ranges) 1355. 1767 1356. ReservedBytes minus last uncommitted range in each segment 1357. 1769 1358. Memory on freelists in this heap (does not include uncommitted ranges or blocks in heap cache) 1359. 1771 1360. Number of blocks on the list of free blocks >1k in size 1361. 1773 1362. 1/Average time per allocation (excluding allocs from heap cache) 1363. 1775 1364. 1/Average time per free (excluding frees to heap cache) 1365. 1777 1366. Number of uncommitted ranges in the reserved virtual address 1367. 1779 1368. Difference between number of allocations and frees (for leak detection) 1369. 1781 1370. Allocations/sec from heap cache 1371. 1783 1372. Frees/sec from heap cache 1373. 1785 1374. Allocations/sec of size <1k bytes (including heap cache) 1375. 1787 1376. Frees/sec of size <1k bytes (including heap cache) 1377. 1789 1378. Allocations/sec of size 1-8k bytes 1379. 1791 1380. Frees/sec of size 1-8k bytes 1381. 1793 1382. Allocations/sec of size over 8k bytes 1383. 1795 1384. Frees/sec of size over 8k bytes 1385. 1797 1386. Allocations/sec (including from heap cache) 1387. 1799 1388. Frees/sec (including to heap cache) 1389. 1801 1390. Total number of blocks in the heap cache 1391. 1803 1392. Largest number of blocks of any one size in the heap cache 1393. 1805 1394. (FreeBytes / CommittedBytes) *100 1395. 1807 1396. (VirtualBytes / ReservedBytes) * 100 1397. 1809 1398. Collisions/sec on the heap lock 1399. 1847 1400. End Marker 1401. 1849 1402. The Telphony System 1403. 1851 1404. The number of telephone lines serviced by this computer. 1405. 1853 1406. The number of telephone devices serviced by this computer. 1407. 1855 1408. the number of telephone lines serviced by this computer that are currently active. 1409. 1857 1410. The number of telephone devices that are currently being monitored. 1411. 1859 1412. The rate of outgoing calls made by this computer. 1413. 1861 1414. The rate of incoming calls answered by this computer. 1415. 1863 1416. The number of applications that are currently using telephony services. 1417. 1865 1418. Current outgoing calls being serviced by this computer. 1419. 1867 1420. Current incoming calls being serviced by this computer. 1421. 1869 1422. The RAS Object Type handles individual ports of the RAS device on your system. 1423. 1871 1424. The number of bytes transmitted total for this connection. 1425. 1873 1426. The number of bytes received total for this connection. 1427. 1875 1428. The number of data frames transmitted total for this connection. 1429. 1877 1430. The number of data frames received total for this connection. 1431. 1879 1432. The compression ratio for bytes being transmitted. 1433. 1881 1434. The compression ratio for bytes being received. 1435. 1883 1436. The total number of CRC Errors for this connection. CRC Errors occur when the frame received contains erroneous data. 1437. 1885 1438. The total number of Timeout Errors for this connection. Timeout Errors occur when an expected is not received in time. 1439. 1887 1440. The total number of Serial Overrun Errors for this connection. Serial Overrun Errors occur when the hardware cannot handle the rate at which data is received. 1441. 1889 1442. The total number of Alignment Errors for this connection. Alignment Errors occur when a byte received is different from the byte expected. 1443. 1891 1444. The total number of Buffer Overrun Errors for this connection. Buffer Overrun Errors when the software cannot handle the rate at which data is received. 1445. 1893 1446. The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors for this connection. 1447. 1895 1448. The number of bytes transmitted per second. 1449. 1897 1450. The number of bytes received per second. 1451. 1899 1452. The number of frames transmitted per second. 1453. 1901 1454. The number of frames received per second. 1455. 1903 1456. The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors per second. 1457. 1905 1458. The RAS Object Type handles all combined ports of the RAS device on your system. 1459. 1907 1460. The total number of Remote Access connections. 1461. 1909 1462. BITS Per Job Network Utilization 1463. 1911 1464. Estimate of Remote Server Speed (Bits/Sec) 1465. 1913 1466. Estimate of the local netcard's speed (Bits/Sec) 1467. 1915 1468. Estimate of most recent percent network interface utilization 1469. 1917 1470. Estimate of the IGD's Internet connection speed (Bits/Sec) 1471. 1919 1472. Estimate of most recent percent IGD Internet connection utilization 1473. 1921 1474. Size of the next download block for BITS 1475. 1923 1476. BITS download response interval (msec) 1477. 1925 1478. Estimated bandwidth available to the remote system (Bits/sec) 1479. 2247 1480. Database provides performance statistics for each process using the ESE high performance embedded database management system. 1481. 2249 1482. Pages Converted/sec is the count of times per second a database page is converted from an older database format 1483. 2251 1484. Pages Converted is the count of database pages that have been converted from an older format 1485. 2253 1486. Records Converted/sec is the count of times per second a database record is converted from an older database format 1487. 2255 1488. Records Converted is the count of database records that have been converted from an older format 1489. 2257 1490. Heap Allocs/sec is the number of memory allocations from the MP Heaps per second. [Dev Only] 1491. 2259 1492. Heap Frees/sec is the number of memory frees to the MP Heaps per second. [Dev Only] 1493. 2261 1494. Heap Allocations is the current number of memory allocations in the MP Heaps. [Dev Only] 1495. 2263 1496. Heap Bytes Allocated is the size of all memory allocations in the MP Heaps discounting heap managemnt overhead. [Dev Only] 1497. 2265 1498. Page Bytes Reserved is the size of all explicitly reserved virtual address space. [Dev Only] 1499. 2267 1500. Page Bytes Committed is the size of all explicitly committed virtual memory backing store (page file and physical memory). [Dev Only] 1501. 2269 1502. FCB Asynchronous Scan/sec is the number of cached schema records (FCBs) scanned during asynchronous schema record cleanup. These records are scanned to age out older schema definitions. [Dev Only] 1503. 2271 1504. FCB Asynchronous Purge/sec is the number of cached schema records (FCBs) purged during asynchronous schema record cleanup. These records are purged to age out older schema definitions. [Dev Only] 1505. 2273 1506. FCB Asynchronous Threshold-Scan/sec is the number of cached schema records (FCBs) scanned during asynchronous schema record cleanup. Cleanup was triggered by a large number of schema records above the preferred limit. These records are aggressively scanned to age out older schema definitions. [Dev Only] 1507. 2275 1508. FCB Asynchronous Threshold-Purge/sec is the number of cached schema records (FCBs) purged during asynchronous schema record cleanup. Cleanup was triggered by a large number of schema records above the preferred limit. These records are aggressively purged to age out older schema definitions. [Dev Only] 1509. 2277 1510. FCB Asynchronous Purge Conflicts/sec is the number of failed purge attempts on cached schema records (FCBs) during asynchronous schema record cleanup. The purge operation failed because exclusive ownership of the schema record could not be obtained. [Dev Only] 1511. 2279 1512. FCB Synchronous Purge/sec is the number of cached schema records (FCBs) being synchronously purged each second. [Dev Only] 1513. 2281 1514. FCB Synchronous Purge Stalls/sec is the number of stalls encountered while waiting for exclusive ownership of cached schema records (FCBs) in order to synchronously purge them. [Dev Only] 1515. 2283 1516. FCB Allocations Wait For Version Cleanup/sec is the number FCB allocations that must first wait for version cleanup in an attempt to free used FCBs for re-use. [Dev Only] 1517. 2285 1518. FCB Purge On Cursor Close/sec is the number of cached schema records (FCBs) being synchronously purged when the cursor is closed (instead of leaving the schema record cached) each second. [Dev Only] 1519. 2287 1520. FCB Cache % Hit is the percentage of schema records (FCBs) opened directly from the schema record cache. No file operations were required. [Dev Only] 1521. 2289 1522. No text 1523. 2291 1524. FCB Cache Stalls/sec is the number of stalls encountered while waiting for exclusive ownership of cached schema records (FCBs) in order to update their reference count. [Dev Only] 1525. 2293 1526. FCB Cache Maximum is the absolute maximum number of the schema records (FCBs) that can exist in the cache. [Dev Only] 1527. 2295 1528. FCB Cache Preferred is the preferred maximum number of the schema records (FCBs) that should exist in the cache. [Dev Only] 1529. 2297 1530. FCB Cache Allocated is the number of cached schema records (FCBs) currently allocated and in use. [Dev Only] 1531. 2299 1532. FCB Cache Available is the number of cached schema records (FCBs) currently allocated but not in use. These records will be used and/or purged as required. [Dev Only] 1533. 2301 1534. Sessions In Use is the number of database sessions currently open for use by client threads. [Dev Only] 1535. 2303 1536. Sessions % Used is the percentage of database sessions currently open for use by client threads. [Dev Only] 1537. 2305 1538. No text 1539. 2307 1540. Table Open Cache % Hit is the percentage of database tables opened using cached schema information. If this percentage is too low, the table cache size may be too small. 1541. 2309 1542. No text 1543. 2311 1544. Table Open Cache Hits/sec is the number of database tables opened using cached schema information per second. If this rate is too low, the table cache size may be too small. 1545. 2313 1546. Table Open Cache Misses/sec is the number of database tables opened without using cached schema information per second. If this rate is too high, the table cache size may be too small. 1547. 2315 1548. Table Opens/sec is the number of database tables opened per second. 1549. 2317 1550. Log Bytes Write per second is the rate bytes are written to the log. 1551. 2319 1552. Log Buffer Bytes Used is the amount of bytes in the log buffers that have not yet been flushed to the logs. [Dev only] 1553. 2321 1554. Log Buffer Bytes Free is the amount of free space available in the log buffers. [Dev only] 1555. 2323 1556. Log Threads Waiting is the number of threads waiting for their data to be written to the log in order to complete an update of the database. If this number is too high, the log may be a bottleneck. 1557. 2325 1558. Log Checkpoint Depth represents the amount of work, in bytes, that will need to be redone or undone to the database file(s) if the process crashes. [Dev Only] 1559. 2327 1560. Log Generation Checkpoint Depth represents the amount of work, in count of log files, that will need to be redone or undone to the database file(s) if the process crashes. [Dev Only] 1561. 2329 1562. User Read Only Transaction Commits to Level 0/sec is the count of fully committed transactions started by the calling process that do not modify any data stored in the database engine. [Dev Only] 1563. 2331 1564. User Read/Write Transaction Commits to Level 0/sec is the count of fully committed transactions started by the calling process that modify data stored in the database engine. [Dev Only] 1565. 2333 1566. User Transaction Commits to Level 0/sec is the count of fully committed transactions started by the calling process that access data stored in the database engine. [Dev Only] 1567. 2335 1568. User Read Only Transaction Rollbacks to Level 0/sec is the count of aborted transactions started by the calling process that do not modify any data stored in the database engine. [Dev Only] 1569. 2337 1570. User Read/Write Transaction Rollbacks to Level 0/sec is the count of aborted transactions started by the calling process that modify data stored in the database engine. [Dev Only] 1571. 2339 1572. User Transaction Rollbacks to Level 0/sec is the count of aborted transactions started by the calling process that access data stored in the database engine. [Dev Only] 1573. 2341 1574. System Read Only Transaction Commits to Level 0/sec is the count of fully committed transactions started internally that do not modify any data stored in the database engine. [Dev Only] 1575. 2343 1576. System Read/Write Transaction Commits to Level 0/sec is the count of fully committed transactions started internally that modify data stored in the database engine. [Dev Only] 1577. 2345 1578. System Transaction Commits to Level 0/sec is the count of fully committed transactions started internally that access data stored in the database engine. [Dev Only] 1579. 2347 1580. System Read Only Transaction Rollbacks to Level 0/sec is the count of aborted transactions started internally that do not modify any data stored in the database engine. [Dev Only] 1581. 2349 1582. System Read/Write Transaction Rollbacks to Level 0/sec is the count of aborted transactions started internally that modify data stored in the database engine. [Dev Only] 1583. 2351 1584. System Transaction Rollbacks to Level 0/sec is the count of aborted transactions started internally that access data stored in the database engine. [Dev Only] 1585. 2353 1586. Database Page Allocation File Extension Async Consumed/sec is the rate of page allocations from a database file that must be serviced by extending the database file, but which do not stall when doing doing so. [Dev Only] 1587. 2355 1588. Database Page Allocation File Extension Stalls/sec is the rate of page allocations from a database file that must be serviced by extending the database file and which stall when doing so. [Dev Only] 1589. 2357 1590. Log Records/sec is the count of records written to the database log buffers per second. [Dev Only] 1591. 2359 1592. Log Buffer Capacity Flushes/sec is the count of times the database log buffers must be flushed per second because they are full. [Dev Only] 1593. 2361 1594. Log Buffer Commit Flushes/sec is the count of times the database log buffers must be flushed per second because a transaction is fully committing its changes. [Dev Only] 1595. 2363 1596. Log Buffer Flushes/sec is the count of times the database log buffers must be flushed per second. 1597. 2365 1598. Log Writes/sec is the number of times the log buffers are written to the log file(s) per second. If this number approaches the maximum write rate for the media holding the log file(s), the log may be a bottleneck. 1599. 2367 1600. Log Record Stalls/sec is the number of log records that cannot be added to the log buffers per second because they are full. If this counter is non-zero most of the time, the log buffer size may be a bottleneck. 1601. 2369 1602. Total number of version buckets allocated 1603. 2371 1604. Total number of version buckets allocated for FlagDelete RCEs [Dev Only] 1605. 2373 1606. VER Bucket Allocations Wait For Version Cleanup/sec is the number of version bucket allocations that must first wait for version cleanup in an attempt to free used version buckets for re-use. [Dev Only] 1607. 2375 1608. Average length of bookmark in RCE [Dev Only] 1609. 2377 1610. Number of times per second we look in the version store for a node whose version bit is set but which has no versions [Dev Only] 1611. 2379 1612. Number of times per second a version store clean task is dispatched asynchronously to be performed [Dev Only] 1613. 2381 1614. Number of times per second a version store clean task is performed synchronously [Dev Only] 1615. 2383 1616. Number of times per second a version store clean task was discarded due to load concerns [Dev Only] 1617. 2385 1618. Number of times per second a dispatched version store cleanup task fails [Dev Only] 1619. 2387 1620. Record Inserts/sec is the rate at which records are being inserted into database tables. [Dev Only] 1621. 2389 1622. Record Deletes/sec is the rate at which records in database tables are being flagged for deletion. [Dev Only] 1623. 2391 1624. Record Deletes/sec is the rate at which records in database tables are being updated. [Dev Only] 1625. 2393 1626. Record Unnecessary Replaces/sec is the rate at which updates to records in database tables are being discarded because the update did not actually modify the contents of the record. [Dev Only] 1627. 2395 1628. Record Redundant Replaces/sec is the rate at which records in database tables are being updated with the exact same content of the original record. [Dev Only] 1629. 2397 1630. Record Escrow-Updates/sec is the rate at which records in database tables are being escrow-updated. [Dev Only] 1631. 2399 1632. Secondary Index Inserts/sec is the rate at which entries are being inserted into indexes of database tables. [Dev Only] 1633. 2401 1634. Secondary Index Deletes/sec is the rate at which entries in indexes of database tables are being flagged for deletion. [Dev Only] 1635. 2403 1636. False Index Column Updates/sec is the number of times per second an attempt was made to update an index because an update to at least one of the indexed columns was detected, only to discover that none of the indexed columns had actually changed (and therefore no index update was actually required). [Dev Only] 1637. 2405 1638. False Tuple Index Column Updates/sec is the number of times per second an attempt was made to update a tuple index because an update to the tuple-indexed column was detected, only to discover that the column had not actually changed (and therefore no index update was actually required). [Dev Only] 1639. 2407 1640. Record Intrinsic Long-Values Updated/sec is the rate at which intrinsic long-values are added to or replaced in records of database tables. [Dev Only] 1641. 2409 1642. Record Separated Long-Values Added/sec is the rate at which separated long-values are normally added to records of database tables. [Dev Only] 1643. 2411 1644. Record Separated Long-Values Forced/sec is the rate at which separated long-values are added to records of a database table because they could not be accommodated in the record itself. [Dev Only] 1645. 2413 1646. Record Separated Long-Values All Forced/sec is the rate at which all intrinsic long-values are separated out of a record of a database table in order to accommodate updates to the record. [Dev Only] 1647. 2415 1648. Record Separated Long-Values Reference All/sec is the rate at which a reference is added for all the separated long-values associated with a record of a database table. [Dev Only] 1649. 2417 1650. Record Separated Long-Values Dereference All/sec is the rate at which a reference is removed for all the separated long-values associated with a record of a database table. [Dev Only] 1651. 2419 1652. Separated Long-Value Seeks/sec is the rate at which seeks for a separated long-value in a database table are performed. [Dev Only] 1653. 2421 1654. Separated Long-Value Retrieves/sec is the rate at which retrievals of a separated long-value in a database table are performed. [Dev Only] 1655. 2423 1656. Separated Long-Value Creates/sec is the rate at which new separated long-values are added to a database table. [Dev Only] 1657. 2425 1658. Separated Long-Value Updates/sec is the rate at which existing separated long-values in a database table are modified. [Dev Only] 1659. 2427 1660. Separated Long-Value Deletes/sec is the rate at which separated long-values in a database table are flagged for deletion. [Dev Only] 1661. 2429 1662. Separated Long-Value Copies/sec is the rate at which existing separated long-values in a database table are copied. [Dev Only] 1663. 2431 1664. Separated Long-Value Chunk Seeks/sec is the rate at which seeks for a particular chunk of a separated long-value in a database table are performed. [Dev Only] 1665. 2433 1666. Separated Long-Value Chunk Retrieves/sec is the rate at which retrievals of a chunk of a separated long-value in a database table are performed. [Dev Only] 1667. 2435 1668. Separated Long-Value Chunk Appends/sec is the rate at which chunks are appended to separated long-values of database tables. [Dev Only] 1669. 2437 1670. Separated Long-Value Chunk Replaces/sec is the rate at which existing separated long-value chunks in a database table are replaced. [Dev Only] 1671. 2439 1672. Separated Long-Value Chunk Deletes/sec is the rate at which separated long-value chunks in a database table are flagged for deletion. [Dev Only] 1673. 2441 1674. Separated Long-Value Chunk Copies/sec is the rate at which existing separated long-value chunks in a database table are copied. [Dev Only] 1675. 2443 1676. B+ Tree Append Splits/sec is the count of times a page is appended to a database B+ Tree per second. [Dev Only] 1677. 2445 1678. B+ Tree Right Splits/sec is the count of times a page is split right in a database B+ Tree per second. [Dev Only] 1679. 2447 1680. B+ Tree Right Hotpoint Splits/sec is the count of times a page is split right in a database B+ Tree, but which is treated as an append at a local "hotpoint" in the B+ Tree per second. [Dev Only] 1681. 2449 1682. B+ Tree Vertical Splits/sec is the count of times a page is split vertically in a database B+ Tree per second. [Dev Only] 1683. 2451 1684. B+ Tree Splits/sec is the count of times a page is appended to or split in a database B+ Tree per second. [Dev Only] 1685. 2453 1686. B+ Tree Empty Page Merges/sec is the count of empty pages removed from a database B+ Tree per second. [Dev Only] 1687. 2455 1688. Right Merges/sec is the count of pages removed from a database B+ Tree per second by moving all its records to the next page to the right. [Dev Only] 1689. 2457 1690. B+ Tree Partial Merges/sec is the count of pages where some of its records are moved to a page on the right in a database B+ Tree per second. [Dev Only] 1691. 2459 1692. B+ Tree Merges/sec is the count of pages merged in a database B+ Tree per second. [Dev Only] 1693. 2461 1694. B+ Tree Failed Simple Page Cleanup Attempts/sec is the rate that attempts to reclaim deleted node space on a page are unsuccessful due to a conflict when attempting to write-latch the page. The cleanup is re-tried by locking the root of the B+ Tree. [Dev Only] 1695. 2463 1696. B+ Tree Seek Short Circuits/sec is the count of repeated seeks to the same record in a database B+ Tree that are saved by jumping directly to the cached physical location of that record per second. [Dev Only] 1697. 2465 1698. B+ Tree Unnecessary Sibling Latches/sec is the count of sibling pages latched during a database B+ Tree Delete in the hopes of performing a merge where a merge is not possible, making that latch unnecessary. [Dev Only] 1699. 2467 1700. B+ Tree Move Nexts/sec is the count of times the database engine moves to the next record in a B+ Tree per second. [Dev Only] 1701. 2469 1702. B+ Tree Move Nexts (Non-Visible Nodes Skipped)/sec is the count of times the database engine skips non-visible records while attempting to move to the next visible record in a B+ Tree per second. [Dev Only] 1703. 2471 1704. B+ Tree Move Prevs/sec is the count of times the database engine moves to the previous record in a B+ Tree per second. [Dev Only] 1705. 2473 1706. B+ Tree Move Prevs (Non-Visible Nodes Skipped)/sec is the count of times the database engine skips non-visible records while attempting to move to the previous visible record in a B+ Tree per second. [Dev Only] 1707. 2475 1708. B+ Tree Seeks/sec is the count of times a record is seeked to by a key in a database B+ Tree per second. [Dev Only] 1709. 2477 1710. B+ Tree Inserts/sec is the count of times a record is inserted in a database B+ Tree per second. [Dev Only] 1711. 2479 1712. B+ Tree Replaces/sec is the count of times a record is replaced in a database B+ Tree per second. [Dev Only] 1713. 2481 1714. B+ Tree Flag Deletes/sec is the count of times a record is flag deleted in a database B+ Tree per second. [Dev Only] 1715. 2483 1716. B+ Tree Deletes/sec is the count of times a record is deleted in a database B+ Tree per second. [Dev Only] 1717. 2485 1718. B+ Tree Appends/sec is the count of times a record is appended to a database B+ Tree per second. [Dev Only] 1719. 2487 1720. B+ Tree Creates/sec is the number of B+ Trees and their corresponding space trees (if any) created per second. This can also be viewed as the number of FDP creates per second. [Dev Only] 1721. 2489 1722. B+ Tree Creates (Total) is the total number of B+ Trees and their corresponding space trees (if any) created. This can also be viewed as the total number of FDP creates. [Dev Only] 1723. 2491 1724. B+ Tree Destroys/sec is the number of B+ Trees and their corresponding space trees (if any) destroyed per second. This can also be viewed as the number of FDP destroys per second. [Dev Only] 1725. 2493 1726. B+ Tree Destroys (Total) is the total number of B+ Trees and their corresponding space trees (if any) destroyed. This can also be viewed as the total number of FDP destroys. [Dev Only] 1727. 2495 1728. Database Cache % Hit is the percentage of database file page requests that were fulfilled by the database cache without causing a file operation. If this percentage is too low, the database cache size may be too small. 1729. 2497 1730. No text 1731. 2499 1732. Database Cache % Clean is the percentage of the database cache that does not contain modified data. [Dev Only] 1733. 2501 1734. No text 1735. 2503 1736. Database Pages Read Async/sec is the rate that pages are asynchronously read from the database file(s) into the database cache. [Dev Only] 1737. 2505 1738. Database Pages Read Sync/sec is the rate that pages are synchronously read from the database file(s) into the database cache. [Dev Only] 1739. 2507 1740. Database Pages Written/sec is the rate that pages are written to the database file (s) from the database cache. [Dev Only] 1741. 2509 1742. Database Pages Transferred/sec is the rate that pages are transferred from the database file(s) to the database cache and vice versa. [Dev Only] 1743. 2511 1744. Database Page Latches/sec is the rate that database pages are latched for access to their data. [Dev Only] 1745. 2513 1746. Database Page Fast Latches/sec is the rate that database pages are latched for access to their data using a hint to tell the cache manager where that page might be in memory. [Dev Only] 1747. 2515 1748. Database Page Bad Latch Hints/sec is the rate that incorrect hints to the location of a given page in the cache are given to the cache manager. These hints are used to perform fast latches. [Dev Only] 1749. 2517 1750. Database Cache % Fast Latch is the percentage of database pages latched for access to their data using a hint to tell the cache manager where that page might be in memory. Ideally, this percentage should match Database Cache % Hit. [Dev Only] 1751. 2519 1752. No text 1753. 2521 1754. Database Page Latch Conflicts/sec is the rate that users latching a database page for access to its data fail due to a conflicting latch owned on that same page by another user. [Dev Only] 1755. 2523 1756. Database Page Latch Stalls/sec is the rate that users latching a database page for access to its data must wait for another user to release a latch on that same page. [Dev Only] 1757. 2525 1758. Database Cache % Available is the percentage of the database cache that can be allocated to cache database pages that are newly created or read in from the database file(s). [Dev Only] 1759. 2527 1760. No text 1761. 2529 1762. Database Page Faults/sec is the rate that database file page requests require the database cache manager to allocate a new page from the database cache. 1763. 2531 1764. Database Page Evictions/sec is the rate that database file page requests that require the database cache manager to allocate a new page from the database cache force another database page out of the cache. The eviction count is charged when the page is allocated and not when the previous owner of that page was actually evicted from the cache. If this rate is too high, the database cache size may be too small. 1765. 2533 1766. Database Page Fault Stalls/sec is the rate of page faults that cannot be serviced because there are no pages available for allocation from the database cache. If this counter is non-zero most of the time, the clean threshold may be too low. 1767. 2535 1768. Database Cache Size (MB) is the amount of system memory (in MegaBytes) used by the database cache manager to hold commonly used information from the database file(s) to prevent file operations. If the database cache size seems to be too small for optimal performance and there is very little available memory on the system (see Memory/Available Bytes), adding more memory to the system may increase performance. If there is a lot of available memory on the system and the database cache size is not growing beyond a certain point, the database cache size may be capped at an artificially low limit. Increasing this limit may increase performance. 1769. 2537 1770. Database Cache Size is the amount of system memory used by the database cache manager to hold commonly used information from the database file(s) to prevent file operations. If the database cache size seems to be too small for optimal performance and there is very little available memory on the system (see Memory/Available Bytes), adding more memory to the system may increase performance. If there is a lot of available memory on the system and the database cache size is not growing beyond a certain point, the database cache size may be capped at an artificially low limit. Increasing this limit may increase performance. 1771. 2539 1772. Database Cache Size Min is the minimum amount of system memory configured for use by the database cache manager to hold commonly used information from the database file(s) to prevent file operations. [Dev Only] 1773. 2541 1774. Database Cache Size Max is the maximum amount of system memory configured for use by the database cache manager to hold commonly used information from the database file(s) to prevent file operations. [Dev Only] 1775. 2543 1776. Database Cache % Available Min is the minimum percentage of the database cache that is kept to be allocated to cache database pages that are newly created or read in from the database file(s). If the percentage of available pages drops below this minimum, pages are thrown out of the database cache until the maximum percentage of available pages is reached. This percentage should be set as low as possible without causing the actual percentage to drop to zero, causing cache fault stalls. [Dev Only] 1777. 2545 1778. No text 1779. 2547 1780. Database Cache % Available Max is the maximum percentage of the database cache that is kept to be allocated to cache database pages that are newly created or read in from the database file(s). This percentage should be set as low as possible but far enough above the minimum percentage so that efficient production of availible pages is possible. [Dev Only] 1781. 2549 1782. No text 1783. 2551 1784. Database Pages Preread/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache. [Dev Only] 1785. 2553 1786. Database Cached Pages Preread/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache that are already cached. This is non-ideal behavior that represents a waste of processing time. [Dev Only] 1787. 2555 1788. Database Pages Preread Untouched/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache that were subsequently thrown out without being used. This is non-ideal behavior that represents a waste of I/O bandwidth and processing time . [Dev Only] 1789. 2557 1790. Database Pages Versioned / sec is the rate at which pages in the database cache are being copied into new pages in the cache for the purpose of being asynchronously written while the current version of that page in the database file is still being modified. This feature is primarily used to avoid cycles, branches, or long chains of flush order dependencies without requiring the pages involved to be synchronously written to disk. [Dev Only] 1791. 2559 1792. Database Cache % Versioned is the percentage of the database cache that contains older versions of currently cached pages that have not yet been written to disk and thrown out of the cache. [Dev Only] 1793. 2561 1794. No text 1795. 2563 1796. Database Pages Ordinarily Written/sec is the rate that pages are written to the database file (s) from the database cache in preparation for evicting them from the cache to make room for other data. [Dev Only] 1797. 2565 1798. Database Pages Anomalously Written/sec is the rate that pages are written to the database file (s) from the database cache before they would ordinarily be written. [Dev Only] 1799. 2567 1800. Database Pages Opportunely Written/sec is the rate that pages are written to the database file (s) from the database cache because they happen to be near other pages that must be written. These additional writes are performed before they must happen in the hope that the total number of seeks required to write all the pages is reduced. [Dev Only] 1801. 2569 1802. Database Pages Repeatedly Written/sec is the rate that pages are written to the database file (s) from the database cache more than once in their lifetime in the cache. These page writes represent extra writes above the theoretical minimum and can therefore be considered overhead. [Dev Only] 1803. 2571 1804. Database Pages Idly Written/sec is the rate that pages are written to the database file (s) from the database cache because there is low disk activity. [Dev Only] 1805. 2573 1806. Database Pages Coalesced Written/sec is the rate that pages are written to the database file (s) from the database cache coalesced with another page. [Dev Only] 1807. 2575 1808. Database Pages Coalesced Read/sec is the rate that pages are read from the database file (s) to the database cache coalesced with another page. [Dev Only] 1809. 2577 1810. Database Page History Records is the current number of database page access history records retained for supporting the LRU-K page replacment algorithm. [Dev Only] 1811. 2579 1812. Database Page History % Hit is the percentage of database page access history record lookups that were successful. [Dev Only] 1813. 2581 1814. No text 1815. 2583 1816. Database Page Scans/sec is the rate at which database pages are considered for eviction from the database page cache. [Dev Only] 1817. 2585 1818. Database Page Scans Out-of-order/sec is the rate at which database pages are considered for eviction from the database page cache in a priority counter to the page replacement algorithm. [Dev Only] 1819. 2587 1820. No text 1821. 2589 1822. Streaming Backup Pages Read/sec is the rate of database read operations performed for the purpose of streaming backups. [Dev Only] 1823. 2591 1824. Online Defrag Pages Referenced/sec is the rate at which online defragmentation is touching database pages. [Dev Only] 1825. 2593 1826. Online Defrag Pages Read/sec is the rate of database read operations being performed by online defragmentation. [Dev Only] 1827. 2595 1828. Online Defrag Pages Preread/sec is the rate at which database pages are read in anticipation of future use by online defragmentation. [Dev Only] 1829. 2597 1830. Online Defrag Pages Dirtied/sec is the rate at which online defragmentation is modifying clean database pages. [Dev Only] 1831. 2599 1832. Online Defrag Pages Re-Dirtied/sec is the rate at which online defragmentation is modifying database pages that already contained modifications. [Dev Only] 1833. 2601 1834. Online Defrag Log Records/sec is the rate at which online defragmentation is generating log records. [Dev Only] 1835. 2603 1836. Online Defrag Average Log Bytes is the average size of the log records being generated by online defragmentation. [Dev only] 1837. 2605 1838. No text 1839. 2607 1840. Database Tasks Pages Referenced/sec is the rate at which background database tasks are touching database pages. [Dev Only] 1841. 2609 1842. Database Tasks Pages Read/sec is the rate of database read operations being performed by background database tasks. [Dev Only] 1843. 2611 1844. Database Tasks Pages Preread/sec is the rate at which database pages are read in anticipation of future use by background database tasks. [Dev Only] 1845. 2613 1846. Database Tasks Pages Dirtied/sec is the rate at which background database tasks are modifying clean database pages. [Dev Only] 1847. 2615 1848. Database Tasks Pages Re-Dirtied/sec is the rate at which background databases tasks are modifying database pages that already contained modifications. [Dev Only] 1849. 2617 1850. Database Tasks Log Records/sec is the rate at which background database tasks are generating log records. [Dev Only] 1851. 2619 1852. Database Tasks Average Log Bytes is the average size of the log records being generated by background database tasks. [Dev only] 1853. 2621 1854. No text 1855. 2623 1856. I/O Database Reads/sec is the rate of database read operations completed. 1857. 2625 1858. I/O Database Reads Average Latency is the average length of time, in milliseconds, per database read operation. 1859. 2627 1860. No text 1861. 2629 1862. I/O Database Reads Average Bytes is the average number of bytes transferred per database read operation. [Dev Only] 1863. 2631 1864. No text 1865. 2633 1866. I/O Database Reads In Heap is the number of database read operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 1867. 2635 1868. I/O Database Reads Async Pending is the number of database read operations asynchronously pending completion. [Dev Only] 1869. 2637 1870. I/O Database Reads Abnormal Latency/sec is the rate of database read operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 1871. 2639 1872. I/O Log Reads/sec is the rate of logfile read operations completed. 1873. 2641 1874. I/O Log Reads Average Latency is the average length of time, in milliseconds, per logfile read operation. [Dev Only] 1875. 2643 1876. No text 1877. 2645 1878. I/O Log Reads Average Bytes is the average number of bytes transferred per logfile read operation. [Dev Only] 1879. 2647 1880. No text 1881. 2649 1882. I/O Log Reads In Heap is the number of logfile read operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 1883. 2651 1884. I/O Log Reads Async Pending is the number of logfile read operations asynchronously pending completion. [Dev Only] 1885. 2653 1886. I/O Log Reads Abnormal Latency/sec is the rate of logfile read operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 1887. 2655 1888. I/O Database Writes/sec is the rate of database write operations completed. 1889. 2657 1890. I/O Database Writes Average Latency is the average length of time, in milliseconds, per database write operation. 1891. 2659 1892. No text 1893. 2661 1894. I/O Database Writes Average Bytes is the average number of bytes transferred per database write operation. [Dev Only] 1895. 2663 1896. No text 1897. 2665 1898. I/O Database Writes In Heap is the number of database write operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 1899. 2667 1900. I/O Database Writes Async Pending is the number of database write operations asynchronously pending completion. [Dev Only] 1901. 2669 1902. I/O Database Writes Abnormal Latency/sec is the rate of database write operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 1903. 2671 1904. I/O Log Writes/sec is the rate of logfile write operations completed. 1905. 2673 1906. I/O Log Writes Average Latency is the average length of time, in milliseconds, per logfile write operation. 1907. 2675 1908. No text 1909. 2677 1910. I/O Log Writes Average Bytes is the average number of bytes transferred per logfile write operation. [Dev Only] 1911. 2679 1912. No text 1913. 2681 1914. I/O Log Writes In Heap is the number of logfile write operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 1915. 2683 1916. I/O Log Writes Async Pending is the number of logfile write operations asynchronously pending completion. [Dev Only] 1917. 2685 1918. I/O Log Writes Abnormal Latency/sec is the rate of logfile write operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 1919. 2687 1920. SLV File Table Inserts/sec is the rate at which entries are inserted into an SLV File Table in the system. [Dev Only] 1921. 2689 1922. SLV File Table Cleans/sec is the rate at which attempta are made to delete an entry from an SLV File Table in the system. [Dev Only] 1923. 2691 1924. SLV File Table Deletes/sec is the rate at which entries are deleted from an SLV File Table in the system. [Dev Only] 1925. 2693 1926. SLV File Table Entries is the total number of entries contained in all SLV File Tables in the system. [Dev Only] 1927. 2695 1928. Threads Blocked/sec is the rate at which the execution of threads are suspended to wait for a specific event to occur or for the acquisition of a resource currently owned by another thread. [Dev Only] 1929. 2697 1930. Threads Blocked is the current number of threads whose execution has been suspended to wait for a specific event to occur or for the acquisition of a resource currently owned by another thread. [Dev Only] 1931. 2699 1932. Statistics for the ESE high performance embedded database management system by Table Class 1933. 2701 1934. Record Inserts/sec is the rate at which records are being inserted into database tables. [Dev Only] 1935. 2703 1936. Record Deletes/sec is the rate at which records in database tables are being flagged for deletion. [Dev Only] 1937. 2705 1938. Record Deletes/sec is the rate at which records in database tables are being updated. [Dev Only] 1939. 2707 1940. Record Unnecessary Replaces/sec is the rate at which updates to records in database tables are being discarded because the update did not actually modify the contents of the record. [Dev Only] 1941. 2709 1942. Record Redundant Replaces/sec is the rate at which records in database tables are being updated with the exact same content of the original record. [Dev Only] 1943. 2711 1944. Record Escrow-Updates/sec is the rate at which records in database tables are being escrow-updated. [Dev Only] 1945. 2713 1946. Secondary Index Inserts/sec is the rate at which entries are being inserted into indexes of database tables. [Dev Only] 1947. 2715 1948. Secondary Index Deletes/sec is the rate at which entries in indexes of database tables are being flagged for deletion. [Dev Only] 1949. 2717 1950. False Index Column Updates/sec is the number of times per second an attempt was made to update an index because an update to at least one of the indexed columns was detected, only to discover that none of the indexed columns had actually changed (and therefore no index update was actually required). [Dev Only] 1951. 2719 1952. False Tuple Index Column Updates/sec is the number of times per second an attempt was made to update a tuple index because an update to the tuple-indexed column was detected, only to discover that the column had not actually changed (and therefore no index update was actually required). [Dev Only] 1953. 2721 1954. Record Intrinsic Long-Values Updated/sec is the rate at which intrinsic long-values are added to or replaced in records of database tables. [Dev Only] 1955. 2723 1956. Record Separated Long-Values Added/sec is the rate at which separated long-values are normally added to records of database tables. [Dev Only] 1957. 2725 1958. Record Separated Long-Values Forced/sec is the rate at which separated long-values are added to records of a database table because they could not be accommodated in the record itself. [Dev Only] 1959. 2727 1960. Record Separated Long-Values All Forced/sec is the rate at which all intrinsic long-values are separated out of a record of a database table in order to accommodate updates to the record. [Dev Only] 1961. 2729 1962. Record Separated Long-Values Reference All/sec is the rate at which a reference is added for all the separated long-values associated with a record of a database table. [Dev Only] 1963. 2731 1964. Record Separated Long-Values Dereference All/sec is the rate at which a reference is removed for all the separated long-values associated with a record of a database table. [Dev Only] 1965. 2733 1966. Separated Long-Value Seeks/sec is the rate at which seeks for a separated long-value in a database table are performed. [Dev Only] 1967. 2735 1968. Separated Long-Value Retrieves/sec is the rate at which retrievals of a separated long-value in a database table are performed. [Dev Only] 1969. 2737 1970. Separated Long-Value Creates/sec is the rate at which new separated long-values are added to a database table. [Dev Only] 1971. 2739 1972. Separated Long-Value Updates/sec is the rate at which existing separated long-values in a database table are modified. [Dev Only] 1973. 2741 1974. Separated Long-Value Deletes/sec is the rate at which separated long-values in a database table are flagged for deletion. [Dev Only] 1975. 2743 1976. Separated Long-Value Copies/sec is the rate at which existing separated long-values in a database table are copied. [Dev Only] 1977. 2745 1978. Separated Long-Value Chunk Seeks/sec is the rate at which seeks for a particular chunk of a separated long-value in a database table are performed. [Dev Only] 1979. 2747 1980. Separated Long-Value Chunk Retrieves/sec is the rate at which retrievals of a chunk of a separated long-value in a database table are performed. [Dev Only] 1981. 2749 1982. Separated Long-Value Chunk Appends/sec is the rate at which chunks are appended to separated long-values of database tables. [Dev Only] 1983. 2751 1984. Separated Long-Value Chunk Replaces/sec is the rate at which existing separated long-value chunks in a database table are replaced. [Dev Only] 1985. 2753 1986. Separated Long-Value Chunk Deletes/sec is the rate at which separated long-value chunks in a database table are flagged for deletion. [Dev Only] 1987. 2755 1988. Separated Long-Value Chunk Copies/sec is the rate at which existing separated long-value chunks in a database table are copied. [Dev Only] 1989. 2757 1990. B+ Tree Append Splits/sec is the count of times a page is appended to a database B+ Tree per second. [Dev Only] 1991. 2759 1992. B+ Tree Right Splits/sec is the count of times a page is split right in a database B+ Tree per second. [Dev Only] 1993. 2761 1994. B+ Tree Right Hotpoint Splits/sec is the count of times a page is split right in a database B+ Tree, but which is treated as an append at a local "hotpoint" in the B+ Tree per second. [Dev Only] 1995. 2763 1996. B+ Tree Vertical Splits/sec is the count of times a page is split vertically in a database B+ Tree per second. [Dev Only] 1997. 2765 1998. B+ Tree Splits/sec is the count of times a page is appended to or split in a database B+ Tree per second. [Dev Only] 1999. 2767 2000. B+ Tree Empty Page Merges/sec is the count of empty pages removed from a database B+ Tree per second. [Dev Only] 2001. 2769 2002. Right Merges/sec is the count of pages removed from a database B+ Tree per second by moving all its records to the next page to the right. [Dev Only] 2003. 2771 2004. B+ Tree Partial Merges/sec is the count of pages where some of its records are moved to a page on the right in a database B+ Tree per second. [Dev Only] 2005. 2773 2006. B+ Tree Merges/sec is the count of pages merged in a database B+ Tree per second. [Dev Only] 2007. 2775 2008. B+ Tree Failed Simple Page Cleanup Attempts/sec is the rate that attempts to reclaim deleted node space on a page are unsuccessful due to a conflict when attempting to write-latch the page. The cleanup is re-tried by locking the root of the B+ Tree. [Dev Only] 2009. 2777 2010. B+ Tree Seek Short Circuits/sec is the count of repeated seeks to the same record in a database B+ Tree that are saved by jumping directly to the cached physical location of that record per second. [Dev Only] 2011. 2779 2012. B+ Tree Unnecessary Sibling Latches/sec is the count of sibling pages latched during a database B+ Tree Delete in the hopes of performing a merge where a merge is not possible, making that latch unnecessary. [Dev Only] 2013. 2781 2014. B+ Tree Move Nexts/sec is the count of times the database engine moves to the next record in a B+ Tree per second. [Dev Only] 2015. 2783 2016. B+ Tree Move Nexts (Non-Visible Nodes Skipped)/sec is the count of times the database engine skips non-visible records while attempting to move to the next visible record in a B+ Tree per second. [Dev Only] 2017. 2785 2018. B+ Tree Move Prevs/sec is the count of times the database engine moves to the previous record in a B+ Tree per second. [Dev Only] 2019. 2787 2020. B+ Tree Move Prevs (Non-Visible Nodes Skipped)/sec is the count of times the database engine skips non-visible records while attempting to move to the previous visible record in a B+ Tree per second. [Dev Only] 2021. 2789 2022. B+ Tree Seeks/sec is the count of times a record is seeked to by a key in a database B+ Tree per second. [Dev Only] 2023. 2791 2024. B+ Tree Inserts/sec is the count of times a record is inserted in a database B+ Tree per second. [Dev Only] 2025. 2793 2026. B+ Tree Replaces/sec is the count of times a record is replaced in a database B+ Tree per second. [Dev Only] 2027. 2795 2028. B+ Tree Flag Deletes/sec is the count of times a record is flag deleted in a database B+ Tree per second. [Dev Only] 2029. 2797 2030. B+ Tree Deletes/sec is the count of times a record is deleted in a database B+ Tree per second. [Dev Only] 2031. 2799 2032. B+ Tree Appends/sec is the count of times a record is appended to a database B+ Tree per second. [Dev Only] 2033. 2801 2034. B+ Tree Creates/sec is the number of B+ Trees and their corresponding space trees (if any) created per second. This can also be viewed as the number of FDP creates per second. [Dev Only] 2035. 2803 2036. B+ Tree Creates (Total) is the total number of B+ Trees and their corresponding space trees (if any) created. This can also be viewed as the total number of FDP creates. [Dev Only] 2037. 2805 2038. B+ Tree Destroys/sec is the number of B+ Trees and their corresponding space trees (if any) destroyed per second. This can also be viewed as the number of FDP destroys per second. [Dev Only] 2039. 2807 2040. B+ Tree Destroys (Total) is the total number of B+ Trees and their corresponding space trees (if any) destroyed. This can also be viewed as the total number of FDP destroys. [Dev Only] 2041. 2809 2042. Database Cache Size (MB) is the amount of system memory (in MegaBytes) used by the database cache manager to hold commonly used information from the database file(s) to prevent file operations. If the database cache size seems to be too small for optimal performance and there is very little available memory on the system (see Memory/Available Bytes), adding more memory to the system may increase performance. If there is a lot of available memory on the system and the database cache size is not growing beyond a certain point, the database cache size may be capped at an artificially low limit. Increasing this limit may increase performance. 2043. 2811 2044. Database Pages Read Async/sec is the rate that pages are asynchronously read from the database file(s) into the database cache. [Dev Only] 2045. 2813 2046. Database Pages Read Sync/sec is the rate that pages are synchronously read from the database file(s) into the database cache. [Dev Only] 2047. 2815 2048. Database Pages Written/sec is the rate that pages are written to the database file (s) from the database cache. [Dev Only] 2049. 2817 2050. Database Pages Transferred/sec is the rate that pages are transferred from the database file(s) to the database cache and vice versa. [Dev Only] 2051. 2819 2052. Database Pages Preread/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache. [Dev Only] 2053. 2821 2054. Database Cached Pages Preread/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache that are already cached. This is non-ideal behavior that represents a waste of processing time. [Dev Only] 2055. 2823 2056. Database Pages Preread Untouched/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache that were subsequently thrown out without being used. This is non-ideal behavior that represents a waste of I/O bandwidth and processing time . [Dev Only] 2057. 2825 2058. Database Pages Versioned / sec is the rate at which pages in the database cache are being copied into new pages in the cache for the purpose of being asynchronously written while the current version of that page in the database file is still being modified. This feature is primarily used to avoid cycles, branches, or long chains of flush order dependencies without requiring the pages involved to be synchronously written to disk. [Dev Only] 2059. 2827 2060. Database Pages Ordinarily Written/sec is the rate that pages are written to the database file (s) from the database cache in preparation for evicting them from the cache to make room for other data. [Dev Only] 2061. 2829 2062. Database Pages Anomalously Written/sec is the rate that pages are written to the database file (s) from the database cache before they would ordinarily be written. [Dev Only] 2063. 2831 2064. Database Pages Opportunely Written/sec is the rate that pages are written to the database file (s) from the database cache because they happen to be near other pages that must be written. These additional writes are performed before they must happen in the hope that the total number of seeks required to write all the pages is reduced. [Dev Only] 2065. 2833 2066. Database Pages Repeatedly Written/sec is the rate that pages are written to the database file (s) from the database cache more than once in their lifetime in the cache. These page writes represent extra writes above the theoretical minimum and can therefore be considered overhead. [Dev Only] 2067. 2835 2068. Database Pages Idly Written/sec is the rate that pages are written to the database file (s) from the database cache because there is low disk activity. [Dev Only] 2069. 2837 2070. Database Pages Coalesced Written/sec is the rate that pages are written to the database file (s) from the database cache coalesced with another page. [Dev Only] 2071. 2839 2072. Database Pages Coalesced Read/sec is the rate that pages are read from the database file (s) to the database cache coalesced with another page. [Dev Only] 2073. 2841 2074. Instances in this process 2075. 2843 2076. Pages Converted/sec is the count of times per second a database page is converted from an older database format 2077. 2845 2078. Pages Converted is the count of database pages that have been converted from an older format 2079. 2847 2080. Records Converted/sec is the count of times per second a database record is converted from an older database format 2081. 2849 2082. Records Converted is the count of database records that have been converted from an older format 2083. 2851 2084. FCB Asynchronous Scan/sec is the number of cached schema records (FCBs) scanned during asynchronous schema record cleanup. These records are scanned to age out older schema definitions. [Dev Only] 2085. 2853 2086. FCB Asynchronous Purge/sec is the number of cached schema records (FCBs) purged during asynchronous schema record cleanup. These records are purged to age out older schema definitions. [Dev Only] 2087. 2855 2088. FCB Asynchronous Threshold-Scan/sec is the number of cached schema records (FCBs) scanned during asynchronous schema record cleanup. Cleanup was triggered by a large number of schema records above the preferred limit. These records are aggressively scanned to age out older schema definitions. [Dev Only] 2089. 2857 2090. FCB Asynchronous Threshold-Purge/sec is the number of cached schema records (FCBs) purged during asynchronous schema record cleanup. Cleanup was triggered by a large number of schema records above the preferred limit. These records are aggressively purged to age out older schema definitions. [Dev Only] 2091. 2859 2092. FCB Asynchronous Purge Conflicts/sec is the number of failed purge attempts on cached schema records (FCBs) during asynchronous schema record cleanup. The purge operation failed because exclusive ownership of the schema record could not be obtained. [Dev Only] 2093. 2861 2094. FCB Synchronous Purge/sec is the number of cached schema records (FCBs) being synchronously purged each second. [Dev Only] 2095. 2863 2096. FCB Synchronous Purge Stalls/sec is the number of stalls encountered while waiting for exclusive ownership of cached schema records (FCBs) in order to synchronously purge them. [Dev Only] 2097. 2865 2098. FCB Allocations Wait For Version Cleanup/sec is the number of FCB allocations that must first wait for version cleanup in an attempt to free used FCBs for re-use. [Dev Only] 2099. 2867 2100. FCB Purge On Cursor Close/sec is the number of cached schema records (FCBs) being synchronously purged when the cursor is closed (instead of leaving the schema record cached) each second. [Dev Only] 2101. 2869 2102. FCB Cache % Hit is the percentage of schema records (FCBs) opened directly from the schema record cache. No file operations were required. [Dev Only] 2103. 2871 2104. No text 2105. 2873 2106. FCB Cache Stalls/sec is the number of stalls encountered while waiting for exclusive ownership of cached schema records (FCBs) in order to update their reference count. [Dev Only] 2107. 2875 2108. FCB Cache Maximum is the absolute maximum number of the schema records (FCBs) that can exist in the cache. [Dev Only] 2109. 2877 2110. FCB Cache Preferred is the preferred maximum number of the schema records (FCBs) that should exist in the cache. [Dev Only] 2111. 2879 2112. FCB Cache Allocated is the number of cached schema records (FCBs) currently allocated and in use. [Dev Only] 2113. 2881 2114. FCB Cache Available is the number of cached schema records (FCBs) currently allocated but not in use. These records will be used and/or purged as required. [Dev Only] 2115. 2883 2116. Sessions In Use is the number of database sessions currently open for use by client threads. [Dev Only] 2117. 2885 2118. Sessions % Used is the percentage of database sessions currently open for use by client threads. [Dev Only] 2119. 2887 2120. No text 2121. 2889 2122. Table Open Cache % Hit is the percentage of database tables opened using cached schema information. If this percentage is too low, the table cache size may be too small. 2123. 2891 2124. No text 2125. 2893 2126. Table Open Cache Hits/sec is the number of database tables opened using cached schema information per second. If this rate is too low, the table cache size may be too small. 2127. 2895 2128. Table Open Cache Misses/sec is the number of database tables opened without using cached schema information per second. If this rate is too high, the table cache size may be too small. 2129. 2897 2130. Table Opens/sec is the number of database tables opened per second. 2131. 2899 2132. Log Bytes Write per second is the rate bytes are written to the log. 2133. 2901 2134. Log Buffer Size is the amount of memory, in bytes, allocated for the database log buffers. [Dev Only] 2135. 2903 2136. Log Buffer Bytes Used is the amount of bytes in the log buffers that have not yet been flushed to the logs. [Dev only] 2137. 2905 2138. Log Buffer Bytes Free is the amount of free space available in the log buffers. [Dev only] 2139. 2907 2140. Log Threads Waiting is the number of threads waiting for their data to be written to the log in order to complete an update of the database. If this number is too high, the log may be a bottleneck. 2141. 2909 2142. Log File Size is the size, in bytes, of the database log files. [Dev Only] 2143. 2911 2144. Log Checkpoint Depth represents the amount of work, in bytes, that will need to be redone or undone to the database file(s) if the process crashes. [Dev Only] 2145. 2913 2146. Log Generation Checkpoint Depth represents the amount of work, in count of log files, that will need to be redone or undone to the database file(s) if the process crashes. 2147. 2915 2148. User Read Only Transaction Commits to Level 0/sec is the count of fully committed transactions started by the calling process that do not modify any data stored in the database engine. [Dev Only] 2149. 2917 2150. User Read/Write Transaction Commits to Level 0/sec is the count of fully committed transactions started by the calling process that modify data stored in the database engine. [Dev Only] 2151. 2919 2152. User Transaction Commits to Level 0/sec is the count of fully committed transactions started by the calling process that access data stored in the database engine. [Dev Only] 2153. 2921 2154. User Read Only Transaction Rollbacks to Level 0/sec is the count of aborted transactions started by the calling process that do not modify any data stored in the database engine. [Dev Only] 2155. 2923 2156. User Read/Write Transaction Rollbacks to Level 0/sec is the count of aborted transactions started by the calling process that modify data stored in the database engine. [Dev Only] 2157. 2925 2158. User Transaction Rollbacks to Level 0/sec is the count of aborted transactions started by the calling process that access data stored in the database engine. [Dev Only] 2159. 2927 2160. System Read Only Transaction Commits to Level 0/sec is the count of fully committed transactions started internally that do not modify any data stored in the database engine. [Dev Only] 2161. 2929 2162. System Read/Write Transaction Commits to Level 0/sec is the count of fully committed transactions started internally that modify data stored in the database engine. [Dev Only] 2163. 2931 2164. System Transaction Commits to Level 0/sec is the count of fully committed transactions started internally that access data stored in the database engine. [Dev Only] 2165. 2933 2166. System Read Only Transaction Rollbacks to Level 0/sec is the count of aborted transactions started internally that do not modify any data stored in the database engine. [Dev Only] 2167. 2935 2168. System Read/Write Transaction Rollbacks to Level 0/sec is the count of aborted transactions started internally that modify data stored in the database engine. [Dev Only] 2169. 2937 2170. System Transaction Rollbacks to Level 0/sec is the count of aborted transactions started internally that access data stored in the database engine. [Dev Only] 2171. 2939 2172. Database Page Allocation File Extension Async Consumed/sec is the rate of page allocations from a database file that must be serviced by extending the database file, but which do not stall when doing doing so. [Dev Only] 2173. 2941 2174. Database Page Allocation File Extension Stalls/sec is the rate of page allocations from a database file that must be serviced by extending the database file and which stall when doing so. [Dev Only] 2175. 2943 2176. Log Records/sec is the count of records written to the database log buffers per second. [Dev Only] 2177. 2945 2178. Log Buffer Capacity Flushes/sec is the count of times the database log buffers must be flushed per second because they are full. [Dev Only] 2179. 2947 2180. Log Buffer Commit Flushes/sec is the count of times the database log buffers must be flushed per second because a transaction is fully committing its changes. [Dev Only] 2181. 2949 2182. Log Buffer Flushes/sec is the count of times the database log buffers must be flushed per second. 2183. 2951 2184. Log Writes/sec is the number of times the log buffers are written to the log file(s) per second. If this number approaches the maximum write rate for the media holding the log file(s), the log may be a bottleneck. 2185. 2953 2186. Log Record Stalls/sec is the number of log records that cannot be added to the log buffers per second because they are full. If this counter is non-zero most of the time, the log buffer size may be a bottleneck. 2187. 2955 2188. Total number of version buckets allocated 2189. 2957 2190. Total number of version buckets allocated for FlagDelete RCEs [Dev Only] 2191. 2959 2192. VER Bucket Allocations Wait For Version Cleanup/sec is the number of version bucket allocations that must first wait for version cleanup in an attempt to free used version buckets for re-use. [Dev Only] 2193. 2961 2194. Average length of bookmark in RCE [Dev Only] 2195. 2963 2196. Number of times per second we look in the version store for a node whose version bit is set but which has no versions [Dev Only] 2197. 2965 2198. Number of times per second a version store clean task is dispatched asynchronously to be performed [Dev Only] 2199. 2967 2200. Number of times per second a version store clean task is performed synchronously [Dev Only] 2201. 2969 2202. Number of times per second a version store clean task was discarded due to load concerns [Dev Only] 2203. 2971 2204. Number of times per second a dispatched version store cleanup task fails [Dev Only] 2205. 2973 2206. Record Inserts/sec is the rate at which records are being inserted into database tables. [Dev Only] 2207. 2975 2208. Record Deletes/sec is the rate at which records in database tables are being flagged for deletion. [Dev Only] 2209. 2977 2210. Record Deletes/sec is the rate at which records in database tables are being updated. [Dev Only] 2211. 2979 2212. Record Unnecessary Replaces/sec is the rate at which updates to records in database tables are being discarded because the update did not actually modify the contents of the record. [Dev Only] 2213. 2981 2214. Record Redundant Replaces/sec is the rate at which records in database tables are being updated with the exact same content of the original record. [Dev Only] 2215. 2983 2216. Record Escrow-Updates/sec is the rate at which records in database tables are being escrow-updated. [Dev Only] 2217. 2985 2218. Secondary Index Inserts/sec is the rate at which entries are being inserted into indexes of database tables. [Dev Only] 2219. 2987 2220. Secondary Index Deletes/sec is the rate at which entries in indexes of database tables are being flagged for deletion. [Dev Only] 2221. 2989 2222. False Index Column Updates/sec is the number of times per second an attempt was made to update an index because an update to at least one of the indexed columns was detected, only to discover that none of the indexed columns had actually changed (and therefore no index update was actually required). [Dev Only] 2223. 2991 2224. False Tuple Index Column Updates/sec is the number of times per second an attempt was made to update a tuple index because an update to the tuple-indexed column was detected, only to discover that the column had not actually changed (and therefore no index update was actually required). [Dev Only] 2225. 2993 2226. Record Intrinsic Long-Values Updated/sec is the rate at which intrinsic long-values are added to or replaced in records of database tables. [Dev Only] 2227. 2995 2228. Record Separated Long-Values Added/sec is the rate at which separated long-values are normally added to records of database tables. [Dev Only] 2229. 2997 2230. Record Separated Long-Values Forced/sec is the rate at which separated long-values are added to records of a database table because they could not be accommodated in the record itself. [Dev Only] 2231. 2999 2232. Record Separated Long-Values All Forced/sec is the rate at which all intrinsic long-values are separated out of a record of a database table in order to accommodate updates to the record. [Dev Only] 2233. 3001 2234. Record Separated Long-Values Reference All/sec is the rate at which a reference is added for all the separated long-values associated with a record of a database table. [Dev Only] 2235. 3003 2236. Record Separated Long-Values Dereference All/sec is the rate at which a reference is removed for all the separated long-values associated with a record of a database table. [Dev Only] 2237. 3005 2238. Separated Long-Value Seeks/sec is the rate at which seeks for a separated long-value in a database table are performed. [Dev Only] 2239. 3007 2240. Separated Long-Value Retrieves/sec is the rate at which retrievals of a separated long-value in a database table are performed. [Dev Only] 2241. 3009 2242. Separated Long-Value Creates/sec is the rate at which new separated long-values are added to a database table. [Dev Only] 2243. 3011 2244. Separated Long-Value Updates/sec is the rate at which existing separated long-values in a database table are modified. [Dev Only] 2245. 3013 2246. Separated Long-Value Deletes/sec is the rate at which separated long-values in a database table are flagged for deletion. [Dev Only] 2247. 3015 2248. Separated Long-Value Copies/sec is the rate at which existing separated long-values in a database table are copied. [Dev Only] 2249. 3017 2250. Separated Long-Value Chunk Seeks/sec is the rate at which seeks for a particular chunk of a separated long-value in a database table are performed. [Dev Only] 2251. 3019 2252. Separated Long-Value Chunk Retrieves/sec is the rate at which retrievals of a chunk of a separated long-value in a database table are performed. [Dev Only] 2253. 3021 2254. Separated Long-Value Chunk Appends/sec is the rate at which chunks are appended to separated long-values of database tables. [Dev Only] 2255. 3023 2256. Separated Long-Value Chunk Replaces/sec is the rate at which existing separated long-value chunks in a database table are replaced. [Dev Only] 2257. 3025 2258. Separated Long-Value Chunk Deletes/sec is the rate at which separated long-value chunks in a database table are flagged for deletion. [Dev Only] 2259. 3027 2260. Separated Long-Value Chunk Copies/sec is the rate at which existing separated long-value chunks in a database table are copied. [Dev Only] 2261. 3029 2262. B+ Tree Append Splits/sec is the count of times a page is appended to a database B+ Tree per second. [Dev Only] 2263. 3031 2264. B+ Tree Right Splits/sec is the count of times a page is split right in a database B+ Tree per second. [Dev Only] 2265. 3033 2266. B+ Tree Right Hotpoint Splits/sec is the count of times a page is split right in a database B+ Tree, but which is treated as an append at a local "hotpoint" in the B+ Tree per second. [Dev Only] 2267. 3035 2268. B+ Tree Vertical Splits/sec is the count of times a page is split vertically in a database B+ Tree per second. [Dev Only] 2269. 3037 2270. B+ Tree Splits/sec is the count of times a page is appended to or split in a database B+ Tree per second. [Dev Only] 2271. 3039 2272. B+ Tree Empty Page Merges/sec is the count of empty pages removed from a database B+ Tree per second. [Dev Only] 2273. 3041 2274. Right Merges/sec is the count of pages removed from a database B+ Tree per second by moving all its records to the next page to the right. [Dev Only] 2275. 3043 2276. B+ Tree Partial Merges/sec is the count of pages where some of its records are moved to a page on the right in a database B+ Tree per second. [Dev Only] 2277. 3045 2278. B+ Tree Merges/sec is the count of pages merged in a database B+ Tree per second. [Dev Only] 2279. 3047 2280. B+ Tree Failed Simple Page Cleanup Attempts/sec is the rate that attempts to reclaim deleted node space on a page are unsuccessful due to a conflict when attempting to write-latch the page. The cleanup is re-tried by locking the root of the B+ Tree. [Dev Only] 2281. 3049 2282. B+ Tree Seek Short Circuits/sec is the count of repeated seeks to the same record in a database B+ Tree that are saved by jumping directly to the cached physical location of that record per second. [Dev Only] 2283. 3051 2284. B+ Tree Unnecessary Sibling Latches/sec is the count of sibling pages latched during a database B+ Tree Delete in the hopes of performing a merge where a merge is not possible, making that latch unnecessary. [Dev Only] 2285. 3053 2286. B+ Tree Move Nexts/sec is the count of times the database engine moves to the next record in a B+ Tree per second. [Dev Only] 2287. 3055 2288. B+ Tree Move Nexts (Non-Visible Nodes Skipped)/sec is the count of times the database engine skips non-visible records while attempting to move to the next visible record in a B+ Tree per second. [Dev Only] 2289. 3057 2290. B+ Tree Move Prevs/sec is the count of times the database engine moves to the previous record in a B+ Tree per second. [Dev Only] 2291. 3059 2292. B+ Tree Move Prevs (Non-Visible Nodes Skipped)/sec is the count of times the database engine skips non-visible records while attempting to move to the previous visible record in a B+ Tree per second. [Dev Only] 2293. 3061 2294. B+ Tree Seeks/sec is the count of times a record is seeked to by a key in a database B+ Tree per second. [Dev Only] 2295. 3063 2296. B+ Tree Inserts/sec is the count of times a record is inserted in a database B+ Tree per second. [Dev Only] 2297. 3065 2298. B+ Tree Replaces/sec is the count of times a record is replaced in a database B+ Tree per second. [Dev Only] 2299. 3067 2300. B+ Tree Flag Deletes/sec is the count of times a record is flag deleted in a database B+ Tree per second. [Dev Only] 2301. 3069 2302. B+ Tree Deletes/sec is the count of times a record is deleted in a database B+ Tree per second. [Dev Only] 2303. 3071 2304. B+ Tree Appends/sec is the count of times a record is appended to a database B+ Tree per second. [Dev Only] 2305. 3073 2306. B+ Tree Creates/sec is the number of B+ Trees and their corresponding space trees (if any) created per second. This can also be viewed as the number of FDP creates per second. [Dev Only] 2307. 3075 2308. B+ Tree Creates (Total) is the total number of B+ Trees and their corresponding space trees (if any) created. This can also be viewed as the total number of FDP creates. [Dev Only] 2309. 3077 2310. B+ Tree Destroys/sec is the number of B+ Trees and their corresponding space trees (if any) destroyed per second. This can also be viewed as the number of FDP destroys per second. [Dev Only] 2311. 3079 2312. B+ Tree Destroys (Total) is the total number of B+ Trees and their corresponding space trees (if any) destroyed. This can also be viewed as the total number of FDP destroys. [Dev Only] 2313. 3081 2314. Database Pages Read Async/sec is the rate that pages are asynchronously read from the database file(s) into the database cache. [Dev Only] 2315. 3083 2316. Database Pages Read Sync/sec is the rate that pages are synchronously read from the database file(s) into the database cache. [Dev Only] 2317. 3085 2318. Database Pages Written/sec is the rate that pages are written to the database file (s) from the database cache. [Dev Only] 2319. 3087 2320. Database Pages Transferred/sec is the rate that pages are transferred from the database file(s) to the database cache and vice versa. [Dev Only] 2321. 3089 2322. Database Pages Preread/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache. [Dev Only] 2323. 3091 2324. Database Cached Pages Preread/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache that are already cached. This is non-ideal behavior that represents a waste of processing time. [Dev Only] 2325. 3093 2326. Database Pages Preread Untouched/sec is the rate that pages are read in anticipation of future use from the database file(s) into the database cache that were subsequently thrown out without being used. This is non-ideal behavior that represents a waste of I/O bandwidth and processing time . [Dev Only] 2327. 3095 2328. Database Pages Versioned / sec is the rate at which pages in the database cache are being copied into new pages in the cache for the purpose of being asynchronously written while the current version of that page in the database file is still being modified. This feature is primarily used to avoid cycles, branches, or long chains of flush order dependencies without requiring the pages involved to be synchronously written to disk. [Dev Only] 2329. 3097 2330. Database Pages Ordinarily Written/sec is the rate that pages are written to the database file (s) from the database cache in preparation for evicting them from the cache to make room for other data. [Dev Only] 2331. 3099 2332. Database Pages Anomalously Written/sec is the rate that pages are written to the database file (s) from the database cache before they would ordinarily be written. [Dev Only] 2333. 3101 2334. Database Pages Opportunely Written/sec is the rate that pages are written to the database file (s) from the database cache because they happen to be near other pages that must be written. These additional writes are performed before they must happen in the hope that the total number of seeks required to write all the pages is reduced. [Dev Only] 2335. 3103 2336. Database Pages Repeatedly Written/sec is the rate that pages are written to the database file (s) from the database cache more than once in their lifetime in the cache. These page writes represent extra writes above the theoretical minimum and can therefore be considered overhead. [Dev Only] 2337. 3105 2338. Database Pages Idly Written/sec is the rate that pages are written to the database file (s) from the database cache because there is low disk activity. [Dev Only] 2339. 3107 2340. Database Pages Coalesced Written/sec is the rate that pages are written to the database file (s) from the database cache coalesced with another page. [Dev Only] 2341. 3109 2342. Database Pages Coalesced Read/sec is the rate that pages are read from the database file (s) to the database cache coalesced with another page. [Dev Only] 2343. 3111 2344. Streaming Backup Pages Read/sec is the rate of database read operationsperformed for the purpose of streaming backups. 2345. 3113 2346. Online Defrag Pages Referenced/sec is the rate at which online defragmentation is touching database pages. [Dev Only] 2347. 3115 2348. Online Defrag Pages Read/sec is the rate of database read operations being performed by online defragmentation. [Dev Only] 2349. 3117 2350. Online Defrag Pages Preread/sec is the rate at which database pages are read in anticipation of future use by online defragmentation. [Dev Only] 2351. 3119 2352. Online Defrag Pages Dirtied/sec is the rate at which online defragmentation is modifying clean database pages. [Dev Only] 2353. 3121 2354. Online Defrag Pages Re-Dirtied/sec is the rate at which online defragmentation is modifying database pages that already contained modifications. [Dev Only] 2355. 3123 2356. Online Defrag Log Records/sec is the rate at which online defragmentation is generating log records. [Dev Only] 2357. 3125 2358. Online Defrag Average Log Bytes is the average size of the log records being generated by online defragmentation. [Dev only] 2359. 3127 2360. No text 2361. 3129 2362. Database Tasks Pages Referenced/sec is the rate at which background database tasks are touching database pages. [Dev Only] 2363. 3131 2364. Database Tasks Pages Read/sec is the rate of database read operations being performed by background database tasks. [Dev Only] 2365. 3133 2366. Database Tasks Pages Preread/sec is the rate at which database pages are read in anticipation of future use by background database tasks. [Dev Only] 2367. 3135 2368. Database Tasks Pages Dirtied/sec is the rate at which background database tasks are modifying clean database pages. [Dev Only] 2369. 3137 2370. Database Tasks Pages Re-Dirtied/sec is the rate at which background databases tasks are modifying database pages that already contained modifications. [Dev Only] 2371. 3139 2372. Database Tasks Log Records/sec is the rate at which background database tasks are generating log records. [Dev Only] 2373. 3141 2374. Database Tasks Average Log Bytes is the average size of the log records being generated by background database tasks. [Dev only] 2375. 3143 2376. No text 2377. 3145 2378. I/O Database Reads/sec is the rate of database read operations completed. 2379. 3147 2380. I/O Database Reads Average Latency is the average length of time, in milliseconds, per database read operation. 2381. 3149 2382. No text 2383. 3151 2384. I/O Database Reads Average Bytes is the average number of bytes transferred per database read operation. [Dev Only] 2385. 3153 2386. No text 2387. 3155 2388. I/O Database Reads In Heap is the number of database read operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 2389. 3157 2390. I/O Database Reads Async Pending is the number of database read operations asynchronously pending completion. [Dev Only] 2391. 3159 2392. I/O Database Reads Abnormal Latency/sec is the rate of database read operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 2393. 3161 2394. I/O Log Reads/sec is the rate of logfile read operations completed. 2395. 3163 2396. I/O Log Reads Average Latency is the average length of time, in milliseconds, per logfile read operation. [Dev Only] 2397. 3165 2398. No text 2399. 3167 2400. I/O Log Reads Average Bytes is the average number of bytes transferred per logfile read operation. [Dev Only] 2401. 3169 2402. No text 2403. 3171 2404. I/O Log Reads In Heap is the number of logfile read operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 2405. 3173 2406. I/O Log Reads Async Pending is the number of logfile read operations asynchronously pending completion. [Dev Only] 2407. 3175 2408. I/O Log Reads Abnormal Latency/sec is the rate of logfile read operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 2409. 3177 2410. I/O Database Writes/sec is the rate of database write operations completed. 2411. 3179 2412. I/O Database Writes Average Latency is the average length of time, in milliseconds, per database write operation. 2413. 3181 2414. No text 2415. 3183 2416. I/O Database Writes Average Bytes is the average number of bytes transferred per database write operation. [Dev Only] 2417. 3185 2418. No text 2419. 3187 2420. I/O Database Writes In Heap is the number of database write operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 2421. 3189 2422. I/O Database Writes Async Pending is the number of database write operations asynchronously pending completion. [Dev Only] 2423. 3191 2424. I/O Database Writes Abnormal Latency/sec is the rate of database write operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 2425. 3193 2426. I/O Log Writes/sec is the rate of logfile write operations completed. 2427. 3195 2428. I/O Log Writes Average Latency is the average length of time, in milliseconds, per logfile write operation. 2429. 3197 2430. No text 2431. 3199 2432. I/O Log Writes Average Bytes is the average number of bytes transferred per logfile write operation. [Dev Only] 2433. 3201 2434. No text 2435. 3203 2436. I/O Log Writes In Heap is the number of logfile write operations queued in the database engine's I/O heap and waiting to be issued. [Dev Only] 2437. 3205 2438. I/O Log Writes Async Pending is the number of logfile write operations asynchronously pending completion. [Dev Only] 2439. 3207 2440. I/O Log Writes Abnormal Latency/sec is the rate of logfile write operations that take an abnormally long length of time (default is 1 minute) to be serviced by the OS. [Dev Only] 2441. 3209 2442. Microsoft Distributed Transaction Coordinator performance counters 2443. 3211 2444. Number of currently active transactions 2445. 3213 2446. Number of committed transactions 2447. 3215 2448. Number of aborted transactions 2449. 3217 2450. Number of in doubt transactions 2451. 3219 2452. Maximum number of transactions ever concurrently active 2453. 3221 2454. Number of transactions committed by the system administrator 2455. 3223 2456. Number of transactions aborted by the system administrator 2457. 3225 2458. Minimum time delta between transaction begin and commit 2459. 3227 2460. Average time delta between transaction begin and commit 2461. 3229 2462. Maximum time delta between transaction begin and commit 2463. 3231 2464. Transactions performed per second 2465. 3233 2466. Transactions committed per second 2467. 3235 2468. Transactions aborted per second 2469. 3425 2470. Displays the current bulk transfer rate in bytes/sec. 2471. 3427 2472. Displays the current isochronous transfer rate in bytes/sec. 2473. 3429 2474. Displays the current interrupt transfer rate in bytes/sec. 2475. 3431 2476. Displays the current control transfer rate in bytes/sec. 2477. 3433 2478. Displays the rate of PCI interrupt generation by the USB controller. For controller instances only. 2479. 3435 2480. Displays the current rate Work Signals generated per second by the usbport driver. For controller instances only. 2481. 3437 2482. Displays the percentage of BW reserved for interrupt transfers 2483. 3439 2484. Displays the percentage of BW reserved for ISO transfers 2485. 3441 2486. USB I/O Counters 2487. 3443 2488. Displays the average size of all transfer URBs. For device instances only. 2489. 3445 2490. Number of ISO packets that are NOT late, but complete with an error. For device instances only. 2491. 3447 2492. Avg number of ms between the current frame and the start frame of an ISO transfer when scheduled. For device instances only. 2493. 3449 2494. Number of Transfer URBs completing with an error status. For device instances only. 2495. 3451 2496. Non-zero value if the host controller is not running(idle). 2497. 3453 2498. Non-Zero value if the host controller async schedule is not running(idle). 2499. 3455 2500. Incremented each time the controller async cache is flushed. 2501. 3457 2502. Non-Zero if the periodic schedule is not running(idle). 2503. 3459 2504. Incremented each time the controller periodic cache is flushed. 2505. 3461 2506. Help not available. 2507. 3463 2508. The cumulative total number of socket connections established for this process since the process was started. 2509. 3465 2510. The cumulative total number of bytes received over all open socket connections since the process was started. This number includes data and any protocol information that is not defined by the TCP/IP protocol. 2511. 3467 2512. The cumulative total number of bytes sent over all open socket connections since the process was started. This number includes data and any protocol information that is not defined by the TCP/IP protocol. 2513. 3469 2514. The cumulative total number of datagram packets received since the process was started. 2515. 3471 2516. The cumulative total number of datagram packets sent since the process was started. 2517. 3473 2518. Counters for System.Data.SqlClient 2519. 3475 2520. The number of actual connections per second that are being made to servers 2521. 3477 2522. The number of actual disconnects per second that are being made to servers 2523. 3479 2524. The number of connections we get from the pool per second 2525. 3481 2526. The number of connections we return to the pool per second 2527. 3483 2528. The number of connections that are not using connection pooling 2529. 3485 2530. The number of connections that are managed by the connection pooler 2531. 3487 2532. The number of unique connection strings 2533. 3489 2534. The number of unique connection strings waiting for pruning 2535. 3491 2536. The number of active connection pools 2537. 3493 2538. The number of inactive connection pools 2539. 3495 2540. The number of connections currently in-use 2541. 3497 2542. The number of connections currently available for use 2543. 3499 2544. The number of connections currently waiting to be made ready for use 2545. 3501 2546. The number of connections we reclaim from GCed external connections 2547. 3503 2548. .Net CLR Data 2549. 3505 2550. Current number of connections, pooled or not. 2551. 3507 2552. Current number of connections in all pools associated with the process. 2553. 3509 2554. Current number of pools associated with the process. 2555. 3511 2556. The highest number of connections in all pools since the process started. 2557. 3513 2558. The total number of connection open attempts that have failed for any reason. 2559. 3515 2560. The total number of command executes that have failed for any reason. 2561. 3517 2562. Counters for CLR Garbage Collected heap. 2563. 3519 2564. This counter displays the number of times the generation 0 objects (youngest; most recently allocated) are garbage collected (Gen 0 GC) since the start of the application. Gen 0 GC occurs when the available memory in generation 0 is not sufficient to satisfy an allocation request. This counter is incremented at the end of a Gen 0 GC. Higher generation GCs include all lower generation GCs. This counter is explicitly incremented when a higher generation (Gen 1 or Gen 2) GC occurs. _Global_ counter value is not accurate and should be ignored. This counter displays the last observed value. 2565. 3521 2566. This counter displays the number of times the generation 1 objects are garbage collected since the start of the application. The counter is incremented at the end of a Gen 1 GC. Higher generation GCs include all lower generation GCs. This counter is explicitly incremented when a higher generation (Gen 2) GC occurs. _Global_ counter value is not accurate and should be ignored. This counter displays the last observed value. 2567. 3523 2568. This counter displays the number of times the generation 2 objects (older) are garbage collected since the start of the application. The counter is incremented at the end of a Gen 2 GC (also called full GC). _Global_ counter value is not accurate and should be ignored. This counter displays the last observed value. 2569. 3525 2570. This counter displays the bytes of memory that survive garbage collection (GC) and are promoted from generation 0 to generation 1; objects that are promoted just because they are waiting to be finalized are not included in this counter. This counter displays the value observed at the end of the last GC; its not a cumulative counter. 2571. 3527 2572. This counter displays the bytes of memory that survive garbage collection (GC) and are promoted from generation 1 to generation 2; objects that are promoted just because they are waiting to be finalized are not included in this counter. This counter displays the value observed at the end of the last GC; its not a cumulative counter. This counter is reset to 0 if the last GC was a Gen 0 GC only. 2573. 3529 2574. This counter displays the bytes per second that are promoted from generation 0 (youngest) to generation 1; objects that are promoted just because they are waiting to be finalized are not included in this counter. Memory is promoted when it survives a garbage collection. This counter was designed as an indicator of relatively long-lived objects being created per sec. This counter displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2575. 3531 2576. This counter displays the bytes per second that are promoted from generation 1 to generation 2 (oldest); objects that are promoted just because they are waiting to be finalized are not included in this counter. Memory is promoted when it survives a garbage collection. Nothing is promoted from generation 2 since it is the oldest. This counter was designed as an indicator of very long-lived objects being created per sec. This counter displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2577. 3533 2578. This counter displays the bytes of memory that are promoted from generation 0 to generation 1 just because they are waiting to be finalized. This counter displays the value observed at the end of the last GC; its not a cumulative counter. 2579. 3535 2580. This counter displays the process ID of the CLR process instance being monitored. 2581. 3537 2582. This counter displays the maximum bytes that can be allocated in generation 0 (Gen 0); its does not indicate the current number of bytes allocated in Gen 0. A Gen 0 GC is triggered when the allocations since the last GC exceed this size. The Gen 0 size is tuned by the Garbage Collector and can change during the execution of the application. At the end of a Gen 0 collection the size of the Gen 0 heap is infact 0 bytes; this counter displays the size (in bytes) of allocations that would trigger the next Gen 0 GC. This counter is updated at the end of a GC; its not updated on every allocation. 2583. 3539 2584. This counter displays the current number of bytes in generation 1 (Gen 1); this counter does not display the maximum size of Gen 1. Objects are not directly allocated in this generation; they are promoted from previous Gen 0 GCs. This counter is updated at the end of a GC; its not updated on every allocation. 2585. 3541 2586. This counter displays the current number of bytes in generation 2 (Gen 2). Objects are not directly allocated in this generation; they are promoted from Gen 1 during previous Gen 1 GCs. This counter is updated at the end of a GC; its not updated on every allocation. 2587. 3543 2588. This counter displays the current size of the Large Object Heap in bytes. Objects greater than 20 KBytes are treated as large objects by the Garbage Collector and are directly allocated in a special heap; they are not promoted through the generations. This counter is updated at the end of a GC; its not updated on every allocation. 2589. 3545 2590. This counter displays the number of garbage collected objects that survive a collection because they are waiting to be finalized. If these objects hold references to other objects then those objects also survive but are not counted by this counter; the "Promoted Finalization-Memory from Gen 0" and "Promoted Finalization-Memory from Gen 1" counters represent all the memory that survived due to finalization. This counter is not a cumulative counter; its updated at the end of every GC with count of the survivors during that particular GC only. This counter was designed to indicate the extra overhead that the application might incur because of finalization. 2591. 3547 2592. This counter displays the current number of GC Handles in use. GCHandles are handles to resources external to the CLR and the managed environment. Handles occupy small amounts of memory in the GCHeap but potentially expensive unmanaged resources. 2593. 3549 2594. This counter displays the rate of bytes per second allocated on the GC Heap. This counter is updated at the end of every GC; not at each allocation. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2595. 3551 2596. This counter displays the peak number of times a garbage collection was performed because of an explicit call to GC.Collect. Its a good practice to let the GC tune the frequency of its collections. 2597. 3553 2598. % Time in GC is the percentage of elapsed time that was spent in performing a garbage collection (GC) since the last GC cycle. This counter is usually an indicator of the work done by the Garbage Collector on behalf of the application to collect and compact memory. This counter is updated only at the end of every GC and the counter value reflects the last observed value; its not an average. 2599. 3555 2600. Not Displayed. 2601. 3557 2602. This counter is the sum of four other counters; Gen 0 Heap Size; Gen 1 Heap Size; Gen 2 Heap Size and the Large Object Heap Size. This counter indicates the current memory allocated in bytes on the GC Heaps. 2603. 3559 2604. This counter displays the amount of virtual memory (in bytes) currently committed by the Garbage Collector. (Committed memory is the physical memory for which space has been reserved on the disk paging file). 2605. 3561 2606. This counter displays the amount of virtual memory (in bytes) currently reserved by the Garbage Collector. (Reserved memory is the virtual memory space reserved for the application but no disk or main memory pages have been used.) 2607. 3563 2608. This counter displays the number of pinned objects encountered in the last GC. This counter tracks the pinned objects only in the heaps that were garbage collected e.g. a Gen 0 GC would cause enumeration of pinned objects in the generation 0 heap only. A pinned object is one that the Garbage Collector cannot move in memory. 2609. 3565 2610. This counter displays the current number of sync blocks in use. Sync blocks are per-object data structures allocated for storing synchronization information. Sync blocks hold weak references to managed objects and need to be scanned by the Garbage Collector. Sync blocks are not limited to storing synchronization information and can also store COM interop metadata. This counter was designed to indicate performance problems with heavy use of synchronization primitives. 2611. 3567 2612. Statistics for CLR Class Loader. 2613. 3569 2614. This counter displays the cumulative number of classes loaded in all Assemblies since the start of this application. 2615. 3571 2616. Reserved for future use. 2617. 3573 2618. Reserved for future use. 2619. 3575 2620. This counter displays the peak number of classes that have failed to load since the start of the application. These load failures could be due to many reasons like inadequate security or illegal format. Full details can be found in the profiling services help. 2621. 3577 2622. This counter displays the number of classes that failed to load per second. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. These load failures could be due to many reasons like inadequate security or illegal format. Full details can be found in the profiling services help. 2623. 3579 2624. This counter displays the current size (in bytes) of the memory committed by the class loader across all AppDomains. (Committed memory is the physical memory for which space has been reserved on the disk paging file.) 2625. 3581 2626. This counter displays the total number of AppDomains unloaded since the start of the application. If an AppDomain is loaded and unloaded multiple times this counter would count each of those unloads as separate. 2627. 3583 2628. This counter displays the number of AppDomains unloaded per second. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2629. 3585 2630. This counter displays the current number of classes loaded in all Assemblies. 2631. 3587 2632. This counter displays the number of classes loaded per second in all Assemblies. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2633. 3589 2634. This counter displays the current number of AppDomains loaded in this application. AppDomains (application domains) provide a secure and versatile unit of processing that the CLR can use to provide isolation between applications running in the same process. 2635. 3591 2636. This counter displays the peak number of AppDomains loaded since the start of this application. AppDomains (application domains) provide a secure and versatile unit of processing that the CLR can use to provide isolation between applications running in the same process. 2637. 3593 2638. This counter displays the number of AppDomains loaded per second. AppDomains (application domains) provide a secure and versatile unit of processing that the CLR can use to provide isolation between applications running in the same process. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2639. 3595 2640. This counter displays the current number of Assemblies loaded across all AppDomains in this application. If the Assembly is loaded as domain-neutral from multiple AppDomains then this counter is incremented once only. Assemblies can be loaded as domain-neutral when their code can be shared by all AppDomains or they can be loaded as domain-specific when their code is private to the AppDomain. 2641. 3597 2642. This counter displays the total number of Assemblies loaded since the start of this application. If the Assembly is loaded as domain-neutral from multiple AppDomains then this counter is incremented once only. Assemblies can be loaded as domain-neutral when their code can be shared by all AppDomains or they can be loaded as domain-specific when their code is private to the AppDomain. 2643. 3599 2644. This counter displays the number of Assemblies loaded across all AppDomains per second. If the Assembly is loaded as domain-neutral from multiple AppDomains then this counter is incremented once only. Assemblies can be loaded as domain-neutral when their code can be shared by all AppDomains or they can be loaded as domain-specific when their code is private to the AppDomain. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2645. 3601 2646. Stats for CLR Jit. 2647. 3603 2648. This counter displays the total number of methods compiled Just-In-Time (JIT) by the CLR JIT compiler since the start of the application. This counter does not include the pre-jitted methods. 2649. 3605 2650. This counter displays the total IL bytes jitted since the start of the application. This counter is exactly equivalent to the "Total # of IL Bytes Jitted" counter. 2651. 3607 2652. This counter displays the total IL bytes jitted since the start of the application. This counter is exactly equivalent to the "# of IL Bytes Jitted" counter. 2653. 3609 2654. This counter displays the rate at which IL bytes are jitted per second. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2655. 3611 2656. This counter displays the peak number of methods the JIT compiler has failed to JIT since the start of the application. This failure can occur if the IL cannot be verified or if there was an internal error in the JIT compiler. 2657. 3613 2658. This counter displays the percentage of elapsed time spent in JIT compilation since the last JIT compilation phase. This counter is updated at the end of every JIT compilation phase. A JIT compilation phase is the phase when a method and its dependencies are being compiled. 2659. 3615 2660. Not Displayed. 2661. 3617 2662. Stats for CLR interop. 2663. 3619 2664. This counter displays the current number of Com-Callable-Wrappers (CCWs). A CCW is a proxy for the .NET managed object being referenced from unmanaged COM client(s). This counter was designed to indicate the number of managed objects being referenced by unmanaged COM code. 2665. 3621 2666. This counter displays the current number of stubs created by the CLR. Stubs are responsible for marshalling arguments and return values from managed to unmanaged code and vice versa; during a COM Interop call or PInvoke call. 2667. 3623 2668. This counter displays the total number of times arguments and return values have been marshaled from managed to unmanaged code and vice versa since the start of the application. This counter is not incremented if the stubs are inlined. (Stubs are responsible for marshalling arguments and return values). Stubs usually get inlined if the marshalling overhead is small. 2669. 3625 2670. Reserved for future use. 2671. 3627 2672. Reserved for future use. 2673. 3629 2674. Stats for CLR Locks and Threads. 2675. 3631 2676. This counter displays the total number of times threads in the CLR have attempted to acquire a managed lock unsuccessfully. Managed locks can be acquired in many ways; by the "lock" statement in C# or by calling System.Monitor.Enter or by using MethodImplOptions.Synchronized custom attribute. 2677. 3633 2678. Rate at which threads in the runtime attempt to acquire a managed lock unsuccessfully. Managed locks can be acquired in many ways; by the "lock" statement in C# or by calling System.Monitor.Enter or by using MethodImplOptions.Synchronized custom attribute. 2679. 3635 2680. This counter displays the total number of threads currently waiting to acquire some managed lock in the application. This counter is not an average over time; it displays the last observed value. 2681. 3637 2682. This counter displays the total number of threads that waited to acquire some managed lock since the start of the application. 2683. 3639 2684. This counter displays the number of threads per second waiting to acquire some lock in the application. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2685. 3641 2686. This counter displays the number of current .NET thread objects in the application. A .NET thread object is created either by new System.Threading.Thread or when an unmanaged thread enters the managed environment. This counters maintains the count of both running and stopped threads. This counter is not an average over time; it just displays the last observed value. 2687. 3643 2688. This counter displays the number of native OS threads created and owned by the CLR to act as underlying threads for .NET thread objects. This counters value does not include the threads used by the CLR in its internal operations; it is a subset of the threads in the OS process. 2689. 3645 2690. This counter displays the number of threads that are currently recognized by the CLR; they have a corresponding .NET thread object associated with them. These threads are not created by the CLR; they are created outside the CLR but have since run inside the CLR at least once. Only unique threads are tracked; threads with same thread ID re-entering the CLR or recreated after thread exit are not counted twice. 2691. 3647 2692. This counter displays the total number of threads that have been recognized by the CLR since the start of this application; these threads have a corresponding .NET thread object associated with them. These threads are not created by the CLR; they are created outside the CLR but have since run inside the CLR at least once. Only unique threads are tracked; threads with same thread ID re-entering the CLR or recreated after thread exit are not counted twice. 2693. 3649 2694. This counter displays the number of threads per second that have been recognized by the CLR; these threads have a corresponding .NET thread object associated with them. These threads are not created by the CLR; they are created outside the CLR but have since run inside the CLR at least once. Only unique threads are tracked; threads with same thread ID re-entering the CLR or recreated after thread exit are not counted twice. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2695. 3651 2696. Stats for CLR Security. 2697. 3653 2698. This counter displays the total number of runtime Code Access Security (CAS) checks performed since the start of the application. Runtime CAS checks are performed when a caller makes a call to a callee demanding a particular permission; the runtime check is made on every call by the caller; the check is done by examining the current thread stack of the caller. This counter used together with "Stack Walk Depth" is indicative of performance penalty for security checks. 2699. 3655 2700. Reserved for future use. 2701. 3657 2702. This counter displays the total number of linktime Code Access Security (CAS) checks since the start of the application. Linktime CAS checks are performed when a caller makes a call to a callee demanding a particular permission at JIT compile time; linktime check is performed once per caller. This count is not indicative of serious performance issues; its indicative of the security system activity. 2703. 3659 2704. This counter displays the percentage of elapsed time spent in performing runtime Code Access Security (CAS) checks since the last such check. CAS allows code to be trusted to varying degrees and enforces these varying levels of trust depending on code identity. This counter is updated at the end of a runtime security check; it represents the last observed value; its not an average. 2705. 3661 2706. Not Displayed. 2707. 3663 2708. This counter displays the depth of the stack during that last runtime Code Access Security check. Runtime Code Access Security check is performed by crawling the stack. This counter is not an average; it just displays the last observed value. 2709. 3665 2710. Stats for CLR Remoting. 2711. 3667 2712. This counter displays the number of remote procedure calls invoked per second. A remote procedure call is a call on any object outside the caller;s AppDomain. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2713. 3669 2714. This counter displays the total number of remoting channels registered across all AppDomains since the start of the application. Channels are used to transport messages to and from remote objects. 2715. 3671 2716. This counter displays the total number of remoting proxy objects created in this process since the start of the process. Proxy object acts as a representative of the remote objects and ensures that all calls made on the proxy are forwarded to the correct remote object instance. 2717. 3673 2718. This counter displays the current number of context-bound classes loaded. Classes that can be bound to a context are called context-bound classes; context-bound classes are marked with Context Attributes which provide usage rules for synchronization; thread affinity; transactions etc. 2719. 3675 2720. This counter displays the number of context-bound objects allocated per second. Instances of classes that can be bound to a context are called context-bound objects; context-bound classes are marked with Context Attributes which provide usage rules for synchronization; thread affinity; transactions etc. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2721. 3677 2722. This counter displays the current number of remoting contexts in the application. A context is a boundary containing a collection of objects with the same usage rules like synchronization; thread affinity; transactions etc. 2723. 3679 2724. This counter displays the total number of remote procedure calls invoked since the start of this application. A remote procedure call is a call on any object outside the caller;s AppDomain. 2725. 3681 2726. Runtime statistics on CLR exception handling. 2727. 3683 2728. This counter displays the total number of exceptions thrown since the start of the application. These include both .NET exceptions and unmanaged exceptions that get converted into .NET exceptions e.g. null pointer reference exception in unmanaged code would get re-thrown in managed code as a .NET System.NullReferenceException; this counter includes both handled and unhandled exceptions. Exceptions that are re-thrown would get counted again. Exceptions should only occur in rare situations and not in the normal control flow of the program. 2729. 3685 2730. This counter displays the number of exceptions thrown per second. These include both .NET exceptions and unmanaged exceptions that get converted into .NET exceptions e.g. null pointer reference exception in unmanaged code would get re-thrown in managed code as a .NET System.NullReferenceException; this counter includes both handled and unhandled exceptions. Exceptions should only occur in rare situations and not in the normal control flow of the program; this counter was designed as an indicator of potential performance problems due to large (>100s) rate of exceptions thrown. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2731. 3687 2732. This counter displays the number of .NET exception filters executed per second. An exception filter evaluates whether an exception should be handled or not. This counter tracks the rate of exception filters evaluated; irrespective of whether the exception was handled or not. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2733. 3689 2734. This counter displays the number of finally blocks executed per second. A finally block is guaranteed to be executed regardless of how the try block was exited. Only the finally blocks that are executed for an exception are counted; finally blocks on normal code paths are not counted by this counter. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2735. 3691 2736. This counter displays the number of stack frames traversed from the frame that threw the .NET exception to the frame that handled the exception per second. This counter resets to 0 when an exception handler is entered; so nested exceptions would show the handler to handler stack depth. This counter is not an average over time; it displays the difference between the values observed in the last two samples divided by the duration of the sample interval. 2737. 3693 2738. Counters for System.Data.OracleClient 2739. 3695 2740. The number of actual connections per second that are being made to servers 2741. 3697 2742. The number of actual disconnects per second that are being made to servers 2743. 3699 2744. The number of connections we get from the pool per second 2745. 3701 2746. The number of connections we return to the pool per second 2747. 3703 2748. The number of connections that are not using connection pooling 2749. 3705 2750. The number of connections that are managed by the connection pooler 2751. 3707 2752. The number of unique connection strings 2753. 3709 2754. The number of unique connection strings waiting for pruning 2755. 3711 2756. The number of active connection pools 2757. 3713 2758. The number of inactive connection pools 2759. 3715 2760. The number of connections currently in-use 2761. 3717 2762. The number of connections currently available for use 2763. 3719 2764. The number of connections currently waiting to be made ready for use 2765. 3721 2766. The number of connections we reclaim from GCed external connections 2767. 3723 2768. Counters for the Windows Search Service Gatherer Project object 2769. 3725 2770. The number of add notifications. 2771. 3727 2772. The number of document additions per second. 2773. 3729 2774. The number of delete notifications. 2775. 3731 2776. The number of document deletes per second. 2777. 3733 2778. The number of modify notifications. 2779. 3735 2780. The number of modify notifications per second. 2781. 3737 2782. The number of documents waiting to be processed. When this number goes to zero the catalog is idle. This number indicates the total queue size of unprocessed documents in the gatherer. 2783. 3739 2784. The number of documents in progress. 2785. 3741 2786. The number of documents on hold because a document with the same URL is currently in process. 2787. 3743 2788. The number of documents delayed due to site hit frequency rules. 2789. 3745 2790. The number of files (URLs) in the history list. This indicates the total size of your document corpus that was indexed. 2791. 3747 2792. The number of documents processed since the history has been reset. 2793. 3749 2794. The number of documents processed per second. 2795. 3751 2796. The number of successfully filtered documents. 2797. 3753 2798. The number of successfully filtered documents per second. 2799. 3755 2800. The number of filtered documents which returned an error. 2801. 3757 2802. The number of filtered documents which returned an error per second. 2803. 3763 2804. The number of file protocol errors received while getting documents. 2805. 3765 2806. The number of file protocol errors received per second. 2807. 3771 2808. The number of documents accessed via file system. 2809. 3773 2810. The number of documents accessed via file system per second. 2811. 3779 2812. The number of office documents filtered. 2813. 3781 2814. The number of office documents filtered per second. 2815. 3783 2816. The number of text documents filtered. 2817. 3785 2818. The number of text documents filtered per second. 2819. 3787 2820. Number of crawls in progress. 2821. 3789 2822. The Gatherer paused flag indicates if the Gatherer has been paused. 2823. 3791 2824. The recovery in progress flag indicates if recovery is currently in progress. Indexing will not be resumed until this flag is off. 2825. 3793 2826. The number of documents which were not filtered because no modification was detected since the last crawl. 2827. 3795 2828. The Iterating history in progress flag indicates if the Gatherer is currently iterating over the URL history. 2829. 3797 2830. Number of incremental crawls in progress. 2831. 3799 2832. The number of documents currently being filtered. 2833. 3801 2834. The number of documents initiated into the Gatherer service. This includes the number of documents on hold, in the active queue, and currently filtered. When this number goes to zero during a crawl, it means the crawl will be done soon. 2835. 3803 2836. The total number of times a document access has been retried. Having this number high may indicate a problem with accessing the data. 2837. 3805 2838. The number of retries per second. 2839. 3813 2840. Documents incorrectly rejected by adaptive crawl 2841. 3819 2842. Documents which have changed since the last crawl 2843. 3821 2844. The number of Move/Rename notifications. 2845. 3823 2846. The number of document Moves and Renames per second. 2847. 3825 2848. Number of unique documents in the system. Documents are considered not unique if their contents is the same. 2849. 3827 2850. Percentage of the history recovery completed 2851. 3829 2852. Counters for the Windows Search Service Gathering service object 2853. 3831 2854. Currently connected external notification sources. 2855. 3833 2856. The total number of notifications received from all notification sources excluding file system. 2857. 3835 2858. The rate of external notifications received per second. 2859. 3837 2860. The number of currently connected administrative clients. 2861. 3839 2862. The total number of heartbeats counted since startup. A heartbeat occurs once every 10 seconds while the service is running. If the service is not running there will be no heartbeat and the number of ticks will not be incremented. 2863. 3841 2864. Displays one heartbeat every 10 seconds. 2865. 3843 2866. The total number of filtering threads in the system. This number is calculated based on your system resources. 2867. 3845 2868. The number of threads waiting for documents. 2869. 3847 2870. The number of document entries currently in memory. Zero means no indexing activity is going on. 2871. 3849 2872. Indicates the level of the amount of system resources that the Gatherer service is allowed to use. 2873. 3851 2874. The number of documents waiting for robot threads. If this number is not 0, all threads should be filtering. 2875. 3853 2876. The number of filtering processes in the system. 2877. 3855 2878. The maximum number of filtering processes that have existed in the system since startup. 2879. 3857 2880. The total number of times a filter process was created or restarted. Having too many filter processes created indicates that filtering is having trouble with the data in the documents. 2881. 3859 2882. The number of documents delayed due to site hit frequency rules. 2883. 3861 2884. The number of servers recently accessed by the system. 2885. 3863 2886. The number of times a new server object had to be created. 2887. 3865 2888. The number of filter objects in the system. Each filter object corresponds to a URL currently being filtered. 2889. 3867 2890. The number of times a filter object was created. This corresponds to the total number of documents filtered in the system since startup. 2891. 3869 2892. The number of documents filtered per second. 2893. 3871 2894. The total number of timeouts detected by the system since startup. 2895. 3873 2896. A server becomes unavailable when a number of requests to that server time out. 2897. 3875 2898. A server becomes unavailable when a number of requests to that server time out. 2899. 3877 2900. The number of threads waiting for a response from the filter process. If no activity is going on and this number is equal to number of filtering threads, it may indicate a network problem or unavailability of the server it is crawling. 2901. 3879 2902. The number of threads waiting for plug-ins to complete an operation. 2903. 3881 2904. The number of documents successfully filtered. 2905. 3883 2906. The number of successfully filtered documents per second. 2907. 3885 2908. The number of documents that will be retried after time-out. When this is non-zero, it means that the local server it is crawling is shut down. 2909. 3887 2910. Number of available cached word breakers instances 2911. 3889 2912. Number of available cached stemmer instances. Too many may indicate a resource usage problem. 2913. 3891 2914. The total number of notifications received from all notification sources including file system. 2915. 3893 2916. The rate of external notifications received per second. 2917. 3895 2918. System IO (disk) traffic rate in KB/s detected by back off logic 2919. 3897 2920. The code describing why the Gatherer service went into back off state. 0 - up and running 1 - high system IO traffic 2 - high notifications rate 3 - delayed recovery in progress (not implemented) 4 - back off due to user activity 5 - Battery Low 6 - Memory Low 99 - back off for some internal reason (forced by Search itself) While backing off, no indexing is performed. To resume the indexing you must eliminate the reason for back off. If the Gatherer service is in back off state, the Search service is paused and there is a message in the event log. 2921. 3899 2922. The number of threads blocked due to back off event 2923. 3901 2924. Indexer PlugIn statistics 2925. 3903 2926. The level of the master index. 2927. 3905 2928. Number of Master Merges to Date 2929. 3907 2930. Master Merge Progress 2931. 3909 2932. Shadow Merge Levels 2933. 3911 2934. Shadow Merge Levels Threshold 2935. 3913 2936. Number of Persistent Indexes 2937. 3915 2938. Size of Index 2939. 3917 2940. Number of Unique Keys 2941. 3919 2942. Number of Documents Filtered 2943. 3921 2944. Number of invalidator work items that were created 2945. 3923 2946. Number of invalidator work items that were deleted 2947. 3925 2948. Number of clean WidSets 2949. 3927 2950. Number of dirty WidSets 2951. 3929 2952. Indicator if a master merge is going on. 2953. 3931 2954. Active Connections 2955. 3933 2956. Number of Queries 2957. 3935 2958. Number of Queries Failed 2959. 3937 2960. Number of Queries Succeeded 2961. 3939 2962. The number of L0 Indexes (Wordlists) 2963. 3941 2964. The number of L0 merges (flushes) in progress at any one moment. 2965. 3943 2966. The average value [documents/hour] computed for the speed of L0 merges (flushes) since the catalog has been loaded 2967. 3945 2968. The number of L0 merges (flushes) since the catalog was loaded 2969. 3947 2970. The last value [documents/hour] computed for the speed of L0 merges (flushes). 2971. 3949 2972. The number of L1 Indexes 2973. 3951 2974. The number of L1 merges in progress at any one moment. 2975. 3953 2976. The average value [documents/hour] computed for the speed of L1 merges since the catalog has been loaded 2977. 3955 2978. The number of L1 merges since the catalog was loaded 2979. 3957 2980. The last value [documents/hour] computed for the speed of L1 merges. 2981. 3959 2982. The number of L2 Indexes 2983. 3961 2984. The number of L2 merges in progress at any one moment. 2985. 3963 2986. The average value [documents/hour] computed for the speed of L2 merges since the catalog has been loaded 2987. 3965 2988. The number of L2 merges since the catalog was loaded 2989. 3967 2990. The last value [documents/hour] computed for the speed of L2 merges. 2991. 3969 2992. The number of L3 Indexes 2993. 3971 2994. The number of L3 merges in progress at any one moment. 2995. 3973 2996. The average value [documents/hour] computed for the speed of L3 merges since the catalog has been loaded 2997. 3975 2998. The number of L3 merges since the catalog was loaded 2999. 3977 3000. The last value [documents/hour] computed for the speed of L3 merges. 3001. 3979 3002. The number of L4 Indexes 3003. 3981 3004. The number of L4 merges in progress at any one moment. 3005. 3983 3006. The average value [documents/hour] computed for the speed of L4 merges since the catalog has been loaded 3007. 3985 3008. The number of L4 merges since the catalog was loaded 3009. 3987 3010. The last value [documents/hour] computed for the speed of L4 merges. 3011. 3989 3012. The number of L5 Indexes 3013. 3991 3014. The number of L5 merges in progress at any one moment. 3015. 3993 3016. The average value [documents/hour] computed for the speed of L5 merges since the catalog has been loaded 3017. 3995 3018. The number of L5 merges since the catalog was loaded 3019. 3997 3020. The last value [documents/hour] computed for the speed of L5 merges. 3021. 3999 3022. The number of L6 Indexes 3023. 4001 3024. The number of L6 merges in progress at any one moment. 3025. 4003 3026. The average value [documents/hour] computed for the speed of L6 merges since the catalog has been loaded 3027. 4005 3028. The number of L6 merges since the catalog was loaded 3029. 4007 3030. The last value [documents/hour] computed for the speed of L6 merges. 3031. 4009 3032. The number of L7 Indexes 3033. 4011 3034. The number of L7 merges in progress at any one moment. 3035. 4013 3036. The average value [documents/hour] computed for the speed of L7 merges since the catalog has been loaded 3037. 4015 3038. The number of L7 merges since the catalog was loaded 3039. 4017 3040. The last value [documents/hour] computed for the speed of L7 merges. 3041. 4019 3042. The number of L8 Indexes 3043. 4021 3044. The number of L8 merges in progress at any one moment. 3045. 4023 3046. The average value [documents/hour] computed for the speed of L8 merges since the catalog has been loaded 3047. 4025 3048. The number of L8 merges since the catalog was loaded 3049. 4027 3050. The last value [documents/hour] computed for the speed of L8 merges. 3051. 4029 3052. Performance Counters for the Peer Networking Resolution Protocol 3053. 4031 3054. Number of IDs registered in the Peer Networking Resolution Protocol 3055. 4033 3056. Number of resolves made in the Peer Networking Resolution Protocol 3057. 4035 3058. Average outbound bandwidth utilization of the Peer Networking Resolution Protocol, in terms of bytes sent per second 3059. 4037 3060. Average inbound bandwidth utilization of the Peer Networking Resolution Protocol, in terms of bytes received per second 3061. 4039 3062. Stale cache entry hits in the Peer Networking Resolution Protocol 3063. 4041 3064. ServiceModelOperation 3.0.0.0 performance counters 3065. 4043 3066. The number of calls to this operation. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.Calls.aspx 3067. 4045 3068. The number of calls to this operation per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.CallsPerSecond.aspx 3069. 4047 3070. The number of calls to this operation that are in progress. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.CallsOutstanding.aspx 3071. 4049 3072. The number of calls with unhandled exceptions in this operation. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.CallsFailed.aspx 3073. 4051 3074. The number of calls with unhandled exceptions in this operation per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.CallsFailedPerSecond.aspx 3075. 4053 3076. The number of calls to this operation that returned faults. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.CallsFaulted.aspx 3077. 4055 3078. The number of calls to this operation that returned faults per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.CallsFaultedPerSecond.aspx 3079. 4057 3080. The average duration of calls to this operation. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.CallDuration.aspx 3081. 4059 3082. Base counter for the 'Calls Duration' counter. 3083. 4061 3084. The number of transactions that flowed to this operation. This counter is incremented any time a transaction ID is present in the message sent to the operation. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.TxFlowed.aspx 3085. 4063 3086. The number of transactions that flowed to this operation per second. This counter is incremented any time a transaction ID is present in the message sent to the operation. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.TxFlowedPerSecond.aspx 3087. 4065 3088. The number of calls to this operation that failed validation or authentication. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.SecurityValidationAuthenticationFailures.aspx 3089. 4067 3090. The number of calls to this operation that failed validation or authentication per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.SecurityValidationAuthenticationFailuresPerSecond.aspx 3091. 4069 3092. The number of calls to this operation that failed authorization. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.SecurityCallsNotAuthorized.aspx 3093. 4071 3094. The number of calls to this operation that failed authorization per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Operation.SecurityCallsNotAuthorizedPerSecond.aspx 3095. 4073 3096. Displays performance statistics about the ReadyBoost Cache 3097. 4075 3098. The number of bytes read from the cache per second. 3099. 4077 3100. The number of bytes read from the volume per second. 3101. 4079 3102. The number of bytes written to the volume per second. 3103. 4081 3104. The number of read bytes serviced from the update buffers per second. 3105. 4083 3106. The total (uncompressed) amount of data currently stored in the cache. 3107. 4085 3108. The number of bytes invalidated in update buffers per second. 3109. 4087 3110. The number of reads from the cache per second. 3111. 4089 3112. (Actual size of data in cache) / (Uncompressed size of data in cache) 3113. 4091 3114. The number of I/Os not serviced by the cache due to sequentiality per second. 3115. 4093 3116. The number of I/Os not serviced by the cache because the size is bigger than the maximum read size per second. 3117. 4095 3118. Writes rescheduled due to the lack of regions per second. 3119. 4097 3120. Writes rescheduled due to the lack of update buffers per second. 3121. 4099 3122. The number of blocks in update buffers invalidated per second. 3123. 4101 3124. ServiceModelService 3.0.0.0 performance counters 3125. 4103 3126. The number of calls to this service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.Calls.aspx 3127. 4105 3128. The number of calls to this service per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.CallsPerSecond.aspx 3129. 4107 3130. The number of calls to this service that are in progress. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.CallsOutstanding.aspx 3131. 4109 3132. The number of calls with unhandled exceptions in this service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.CallsFailed.aspx 3133. 4111 3134. The number of calls with unhandled exceptions in this service per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.CallsFailedPerSecond.aspx 3135. 4113 3136. The number of calls to this service that returned faults. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.CallsFaulted.aspx 3137. 4115 3138. The number of calls to this service that returned faults per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.CallsFaultedPerSecond.aspx 3139. 4117 3140. The average duration of calls to this service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.CallDuration.aspx 3141. 4119 3142. Base counter for the 'Calls Duration' counter. 3143. 4121 3144. The number of transactions that flowed to operations in this service. This counter is incremented any time a transaction ID is present in the message that is sent to the service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxFlowed.aspx 3145. 4123 3146. The number of transactions that flowed to operations in this service per second. This counter is incremented any time a transaction ID is present in the message that is sent to the service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxFlowedPerSecond.aspx 3147. 4125 3148. The number of transacted operations with the outcome committed in this service. Work done under such operations is fully committed. Resources are updated in accordance with the work done in the operation. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxCommitted.aspx 3149. 4127 3150. The number of transacted operations with the outcome committed in this service per second. Work done under such operations is fully committed. Resources are updated in accordance with the work done in the operation. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxCommittedPerSecond.aspx 3151. 4129 3152. The number of transacted operations with the outcome aborted in this service. Work done under such operations is rolled back. Resources are reverted to their previous state. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxAborted.aspx 3153. 4131 3154. The number of transacted operations with the outcome aborted in this service per second. Work done under such operations is rolled back. Resources are reverted to their previous state. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxAbortedPerSecond.aspx 3155. 4133 3156. The number of transacted operations with an outcome in doubt in this service. Work done with an outcome in doubt is in an indeterminate state. Resources are held pending outcome. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxInDoubt.aspx 3157. 4135 3158. The number of transacted operations with an outcome in doubt in this service per second. Work done with an outcome in doubt is in an indeterminate state. Resources are held pending outcome. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.TxInDoubtPerSecond.aspx 3159. 4137 3160. The number of calls to this service that failed validation or authentication. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.SecurityValidationAuthenticationFailures.aspx 3161. 4139 3162. The number of calls to this service that failed validation or authentication per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.SecurityValidationAuthenticationFailuresPerSecond.aspx 3163. 4141 3164. The number of calls to this service that failed authorization. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.SecurityCallsNotAuthorized.aspx 3165. 4143 3166. The number of calls to this service that failed authorization per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.SecurityCallsNotAuthorizedPerSecond.aspx 3167. 4145 3168. The total number of instances of the service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.Instances.aspx 3169. 4147 3170. The creation rate of service instances per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.InstancesPerSecond.aspx 3171. 4149 3172. The number of reliable messaging sessions that were faulted in this service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.RMSessionsFaulted.aspx 3173. 4151 3174. The number of reliable messaging sessions that were faulted in this service per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.RMSessionsFaultedPerSecond.aspx 3175. 4153 3176. The number of reliable messaging messages that were dropped in this service. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.RMMessagesDropped.aspx 3177. 4155 3178. The number of reliable messaging messages that were dropped in this service per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Service.RMMessagesDroppedPerSecond.aspx 3179. 4157 3180. The number of messages to this service that were marked poisoned by the queued transport. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.MsmqPoisonMessages.aspx 3181. 4159 3182. The number of messages to this service that were marked poisoned by the queued transport per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.MsmqPoisonMessagesPerSecond.aspx 3183. 4161 3184. The number of messages to this servcie that were rejected by the queued transport. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.MsmqRejectedMessages.aspx 3185. 4163 3186. The number of messages to this service that were rejected by the queued transport per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.MsmqRejectedMessagesPerSecond.aspx 3187. 4165 3188. The number of messages to this service that were dropped by the queued transport. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.MsmqDroppedMessages.aspx 3189. 4167 3190. The number of messages to this service that were dropped by the queued transport per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.MsmqDroppedMessagesPerSecond.aspx 3191. 4169 3192. MSDTC Bridge 3.0.0.0 performance counters 3193. 4171 3194. The number of WS-AT protocol messages that the WS-AT service failed to send per second. 3195. 4173 3196. The number of Prepare retry messages that the WS-AT service has sent per second. 3197. 4175 3198. The number of Commit retry messages that the WS-AT service has sent per second. 3199. 4177 3200. The number of Prepared retry messages that the WS-AT service has sent per second. 3201. 4179 3202. The number of Replay retry messages that the WS-AT service has sent per second. 3203. 4181 3204. The number of Fault messages that the WS-AT service has received per second. 3205. 4183 3206. The number of Fault messages that the WS-AT service has sent per second. 3207. 4185 3208. Average time in milliseconds for the WS-AT service to receive a Prepare message response from a participant. 3209. 4187 3210. Base counter for the 'Average participant prepare response time' counter. 3211. 4189 3212. Average time in milliseconds for the WS-AT service to receive a Commit message response from a participant. 3213. 4191 3214. Base counter for the 'Average participant commit response time' counter. 3215. 4273 3216. SMSvcHost 3.0.0.0 performance counters 3217. 4275 3218. The total number of failures at the protocol layer of net.tcp. 3219. 4277 3220. The total number of failures at the protocol layer of net.pipe. 3221. 4279 3222. The total number of failures dispatching messages received over net.tcp. 3223. 4281 3224. The total number of failures dispatching messages received over net.pipe. 3225. 4283 3226. The total number of connections dispatched over net.tcp. 3227. 4285 3228. The total number of connections dispatched over net.pipe. 3229. 4287 3230. The total number of TCP connections accepted over net.tcp. 3231. 4289 3232. The total number of named pipe connections accepted over net.pipe. 3233. 4291 3234. The number of uri registrations currently active for net.tcp. 3235. 4293 3236. The number of uri registrations currently active for net.pipe. 3237. 4295 3238. The total number of uris that were succesfully registered for net.tcp. 3239. 4297 3240. The total number of uris that were succesfully registered for net.pipe. 3241. 4299 3242. The total number of uris that were succesfully unregistered for net.tcp. 3243. 4301 3244. The total number of uris that were succesfully unregistered for net.pipe. 3245. 4303 3246. ServiceModelEndpoint 3.0.0.0 performance counters 3247. 4305 3248. The number of calls to this endpoint. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.Calls.aspx 3249. 4307 3250. The number of calls to this endpoint per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.CallsPerSecond.aspx 3251. 4309 3252. The number of calls to this endpoint that are in progress. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.CallsOutstanding.aspx 3253. 4311 3254. The number of calls with unhandled exceptions at this endpoint. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.CallsFailed.aspx 3255. 4313 3256. The number of calls with unhandled exceptions at this endpoint per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.CallsFailedPerSecond.aspx 3257. 4315 3258. The number of calls to this endpoint that returned faults. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.CallsFaulted.aspx 3259. 4317 3260. The number of calls to this endpoint that returned faults per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.CallsFaultedPerSecond.aspx 3261. 4319 3262. The average duration of calls to this endpoint. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.CallDuration.aspx 3263. 4321 3264. Base counter for the 'Calls Duration' counter. 3265. 4323 3266. The number of transactions that flowed to operations at this endpoint. This counter is incremented any time a transaction ID is present in the message that is sent to the endpoint. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.TxFlowed.aspx 3267. 4325 3268. The number of transactions that flowed to operations at this endpoint per second. This counter is incremented any time a transaction ID is present in the message that is sent to the endpoint. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.TxFlowedPerSecond.aspx 3269. 4327 3270. The number of calls to this endpoint that failed validation or authentication. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.SecurityValidationAuthenticationFailures.aspx 3271. 4329 3272. The number of calls to this endpoint that failed validation or authentication per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.SecurityValidationAuthenticationFailuresPerSecond.aspx 3273. 4331 3274. The number of calls to this endpoint that failed authorization. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.SecurityCallsNotAuthorized.aspx 3275. 4333 3276. The number of calls to this endpoint that failed authorization per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.SecurityCallsNotAuthorizedPerSecond.aspx 3277. 4335 3278. The number of reliable messaging sessions that faulted at this endpoint. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.RMSessionsFaulted.aspx 3279. 4337 3280. The number of reliable messaging sessions that faulted at this endpoint per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.RMSessionsFaultedPerSecond.aspx 3281. 4339 3282. The number of reliable messaging messages that were dropped at this endpoint. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.RMMessagesDropped.aspx 3283. 4341 3284. The number of reliable messaging messages that were dropped at this endpoint per second. http://msdn.microsoft.com/en-US/library/System.ServiceModel.Diagnostics.PerformanceCounters.Endpoint.RMMessagesDroppedPerSecond.aspx 3285. 4343 3286. Windows Workflow Foundation Performance Counters 3287. 4345 3288. Total number of workflows created. 3289. 4347 3290. Rate of workflows created per second. 3291. 4349 3292. Total number of workflows unloaded. 3293. 4351 3294. Rate of workflows unloaded per second. 3295. 4353 3296. Total number of workflows loaded. 3297. 4355 3298. Rate of workflows loaded per second. 3299. 4357 3300. Total number of workflows completed. 3301. 4359 3302. Rate of workflows completed per second. 3303. 4361 3304. Total number of workflows suspended. 3305. 4363 3306. Rate of workflows suspended per second. 3307. 4365 3308. Total number of workflows terminated. 3309. 4367 3310. Rate of workflows terminated per second. 3311. 4369 3312. Total number of workflows in memory. 3313. 4371 3314. Total number of workflows aborted. 3315. 4373 3316. Rate of workflows aborted per second. 3317. 4375 3318. Total number of workflows persisted. 3319. 4377 3320. Rate of workflows persisted per second. 3321. 4379 3322. Total number of workflow instances actively executing. 3323. 4381 3324. Rate of workflows becoming idle per second. 3325. 4383 3326. Total number of workflows ready to execute. 3327. 4385 3328. Total number of workflows waiting for a thread. 3329. 4387 3330. Flow statistics from the packet scheduler 3331. 4389 3332. Pipe statistics from the packet scheduler 3333. 4391 3334. The number of packets dropped by the packet scheduler 3335. 4393 3336. The number of packets which got scheduled in some way (rather than just being directly sent to the underlying miniport) 3337. 4395 3338. The number of packets from this flow which have been sent 3339. 4397 3340. The average number of packets in the shaper over the last sampling period 3341. 4399 3342. The maximum number of packets that have ever simultaneously been in the shaper 3343. 4401 3344. The average number of packets in the sequencer over the last sampling period 3345. 4403 3346. The maximum number of packets that have ever simultaneously been in the sequencer 3347. 4405 3348. The number of bytes which got scheduled in some way (rather than just being directly sent to the underlying miniport) 3349. 4407 3350. The number of bytes from this flow which have been sent 3351. 4409 3352. The number of bytes per second from this flow which have been sent 3353. 4411 3354. The number of bytes per second from this flow which have been scheduled 3355. 4413 3356. The number of packets per second from this flow which have been sent 3357. 4415 3358. The number of packets per second from this flow which have been scheduled 3359. 4417 3360. The number of packets dropped by the packet scheduler from this flow per second 3361. 4419 3362. The number of packets that have entered the packet scheduler at a rate which exceeded the flow parameters 3363. 4421 3364. The rate at which nonconforming packets have entered the packet scheduler 3365. 4423 3366. The number of packets that have been sent by the packet scheduler at a rate which exceeded the flow parameters 3367. 4425 3368. The rate at which nonconforming packets have been sent by the packet scheduler 3369. 4427 3370. The maximum number of packets that have been queued in the netcard by this flow. 3371. 4429 3372. The average number of packets that have been queued in the netcard by this flow. 3373. 4431 3374. The number of times Pacer has been unable to allocate a packet 3375. 4433 3376. The number of flows opened on this pipe (some of which may now be closed) 3377. 4435 3378. The number of flows that have been closed 3379. 4437 3380. The number of flow creations that were rejected 3381. 4439 3382. The of times a flow has been modified 3383. 4441 3384. The number of times a flow modification has been rejected 3385. 4443 3386. The maximum number of flows that have been simultaneously open on this pipe 3387. 4445 3388. The number of packets that have entered the packet scheduler at a rate which exceeded that packet's flow parameters 3389. 4447 3390. The rate at which nonconforming packets have entered the packet scheduler 3391. 4449 3392. The number of packets that have been sent by the packet scheduler at a rate which exceeded that packet's flow parameters 3393. 4451 3394. The rate at which nonconforming packets have been sent by the packet scheduler 3395. 4453 3396. The average number of packets in the shaper over the last sampling period 3397. 4455 3398. The maximum number of packets that have ever simultaneously been in the shaper 3399. 4457 3400. The average number of packets in the sequencer over the last sampling period 3401. 4459 3402. The maximum number of packets that have ever simultaneously been in the sequencer 3403. 4461 3404. The maximum number of packets ever simultaneously in the network card 3405. 4463 3406. The average number of packets in the network card over the last sampling period 3407. 4713 3408. Terminal Services per-session resource monitoring. 3409. 4715 3410. Number of bytes input on this session after all protocol overhead has been removed. 3411. 4717 3412. The number of frames input after any additional protocol added frames have been removed. 3413. 4719 3414. The number of times that a wait for an available send buffer was done by the protocols on the client side of the connection. 3415. 4721 3416. Number of frames (packets) input on this Session. 3417. 4723 3418. Number of bytes input on this session that includes all protocol overhead. 3419. 4725 3420. Number of bytes input after compression. This number compared with the Total Bytes input is the compression ratio. 3421. 4727 3422. Number of input compression dictionary flushes. When the data can not be compressed, the compression dictionary is flushed so that newer data has a better chance of being compressed. Some causes of data not compressing includes transferring compressed files over Client Drive Mapping. 3423. 4729 3424. Number of input errors of all types. Some example input errors are lost ACK's, badly formed packets, etc. 3425. 4731 3426. The total number of timeouts on the communication line as seen from the client side of the connection. These are typically the result of a noisy line. On some high latency networks, this could be the result of the protocol timeout being too short. Increasing the protocol timeout on these types of lines will improve performance by reducing needless re-transmissions. 3427. 4733 3428. Number of input async framing errors. These can be caused by a noisy transmission line. Using a smaller packet size may help in some cases. 3429. 4735 3430. Number of input async overrun errors. These can be caused by the baud rate being faster than the computer can handle, or a non-16550 serial line is used. Overruns can also occur if too many high speed serial lines are active at one time for the processor's power. 3431. 4737 3432. Number of input async overflow errors. These can be caused by a lack of buffer space available on the host. 3433. 4739 3434. Number of input async parity errors. These can be caused by a noisy transmission line 3435. 4741 3436. Number of Terminal Services transport-level errors on input. 3437. 4743 3438. Number of bytes output on this session after all protocol overhead has been removed. 3439. 4745 3440. The number of frames output before any additional protocol frames have been added. 3441. 4747 3442. This is the number of times that a wait for an available send buffer was done by the protocol on the server side of the connection. 3443. 4749 3444. Number of frames (packets) output on this session. 3445. 4751 3446. Number of bytes output on this Session that includes all protocol overhead. 3447. 4753 3448. Number of bytes output after compression. This number compared with the Total Bytes output is the compression ratio. 3449. 4755 3450. Number of output compression dictionary flushes. When the data can not be compressed, the compression dictionary is flushed so that newer data has a better chance of being compressed. Some causes of data not compressing includes transfering compressed files over Client Drive Mapping. 3451. 4757 3452. Number of output errors of all types. Some example output errors are lost ACK's, badly formed packets, etc. 3453. 4759 3454. The total number of timeouts on the communication line from the host side of the connection. These are typically the result of a noisy line. On some high latency networks, this could be the result of the protocol timeout being too short. Increasing the protocol timeout on these types of lines will improve performance by reducing needless re-transmissions. 3455. 4761 3456. Number of output async framing errors. This could be caused by a hardware or line problem. 3457. 4763 3458. Number of output async overrun errors. 3459. 4765 3460. Number of output async overflow errors. 3461. 4767 3462. Number of output async parity errors. These can be caused by a hardware or line problem. 3463. 4769 3464. Number of Terminal Services transport-level errors on output. 3465. 4771 3466. Total number of bytes on this Session after all protocol overhead has been removed. 3467. 4773 3468. The total number of frames input and output before any additional protocol frames have been added. 3469. 4775 3470. The number of times that a wait for an available send buffer was done by the protocols on both the server and client sides of the connection. 3471. 4777 3472. Total number of frames (packets) on this Session. 3473. 4779 3474. Total number of bytes on this Session that includes all protocol overhead. 3475. 4781 3476. Total number of bytes after compression. This number compared with the total bytes is the compression ratio. 3477. 4783 3478. Total number of compression dictionary flushes. When the data can not be compressed, the compression dictionary is flushed so that newer data has a better chance of being compressed. Some causes of data not compressing includes transfering compressed files over Client Drive Mapping. 3479. 4785 3480. Total number of errors of all types. Some example errors are lost ACK's, badly formed packets, etc. 3481. 4787 3482. The total number of timeouts on the communication line from both the host and client sides of the connection. These are typically the result of a noisy line. On some high latency networks, this could be the result of the protocol timeout being too short. Increasing the protocol timeout on these types of lines will improve performance by reducing needless re-transmissions. 3483. 4789 3484. Total number of async framing errors. These can be caused by a noisy transmission line. Using a smaller packet size may help in some cases. 3485. 4791 3486. Total number of async overrun errors. These can be caused by the baud rate being faster than the computer can handle, or a non-16550 serial line is used. Overruns can also occur if too many high speed serial lines are active at one time for the processor's power. 3487. 4793 3488. Total number of async overflow errors. These can be caused by a lack of buffer space available on the host. 3489. 4795 3490. Total number of async parity errors. These can be caused by a noisy transmission line. 3491. 4797 3492. Total number of Terminal Services transport-level errors. 3493. 4799 3494. Total references to all protocol caches. 3495. 4801 3496. Total hits in all protocol caches. The protocol caches Windows objects that are likely to be re-used to avoid having to re-send them on the transmission line. Example objects are Windows icons and brushes. Hits in the cache represent objects that did not need to be re-sent. 3497. 4803 3498. Overall hit ratio for all protocol caches. 3499. 4805 3500. Number of references to the protocol bitmap cache. 3501. 4807 3502. Number of hits in the protocol bitmap cache. 3503. 4809 3504. Hit ratio in the protocol bitmap cache. A higher hit ratio means better performance since data transmissions are reduced. Low hit ratios are due to the screen updating with new information that is either not re-used, or is flushed out of the client cache. 3505. 4811 3506. Number of references to the protocol glyph cache. 3507. 4813 3508. Number of hits in the protocol glyph cache. 3509. 4815 3510. Hit ratio in the protocol glyph cache. A higher hit ratio means better performance since data transmissions are reduced. Low hit ratios are due to the screen updating with new information that is either not re-used, or is flushed out of the client cache. 3511. 4817 3512. Number of references to the protocol brush cache. 3513. 4819 3514. Number of hits in the protocol brush cache. 3515. 4821 3516. Hit ratio in the protocol brush cache. A higher hit ratio means better performance since data transmissions are reduced. Low hit ratios are due to the screen updating with new information that is either not re-used, or is flushed out of the client cache. 3517. 4823 3518. Number of references to the protocol save screen bitmap cache. 3519. 4825 3520. Number of hits in the protocol save screen bitmap cache. 3521. 4827 3522. Hit ratio in the protocol save screen bitmap cache. A higher hit ratio means better performance since data transmissions are reduced. Low hit ratios are due to the screen updating with new information that is either not re-used, or is flushed out of the client cache. 3523. 4829 3524. Compression ratio of the server input data stream. 3525. 4831 3526. Compression ratio of the server output data stream. 3527. 4833 3528. Total compression ratio of the server data stream. 3529. 5111 3530. Statistics related to SQL Servers buffer manager 3531. 5113 3532. Percentage of pages that were found in the buffer pool without having to incur a read from disk. 3533. 5115 3534. Number of AWE unmap calls. 3535. 5117 3536. Number of requests that had to wait for a free page. 3537. 5119 3538. Number of physical database page writes issued. 3539. 5121 3540. Number of pages in the buffer pool with database content. 3541. 5123 3542. Number of seconds a page will stay in the buffer pool without references. 3543. 5125 3544. Number of AWE map calls made for pages stolen from the buffer pool. 3545. 5127 3546. Number of AWE map calls made for pages found in the buffer pool. 3547. 5129 3548. Number of pages used for miscellaneous server purposes (including procedure cache). 3549. 5131 3550. Base for prior entry 3551. 5133 3552. Total number of pages on all free lists. 3553. 5135 3554. Number of pages flushed by checkpoint or other operations that require all dirty pages to be flushed. 3555. 5137 3556. Number of pages in the buffer pool (includes database, free, and stolen). 3557. 5139 3558. Number of buffers written by buffer manager's lazy writer. 3559. 5141 3560. Number of physical database page reads issued. 3561. 5143 3562. Number of buffer pool reserved pages. 3563. 5145 3564. Number of pages read in anticipation of use. 3565. 5147 3566. Ideal number of pages in the buffer pool. 3567. 5149 3568. Number of requests to find a page in the buffer pool. 3569. 5151 3570. Number of AWE pages unmapped. 3571. 5153 3572. Number of AWE map calls made for pages to be written to disk. 3573. 5155 3574. Statistics related to SQL Server's buffer partitions 3575. 5157 3576. Number of times a free page was requested and none were available. 3577. 5159 3578. Number of times a free page was requested. 3579. 5161 3580. Number of pages on partition free list. 3581. 5163 3582. Statistics related to SQL Server's buffer pool by NUMA node 3583. 5165 3584. Number of seconds a page will stay in the buffer pool without references. 3585. 5167 3586. Target pages on node. 3587. 5169 3588. Stolen pages on node. 3589. 5171 3590. Committed pages on node. 3591. 5173 3592. Database pages on node. 3593. 5175 3594. Free pages on node. 3595. 5177 3596. Number of pages which are not from NUMA-local memory. 3597. 5179 3598. Server General Statistics 3599. 5181 3600. Number of Mars Deadlocks detected. 3601. 5183 3602. Number of SOAP Session initiate requests started per second. 3603. 5185 3604. Number of trace event notification instances waiting in the internal queue to be sent thru Service Broker 3605. 5187 3606. Number of SOAP Session terminate requests started per second. 3607. 5189 3608. Number of users connected to the system. 3609. 5191 3610. Number of currently blocked processes. 3611. 5193 3612. Number of authenticated HTTP requests started per second. 3613. 5195 3614. Number of temporary tables/table variables created/sec 3615. 5197 3616. Number of transaction enlistments (local, dtc, and bound). 3617. 5199 3618. Number of temporary tables/table variables in use 3619. 5201 3620. Number of temporary tables/table variables waiting to be destroyed by the cleanup system thread 3621. 5203 3622. Number of logical connections to the system. 3623. 5205 3624. Number of waits for the File IO Provider lock per second 3625. 5207 3626. Number of non-atomic yields per second. 3627. 5209 3628. Number of empty SOAP requests started per second. 3629. 5211 3630. Total number of logins started per second. 3631. 5213 3632. Number of SOAP Web Service Description Language requests started per second. 3633. 5215 3634. Number of SOAP SQL requests started per second. 3635. 5217 3636. Number of SOAP method invocations started per second. 3637. 5219 3638. Total number of logouts started per second. 3639. 5221 3640. Number of event notifications waiting to be dropped by a system thread 3641. 5223 3642. Describes statistics for individual lock server lock requests 3643. 5225 3644. Number of new locks and lock conversions requested from the lock manager. 3645. 5227 3646. Number of lock requests that timed out. This includes requests for NOWAIT locks. 3647. 5229 3648. Number of lock requests that timed out. This does not include requests for NOWAIT locks. 3649. 5231 3650. Total wait time (milliseconds) for locks in the last second. 3651. 5233 3652. Number of lock requests that resulted in a deadlock. 3653. 5235 3654. Base for Averate Wait Time. 3655. 5237 3656. Number of lock requests that could not be satisfied immediately and required the caller to wait before being granted the lock. 3657. 5239 3658. The average amount of wait time (milliseconds) for each lock request that resulted in a wait. 3659. 5241 3660. This defines a Database manager object for SQL Server 3661. 5243 3662. Number of active update transactions for the database. 3663. 5245 3664. Total wait time (milliseconds). 3665. 5247 3666. Percentage of log cache reads that were satisfied from the log cache. 3667. 5249 3668. Number of commits waiting on log flush. 3669. 5251 3670. The cumulative used size of all the log files in the database. 3671. 5253 3672. Reads performed through the log manager cache. 3673. 5255 3674. The rate data is being moved by Autoshrink, DBCC SHRINKDATABASE or SHRINKFILE. 3675. 5257 3676. Total number of log bytes flushed. 3677. 5259 3678. The percent of space in the log that is in use. 3679. 5261 3680. Number of rows bulk copied. 3681. 5263 3682. Number of log flushes. 3683. 5265 3684. Total number of log growths for this database. 3685. 5267 3686. Total number of log truncations for this database. 3687. 5269 3688. Logical read scan rate for DBCC commands 3689. 5271 3690. The cumulative size of all the log files in the database. 3691. 5273 3692. KiloBytes bulk copied. 3693. 5275 3694. Number of transactions started for the database. 3695. 5277 3696. The cumulative size of all the data files in the database. 3697. 5279 3698. Replication transaction rate (replicated transactions/sec.). 3699. 5281 3700. Total number of log shrinks for this database. 3701. 5283 3702. Number of pending replication transactions in the database. 3703. 5285 3704. Read/write throughput for backup/restore of a database. 3705. 5287 3706. Base for log cache calculations 3707. 5289 3708. This defines a Database Mirroring object for SQL Server 3709. 5291 3710. Number of bytes received per second 3711. 5293 3712. Number of sends initiated per second 3713. 5295 3714. Milliseconds packets waited in flow control per second. 3715. 5297 3716. Total number of kilobytes that redo on the mirror database is behind the hardened log 3717. 5299 3718. Average delay in transaction termination waiting for acknowledgement 3719. 5301 3720. Number of bytes of log received per second 3721. 5303 3722. Total number of kilobytes of log that have not been sent to the mirror server 3723. 5305 3724. Number of bytes sent per second 3725. 5307 3726. Number of bytes of log sent per second 3727. 5309 3728. Number of mirroring message receives per second 3729. 5311 3730. Number of pages sent per second 3731. 5313 3732. Number of bytes of log redone by the mirror database per second 3733. 5315 3734. Collects statistics associated with internal server latches 3735. 5317 3736. Number of latch requests that could not be granted immediately and had to wait before being granted. 3737. 5319 3738. Number of SuperLatches that have been demoted to regular latches 3739. 5321 3740. Total latch wait time (milliseconds) for latch requests that had to wait in the last second. 3741. 5323 3742. Base for Average Latch Wait Time. 3743. 5325 3744. Number of latches that have been promoted to SuperLatches 3745. 5327 3746. Number of latches that are currently SuperLatches. 3747. 5329 3748. Average latch wait time (milliseconds) for latch requests that had to wait. 3749. 5331 3750. Collects statistics associated with the database server access methods 3751. 5333 3752. The number of times that a leaf page cookie could not be used during an index search since changes happened on the leaf page. The cookie is used to speed up index search. 3753. 5335 3754. Number of ghosted records per second skipped during scans. 3755. 5337 3756. Number of times the scan point had to be revalidated to continue the scan. 3757. 5339 3758. The number of rowsets per second created as a result of aborted online index build operations that were successfully dropped by the background task that cleans up deferred dropped rowsets. 3759. 5341 3760. Count of temporary LOBs created. 3761. 5343 3762. Count of large object (LOB) values that were passed by reference. By-reference lobs are used in certain bulk operations to avoid the cost of passing them by value. 3763. 5345 3764. Number of probe scans per second that are used to find at most one single qualified row in an index or base table directly. 3765. 5347 3766. Count of lob pages on which readahead was issued. 3767. 5349 3768. Number of times a tree page cookie was used successfully during an index search since no change happened on the parent page of the tree page. The cookie is used to speed up index search. 3769. 5351 3770. Percent of worktables from cache base. 3771. 5353 3772. Number of extents allocated per second in all databases in this SQL Server instance. 3773. 5355 3774. Count of values that were pushed from in-row to off-row. 3775. 5357 3776. The number of batches that completed successfully per second by the background task that cleans up deferred dropped allocation units. 3777. 5359 3778. Percentage of work tables created where the initial two pages of the work table were not allocated but were immediately available from the work table cache. 3779. 5361 3780. Number of qualified range scans through indexes per second. 3781. 5363 3782. Count of values that were pulled in-row from off-row. 3783. 5365 3784. The number of batches per second that failed and required retry, by the background task that cleans up deferred dropped allocation units. Failure could be due to lack of memory or disk space, hardware failure and other reasons. 3785. 5367 3786. Number of scans per second that were initiated to search for free space within pages already allocated to an allocation unit to insert or modify record fragments. Each scan may find multiple pages. 3787. 5369 3788. The number of times that a tree page cookie could not be used during an index search since changes happened on the parent pages of those tree pages. The cookie is used to speed up index search. 3789. 5371 3790. Number of pages deallocated per second in all databases in this SQL Server instance. These include pages from mixed extents and uniform extents. 3791. 5373 3792. Number of unrestricted full scans. These can either be base table or full index scans. 3793. 5375 3794. The number of times locks on a table were escalated. 3795. 5377 3796. Number of records fetched through forwarded record pointers. 3797. 5379 3798. Count of by-reference lob values that were used. By-reference lobs are used in certain bulk operations to avoid the cost of passing them by value. 3799. 5381 3800. The number of rowsets created as a result of aborted online index build operations that are waiting to be dropped by the background task that cleans up deferred dropped rowsets. 3801. 5383 3802. Number of page splits per second that occur as a result of overflowing index pages. 3803. 5385 3804. Count of LOB Storage Service Providers truncated. 3805. 5387 3806. The number of rowsets per second created as a result of aborted online index build operations that were skipped by the background task that cleans up deferred dropped rowsets created. 3807. 5389 3808. Number of times a leaf page cookie was used successfully during an index search since no change happened on the leaf page. The cookie is used to speed up index search. 3809. 5391 3810. Number of pages fetched per second by free space scans. These scans search for free space within pages already allocated to an allocation unit, to satisfy requests to insert or modify record fragments. 3811. 5393 3812. The number of allocation units waiting to be dropped by the background task that cleans up deferred dropped allocation units. 3813. 5395 3814. Number of pages allocated per second in all databases in this SQL Server instance. These include pages allocations from both mixed extents and uniform extents. 3815. 5397 3816. Count of LOB Storage Service Providers created. One worktable created per LOB Storage Service Provider. 3817. 5399 3818. Number of work files created per second. For example, work files could be used to store temporary results for hash joins and hash aggregates. 3819. 5401 3820. Number of extents deallocated per second in all databases in this SQL Server instance. 3821. 5403 3822. Count of temporary LOBs destroyed. 3823. 5405 3824. Number of index searches. Index searches are used to start range scans, single index record fetches, and to reposition within an index. 3825. 5407 3826. The number of allocation units per second that were successfully dropped by the background task that cleans up deferred dropped allocation units. Each allocation unit drop requires multiple batches. 3827. 5409 3828. Number of pages allocated per second from mixed extents. These could be used for storing the IAM pages and the first eight pages that are allocated to an allocation unit. 3829. 5411 3830. Number of work tables created per second. For example, work tables could be used to store temporary results for query spool, LOB variables, XML variables, and cursors. 3831. 5413 3832. Count of LOB Storage Service Providers destroyed. 3833. 5415 3834. Statistics about errors in SQL Server 3835. 5417 3836. Number of errors/sec 3837. 5419 3838. Collects statistics associated with SQL requests 3839. 5421 3840. Number of failed auto-parameterizations. 3841. 5423 3842. Number of SQL batch requests received by server. 3843. 5425 3844. Number of unsafe auto-parameterizations. 3845. 5427 3846. Number of attentions per second. 3847. 5429 3848. Number of SQL re-compiles. 3849. 5431 3850. Number of statements parameterized by forced parameterization per second. 3851. 5433 3852. Number of SQL compilations. 3853. 5435 3854. Number of safe auto-parameterizations. 3855. 5437 3856. Number of auto-parameterization attempts. 3857. 5439 3858. This defines cache counters 3859. 5441 3860. Number of cache objects in the cache 3861. 5443 3862. Base for prior entry 3863. 5445 3864. Number of 8k pages used by cache objects 3865. 5447 3866. Ratio between cache hits and lookups 3867. 5449 3868. Number of cache objects in use 3869. 5451 3870. Counters for cursor properties grouped by type 3871. 5453 3872. Amount of memory consumed by cursors (KB). 3873. 5455 3874. Ratio between cache hits and lookups 3875. 5457 3876. Times each type of cached cursor has been used 3877. 5459 3878. Number of cursor plans. 3879. 5461 3880. Number of cursors of a given type in the cache 3881. 5463 3882. Number of SQL cursor requests received by server. 3883. 5465 3884. Base for prior entry 3885. 5467 3886. Number of worktables used by cursors. 3887. 5469 3888. Number of active cursors. 3889. 5471 3890. Counters for cursor properties not grouped by type 3891. 5473 3892. Number of cursor conversions/sec. 3893. 5475 3894. Total number of times a flush for a cursor xstmt occured. 3895. 5477 3896. Number of cursors being populated asynchronously. 3897. 5479 3898. This defines memory usage. 3899. 5481 3900. Total amount of dynamic memory the server is currently consuming 3901. 5483 3902. Total amount of dynamic memory the server is using for the dynamic SQL cache 3903. 5485 3904. Total amount of memory granted to executing processes. This memory is used primarily for hash, sort and create index operations. 3905. 5487 3906. The current number of lock blocks that are in use on the server. Refreshed periodically. 3907. 5489 3908. Current number of processes waiting for a workspace memory grant 3909. 5491 3910. The number of lock owner blocks that are currently in use on the server. Refreshed periodically. 3911. 5493 3912. Total amount of dynamic memory the server is using for locks 3913. 5495 3914. Total amount of dynamic memory the server is willing to consume 3915. 5497 3916. Total amount of dynamic memory the server is using for maintaining connections 3917. 5499 3918. The current number of allocated lock blocks. 3919. 5501 3920. Total amount of dynamic memory the server is using for query optimization 3921. 5503 3922. The current number of allocated lock owner blocks. 3923. 5505 3924. Current number of processes that have successfully acquired a workspace memory grant 3925. 5507 3926. Total amount of memory granted to executing processes. This memory is used for hash, sort and create index operations. 3927. 5509 3928. This defines user definable counters 3929. 5511 3930. As defined by the user. 3931. 5513 3932. Replication Summary 3933. 5515 3934. The number of replication agents currently running. 3935. 5517 3936. Replication Merge Agent Statistics 3937. 5519 3938. The number of rows per second merged from the Subscriber to the Publisher. 3939. 5521 3940. The number of conflicts per second occurring during the merge process. 3941. 5523 3942. The number of rows per second merged from the Publisher to the Subscriber. 3943. 5525 3944. Replication Logreader Agent Statistics 3945. 5527 3946. The number of commands per second delivered to the Distributor. 3947. 5529 3948. The current amount of time, in milliseconds, elapsed from when transactions are applied at the Publisher to when they are delivered to the Distributor. 3949. 5531 3950. The number of transactions per second delivered to the Distributor. 3951. 5533 3952. Replication Distribution Agent Statistics 3953. 5535 3954. The number of transactions per second delivered to the Subscriber. 3955. 5537 3956. The number of commands per second delivered to the Subscriber. 3957. 5539 3958. The current amount of time, in milliseconds, elapsed from when transactions are delivered to the Distributor to when they are applied at the Subscriber. 3959. 5541 3960. Replication Snapshot Agent Statistics 3961. 5543 3962. The number of transactions per second delivered to the Distributor. 3963. 5545 3964. The number of commands per second delivered to the Distributor. 3965. 5547 3966. This defines a backup device object for SQL Server 3967. 5549 3968. Read/write throughput for a backup device. 3969. 5551 3970. Statistics related to SQL Server transactions. 3971. 5553 3972. The size of the version store in KB. 3973. 5555 3974. The longest running time of any transcation in seconds. 3975. 5557 3976. The total number of active transactions. 3977. 5559 3978. Truncation of unit in Version Store. 3979. 5561 3980. The total number of active non-snapshot transactions that generate version records. 3981. 5563 3982. The total number of active snapshot transactions. 3983. 5565 3984. The total number of active snapshot transactions that do updates. 3985. 5567 3986. Number of unit in Version Store. 3987. 5569 3988. Creation of new unit in Version Store. 3989. 5571 3990. The version generation rate in KB per seconds. 3991. 5573 3992. The version cleanup rate in KB per seconds. 3993. 5575 3994. The free space in tempdb in KB. 3995. 5577 3996. The fraction of update snapshot transactions that have update conflicts to the total number of update snapshot transactions. 3997. 5579 3998. The total number of update snapshot transactions. 3999. 5581 4000. Service Broker Statistics 4001. 5583 4002. The number of forwarded message bytes successfully sent per second. 4003. 5585 4004. The number of forwarded messages that have not been successfully sent yet. 4005. 5587 4006. The number of message fragments from the transport that are successfully delivered into queues per second. Note the cooresponding message may not be complete yet or may be out of order, and therefore the message can be in the queue as disabled. 4007. 5589 4008. Total number of SQL RECEIVE commands processed by the Broker. 4009. 5591 4010. The number of messages from the transport that are successfully delivered as ready into queues per second. 4011. 5593 4012. Total number of SQL SEND commands processed by the Broker. 4013. 5595 4014. The number of SQL RECEIVE commands processed by the Broker per second. 4015. 5597 4016. Total number of message fragments from the transport that are successfully delivered into queues. Note the cooresponding message may not be complete yet or may be out of order, and therefore the message can be in the queue as disabled. 4017. 5599 4018. Total number of message fragments from local endpoints and the transport that are successfully delivered as ready into queues. 4019. 5601 4020. Total number of message fragments from local endpoints that are successfully delivered as ready into queues. 4021. 5603 4022. The number of Service Broker related transactions that have rolled back. 4023. 5605 4024. Total number of forwarded messages successfully sent. 4025. 5607 4026. The number of forwarded message bytes that have not been successfully sent yet. 4027. 5609 4028. The number of forwarded messages successfully sent per second. 4029. 5611 4030. The number of messages from local endpoints that are successfully delivered as ready into queues per second. 4031. 5613 4032. The number of messages from local endpoints and the transport that are successfully delivered as ready into queues per second. 4033. 5615 4034. The number of SQL SEND commands processed by the Broker per second. 4035. 5617 4036. Total number of forwarded messages discarded due to forwarded message memory limits, age limits, etc. 4037. 5619 4038. The number of dialog endpoint related timer events in the Broker. 4039. 5621 4040. The number of forwarded messages that were discarded per second due to forwarded message memory limits, age limits, etc. 4041. 5623 4042. Total number of forwarded message bytes successfully sent. 4043. 5625 4044. Total number of messages from the transport that are successfully delivered as ready into queues. 4045. 5627 4046. Service Broker/Database Mirroring Transport Statistics 4047. 5629 4048. The number of bytes associated with in completed transport receive I/O operations whose message fragments haven't been enqueued (or rejected) yet. 4049. 5631 4050. The average byte size of message fragments received in transport receive I/O operations. 4051. 5633 4052. The current number of message fragments associated with current transport send I/O operations that haven't completed. 4053. 5635 4054. Base for the average byte size of message fragments received in transport receive I/O operations. 4055. 5637 4056. The number of message fragments received per second in transport receive I/O operations. 4057. 5639 4058. The number of message fragments sent per second in transport send I/O operations. 4059. 5641 4060. The number of transport send I/Os per second. Note that a transport send I/O may contain more than one message fragment. 4061. 5643 4062. The number of transport receive I/O bytes per second. 4063. 5645 4064. The number of buffer bytes associated with current transport send I/O operations that haven't completed. 4065. 5647 4066. The average byte length of transport send I/O operations. 4067. 5649 4068. The average byte size of message fragments sent in transport send I/O operations. 4069. 5651 4070. The total number of transport connections currently open. 4071. 5653 4072. The current number of message fragments received in transport receive I/O operations that have not been enqueued (or rejected) yet. 4073. 5655 4074. The number of transport send I/O bytes per second. 4075. 5657 4076. The number of transport receives I/O per second. Note that a transport receive I/O may contain more than one message fragment. 4077. 5659 4078. The number of times when transport receive I/O operations had to move buffer fragments in memory. 4079. 5661 4080. The number of buffer bytes associated with message fragments being marshalled, or marshalled and ready to be sent with send I/O operations. 4081. 5663 4082. The average byte length of transport receive I/O operations. 4083. 5665 4084. The rate at witch transport receive I/O operations had to move buffer fragments in memory. 4085. 5667 4086. Base for the average byte length of transport send I/O operations. 4087. 5669 4088. The current number of message fragments that are being marshalled, or marshalled and ready to be sent via the transport layer. 4089. 5671 4090. Base for the average byte size of message fragments sent in transport send I/O operations. 4091. 5673 4092. Base for the average byte length of transport receive I/O operations. 4093. 5675 4094. The number of bytes associated with current transport receive I/O operations that haven't completed. 4095. 5677 4096. Service Broker Activation 4097. 5679 4098. The number of times the activated task limit on a queue has been reached per second. 4099. 5681 4100. The total number of times the activated task limit on a queue has been reached. 4101. 5683 4102. The total number of activated tasks that are currently running. 4103. 5685 4104. The number of stored procedures that are being invoked per second. 4105. 5687 4106. The number of activated tasks that are being aborted per second. 4107. 5689 4108. The number of activated tasks that are being started per second. 4109. 5691 4110. Wait Statistics 4111. 5693 4112. Statistics relevant to processes synchronizing access to workspace. 4113. 5695 4114. Statistics relevant to non-page latches. 4115. 5697 4116. Statistics relevant to page latches, not including IO latches 4117. 5699 4118. Statistics for processes waiting on thread-safe memory allocators. 4119. 5701 4120. Statistics relevant to page IO latches. 4121. 5703 4122. Statistics relevant to processes waiting for worker to become available. 4123. 5705 4124. Statistics for processes waiting for log buffer to be written. 4125. 5707 4126. Statistics relevant to processes synchronizing access to transaction. 4127. 5709 4128. Statistics for processes waiting on a lock. 4129. 5711 4130. Statistics relevant to wait on network IO. 4131. 5713 4132. Statistics for processes waiting for memory grant to become available. 4133. 5715 4134. Statistics for processes waiting for log buffer to be available. 4135. 5717 4136. Execution statistics for external calls 4137. 5719 4138. Statistics relevant to execution of OLEDB calls. 4139. 5721 4140. Statistics relevant to execution of distributed queries. 4141. 5723 4142. Statistics relevant to execution of DTC calls. 4143. 5725 4144. Statistics relevant to execution of XP calls. 4145. 5727 4146. CLR Execution in SQL Server 4147. 5729 4148. Total Execution time in CLR ( microseconds ). 4149. 5731 4150. This defines a catalog metadata manager object for SQL Server 4151. 5733 4152. Number of entries in the catalog metadata cache 4153. 5735 4154. Ratio between catalog metadata cache hits and lookups 4155. 5737 4156. Base for prior entry 4157. 5739 4158. Number of catalog metadata cache entries that are pinned 4159. 6353 4160. Counters for classes in the System.Net namespace. 4161. 6355 4162. The cumulative total number of socket connections established for this process since the process was started. 4163. 6357 4164. The cumulative total number of bytes received over all open socket connections since the process was started. This number includes data and any protocol information that is not defined by the TCP/IP protocol. 4165. 6359 4166. The cumulative total number of bytes sent over all open socket connections since the process was started. This number includes data and any protocol information that is not defined by the TCP/IP protocol. 4167. 6361 4168. The cumulative total number of datagram packets received since the process was started. 4169. 6363 4170. The cumulative total number of datagram packets sent since the process was started. 4171. 6365 4172. The number of HttpWebRequest objects created during the last sample interval (typically 1 sec). 4173. 6367 4174. The average lifetime of all web requests completed during the last sample interval. The lifetime is defined as the time between the creation of the HttpWebRequest object and the closing of either the HttpWebResponse object or the response stream object. Values are shown in milliseconds. 4175. 6369 4176. HttpWebRequests Average Lifetime Base 4177. 6371 4178. The number of HttpWebRequest objects added to a waiting queue during the last sample interval (typically 1 sec). A request is added to a waiting queue if all connections to the server are already in use when the request is submitted. 4179. 6373 4180. The average time HttpWebRequest objects spent in a waiting queue. A request is added to a waiting queue if all connections to the server are already in use when the request is submitted, and remains there until a connection becomes available. Values are shown in milliseconds. 4181. 6375 4182. HttpWebRequests Average Queue Time Base 4183. 6377 4184. The number of HttpWebRequest objects aborted during the last sample interval (typically 1 sec). Typically requests are aborted either by calling HttpWebRequest.Abort() or if the request times out. 4185. 6379 4186. The number of HttpWebRequest objects failed during the last sample interval (typically 1 sec). A request is considered failed, if after starting the request processing one of the following methods throw an exception: HttpWebRequest.EndGetRequestStream(), HttpWebRequest.GetRequestStream(), HttpWebRequest.EndGetResponse(), HttpWebRequest.GetResponse() 4187. 8185 4188. System.Runtime.Caching.MemoryCache Performance Counters 4189. 8187 4190. The number of cache hits. 4191. 8189 4192. The number of cache misses. 4193. 8191 4194. The percentage of cache hits in the total number of cache requests. 4195. 8193 4196. Cache Hit Ratio Base 4197. 8195 4198. Total number of entries removed from the cache due to memory pressure or Trim invocations. 4199. 8197 4200. The number of entries within the cache. 4201. 8199 4202. The number of entries added to the cache or removed from the cache per second. 4203. 8435 4204. ASP.NET global performance counters 4205. 8437 4206. ASP.NET application performance counters 4207. 8439 4208. Number of times the application has been restarted during the web server's lifetime. 4209. 8441 4210. Number of currently running web applications. 4211. 8443 4212. The number of requests disconnected due to communication errors or user terminated. 4213. 8445 4214. The number of milliseconds that it took to execute the most recent request. 4215. 8447 4216. The number of requests rejected because the request queue was full. 4217. 8449 4218. The number of requests waiting to be processed. 4219. 8451 4220. Number of worker processes running on the machine. 4221. 8453 4222. Number of times a worker process has restarted on the machine. 4223. 8455 4224. The number of milliseconds the most recent request was waiting in the queue. 4225. 8457 4226. The current number of sessions currently active. 4227. 8459 4228. The number of sessions that have been explicitly abandoned. 4229. 8461 4230. The number of sessions timed out. 4231. 8463 4232. The number of sessions total. 4233. 8465 4234. The current number of requests, including those that are queued, currently executing, or waiting to be written to the client. Under the ASP.NET process model, when this counter exceeds the requestQueueLimit defined in the processModel configuration section, ASP.NET will begin rejecting requests. 4235. 8467 4236. Number of audit successes in the application since it was started. 4237. 8469 4238. Number of audit failures in the application since it was started. 4239. 8471 4240. Number of error events raised since the application was started. 4241. 8473 4242. Number of runtime error events raised since the application was started. 4243. 8475 4244. Number of HTTP error events raised since the application was started. 4245. 8477 4246. Requests queued because the concurrency limits have been exceeded. 4247. 8479 4248. Number of requests utilizing anonymous authentication. 4249. 8481 4250. Number of Authentication Anonymous Requests/Sec 4251. 8483 4252. Total number of entries within the cache (both internal and user added) 4253. 8485 4254. Number of additions and removals to the total cache per second. 4255. 8487 4256. Total number of hits from the cache. 4257. 8489 4258. Total number of cache misses. 4259. 8491 4260. Ratio of hits from all cache calls. 4261. 8493 4262. Cache Total Hit Ratio Base 4263. 8495 4264. Total number of entries within the cache added by the user. 4265. 8497 4266. Number of additions and removals to the API cache per second. 4267. 8499 4268. Number of cache hits from user code. 4269. 8501 4270. Number of cache misses called from user code. 4271. 8503 4272. Ratio of hits called from user code. 4273. 8505 4274. Cache API Hit Ratio Base 4275. 8507 4276. Current number of entries in the output cache. 4277. 8509 4278. Number of additions and removals to the output cache per second. 4279. 8511 4280. Total number of output cacheable requests served from the output cache. 4281. 8513 4282. Total number of output cacheable requests not served from the output cache. 4283. 8515 4284. Ratio of hits to requests for output cacheable requests. 4285. 8517 4286. Output Cache Hit Ratio Base 4287. 8519 4288. Number of .asax, .ascx, .ashx, .asmx, or .aspx source files dynamically compiled. 4289. 8521 4290. Number of debugging requests processed. 4291. 8523 4292. Number of errors that have occurred during parsing and configuration. 4293. 8525 4294. Number of errors that have occurred during compilation. 4295. 8527 4296. Number of errors that have occurred during the processing of a request. 4297. 8529 4298. Number of errors not handled by user code, but by the default error handler. 4299. 8531 4300. Rate of unhandled errors. 4301. 8533 4302. Total number of errors occurred. 4303. 8535 4304. Rate of errors occurred. 4305. 8537 4306. Number of active pipeline instances. 4307. 8539 4308. The total size, in bytes, of all requests. 4309. 8541 4310. The total size, in bytes, of responses sent to a client. This does not include standard HTTP response headers. 4311. 8543 4312. The number of requests currently executing. 4313. 8545 4314. Total number of failed requests. 4315. 8547 4316. The number of requests for resources that were not found. 4317. 8549 4318. Number of requests failed due to unauthorized access. 4319. 8551 4320. The number of requests in the application request queue. 4321. 8553 4322. The number of requests that timed out. 4323. 8555 4324. The number of requests that executed successfully. 4325. 8557 4326. The total number of requests since the application was started. 4327. 8559 4328. The number of requests executed per second. 4329. 8561 4330. The current number of sessions currently active. 4331. 8563 4332. The number of sessions that have been explicitly abandoned. 4333. 8565 4334. The number of sessions timed out. 4335. 8567 4336. Total number of sessions since the application was started. 4337. 8569 4338. The number of transactions aborted. 4339. 8571 4340. The number of transactions committed. 4341. 8573 4342. Number of transactions in progress. 4343. 8575 4344. The total number of transactions since the application was started. 4345. 8577 4346. Transactions started per second. 4347. 8579 4348. The total number of connections to the State Server used by session state. 4349. 8581 4350. The total number of connections to the SQL Server used by session state. 4351. 8583 4352. Total number of instrumentation events raised since the application was started. 4353. 8585 4354. Total number of instrumentation events per second. 4355. 8587 4356. Number of application events raised since the application was started. 4357. 8589 4358. Number of application events raised per second. 4359. 8591 4360. Number of error events raised since the application was started. 4361. 8593 4362. Number of error events per second. 4363. 8595 4364. Number of runtime error events raised since the application was started. 4365. 8597 4366. Number of runtime error events per second. 4367. 8599 4368. Number of HTTP error events raised since the application was started. 4369. 8601 4370. Number of HTTP error events raised per second. 4371. 8603 4372. Number of request events raised since the application was started 4373. 8605 4374. Number of request events raised per second. 4375. 8607 4376. Number of audit successes in the application since it was started. 4377. 8609 4378. Number of audit failures in the application since it was started. 4379. 8611 4380. Number of successful membership credential validations since the application was started. 4381. 8613 4382. Number of failed membership credential validations since the application was started. 4383. 8615 4384. Number of successful forms authentication ticket validations since the application was started. 4385. 8617 4386. Number of failed forms authentication ticket validations since the application was started. 4387. 8619 4388. Number of viewstate MAC validations that failed since the application was started. 4389. 8621 4390. The number of milliseconds that it took to execute the most recent request. 4391. 8623 4392. The number of requests disconnected due to communication errors or user terminated. 4393. 8625 4394. The number of requests rejected because the application request queue was full. 4395. 8627 4396. The number of milliseconds the most recent request was waiting in the queue. 4397. 8629 4398. The amount of physical memory used by the machine divided by the physical memory limit for the cache, as a percentage. When this reaches 100%, half of the cache entries will be forcibly removed. The __Total__ instance is the average of all instances, and therefore cannot be used to determine when cache entries will be forcibly removed. 4399. 8631 4400. Cache % Machine Memory Limit Used Base 4401. 8633 4402. The value of private bytes for the worker process divided by the private bytes memory limit for the cache, as a percentage. When this reaches 100%, half of the cache entries will be forcibly removed. The __Total__ instance is the average of all instances, and therefore cannot be used to determine when cache entries will be forcibly removed. 4403. 8635 4404. Cache % Process Memory Limit Used Base 4405. 8637 4406. Total number of entries forcibly removed from the cache due to memory pressure. 4407. 8639 4408. Total number of entries forcibly removed from the cache due to memory pressure that were originally inserted into the cache using one of the public cache APIs. 4409. 8641 4410. Total number of entries forcibly removed from the cache due to memory pressure that were originally inserted into the cache by the output cache feature. 4411. 8643 4412. Estimated percentage of elapsed time that the processor spends executing managed application code. This counter only tracks processor time of managed threads in the application. It does not include additional processor time spent executing on non-managed threads. Note that this counter is only updated with new data every five seconds. 4413. 8645 4414. % Managed Processor Time Base (estimated) 4415. 8647 4416. Estimated managed heap memory consumption (in KB) by the application. The accuracy of this counter varies depending on the duration of elapsed time since the last full managed memory heap collection. Note that this counter is only updated with new data every five seconds. 4417. 8649 4418. The total size, in bytes, of data received by ASP.NET on WebSocket connections. 4419. 8651 4420. The total size, in bytes, of data sent to a client on WebSocket connections. 4421. 8653 4422. The number of WebSocket requests currently executing. 4423. 8655 4424. Total number of WebSocket requests that ended up in an aborted state. 4425. 8657 4426. Total number of WebSocket requests that completed gracefully. 4427. 8659 4428. The total number of WebSocket requests since the application was started. 4429. 9087 4430. SMSvcHost 4.0.0.0 performance counters 4431. 9089 4432. The total number of failures at the protocol layer of net.tcp. 4433. 9091 4434. The total number of failures at the protocol layer of net.pipe. 4435. 9093 4436. The total number of failures dispatching messages received over net.tcp. 4437. 9095 4438. The total number of failures dispatching messages received over net.pipe. 4439. 9097 4440. The total number of connections dispatched over net.tcp. 4441. 9099 4442. The total number of connections dispatched over net.pipe. 4443. 9101 4444. The total number of TCP connections accepted over net.tcp. 4445. 9103 4446. The total number of named pipe connections accepted over net.pipe. 4447. 9105 4448. The number of uri registrations currently active for net.tcp. 4449. 9107 4450. The number of uri registrations currently active for net.pipe. 4451. 9109 4452. The total number of uris that were succesfully registered for net.tcp. 4453. 9111 4454. The total number of uris that were succesfully registered for net.pipe. 4455. 9113 4456. The total number of uris that were succesfully unregistered for net.tcp. 4457. 9115 4458. The total number of uris that were succesfully unregistered for net.pipe. 4459. 9117 4460. MSDTC Bridge 4.0.0.0 performance counters 4461. 9119 4462. The number of WS-AT protocol messages that the WS-AT service failed to send per second. 4463. 9121 4464. The number of Prepare retry messages that the WS-AT service has sent per second. 4465. 9123 4466. The number of Commit retry messages that the WS-AT service has sent per second. 4467. 9125 4468. The number of Prepared retry messages that the WS-AT service has sent per second. 4469. 9127 4470. The number of Replay retry messages that the WS-AT service has sent per second. 4471. 9129 4472. The number of Fault messages that the WS-AT service has received per second. 4473. 9131 4474. The number of Fault messages that the WS-AT service has sent per second. 4475. 9133 4476. Average time in milliseconds for the WS-AT service to receive a Prepare message response from a participant. 4477. 9135 4478. Base counter for the 'Average participant prepare response time' counter. 4479. 9137 4480. Average time in milliseconds for the WS-AT service to receive a Commit message response from a participant. 4481. 9139 4482. Base counter for the 'Average participant commit response time' counter. 4483. 9141 4484. Windows Workflow Foundation Performance Counters 4485. 9143 4486. Total number of workflows created. 4487. 9145 4488. Rate of workflows created per second. 4489. 9147 4490. Total number of workflows unloaded. 4491. 9149 4492. Rate of workflows unloaded per second. 4493. 9151 4494. Total number of workflows loaded. 4495. 9153 4496. Rate of workflows loaded per second. 4497. 9155 4498. Total number of workflows completed. 4499. 9157 4500. Rate of workflows completed per second. 4501. 9159 4502. Total number of workflows suspended. 4503. 9161 4504. Rate of workflows suspended per second. 4505. 9163 4506. Total number of workflows terminated. 4507. 9165 4508. Rate of workflows terminated per second. 4509. 9167 4510. Total number of workflows in memory. 4511. 9169 4512. Total number of workflows aborted. 4513. 9171 4514. Rate of workflows aborted per second. 4515. 9173 4516. Total number of workflows persisted. 4517. 9175 4518. Rate of workflows persisted per second. 4519. 9177 4520. Total number of workflow instances actively executing. 4521. 9179 4522. Rate of workflows becoming idle per second. 4523. 9181 4524. Total number of workflows ready to execute. 4525. 9183 4526. Total number of workflows waiting for a thread. 4527. 12465 4528. ASP.NET State Service 4529. 12691 4530. The current number of sessions currently active. 4531. 12693 4532. The number of sessions that have been explicitly abandoned. 4533. 12695 4534. The number of sessions timed out. 4535. 12697 4536. The number of sessions total. 4537. 12699 4538. ASP.NET global performance counters 4539. 12701 4540. ASP.NET application performance counters 4541. 12703 4542. Number of times the application has been restarted during the web server's lifetime. 4543. 12705 4544. Number of currently running web applications. 4545. 12707 4546. The number of requests disconnected due to communication errors or user terminated. 4547. 12709 4548. The number of milliseconds that it took to execute the most recent request. 4549. 12711 4550. The number of requests rejected because the request queue was full. 4551. 12713 4552. The number of requests waiting to be processed. 4553. 12715 4554. Number of worker processes running on the machine. 4555. 12717 4556. Number of times a worker process has restarted on the machine. 4557. 12719 4558. The number of milliseconds the most recent request was waiting in the queue. 4559. 12721 4560. The current number of sessions currently active. 4561. 12723 4562. The number of sessions that have been explicitly abandoned. 4563. 12725 4564. The number of sessions timed out. 4565. 12727 4566. The number of sessions total. 4567. 12729 4568. The current number of requests, including those that are queued, currently executing, or waiting to be written to the client. Under the ASP.NET process model, when this counter exceeds the requestQueueLimit defined in the processModel configuration section, ASP.NET will begin rejecting requests. 4569. 12731 4570. Number of audit successes in the application since it was started. 4571. 12733 4572. Number of audit failures in the application since it was started. 4573. 12735 4574. Number of error events raised since the application was started. 4575. 12737 4576. Number of runtime error events raised since the application was started. 4577. 12739 4578. Number of HTTP error events raised since the application was started. 4579. 12741 4580. Requests queued because the concurrency limits have been exceeded. 4581. 12743 4582. Number of requests utilizing anonymous authentication. 4583. 12745 4584. Number of Authentication Anonymous Requests/Sec 4585. 12747 4586. Total number of entries within the cache (both internal and user added) 4587. 12749 4588. Number of additions and removals to the total cache per second. 4589. 12751 4590. Total number of hits from the cache. 4591. 12753 4592. Total number of cache misses. 4593. 12755 4594. Ratio of hits from all cache calls. 4595. 12757 4596. Cache Total Hit Ratio Base 4597. 12759 4598. Total number of entries within the cache added by the user. 4599. 12761 4600. Number of additions and removals to the API cache per second. 4601. 12763 4602. Number of cache hits from user code. 4603. 12765 4604. Number of cache misses called from user code. 4605. 12767 4606. Ratio of hits called from user code. 4607. 12769 4608. Cache API Hit Ratio Base 4609. 12771 4610. Current number of entries in the output cache. 4611. 12773 4612. Number of additions and removals to the output cache per second. 4613. 12775 4614. Total number of output cacheable requests served from the output cache. 4615. 12777 4616. Total number of output cacheable requests not served from the output cache. 4617. 12779 4618. Ratio of hits to requests for output cacheable requests. 4619. 12781 4620. Output Cache Hit Ratio Base 4621. 12783 4622. Number of .asax, .ascx, .ashx, .asmx, or .aspx source files dynamically compiled. 4623. 12785 4624. Number of debugging requests processed. 4625. 12787 4626. Number of errors that have occurred during parsing and configuration. 4627. 12789 4628. Number of errors that have occurred during compilation. 4629. 12791 4630. Number of errors that have occurred during the processing of a request. 4631. 12793 4632. Number of errors not handled by user code, but by the default error handler. 4633. 12795 4634. Rate of unhandled errors. 4635. 12797 4636. Total number of errors occurred. 4637. 12799 4638. Rate of errors occurred. 4639. 12801 4640. Number of active pipeline instances. 4641. 12803 4642. The total size, in bytes, of all requests. 4643. 12805 4644. The total size, in bytes, of responses sent to a client. This does not include standard HTTP response headers. 4645. 12807 4646. The number of requests currently executing. 4647. 12809 4648. Total number of failed requests. 4649. 12811 4650. The number of requests for resources that were not found. 4651. 12813 4652. Number of requests failed due to unauthorized access. 4653. 12815 4654. The number of requests in the application request queue. 4655. 12817 4656. The number of requests that timed out. 4657. 12819 4658. The number of requests that executed successfully. 4659. 12821 4660. The total number of requests since the application was started. 4661. 12823 4662. The number of requests executed per second. 4663. 12825 4664. The current number of sessions currently active. 4665. 12827 4666. The number of sessions that have been explicitly abandoned. 4667. 12829 4668. The number of sessions timed out. 4669. 12831 4670. Total number of sessions since the application was started. 4671. 12833 4672. The number of transactions aborted. 4673. 12835 4674. The number of transactions committed. 4675. 12837 4676. Number of transactions in progress. 4677. 12839 4678. The total number of transactions since the application was started. 4679. 12841 4680. Transactions started per second. 4681. 12843 4682. The total number of connections to the State Server used by session state. 4683. 12845 4684. The total number of connections to the SQL Server used by session state. 4685. 12847 4686. Total number of instrumentation events raised since the application was started. 4687. 12849 4688. Total number of instrumentation events per second. 4689. 12851 4690. Number of application events raised since the application was started. 4691. 12853 4692. Number of application events raised per second. 4693. 12855 4694. Number of error events raised since the application was started. 4695. 12857 4696. Number of error events per second. 4697. 12859 4698. Number of runtime error events raised since the application was started. 4699. 12861 4700. Number of runtime error events per second. 4701. 12863 4702. Number of HTTP error events raised since the application was started. 4703. 12865 4704. Number of HTTP error events raised per second. 4705. 12867 4706. Number of request events raised since the application was started 4707. 12869 4708. Number of request events raised per second. 4709. 12871 4710. Number of audit successes in the application since it was started. 4711. 12873 4712. Number of audit failures in the application since it was started. 4713. 12875 4714. Number of successful membership credential validations since the application was started. 4715. 12877 4716. Number of failed membership credential validations since the application was started. 4717. 12879 4718. Number of successful forms authentication ticket validations since the application was started. 4719. 12881 4720. Number of failed forms authentication ticket validations since the application was started. 4721. 12883 4722. Number of viewstate MAC validations that failed since the application was started. 4723. 12885 4724. The number of milliseconds that it took to execute the most recent request. 4725. 12887 4726. The number of requests disconnected due to communication errors or user terminated. 4727. 12889 4728. The number of requests rejected because the application request queue was full. 4729. 12891 4730. The number of milliseconds the most recent request was waiting in the queue. 4731. 12893 4732. The amount of physical memory used by the machine divided by the physical memory limit for the cache, as a percentage. When this reaches 100%, half of the cache entries will be forcibly removed. The __Total__ instance is the average of all instances, and therefore cannot be used to determine when cache entries will be forcibly removed. 4733. 12895 4734. Cache % Machine Memory Limit Used Base 4735. 12897 4736. The value of private bytes for the worker process divided by the private bytes memory limit for the cache, as a percentage. When this reaches 100%, half of the cache entries will be forcibly removed. The __Total__ instance is the average of all instances, and therefore cannot be used to determine when cache entries will be forcibly removed. 4737. 12899 4738. Cache % Process Memory Limit Used Base 4739. 12901 4740. Total number of entries forcibly removed from the cache due to memory pressure. 4741. 12903 4742. Total number of entries forcibly removed from the cache due to memory pressure that were originally inserted into the cache using one of the public cache APIs. 4743. 12905 4744. Total number of entries forcibly removed from the cache due to memory pressure that were originally inserted into the cache by the output cache feature. 4745. 12907 4746. Estimated percentage of elapsed time that the processor spends executing managed application code. This counter only tracks processor time of managed threads in the application. It does not include additional processor time spent executing on non-managed threads. Note that this counter is only updated with new data every five seconds. 4747. 12909 4748. % Managed Processor Time Base (estimated) 4749. 12911 4750. Estimated managed heap memory consumption (in KB) by the application. The accuracy of this counter varies depending on the duration of elapsed time since the last full managed memory heap collection. Note that this counter is only updated with new data every five seconds. 4751. 12913 4752. The total size, in bytes, of data received by ASP.NET on WebSocket connections. 4753. 12915 4754. The total size, in bytes, of data sent to a client on WebSocket connections. 4755. 12917 4756. The number of WebSocket requests currently executing. 4757. 12919 4758. Total number of WebSocket requests that ended up in an aborted state. 4759. 12921 4760. Total number of WebSocket requests that completed gracefully. 4761. 12923 4762. The total number of WebSocket requests since the application was started. 4763. 12925 4764. Number of WMI High Performance provider returned by WMI Adapter 4765. 12927 4766. Shows High Performance Classes 4767. 12929 4768. Shows if High Performance Classes are valid 4769. 12931 4770. BatteryStatus 4771. 12933 4772. ChargeRate 4773. 12935 4774. DischargeRate 4775. 12937 4776. RemainingCapacity 4777. 12939 4778. Tag 4779. 12941 4780. Voltage 4781. 12943 4782. MSiSCSI_ConnectionStatistics 4783. 12945 4784. BytesReceived 4785. 12947 4786. BytesSent 4787. 12949 4788. PDUCommandsSent 4789. 12951 4790. PDUResponsesReceived 4791. 12953 4792. MSiSCSI_InitiatorInstanceStatistics 4793. 12955 4794. SessionConnectionTimeoutErrorCount 4795. 12957 4796. SessionDigestErrorCount 4797. 12959 4798. SessionFailureCount 4799. 12961 4800. SessionFormatErrorCount 4801. 12963 4802. MSiSCSI_InitiatorLoginStatistics 4803. 12965 4804. LoginAcceptRsps 4805. 12967 4806. LoginAuthenticateFails 4807. 12969 4808. LoginAuthFailRsps 4809. 12971 4810. LoginFailures 4811. 12973 4812. LoginNegotiateFails 4813. 12975 4814. LoginOtherFailRsps 4815. 12977 4816. LoginRedirectRsps 4817. 12979 4818. LogoutNormals 4819. 12981 4820. LogoutOtherCodes 4821. 12983 4822. MSiSCSI_MMIPSECStats 4823. 12985 4824. AcquireFailures 4825. 12987 4826. AcquireHeapSize 4827. 12989 4828. ActiveAcquire 4829. 12991 4830. ActiveReceive 4831. 12993 4832. AuthenticationFailures 4833. 12995 4834. ConnectionListSize 4835. 12997 4836. GetSPIFailures 4837. 12999 4838. InvalidCookiesReceived 4839. 13001 4840. InvalidPackets 4841. 13003 4842. KeyAdditionFailures 4843. 13005 4844. KeyAdditions 4845. 13007 4846. KeyUpdateFailures 4847. 13009 4848. KeyUpdates 4849. 13011 4850. NegotiationFailures 4851. 13013 4852. OakleyMainMode 4853. 13015 4854. OakleyQuickMode 4855. 13017 4856. ReceiveFailures 4857. 13019 4858. ReceiveHeapSize 4859. 13021 4860. SendFailures 4861. 13023 4862. SoftAssociations 4863. 13025 4864. TotalGetSPI 4865. 13027 4866. MSiSCSI_NICPerformance 4867. 13029 4868. BytesReceived 4869. 13031 4870. BytesTransmitted 4871. 13033 4872. PDUReceived 4873. 13035 4874. PDUTransmitted 4875. 13037 4876. MSiSCSI_QMIPSECStats 4877. 13039 4878. ActiveSA 4879. 13041 4880. ActiveTunnels 4881. 13043 4882. AuthenticatedBytesReceived 4883. 13045 4884. AuthenticatedBytesSent 4885. 13047 4886. BadSPIPackets 4887. 13049 4888. ConfidentialBytesReceived 4889. 13051 4890. ConfidentialBytesSent 4891. 13053 4892. KeyAdditions 4893. 13055 4894. KeyDeletions 4895. 13057 4896. PacketsNotAuthenticated 4897. 13059 4898. PacketsNotDecrypted 4899. 13061 4900. PacketsWithReplayDetection 4901. 13063 4902. PendingKeyOperations 4903. 13065 4904. ReKeys 4905. 13067 4906. TransportBytesReceived 4907. 13069 4908. TransportBytesSent 4909. 13071 4910. TunnelBytesReceived 4911. 13073 4912. TunnelBytesSent 4913. 13075 4914. MSiSCSI_RequestTimeStatistics 4915. 13077 4916. AverageProcessingTime 4917. 13079 4918. MaximumProcessingTime 4919. 13081 4920. MSiSCSI_SessionStatistics 4921. 13083 4922. BytesReceived 4923. 13085 4924. BytesSent 4925. 13087 4926. ConnectionTimeoutErrors 4927. 13089 4928. DigestErrors 4929. 13091 4930. FormatErrors 4931. 13093 4932. PDUCommandsSent 4933. 13095 4934. PDUResponsesReceived 4935. 13097 4936. ProcessorPerformance 4937. 13099 4938. frequency 4939. 13101 4940. percentage 4941. 13103 4942. power 4943. 13105 4944. Video_Scheduler_Statistics 4945. 13107 4946. WmiCompletedDMABufferCount 4947. 13109 4948. WmiGPUBusy 4949. 13111 4950. WmiGPUContext 4951. 13113 4952. WmiGPUContextSwitch 4953. 13115 4954. WmiPreemptedDMABufferCount 4955. 13117 4956. WmiPresentCount 4957. 13119 4958. WmiSubmitDMABufferCount 4959. 9039 4960. Compteurs de performances WorkflowServiceHost du service de workflow 4961. 9041 4962. Nombre total d'instances de workflows créées depuis le démarrage du serveur d'hébergement de workflow. 4963. 9043 4964. Taux d'instances de workflows créées par seconde. 4965. 9045 4966. Nombre total d'instances de workflows en cours d'exécution. 4967. 9047 4968. Nombre total d'instances de workflows terminées depuis le démarrage du serveur d'hébergement de workflow. 4969. 9049 4970. Taux d'instances de workflows terminées par seconde. 4971. 9051 4972. Nombre total d'instances de workflows annulées depuis le démarrage du serveur d'hébergement de workflow. 4973. 9053 4974. Taux d'instances de workflows annulées par seconde. 4975. 9055 4976. Nombre total d'instances de workflows actuellement en mémoire. 4977. 9057 4978. Nombre total d'instances de workflows rendues persistantes depuis le démarrage du serveur d'hébergement de workflow. 4979. 9059 4980. Taux d'instances de workflows persistantes par seconde. 4981. 9061 4982. Nombre total d'instances de workflows arrêtées depuis le démarrage du serveur d'hébergement de workflow. 4983. 9063 4984. Taux d'instances de workflows arrêtées par seconde. 4985. 9065 4986. Nombre total d'instances de workflows chargées depuis le démarrage du serveur d'hébergement de workflow. 4987. 9067 4988. Taux d'instances de workflows chargées par seconde. 4989. 9069 4990. Nombre total d'instances de workflows déchargées depuis le démarrage du serveur d'hébergement de workflow. 4991. 9071 4992. Taux d'instances de workflows déchargées par seconde. 4993. 9073 4994. Nombre total d'instances de workflows interrompues depuis le démarrage du serveur d'hébergement de workflow. 4995. 9075 4996. Taux d'instances de workflows interrompues par seconde. 4997. 9077 4998. Taux d'instances de workflows devenant inactives par seconde. 4999. 9079 5000. Durée moyenne du chargement d'une instance de workflow. 5001. 9081 5002. Durée de base moyenne de chargement d'une instance de workflow. 5003. 9083 5004. Durée moyenne de persistance des instances de workflows. 5005. 9085 5006. Durée de base moyenne de persistance d'une instance de workflow. 5007. 4699 5008. Informations de résumé des services Terminal Server 5009. 4701 5010. Nombre de sessions actives des services Terminal Server 5011. 4703 5012. Nombre de sessions inactives des services Terminal Server 5013. 4705 5014. Nombre total de sessions des services Terminal Server 5015. 1927 5016. WFPv4 est l’ensemble de compteurs de la plateforme de filtrage Windows qui s’appliquent au trafic et aux connexions via le protocole IPv4. 5017. 1929 5018. Le compteur Paquets entrants rejetés par seconde représente le nombre de paquets entrants qui sont rejetés en une seconde par la plateforme de filtrage Windows. 5019. 1931 5020. Le compteur Paquets sortants rejetés par seconde représente le nombre de paquets sortants qui sont rejetés en une seconde par la plateforme de filtrage Windows. 5021. 1933 5022. Le compteur Paquets rejetés par seconde représente le nombre total de paquets entrants et sortants qui sont rejetés en une seconde par la plateforme de filtrage Windows. 5023. 1935 5024. Le compteur Liaisons bloquées représente le nombre de demandes d’affectation de ressource réseau bloquées par la plateforme de filtrage Windows depuis que l’ordinateur a été démarré. 5025. 1937 5026. Le compteur Connexions entrantes bloquées par seconde représente le nombre de connexions entrantes bloquées en une seconde par la plateforme de filtrage Windows. 5027. 1939 5028. Le compteur Connexions sortantes bloquées par seconde représente le nombre de connexions sortantes bloquées en une seconde par la plateforme de filtrage Windows. 5029. 1941 5030. Le compteur Connexions entrantes autorisées par seconde représente le nombre de connexions entrantes autorisées en une seconde par la plateforme de filtrage Windows. 5031. 1943 5032. Le compteur Connexions sortantes autorisées par seconde représente le nombre de connexions sortantes autorisées en une seconde par la plateforme de filtrage Windows. 5033. 1945 5034. Le compteur Connexions entrantes représente le nombre de connexions entrantes autorisées par la plateforme de filtrage Windows depuis que l’ordinateur a été démarré. 5035. 1947 5036. Le compteur Connexions sortantes représente le nombre de connexions sortantes autorisées par la plateforme de filtrage Windows depuis que l’ordinateur a été démarré. 5037. 1949 5038. Le compteur Connexions entrantes actives représente le nombre de connexions entrantes autorisées par la plateforme de filtrage Windows. 5039. 1951 5040. Le compteur Connexions sortantes actives représente le nombre de connexions sortantes autorisées par la plateforme de filtrage Windows. 5041. 1953 5042. Le compteur Classifications autorisées/seconde représente le nombre d’évaluations de règle de sécurité autorisant une activité réseau effectuées en une seconde par la plateforme de filtrage Windows. 5043. 1987 5044. Pilote IPSec est l’ensemble de compteurs du pilote de sécurité du protocole IP (IPsec) qui s’appliquent au trafic sur le protocole IPv4 et le protocole IPv6. 5045. 1989 5046. Associations de sécurité active est le nombre d’associations de sécurité de mode rapide actives. 5047. 1991 5048. Les associations de sécurité en attente représentent le nombre d’associations de sécurité en mode rapide en attente. 5049. 1993 5050. Le compteur Paquets SPI incorrects représente le nombre de paquets pour lesquels l’index de paramètre de sécurité (SPI) était incorrect depuis le dernier démarrage de l’ordinateur. Un grand nombre de paquets avec des index SPI sur une courte période de temps peut indiquer une tentative d’attaque par usurpation d’identité des paquets. 5051. 1995 5052. Le compteur Octets reçus en mode tunnel par seconde représente le nombre d’octets reçus par seconde avec le mode tunnel. 5053. 1997 5054. Le compteur Octets reçus en mode tunnel par seconde représente le nombre d’octets envoyés par seconde avec le mode tunnel d’IPsec. 5055. 1999 5056. Le compteur Octets reçus en mode transport par seconde représente le nombre d’octets reçus par seconde avec le mode transport. 5057. 2001 5058. Le compteur Octets envoyés en mode transport par seconde représente le débit d’octets envoyés par seconde avec le mode transport. 5059. 2003 5060. Le compteur Associations de sécurité déchargées représente le nombre d’associations de sécurité de mode rapide actives déchargées sur le matériel. Certaines cartes réseau peuvent accélérer le traitement IPsec en se déchargeant sur le matériel des fonctions de chiffrement d’IPsec. 5061. 2005 5062. Le compteur Octets déchargés reçus par seconde représente le nombre d’octets reçus par seconde avec le déchargement matériel d’IPsec. Certaines cartes réseau peuvent accélérer le traitement IPsec en se déchargeant sur le matériel des fonctions de chiffrement d’IPsec. 5063. 2007 5064. Le compteur Octets déchargés envoyés par seconde représente le nombre d’octets envoyés par seconde avec le déchargement matériel d’IPsec. Certaines cartes réseau peuvent accélérer le traitement IPsec en se déchargeant sur le matériel des fonctions de chiffrement d’IPsec. 5065. 2009 5066. Le compteur Paquets ayant échoué à la détection de relecture représente le nombre de paquets qui contenaient un numéro de séquence non valide depuis le dernier démarrage de l’ordinateur. Des augmentations de ce compteur peuvent indiquer un problème réseau ou une attaque par relecture. 5067. 2011 5068. Le compteur Paquets non authentifiés représente le nombre de paquets pour lesquels des données n’ont pas pu être vérifiées (pour lesquels la vérification du hachage d’intégrité à échoué) depuis le dernier démarrage de l’ordinateur. Des augmentations de ce compteur peuvent indiquer une tentative d’attaque par modification ou usurpation d’identité de paquets IPSec, ou bien la corruption de paquets par des périphériques réseaux. 5069. 2013 5070. Le compteur Paquets non déchiffrés représente le nombre de paquets qui n’ont pas pu être déchiffrés depuis le dernier démarrage de l’ordinateur. Un paquet peut ne pas être déchiffré s’il échoue à une vérification de validation. 5071. 2015 5072. Le compteur Nouvelles clés d’association de sécurité représente le nombre d’opérations de nouvelle clé réussies pour les associations de sécurité de mode rapide depuis le dernier démarrage de l’ordinateur. 5073. 2017 5074. Le compteur Associations de sécurité ajoutées est le nombre d’associations de sécurité ajoutées depuis le dernier démarrage de l’ordinateur. 5075. 2019 5076. Le compteur Paquets ayant échoué à la validation ESP représente le nombre de paquets reçus qui ont échoué à la validation ESP depuis le dernier démarrage de l’ordinateur. 5077. 2021 5078. Le compteur Paquets ayant échoué à la validation EDP-ESP représente le nombre de paquets reçus qui ont échoué la validation UDP-ESP (utilisée pour les parcours NAT) depuis le dernier démarrage de l’ordinateur. 5079. 2023 5080. Le compteur Paquets reçus avec une association de sécurité erronée représente le nombre de paquets reçus avec l’association de sécurité erronée depuis le dernier démarrage de l’ordinateur. 5081. 2025 5082. Le compteur Paquets en texte clair reçus représente le nombre de paquets en texte clair reçus depuis le dernier démarrage de l’ordinateur. 5083. 1983 5084. WFP est l’ensemble de compteurs de la plateforme de filtrage Windows qui ne s’appliquent à aucune version spécifique du protocole IP. 5085. 1985 5086. Le compteur Nombre de fournisseurs est le nombre de fournisseurs inscrits avec la plateforme de filtrage Windows. 5087. 1955 5088. WFPv6 est l’ensemble de compteurs de la plateforme de filtrage Windows qui s’appliquent au trafic et aux connexions sur le protocole IPv6. 5089. 1957 5090. Le compteur Paquets entrants rejetés par seconde représente le nombre de paquets entrants qui sont rejetés en une seconde par la plateforme de filtrage Windows. 5091. 1959 5092. Le compteur Paquets sortants rejetés par seconde représente le nombre de paquets sortants qui sont rejetés en une seconde par la plateforme de filtrage Windows. 5093. 1961 5094. Le compteur Paquets rejetés par seconde représente le nombre total de paquets entrants et sortants qui sont rejetés en une seconde par la plateforme de filtrage Windows. 5095. 1963 5096. Le compteur Liaisons bloquées représente le nombre de demandes d’affectation de ressource réseau bloquées par la plateforme de filtrage Windows depuis que l’ordinateur a été démarré. 5097. 1965 5098. Le compteur Connexions entrantes bloquées par seconde représente le nombre de connexions entrantes bloquées en une seconde par la plateforme de filtrage Windows. 5099. 1967 5100. Le compteur Connexions sortantes bloquées par seconde représente le nombre de connexions sortantes bloquées en une seconde par la plateforme de filtrage Windows. 5101. 1969 5102. Le compteur Connexions entrantes autorisées par seconde représente le nombre de connexions entrantes autorisées en une seconde par la plateforme de filtrage Windows. 5103. 1971 5104. Le compteur Connexions sortantes autorisées par seconde représente le nombre de connexions sortantes autorisées en une seconde par la plateforme de filtrage Windows. 5105. 1973 5106. Le compteur Connexions entrantes représente le nombre de connexions entrantes autorisées par la plateforme de filtrage Windows depuis que l’ordinateur a été démarré. 5107. 1975 5108. Le compteur Connexions sortantes représente le nombre de connexions sortantes autorisées par la plateforme de filtrage Windows depuis que l’ordinateur a été démarré. 5109. 1977 5110. Le compteur Connexions entrantes actives représente le nombre de connexions entrantes autorisées par la plateforme de filtrage Windows. 5111. 1979 5112. Le compteur Connexions sortantes actives représente le nombre de connexions sortantes autorisées par la plateforme de filtrage Windows. 5113. 1981 5114. Le compteur Classifications autorisées/seconde représente le nombre d’évaluations de règle de sécurité autorisant une activité réseau effectuées en une seconde par la plateforme de filtrage Windows. 5115. 4707 5116. Ensemble de compteurs pour l’objet d’application Gestionnaire d’autorisations 5117. 4709 5118. Affiche le nombre total d’étendues dans l’application 5119. 4711 5120. Affiche le nombre d’étendues actuellement chargées en mémoire 5121. 4847 5122. Objet de performance des dossiers répliqués DFS. Il comprend des compteurs de quotas intermédiaires et de conflits. 5123. 4849 5124. Fichiers en conflit générés indique le nombre de fichiers et de dossiers dans ce dossier répliqué que le service de réplication DFS a déplacé vers le dossier des fichiers en conflit et supprimés. Le service de réplication DFS détecte et résout automatiquement les conflits rencontrés dans les dossiers répliqués et place la version qui ne prévaut pas dans le dossier des fichiers en conflit et supprimés. Le service nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5125. 4851 5126. Octets en conflit générés indique la taille totale (en octets) des fichiers et des dossiers dans ce dossier répliqué que le service de réplication DFS a déplacé vers le dossier des fichiers en conflit et supprimés. Le service de réplication DFS détecte et résout automatiquement les conflits rencontrés dans les dossiers répliqués et place la version qui ne prévaut pas dans le dossier des fichiers en conflit et supprimés. Le service nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5127. 4853 5128. Fichiers en conflit nettoyés indique le nombre de fichiers et dossiers en conflit ne faisant pas précédence qui ont été supprimés du dossier des fichiers en conflit et supprimés par le service de réplication DFS. Le service de réplication DFS détecte et résout automatiquement les conflits rencontrés dans les dossiers répliqués et place la version qui ne prévaut pas dans le dossier des fichiers en conflit et supprimés. Le service nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5129. 4855 5130. Octets en conflit nettoyés indique la taille totale (en octets) des fichiers et dossiers en conflit ne faisant pas précédence qui ont été supprimés du dossier des fichiers en conflit et supprimés par le service de réplication DFS. Le service de réplication DFS détecte et résout automatiquement les conflits rencontrés dans les dossiers répliqués et place la version qui ne prévaut pas dans le dossier des fichiers en conflit et supprimés. Le service nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5131. 4857 5132. Espace de conflits utilisé indique la taille totale (en octets) des fichiers et dossiers en conflit ne faisant pas précédence se trouvant dans le dossier des fichiers en conflit et supprimés utilisé par le service de réplication DFS. Le service de réplication DFS détecte et résout automatiquement les conflits rencontrés dans les dossiers répliqués et place la version qui ne prévaut pas dans le dossier des fichiers en conflit et supprimés. Le service nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5133. 4859 5134. Nettoyages du dossier des conflits indique le nombre de suppressions des fichiers et dossiers en conflit ne faisant pas précédence du dossier des fichiers en conflit et supprimés effectué par le service de réplication DFS. Le service de réplication DFS détecte et résout automatiquement les conflits rencontrés dans les dossiers répliqués et place la version qui ne prévaut pas dans le dossier des fichiers en conflit et supprimés. Le service nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5135. 4861 5136. Installations de fichiers réussies indique le nombre de fichiers reçus de membres d’envoi et installés localement sur le serveur. Le service de réplication DFS réplique les fichiers intermédiaires dans le dossier intermédiaire, les décompresse dans le dossier d’installation et les renomme en fonction de l’emplacement cible. Les deuxième et troisième étapes de ce processus constituent l’installation des fichiers. 5137. 4863 5138. Nouvelles tentatives d’installation de fichiers indique le nombre de tentatives d’installation de fichiers effectué en raison de violations de partage ou d’autres erreurs rencontrées lors de l’installation de fichiers. Le service de réplication DFS réplique les fichiers intermédiaires dans le dossier intermédiaire, les décompresse dans le dossier d’installation et les renomme en fonction de l’emplacement cible. Les deuxième et troisième étapes de ce processus constituent l’installation de fichiers. 5139. 4865 5140. Mises à jour supprimées indique le nombre d’enregistrements de mise à jour de réplication de fichiers redondants qui ont été ignorés par le service de réplication DFS, car le fichier ou dossier répliqué n’a pas été modifié. Par exemple, des mises à jour peuvent être ignorées lorsque les listes de contrôle d’accès sont remplacées par des listes identiques pour un fichier ou un dossier. 5141. 4867 5142. Fichiers supprimés générés indique le nombre de fichiers et dossiers répliqués supprimés qui ont été déplacés vers le dossier des fichiers en conflit et supprimés une fois supprimés d’un dossier répliqué sur un membre d’envoi. Le service de réplication DFS nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5143. 4869 5144. Octets supprimés générés indique la taille totale (en octets) des fichiers et dossiers répliqués supprimés qui ont été déplacés vers le dossier des fichiers en conflit et supprimés une fois supprimés d’un dossier répliqué sur un membre d’envoi. Le service de réplication DFS nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5145. 4871 5146. Fichiers supprimés nettoyés indique le nombre de fichiers répliqués supprimés qui ont été supprimés du dossier des fichiers en conflit et supprimés par le service de réplication DFS. Le service de réplication DFS nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5147. 4873 5148. Octets supprimés nettoyés indique la taille totale (en octets) des fichiers de réplication supprimés qui ont été nettoyés du dossier des fichiers en conflit et supprimés par le service de réplication DFS. Le service de réplication DFS nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5149. 4875 5150. Espace utilisé par les fichiers supprimés indique la taille totale (en octets) des fichiers et dossiers supprimés dans le dossier des fichiers en conflit et supprimés utilisé par le service de réplication DFS. Le service de réplication DFS détecte les suppressions à distance de son partenaire d’envoi et déplace le fichier ou le dossier vers le dossier des fichiers en conflit et supprimé. Le service nettoie automatiquement le dossier des fichiers en conflit et supprimés lorsque le seuil préconfiguré du quota est dépassé. 5151. 4877 5152. Total des fichiers reçus indique le nombre de fichiers reçus par le dossier répliqué. 5153. 4879 5154. Taille des fichiers reçus indique la taille décompressée (en octets) des fichiers reçus pour le dossier répliqué. Il s’agit du nombre d’octets qui auraient été reçus si la compression de réplication DFS n’avait pas été utilisée. 5155. 4881 5156. Taille compressée des fichiers reçus indique la taille compressée (en octets) des fichiers reçus pour le dossier répliqué. 5157. 4883 5158. RDC - Nombre de fichiers reçus indique le nombre de fichiers reçus pour le dossier répliqué. 5159. 4885 5160. RDC - Taille des fichiers reçus indique la taille décompressée (en octets) des fichiers reçus avec la compression différentielle à distance (RDC) pour ce dossier répliqué. Il s’agit du nombre d’octets qui auraient été reçus si la compression ou RDC n’avait pas été utilisée, et non du nombre d’octets réellement reçus sur le réseau. 5161. 4887 5162. RDC - Taille compressée des fichiers reçus indique la taille compressée (en octets) des fichiers reçus avec la compression différentielle à distance (RDC) pour le dossier répliqué. Il s’agit du nombre d’octets qui auraient été reçus si RDC n’avait pas été utilisée, et non du nombre d’octets réellement reçus sur le réseau. 5163. 4889 5164. RDC - Octets reçus indique le nombre d’octets reçus lors de la réplication des fichiers avec la compression différentielle à distance (RDC) pour le dossier répliqué. Il s’agit du nombre d’octets réellement reçus sur le réseau sans le traitement des protocoles de gestion réseau. 5165. 4891 5166. Économies de bande passante réalisées grâce à la réplication DFS indique le pourcentage de bande passante économisé par le service de réplication DFS pour le dossier répliqué en associant la compression différentielle à distance (RDC) à d’autres technologies de compression réduisant l’utilisation de la bande passante réseau. Par exemple, une valeur de 20 indique que le service de réplication DFS a utilisé 20 % de bande passante en moins que si les fichiers avaient été transférés sur le réseau sans être compressés. 5167. 4893 5168. Objet de performance des connexions de réplication DFS pour les connexions entrantes. 5169. 4895 5170. Total des octets reçus indique le nombre total d’octets reçus sur la connexion. Cette valeur comprend les données de fichiers et les métadonnées de réplication. 5171. 4897 5172. Total des fichiers reçus indique le nombre de fichiers reçus sur la connexion. 5173. 4899 5174. Taille des fichiers reçus indique la taille décompressée (en octets) des fichiers reçus sur la connexion. Il s’agit du nombre d’octets qui auraient été reçus si la compression de réplication DFS n’avait pas été utilisée. 5175. 4901 5176. Taille compressée des fichiers reçus indique la taille compressée (en octets) des fichiers reçus sur la connexion. 5177. 4903 5178. Octets reçus par seconde indique une estimation du nombre moyen d’octets reçus par seconde au cours des 30 dernières secondes. 5179. 4905 5180. RDC - Nombre de fichiers reçus indique le nombre de fichiers reçus sur la connexion. 5181. 4907 5182. RDC - Taille des fichiers reçus indique la taille décompressée (en octets) des fichiers reçus avec la compression différentielle à distance (RDC) sur la connexion. Il s’agit du nombre d’octets qui auraient été reçus si la compression ou RDC n’avait pas été utilisée, et non du nombre d’octets réellement reçus sur le réseau. 5183. 4909 5184. RDC - Taille compressée des fichiers reçus indique la taille compressée (en octets) des fichiers reçus avec la compression différentielle à distance (RDC) sur la connexion. Il s’agit du nombre d’octets qui auraient été reçus si RDC n’avait pas été utilisée, et non du nombre d’octets réellement reçus sur le réseau. 5185. 4911 5186. RDC - Octets reçus indique les octets reçus sur la connexion lors de la réplication des fichiers avec la compression différentielle à distance (RDC). Il s’agit du nombre d’octets réellement reçus sur le réseau sans le traitement des protocoles de gestion réseau. 5187. 4913 5188. Économies de bande passante réalisées grâce à la réplication DFS indique le pourcentage de bande passante économisé par le service de réplication DFS sur la connexion en associant la compression différentielle à distance (RDC) à d’autres technologies de compression réduisant l’utilisation de bande passante réseau. Par exemple, une valeur de 20 indique que le service de réplication DFS a utilisé 20 % de bande passante en moins que si les fichiers avaient été transférés sur le réseau sans être compressés. 5189. 4835 5190. Objet de performance du volume du service de réplication DFS. Il comprend des compteurs relatifs aux enregistrements de journal USN et au traitement de base de données sur chaque volume. 5191. 4837 5192. Enregistrements de journal USN lus indique le nombre d’enregistrements de journal USN lus par le service de réplication DFS. 5193. 4839 5194. Enregistrements de journal USN acceptés indique le nombre d’enregistrements de journal USN traités par le service de réplication DFS. Ce service traite tous les enregistrements de journal USN de contenu répliqué sur un volume et ignore les enregistrements des fichiers et dossiers non répliqués sur le volume. 5195. 4841 5196. Pourcentage non lu du journal UNS indique le pourcentage du journal USN qui n’a pas encore été lu et traité par le service de réplication DFS. Un dépassement de taille de journal se produit lorsque ce compteur atteint 100. 5197. 4843 5198. Validations de base de données indique le nombre d’opérations de validation de base de données effectué par le service de réplication DFS. Ce compteur indique la charge du service de réplication DFS du point de vue de la base de données. 5199. 4845 5200. Recherches de base de données indique le nombre d’opérations de recherche de base de données effectué par le service de réplication DFS. Ce compteur indique la charge du service de réplication DFS du point de vue de la base de données. 5201. 2223 5202. IKE et AuthIP génériques et le jeu de compteurs Internet Protocol Security (IPsec) Internet Key Exchange (IKE) et Authenticated IP (AuthIP) génériques qui ne s'appliquent pas à une version spécifique du protocole Internet. 5203. 2225 5204. Le compteur Durée de négociation en mode principal IKE représente le nombre de millisecondes requis par la dernière association de sécurité négociée en mode principal IKE. 5205. 2227 5206. Le compteur Durée de négociation en mode principal AuthIP représente le nombre de millisecondes requis par la dernière association de sécurité négociée en mode principal Authenticated IP. 5207. 2229 5208. Le compteur Durée de négociation en mode rapide IKE représente le nombre de millisecondes requis par la dernière association de sécurité négociée en mode rapide IKE. 5209. 2231 5210. Le compteur Durée de négociation en mode rapide AuthIP représente le nombre de millisecondes requis par la dernière association de sécurité négociée en mode rapide Authenticated IP. 5211. 2233 5212. Le compteur Durée de négociation en mode étendu représente le nombre de millisecondes requis par la dernière association de sécurité négociée en mode étendu. 5213. 2235 5214. Paquets reçus par seconde est le nombre de paquets IPsec validés par seconde. 5215. 2237 5216. Le compteur Paquets non valides reçus par seconde représente le nombre de paquets IPsec non valides reçus par seconde. 5217. 2239 5218. Le compteur Négociations réussies représente le nombre de négociations achevées pour IKE et AuthIP depuis le dernier démarrage d'IPSec. 5219. 2241 5220. Le compteur Négociations réussies par seconde représente le nombre de négociations achevées pour IKE et AuthIP. 5221. 2243 5222. Le compteur Négociations en échec représente le nombre de négociations en échec pour IKE et AuthIP depuis le dernier démarrage d'IPSec. 5223. 2245 5224. Le compteur Négociations en échec/seconde représente le nombre de négociations ayant échoué pour IKE et AuthIP. 5225. 2103 5226. IPsec AuthIPv4 est le jeu de compteurs Internet Protocol Security (IPsec) Authenticated IP (AuthIP) qui s'appliquent au trafic et aux connexions via le protocole Internet version 4. 5227. 2105 5228. Le compteur Associations de sécurité actives en mode principal représente le nombre d’associations de sécurité en mode principal actuellement actives. 5229. 2107 5230. Le compteur Négociations en mode principal en attente représente le nombre de négociations en mode principal en attente. 5231. 2109 5232. Le compteur Négociations en mode principal représente le nombre de négociations en mode principal tentées depuis le dernier démarrage d’IPsec. 5233. 2111 5234. Le compteur Négociations en mode principal par seconde représente le nombre de négociations en mode principal tentées à la seconde. 5235. 2113 5236. Le compteur Négociations en mode principal réussies représente le nombre de négociations en mode principal achevées depuis le dernier démarrage d’IPsec. 5237. 2115 5238. Le compteur Négociations en mode principal réussies par seconde représente le nombre de négociations en mode principal achevées. 5239. 2117 5240. Le compteur Négociations en mode principal en échec représente le nombre de négociations en mode principal ayant échoué depuis le dernier démarrage d’IPsec. 5241. 2119 5242. Le compteur Négociations en mode principal en échec par seconde représente le nombre de négociations en mode principal ayant échoué à la seconde. 5243. 2121 5244. Le compteur Demandes de négociations en mode principal reçues représente le nombre de négociations en mode principal initiées par un homologue depuis le dernier démarrage d’IPsec. 5245. 2123 5246. Le compteur Demandes de négociations en mode principal reçues par seconde représente le nombre de négociations en mode principal initiées par un homologue à la seconde. 5247. 2125 5248. Le compteur Associations de sécurité en mode principal ayant utilisé l’emprunt d’identité est le nombre d’associations de sécurité en mode principal réalisées à l’aide de l’emprunt d’identité depuis le dernier démarrage d’IPsec. 5249. 2127 5250. Le compteur Associations de sécurité en mode principal ayant utilisé l’emprunt d’identité par seconde est le nombre par seconde d’associations de sécurité en mode principal réalisées à l’aide de l’emprunt d’identité. 5251. 2129 5252. Le compteur Associations de sécurité actives en mode rapide représente le nombre d’associations de sécurité en mode rapide actuellement actives. 5253. 2131 5254. Négociations en mode rapide en attente représente le nombre de négociations en mode rapide en attente. 5255. 2133 5256. Le compteur Négociations en mode rapide représente le nombre de négociations en mode rapide tentées depuis le dernier démarrage d’IPsec. 5257. 2135 5258. Le compteur Négociations en mode rapide par seconde représente le nombre de négociations en mode rapide tentées à la seconde. 5259. 2137 5260. Le compteur Négociations en mode rapide réussies représente le nombre de Négociations en mode rapide achevées depuis le dernier démarrage d’IPsec. 5261. 2139 5262. Le compteur Négociations en mode rapide réussies par seconde représente le nombre de négociations en mode rapide achevées à la seconde. 5263. 2141 5264. Le compteur Négociations en mode rapide en échec représente le nombre de négociations en mode rapide ayant échoué depuis le dernier démarrage d’IPsec. 5265. 2143 5266. Le compteur Négociations en mode rapide en échec par seconde représente le nombre de négociations en mode rapide ayant échoué à la seconde. 5267. 2145 5268. Le compteur Associations de sécurité actives en mode étendu représente le nombre d’associations de sécurité en mode étendu actuellement actives. 5269. 2147 5270. Le compteur Associations de sécurité en mode étendu en attente représente le nombre d’associations de sécurité en mode étendu en attente. 5271. 2149 5272. Le compteur Négociations en mode étendu représente le nombre de négociations en mode étendu tentées depuis le dernier démarrage d’IPsec. 5273. 2151 5274. Le compteur Négociations en mode étendu par seconde représente le nombre de négociations en mode étendu tentées à la seconde. 5275. 2153 5276. Le compteur Négociations en mode étendu réussies représente le nombre de négociations en mode étendu réalisées depuis le dernier démarrage d’IPsec. 5277. 2155 5278. Le compteur Négociations en mode étendu réussies par seconde représente le nombre de négociations en mode étendu réalisées par seconde. 5279. 2157 5280. Le compteur Négociations en mode étendu en échec représente le nombre de négociations en mode étendu ayant échoué depuis le dernier démarrage d’IPsec. 5281. 2159 5282. Le compteur Négociations en mode étendu en échec par seconde représente le nombre de Négociations en mode étendu ayant échoué par seconde. 5283. 2161 5284. Le compteur Associations de sécurité en mode étendu ayant utilisé l’emprunt d’identité représente le nombre d’associations de sécurité en mode étendu réalisées à l’aide de l’emprunt d’identité depuis le dernier démarrage d’IPsec. 5285. 2163 5286. IPsec AuthIPv6 est le jeu de compteurs Internet Protocol Security (IPsec) Authenticated IP (AuthIP) qui s'appliquent au trafic et aux connexions via le protocole Internet version 6. 5287. 2165 5288. Le compteur Associations de sécurité actives en mode principal représente le nombre d’associations de sécurité en mode principal actuellement actives. 5289. 2167 5290. Le compteur Négociations en mode principal en attente représente le nombre de négociations en mode principal en attente. 5291. 2169 5292. Le compteur Négociations en mode principal représente le nombre de négociations en mode principal tentées depuis le dernier démarrage d’IPsec. 5293. 2171 5294. Le compteur Négociations en mode principal par seconde représente le nombre de négociations en mode principal tentées à la seconde. 5295. 2173 5296. Le compteur Négociations en mode principal réussies représente le nombre de négociations en mode principal achevées depuis le dernier démarrage d’IPsec. 5297. 2175 5298. Le compteur Négociations en mode principal réussies par seconde représente le nombre de négociations en mode principal achevées. 5299. 2177 5300. Le compteur Négociations en mode principal en échec représente le nombre de négociations en mode principal ayant échoué depuis le dernier démarrage d’IPsec. 5301. 2179 5302. Le compteur Négociations en mode principal en échec par seconde représente le nombre de négociations en mode principal ayant échoué à la seconde. 5303. 2181 5304. Le compteur Demandes de négociations en mode principal reçues représente le nombre de négociations en mode principal initiées par un homologue depuis le dernier démarrage d’IPsec. 5305. 2183 5306. Le compteur Demandes de négociations en mode principal reçues par seconde représente le nombre de négociations en mode principal initiées par un homologue à la seconde. 5307. 2185 5308. Le compteur Associations de sécurité en mode principal ayant utilisé l’emprunt d’identité est le nombre d’associations de sécurité en mode principal réalisées à l’aide de l’emprunt d’identité depuis le dernier démarrage d’IPsec. 5309. 2187 5310. Le compteur Associations de sécurité en mode principal ayant utilisé l’emprunt d’identité par seconde est le nombre par seconde d’associations de sécurité en mode principal réalisées à l’aide de l’emprunt d’identité. 5311. 2189 5312. Le compteur Associations de sécurité actives en mode rapide représente le nombre d’associations de sécurité en mode rapide actuellement actives. 5313. 2191 5314. Négociations en mode rapide en attente représente le nombre de négociations en mode rapide en attente. 5315. 2193 5316. Le compteur Négociations en mode rapide représente le nombre de négociations en mode rapide tentées depuis le dernier démarrage d’IPsec. 5317. 2195 5318. Le compteur Négociations en mode rapide par seconde représente le nombre de négociations en mode rapide tentées à la seconde. 5319. 2197 5320. Le compteur Négociations en mode rapide réussies représente le nombre de Négociations en mode rapide achevées depuis le dernier démarrage d’IPsec. 5321. 2199 5322. Le compteur Négociations en mode rapide réussies par seconde représente le nombre de négociations en mode rapide achevées à la seconde. 5323. 2201 5324. Le compteur Négociations en mode rapide en échec représente le nombre de négociations en mode rapide ayant échoué depuis le dernier démarrage d’IPsec. 5325. 2203 5326. Le compteur Négociations en mode rapide en échec par seconde représente le nombre de négociations en mode rapide ayant échoué à la seconde. 5327. 2205 5328. Le compteur Associations de sécurité actives en mode étendu représente le nombre d’associations de sécurité en mode étendu actuellement actives. 5329. 2207 5330. Le compteur Associations de sécurité en mode étendu en attente représente le nombre d’associations de sécurité en mode étendu en attente. 5331. 2209 5332. Le compteur Négociations en mode étendu représente le nombre de négociations en mode étendu tentées depuis le dernier démarrage d’IPsec. 5333. 2211 5334. Le compteur Négociations en mode étendu par seconde représente le nombre de négociations en mode étendu tentées à la seconde. 5335. 2213 5336. Le compteur Négociations en mode étendu réussies représente le nombre de négociations en mode étendu réalisées depuis le dernier démarrage d’IPsec. 5337. 2215 5338. Le compteur Négociations en mode étendu réussies par seconde représente le nombre de négociations en mode étendu réalisées par seconde. 5339. 2217 5340. Le compteur Négociations en mode étendu en échec représente le nombre de négociations en mode étendu ayant échoué depuis le dernier démarrage d’IPsec. 5341. 2219 5342. Le compteur Négociations en mode étendu en échec par seconde représente le nombre de Négociations en mode étendu ayant échoué par seconde. 5343. 2221 5344. Le compteur Associations de sécurité en mode étendu ayant utilisé l’emprunt d’identité représente le nombre d’associations de sécurité en mode étendu réalisées à l’aide de l’emprunt d’identité depuis le dernier démarrage d’IPsec. 5345. 2027 5346. IPsec IKEv4 est l’ensemble de compteurs Internet Key Exchange (IKE) de sécurité du protocole Internet (IPsec) qui s’appliquent au trafic et aux connexions via IPv4. 5347. 2029 5348. Le compteur Associations de sécurité actives en mode principal représente le nombre d’associations de sécurité en mode principal actuellement actives. 5349. 2031 5350. Le compteur Négociations en mode principal en attente représente le nombre de négociations en mode principal en attente. 5351. 2033 5352. Le compteur Négociations en mode principal représente le nombre de négociations en mode principal tentées depuis le dernier démarrage d’IPsec. 5353. 2035 5354. Le compteur Négociations en mode principal par seconde représente le nombre de négociations en mode principal tentées à la seconde. 5355. 2037 5356. Le compteur Négociations en mode principal réussies représente le nombre de négociations en mode principal achevées depuis le dernier démarrage d’IPsec. 5357. 2039 5358. Le compteur Négociations en mode principal réussies par seconde représente le nombre de négociations en mode principal achevées. 5359. 2041 5360. Le compteur Négociations en mode principal en échec représente le nombre de négociations en mode principal ayant échoué depuis le dernier démarrage d’IPsec. 5361. 2043 5362. Le compteur Négociations en mode principal en échec par seconde représente le nombre de négociations en mode principal ayant échoué à la seconde. 5363. 2045 5364. Le compteur Demandes de négociations en mode principal reçues représente le nombre de négociations en mode principal initiées par un homologue depuis le dernier démarrage d’IPsec. 5365. 2047 5366. Le compteur Demandes de négociations en mode principal reçues par seconde représente le nombre de négociations en mode principal initiées par un homologue à la seconde. 5367. 2049 5368. Le compteur Associations de sécurité actives en mode rapide représente le nombre d’associations de sécurité en mode rapide actuellement actives. 5369. 2051 5370. Négociations en mode rapide en attente représente le nombre de négociations en mode rapide en attente. 5371. 2053 5372. Le compteur Négociations en mode rapide représente le nombre de négociations en mode rapide tentées depuis le dernier démarrage d’IPsec. 5373. 2055 5374. Le compteur Négociations en mode rapide par seconde représente le nombre de négociations en mode rapide tentées à la seconde. 5375. 2057 5376. Le compteur Négociations en mode rapide réussies représente le nombre de Négociations en mode rapide achevées depuis le dernier démarrage d’IPsec. 5377. 2059 5378. Le compteur Négociations en mode rapide réussies par seconde représente le nombre de négociations en mode rapide achevées à la seconde. 5379. 2061 5380. Le compteur Négociations en mode rapide en échec représente le nombre de négociations en mode rapide ayant échoué depuis le dernier démarrage d’IPsec. 5381. 2063 5382. Le compteur Négociations en mode rapide en échec par seconde représente le nombre de négociations en mode rapide ayant échoué à la seconde. 5383. 2065 5384. IPsec IKEv6 est l’ensemble de compteurs Internet Key Exchange (IKE) de sécurité du protocole Internet (IPsec) qui s’appliquent au trafic et aux connexions via IPv6. 5385. 2067 5386. Le compteur Associations de sécurité actives en mode principal représente le nombre d’associations de sécurité en mode principal actuellement actives. 5387. 2069 5388. Le compteur Négociations en mode principal en attente représente le nombre de négociations en mode principal en attente. 5389. 2071 5390. Le compteur Négociations en mode principal représente le nombre de négociations en mode principal tentées depuis le dernier démarrage d’IPsec. 5391. 2073 5392. Le compteur Négociations en mode principal par seconde représente le nombre de négociations en mode principal tentées à la seconde. 5393. 2075 5394. Le compteur Négociations en mode principal réussies représente le nombre de négociations en mode principal achevées depuis le dernier démarrage d’IPsec. 5395. 2077 5396. Le compteur Négociations en mode principal réussies par seconde représente le nombre de négociations en mode principal achevées. 5397. 2079 5398. Le compteur Négociations en mode principal en échec représente le nombre de négociations en mode principal ayant échoué depuis le dernier démarrage d’IPsec. 5399. 2081 5400. Le compteur Négociations en mode principal en échec par seconde représente le nombre de négociations en mode principal ayant échoué à la seconde. 5401. 2083 5402. Le compteur Demandes de négociations en mode principal reçues représente le nombre de négociations en mode principal initiées par un homologue depuis le dernier démarrage d’IPsec. 5403. 2085 5404. Le compteur Demandes de négociations en mode principal reçues par seconde représente le nombre de négociations en mode principal initiées par un homologue à la seconde. 5405. 2087 5406. Le compteur Associations de sécurité actives en mode rapide représente le nombre d’associations de sécurité en mode rapide actuellement actives. 5407. 2089 5408. Négociations en mode rapide en attente représente le nombre de négociations en mode rapide en attente. 5409. 2091 5410. Le compteur Négociations en mode rapide représente le nombre de négociations en mode rapide tentées depuis le dernier démarrage d’IPsec. 5411. 2093 5412. Le compteur Négociations en mode rapide par seconde représente le nombre de négociations en mode rapide tentées à la seconde. 5413. 2095 5414. Le compteur Négociations en mode rapide réussies représente le nombre de Négociations en mode rapide achevées depuis le dernier démarrage d’IPsec. 5415. 2097 5416. Le compteur Négociations en mode rapide réussies par seconde représente le nombre de négociations en mode rapide achevées à la seconde. 5417. 2099 5418. Le compteur Négociations en mode rapide en échec représente le nombre de négociations en mode rapide ayant échoué depuis le dernier démarrage d’IPsec. 5419. 2101 5420. Le compteur Négociations en mode rapide en échec par seconde représente le nombre de négociations en mode rapide ayant échoué à la seconde. 5421. 8887 5422. Compteurs de performance ServiceModel pour le service 5423. 8889 5424. Nombre d'appels à ce service. http://go.microsoft.com/fwlink/?LinkId=222530 5425. 8891 5426. Nombre d'appels à ce service par seconde. http://go.microsoft.com/fwlink/?LinkId=222531 5427. 8893 5428. Nombre d'appels en cours à ce service. http://go.microsoft.com/fwlink/?LinkId=222532 5429. 8895 5430. Nombre d'appels avec des exceptions non prises en charge dans ce service. http://go.microsoft.com/fwlink/?LinkId=222533 5431. 8897 5432. Nombre d'appels avec des exceptions non prises en charge dans ce service par seconde. http://go.microsoft.com/fwlink/?LinkId=222534 5433. 8899 5434. Nombre d'appels à ce service qui ont renvoyé des erreurs. http://go.microsoft.com/fwlink/?LinkId=222535 5435. 8901 5436. Nombre d'appels à ce service qui ont renvoyé des erreurs par seconde. http://go.microsoft.com/fwlink/?LinkId=222536 5437. 8903 5438. Durée moyenne des appels à ce service. http://go.microsoft.com/fwlink/?LinkId=222537 5439. 8905 5440. Nombre d'appels à ce service dont la validation ou l'authentification a échoué. http://go.microsoft.com/fwlink/?LinkId=222558 5441. 8907 5442. Nombre d'appels à ce service dont la validation ou l'authentification a échoué par seconde. http://go.microsoft.com/fwlink/?LinkId=222559 5443. 8909 5444. Nombre d'appels à ce service avec échec d'autorisation. http://go.microsoft.com/fwlink/?LinkId=222555 5445. 8911 5446. Nombre d'appels à ce service avec échec d'autorisation par seconde. http://go.microsoft.com/fwlink/?LinkId=222556 5447. 8913 5448. Nombre total d'instances du service. http://go.microsoft.com/fwlink/?LinkId=222538 5449. 8915 5450. Vitesse de création des instances de service par seconde. http://go.microsoft.com/fwlink/?LinkId=222539 5451. 8917 5452. Nombre de sessions de messagerie fiables en erreur dans ce service. http://go.microsoft.com/fwlink/?LinkId=222552 5453. 8919 5454. Nombre de sessions de messagerie fiables en erreur dans ce service par seconde. http://go.microsoft.com/fwlink/?LinkId=222553 5455. 8921 5456. Nombre de messages de messagerie fiables déposés dans ce service. http://go.microsoft.com/fwlink/?LinkId=222550 5457. 8923 5458. Nombre de messages de messagerie fiables déposés dans ce service par seconde. http://go.microsoft.com/fwlink/?LinkId=222551 5459. 8925 5460. Nombre de transactions passées à des opérations dans ce service. Ce compteur est incrémenté chaque fois qu'un ID de transaction est présent dans le message envoyé au service. http://go.microsoft.com/fwlink/?LinkId=222560 5461. 8927 5462. Nombre de transactions passées à des opérations dans ce service par seconde. Ce compteur est incrémenté chaque fois qu'un ID de transaction est présent dans le message envoyé au service. http://go.microsoft.com/fwlink/?LinkId=222561 5463. 8929 5464. Nombre d'opérations traitées avec des résultats validés dans ce service. Le travail effectué dans le cadre de telles opérations a été entièrement validé. Les ressources sont mises à jour en fonction du travail effectué dans l'opération. http://go.microsoft.com/fwlink/?LinkId=222564 5465. 8931 5466. Nombre d'opérations traitées avec des résultats validés dans ce service par seconde. Le travail effectué dans le cadre de telles opérations a été entièrement validé. Les ressources sont mises à jour en fonction du travail effectué dans l'opération. http://go.microsoft.com/fwlink/?LinkId=222565 5467. 8933 5468. Nombre d'opérations traitées avec des résultats annulés dans ce service. Le travail effectué dans le cadre de telles opérations est restauré. Les ressources sont rétablies à leur état antérieur. http://go.microsoft.com/fwlink/?LinkId=222562 5469. 8935 5470. Nombre d'opérations traitées avec des résultats annulés dans ce service par seconde. Le travail effectué dans le cadre de telles opérations est restauré. Les ressources sont rétablies à leur état antérieur. http://go.microsoft.com/fwlink/?LinkId=222563 5471. 8937 5472. Nombre d'opérations traitées avec des résultats incertains dans ce service. L'état d'un travail effectué avec un résultat incertain est indéterminé. Les ressources sont conservées dans l'attente des résultats. http://go.microsoft.com/fwlink/?LinkId=222566 5473. 8939 5474. Nombre d'opérations traitées avec des résultats incertains dans ce service par seconde. L'état d'un travail effectué avec un résultat incertain est indéterminé. Les ressources sont conservées dans l'attente des résultats. http://go.microsoft.com/fwlink/?LinkId=222567 5475. 8941 5476. Nombre de messages à ce service marqués comme étant empoisonnés par le transport de mise en file d'attente. http://go.microsoft.com/fwlink/?LinkId=222546 5477. 8943 5478. Nombre de messages à ce service marqués comme étant empoisonnés par le transport de mise en file d'attente par seconde. http://go.microsoft.com/fwlink/?LinkId=222547 5479. 8945 5480. Nombre de messages à ce service rejetés par le transport de mise en file d'attente. http://go.microsoft.com/fwlink/?LinkId=222548 5481. 8947 5482. Nombre de messages à ce service rejetés par le transport de mise en file d'attente par seconde. http://go.microsoft.com/fwlink/?LinkId=222549 5483. 8949 5484. Nombre de messages à ce service déposés par le transport de mise en file d'attente. http://go.microsoft.com/fwlink/?LinkId=222543 5485. 8951 5486. Nombre de messages à ce service déposés par le transport de mise en file d'attente par seconde. http://go.microsoft.com/fwlink/?LinkId=222544 5487. 8953 5488. Nombre d'appels en attente ou en cours de traitement dans le répartiteur en pourcentage de la limitation d'appels maximale. http://go.microsoft.com/fwlink/?LinkId=222540 5489. 8955 5490. Nombre d'instances actives et de messages en attente d'instances en pourcentage de la limitation d'instances maximale. http://go.microsoft.com/fwlink/?LinkId=222541 5491. 8957 5492. Nombre de sessions actives et de messages en attente de sessions en pourcentage du nombre maximal de sessions. http://go.microsoft.com/fwlink/?LinkId=222542 5493. 8959 5494. 5495. 8961 5496. 5497. 8963 5498. 5499. 9007 5500. Compteurs de performance ServiceModelOperation 4.0.0.0 5501. 9009 5502. Nombre d'appels à cette opération. http://go.microsoft.com/fwlink/?LinkId=222615 5503. 9011 5504. Nombre d'appels à cette opération par seconde. http://go.microsoft.com/fwlink/?LinkId=222616 5505. 9013 5506. Nombre d'appels en cours à cette opération. http://go.microsoft.com/fwlink/?LinkId=222617 5507. 9015 5508. Nombre d'appels avec des exceptions non prises en charge dans cette opération. http://go.microsoft.com/fwlink/?LinkId=222618 5509. 9017 5510. Nombre d'appels avec des exceptions non prises en charge dans cette opération par seconde. http://go.microsoft.com/fwlink/?LinkId=222619 5511. 9019 5512. Nombre d'appels à cette opération qui ont renvoyé des erreurs. http://go.microsoft.com/fwlink/?LinkId=222620 5513. 9021 5514. Nombre d'appels à cette opération qui ont renvoyé des erreurs par seconde. http://go.microsoft.com/fwlink/?LinkId=222621 5515. 9023 5516. Durée moyenne des appels à cette opération. http://go.microsoft.com/fwlink/?LinkId=222622 5517. 9025 5518. Nombre d'appels à cette opération dont la validation ou l'authentification a échoué. http://go.microsoft.com/fwlink/?LinkId=222623 5519. 9027 5520. Nombre d'appels à cette opération dont la validation ou l'authentification a échoué par seconde. http://go.microsoft.com/fwlink/?LinkId=222624 5521. 9029 5522. Nombre d'appels à cette opération avec échec d'autorisation. http://go.microsoft.com/fwlink/?LinkId=222631 5523. 9031 5524. Nombre d'appels à cette opération avec échec d'autorisation par seconde. http://go.microsoft.com/fwlink/?LinkId=222633 5525. 9033 5526. Nombre de transactions passées à cette opération. Ce compteur est incrémenté chaque fois qu'un ID de transaction est présent dans le message envoyé à l'opération. http://go.microsoft.com/fwlink/?LinkId=222634 5527. 9035 5528. Nombre de transactions passées à cette opération par seconde. Ce compteur est incrémenté chaque fois qu'un ID de transaction est présent dans le message envoyé à l'opération. http://go.microsoft.com/fwlink/?LinkId=222637 5529. 9037 5530. Durée moyenne des appels à cette opération. http://go.microsoft.com/fwlink/?LinkId=222622 5531. 8967 5532. Compteurs de performance ServiceModel pour le point de terminaison 5533. 8969 5534. Nombre d'appels à ce point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222641 5535. 8971 5536. Nombre d'appels à ce point de terminaison par seconde. http://go.microsoft.com/fwlink/?LinkId=222642 5537. 8973 5538. Nombre d'appels en cours à ce point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222643 5539. 8975 5540. Nombre d'appels à ce point de terminaison avec des exceptions non prises en charge. http://go.microsoft.com/fwlink/?LinkId=222644 5541. 8977 5542. Nombre d'appels à ce point de terminaison avec des exceptions non prises en charge par seconde. http://go.microsoft.com/fwlink/?LinkId=222645 5543. 8979 5544. Nombre d'appels à ce point de terminaison qui ont renvoyé des erreurs. http://go.microsoft.com/fwlink/?LinkId=222646 5545. 8981 5546. Nombre d'appels à ce point de terminaison qui ont renvoyé des erreurs par seconde. http://go.microsoft.com/fwlink/?LinkId=222647 5547. 8983 5548. Durée moyenne des appels à ce point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222648 5549. 8985 5550. Nombre d'appels à ce point de terminaison dont la validation ou l'authentification a échoué. http://go.microsoft.com/fwlink/?LinkId=222656 5551. 8987 5552. Nombre d'appels à ce point de terminaison dont la validation ou l'authentification a échoué par seconde. http://go.microsoft.com/fwlink/?LinkId=222657 5553. 8989 5554. Nombre d'appels à ce point de terminaison avec échec d'autorisation. http://go.microsoft.com/fwlink/?LinkId=222653 5555. 8991 5556. Nombre d'appels à ce point de terminaison avec échec d'autorisation par seconde. http://go.microsoft.com/fwlink/?LinkId=222655 5557. 8993 5558. Nombre de sessions de messagerie fiables ayant généré des erreurs au niveau de ce point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222651 5559. 8995 5560. Nombre de sessions de messagerie fiables ayant généré des erreurs au niveau de ce point de terminaison par seconde. http://go.microsoft.com/fwlink/?LinkId=222652 5561. 8997 5562. Nombre de messages de messagerie fiables déposés au niveau de ce point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222649 5563. 8999 5564. Nombre de messages de messagerie fiables déposés au niveau de ce point de terminaison par seconde. http://go.microsoft.com/fwlink/?LinkId=222650 5565. 9001 5566. Nombre de transactions passées à des opérations au niveau de ce point de terminaison. Ce compteur est incrémenté chaque fois qu'un ID de transaction est présent dans le message envoyé au point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222658 5567. 9003 5568. Nombre de transactions passées à des opérations au niveau de ce point de terminaison par seconde. Ce compteur est incrémenté chaque fois qu'un ID de transaction est présent dans le message envoyé au point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222659 5569. 9005 5570. Durée moyenne des appels à ce point de terminaison. http://go.microsoft.com/fwlink/?LinkId=222648 5571. 4681 5572. Ensemble des compteurs de file d’attente des requêtes 5573. 4683 5574. Nombre de requêtes dans la file d’attente 5575. 4685 5576. Antériorité de la requête la plus ancienne de la file d’attente 5577. 4687 5578. Taux auquel les requêtes arrivent dans la file d’attente 5579. 4689 5580. Taux auquel les requêtes sont rejetées de la file d’attente 5581. 4691 5582. Nombre total de requêtes rejetées de la file d’attente 5583. 4693 5584. Taux des accès cache pour la file d’attente 5585. 4661 5586. Ensemble de compteurs d’URL spécifiques au groupe 5587. 4663 5588. Taux de données envoyées par le service HTTP pour ce site 5589. 4665 5590. Taux de données reçues par le service HTTP pour ce site 5591. 4667 5592. Taux d’octets transférés (envoyés et reçus) par le service HTTP pour ce site 5593. 4669 5594. Nombre de connexions actuellement établies pour ce site 5595. 4671 5596. Nombre maximal de connexions simultanées établies pour ce site 5597. 4673 5598. Taux auquel les tentatives de connexion sont effectuées pour ce site 5599. 4675 5600. Taux auquel les demandes de méthode GET sont effectuées pour ce site 5601. 4677 5602. Taux auquel les demandes de méthode HEAD sont effectuées pour ce site 5603. 4679 5604. Nombre total de requêtes HTTP effectuées pour ce site 5605. 4647 5606. Ensemble de compteurs de service HTTP 5607. 4649 5608. Nombre total d’URI actuellement mis en cache par le noyau 5609. 4651 5610. Nombre total d’URI ajoutés au noyau depuis le démarrage du service 5611. 4653 5612. Nombre total de recherches abouties dans la mémoire cache URI du noyau 5613. 4655 5614. Nombre total de recherches infructueuses dans la mémoire cache URI du noyau 5615. 4657 5616. Nombre total de vidages du cache URI (complets ou partiels) depuis le démarrage du service 5617. 4659 5618. Nombre total d’URI supprimés du cache URI du noyau depuis le démarrage du service 5619. 4633 5620. Compteurs de mesure des performances de Netlogon. 5621. 4635 5622. Nombre de threads attendant l'acquisition du sémaphore. 5623. 4637 5624. Nombre de threads actuellement détenteurs du sémaphore. 5625. 4639 5626. Nombre total de fois où le sémaphore a été acquis pendant la durée de vie de la connexion sur canal sécurisé (ou depuis le démarrage de l'ordinateur, pour _Total). 5627. 4641 5628. Nombre total de fois où un thread a dépassé le délai maximal en attendant le sémaphore pendant la durée de vie de la connexion sur canal sécurisé (ou depuis le démarrage de l'ordinateur, pour _Total). 5629. 4643 5630. Durée moyenne de retenue du sémaphore lors du dernier échantillonnage. 5631. 4645 5632. La valeur de base utilisée pour calculer le temps moyen de retenue du sémaphore. 5633. 5937 5634. Affiche des informations sur l’utilisation et la violation des quotas pour les processus de la Gestion des services Web. 5635. 5939 5636. Affiche le nombre de demandes approuvées et rejetées par seconde provenant d’utilisateurs autorisés. 5637. 5941 5638. Affiche le nombre de violations de quota d’utilisateur. 5639. 5943 5640. Affiche le nombre de demandes ayant fait l’objet d’une limitation du système. 5641. 5945 5642. Affiche le nombre actuel de shells actifs pour tous les utilisateurs. 5643. 5947 5644. Affiche le nombre actuel d’opérations actives pour tous les utilisateurs. 5645. 5949 5646. Affiche le nombre actuel d’utilisateurs actifs autorisés. 5647. 3419 5648. Compteurs de performance du composant des services de base de module de plateforme sécurisée. 5649. 3421 5650. Le nombre de contextes TBS qui sont actuellement actifs. 5651. 3423 5652. Le nombre de ressources qui sont actuellement gérées par le TBS. 5653. " (REG_MULTI_SZ) 5654. 5655. [HKLM\Software\Skype\Installer] 5656. "BINGSRCHFF"="255" (REG_DWORD) 5657. 5658. [HKLM\Software\Skype\Installer] 5659. "BINGSRCHIE"="255" (REG_DWORD) 5660. 5661. [HKLM\Software\Skype\Installer] 5662. "BINGSRCHGC"="255" (REG_DWORD) 5663. 5664. [HKLM\System\ControlSet001\Services\NlaSvc\Parameters\Internet] 5665. "EnableActiveProbing"="1" (REG_DWORD) 5666. 5667. [HKLM\System\ControlSet010\Services\NlaSvc\Parameters\Internet] 5668. "EnableActiveProbing"="1" (REG_DWORD) 5669. 5670. [HKLM\System\CurrentControlSet\Services\NlaSvc\Parameters\Internet] 5671. "EnableActiveProbing"="1" (REG_DWORD) 5672. 5673. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5674. "DisplayName"="Bing" (REG_SZ) 5675. 5676. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5677. "URL"="http://www.bing.com/search?FORM=SK2MDF&PC=SK2M&q={searchTerms}&src=IE-SearchBox" (REG_SZ) 5678. 5679. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5680. "SuggestionsURL"="http://www.bing.com/as/api/qsml?query={searchTerms}&market={Language}&FORM=SK2MDF&PC=SK2M&&maxwidth={ie:maxWidth}&rowheight={ie:rowHeight}§ionHeight={ie:sectionHeight}" (REG_SZ) 5681. 5682. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5683. "FaviconURL"="http://www.bing.com/favicon.ico" (REG_SZ) 5684. 5685. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5686. "NTURL"="http://www.bing.com/search?FORM=UWDFNU&PC=SK2M&q={searchTerms}&src=IE-TopResult" (REG_SZ) 5687. 5688. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5689. "NTTopResultURL"="http://www.bing.com/search?FORM=UWDFNT&PC=SK2M&q={searchTerms}&src=IE-TopResult" (REG_SZ) 5690. 5691. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5692. "NTSuggestionsURL"="http://www.bing.com/as/api/qsml?query={searchTerms}&market={Language}&FORM=UWDFNS&PC=SK2M&&maxwidth={ie:maxWidth}&rowheight={ie:rowHeight}&sectionHeight={ie:sectionHeight}" (REG_SZ) 5693. 5694. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5695. "TopResultURL"="http://www.bing.com/search?FORM=UWDFTU&PC=SK2M&q={searchTerms}&src=IE-TopResult" (REG_SZ) 5696. 5697. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5698. "TopResultURLFallback"="http://www.bing.com/search?FORM=UWDFTF&PC=SK2M&q={searchTerms}&src=IE-TopResult" (REG_SZ) 5699. 5700. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5701. "FaviconURLFallback"="http://www.bing.com/favicon.ico" (REG_SZ) 5702. 5703. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Internet Explorer\SearchScopes\{0633EE93-D776-472f-A0FF-E1416B8B2E3A}] 5704. "SuggestionsURLFallback"="http://www.bing.com/as/api/qsml?query={searchTerms}&market={Language}&FORM=UWDFSF&PC=SK2M&&maxwidth={ie:maxWidth}&rowheight={ie:rowHeight}&sectionHeight={ie:sectionHeight}" (REG_SZ) 5705. 5706. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\MediaPlayer\Services\Bing] 5707. DA: 03/03/2019 10:58:42 5708. 5709. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\MediaPlayer\Subscriptions] 5710. "ActiveService"="Service=Bing&userlocale=40c&GEOID=54&locale=40c" (REG_SZ) 5711. 5712. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\MediaPlayer\Subscriptions] 5713. "ActiveServiceName"="Bing" (REG_SZ) 5714. 5715. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\Windows\CurrentVersion\Run] 5716. "BingSvc"="C:\Users\SAMSUNG\AppData\Local\Microsoft\BingSvc\BingSvc.exe" (REG_SZ) 5717. 5718. [HKU\S-1-5-21-1228387082-1587413325-2831801477-1003\Software\Microsoft\BingSvc] 5719. DA: 03/03/2019 11:03:10 5720. 5721. ========================= 5722. 5723. Fin à: 13:00:52 le 04/03/2019 5724. 635877 Éléments analysés 5725. 5726. ========================= 5727. E.O.F