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FIX: Error "Performance Monitor Counter Requirement" when installing SQL 2005 Express

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  • #16
    Originally posted by jonny_sig View Post
    Yes i try.

    But the error still there. :S


    Thanks
    Hi,

    Could you please provide me the server's login details? I'll get this sorted out for you quickly
    Rock _a.k.a._ Jack Daniel

    Follow eUKhost on Twitter || Join eUKhost Community on Facebook

    Comment


    • #17
      Hello,


      I fix the problem!
      The problem was in the folder 009.

      My folder 009 was empty and i export from one of the folder in Perflib 0816 the values and import to folder 009 and works!


      Thank you for your time.

      Comment


      • #18
        Originally posted by jonny_sig View Post
        Hello,


        I fix the problem!
        The problem was in the folder 009.

        My folder 009 was empty and i export from one of the folder in Perflib 0816 the values and import to folder 009 and works!


        Thank you for your time.
        You're welcome Jonny.. Glad to know that the problem got sorted out too
        Rock _a.k.a._ Jack Daniel

        Follow eUKhost on Twitter || Join eUKhost Community on Facebook

        Comment


        • #19
          Hi To Every Body

          this is For copy in counter

          Code:
          1
          1847
          2
          System
          4
          Memory
          6
          % Processor Time
          10
          File Read Operations/sec
          12
          File Write Operations/sec
          14
          File Control Operations/sec
          16
          File Read Bytes/sec
          18
          File Write Bytes/sec
          20
          File Control Bytes/sec
          24
          Available Bytes
          26
          Committed Bytes
          28
          Page Faults/sec
          30
          Commit Limit
          32
          Write Copies/sec
          34
          Transition Faults/sec
          36
          Cache Faults/sec
          38
          Demand Zero Faults/sec
          40
          Pages/sec
          42
          Page Reads/sec
          44
          Processor Queue Length
          46
          Thread State
          48
          Pages Output/sec
          50
          Page Writes/sec
          52
          Browser
          54
          Announcements Server/sec
          56
          Pool Paged Bytes
          58
          Pool Nonpaged Bytes
          60
          Pool Paged Allocs
          64
          Pool Nonpaged Allocs
          66
          Pool Paged Resident Bytes
          68
          System Code Total Bytes
          70
          System Code Resident Bytes
          72
          System Driver Total Bytes
          74
          System Driver Resident Bytes
          76
          System Cache Resident Bytes
          78
          Announcements Domain/sec
          80
          Election Packets/sec
          82
          Mailslot Writes/sec
          84
          Server List Requests/sec
          86
          Cache
          88
          Data Maps/sec
          90
          Sync Data Maps/sec
          92
          Async Data Maps/sec
          94
          Data Map Hits %
          96
          Data Map Pins/sec
          98
          Pin Reads/sec
          100
          Sync Pin Reads/sec
          102
          Async Pin Reads/sec
          104
          Pin Read Hits %
          106
          Copy Reads/sec
          108
          Sync Copy Reads/sec
          110
          Async Copy Reads/sec
          112
          Copy Read Hits %
          114
          MDL Reads/sec
          116
          Sync MDL Reads/sec
          118
          Async MDL Reads/sec
          120
          MDL Read Hits %
          122
          Read Aheads/sec
          124
          Fast Reads/sec
          126
          Sync Fast Reads/sec
          128
          Async Fast Reads/sec
          130
          Fast Read Resource Misses/sec
          132
          Fast Read Not Possibles/sec
          134
          Lazy Write Flushes/sec
          136
          Lazy Write Pages/sec
          138
          Data Flushes/sec
          140
          Data Flush Pages/sec
          142
          % User Time
          144
          % Privileged Time
          146
          Context Switches/sec
          148
          Interrupts/sec
          150
          System Calls/sec
          152
          Level 1 TLB Fills/sec
          154
          Level 2 TLB Fills/sec
          156
          Enumerations Server/sec
          158
          Enumerations Domain/sec
          160
          Enumerations Other/sec
          162
          Missed Server Announcements
          164
          Missed Mailslot Datagrams
          166
          Missed Server List Requests
          168
          Server Announce Allocations Failed/sec
          170
          Mailslot Allocations Failed
          172
          Virtual Bytes Peak
          174
          Virtual Bytes
          178
          Working Set Peak
          180
          Working Set
          182
          Page File Bytes Peak
          184
          Page File Bytes
          186
          Private Bytes
          188
          Announcements Total/sec
          190
          Enumerations Total/sec
          198
          Current Disk Queue Length
          200
          % Disk Time
          202
          % Disk Read Time
          204
          % Disk Write Time
          206
          Avg. Disk sec/Transfer
          208
          Avg. Disk sec/Read
          210
          Avg. Disk sec/Write
          212
          Disk Transfers/sec
          214
          Disk Reads/sec
          216
          Disk Writes/sec
          218
          Disk Bytes/sec
          220
          Disk Read Bytes/sec
          222
          Disk Write Bytes/sec
          224
          Avg. Disk Bytes/Transfer
          226
          Avg. Disk Bytes/Read
          228
          Avg. Disk Bytes/Write
          230
          Process
          232
          Thread
          234
          PhysicalDisk
          236
          LogicalDisk
          238
          Processor
          240
          % Total Processor Time
          242
          % Total User Time
          244
          % Total Privileged Time
          246
          Total Interrupts/sec
          248
          Processes
          250
          Threads
          252
          Events
          254
          Semaphores
          256
          Mutexes
          258
          Sections
          260
          Objects
          262
          Redirector
          264
          Bytes Received/sec
          266
          Packets Received/sec
          268
          Read Bytes Paging/sec
          270
          Read Bytes Non-Paging/sec
          272
          Read Bytes Cache/sec
          274
          Read Bytes Network/sec
          276
          Bytes Transmitted/sec
          278
          Packets Transmitted/sec
          280
          Write Bytes Paging/sec
          282
          Write Bytes Non-Paging/sec
          284
          Write Bytes Cache/sec
          286
          Write Bytes Network/sec
          288
          Read Operations/sec
          290
          Read Operations Random/sec
          292
          Read Packets/sec
          294
          Reads Large/sec
          296
          Read Packets Small/sec
          298
          Write Operations/sec
          300
          Write Operations Random/sec
          302
          Write Packets/sec
          304
          Writes Large/sec
          306
          Write Packets Small/sec
          308
          Reads Denied/sec
          310
          Writes Denied/sec
          312
          Network Errors/sec
          314
          Server Sessions
          316
          Server Reconnects
          318
          Connects Core
          320
          Connects Lan Manager 2.0
          322
          Connects Lan Manager 2.1
          324
          Connects Windows NT
          326
          Server Disconnects
          328
          Server Sessions Hung
          330
          Server
          336
          Thread Wait Reason
          340
          Sessions Timed Out
          342
          Sessions Errored Out
          344
          Sessions Logged Off
          346
          Sessions Forced Off
          348
          Errors Logon
          350
          Errors Access Permissions
          352
          Errors Granted Access
          354
          Errors System
          356
          Blocking Requests Rejected
          358
          Work Item Shortages
          360
          Files Opened Total
          362
          Files Open
          366
          File Directory Searches
          370
          Pool Nonpaged Failures
          372
          Pool Nonpaged Peak
          376
          Pool Paged Failures
          378
          Pool Paged Peak
          388
          Bytes Total/sec
          392
          Current Commands
          398
          NWLink NetBIOS
          400
          Packets/sec
          404
          Context Blocks Queued/sec
          406
          File Data Operations/sec
          408
          % Free Space
          410
          Free Megabytes
          412
          Connections Open
          414
          Connections No Retries
          416
          Connections With Retries
          418
          Disconnects Local
          420
          Disconnects Remote
          422
          Failures Link
          424
          Failures Adapter
          426
          Connection Session Timeouts
          428
          Connections Canceled
          430
          Failures Resource Remote
          432
          Failures Resource Local
          434
          Failures Not Found
          436
          Failures No Listen
          438
          Datagrams/sec
          440
          Datagram Bytes/sec
          442
          Datagrams Sent/sec
          444
          Datagram Bytes Sent/sec
          446
          Datagrams Received/sec
          448
          Datagram Bytes Received/sec
          452
          Packets Sent/sec
          456
          Frames/sec
          458
          Frame Bytes/sec
          460
          Frames Sent/sec
          462
          Frame Bytes Sent/sec
          464
          Frames Received/sec
          466
          Frame Bytes Received/sec
          468
          Frames Re-Sent/sec
          470
          Frame Bytes Re-Sent/sec
          472
          Frames Rejected/sec
          474
          Frame Bytes Rejected/sec
          476
          Expirations Response
          478
          Expirations Ack
          480
          Window Send Maximum 
          482
          Window Send Average
          484
          Piggyback Ack Queued/sec
          486
          Piggyback Ack Timeouts
          488
          NWLink IPX
          490
          NWLink SPX
          492
          NetBEUI
          494
          NetBEUI Resource
          496
          Used Maximum
          498
          Used Average
          500
          Times Exhausted
          502
          NBT Connection
          506
          Bytes Sent/sec
          508
          Total Bytes/sec
          510
          Network Interface
          512
          Bytes/sec
          520
          Current Bandwidth
          524
          Packets Received Unicast/sec
          526
          Packets Received Non-Unicast/sec
          528
          Packets Received Discarded
          530
          Packets Received Errors
          532
          Packets Received Unknown
          536
          Packets Sent Unicast/sec
          538
          Packets Sent Non-Unicast/sec
          540
          Packets Outbound Discarded
          542
          Packets Outbound Errors
          544
          Output Queue Length
          546
          IP
          552
          Datagrams Received Header Errors
          554
          Datagrams Received Address Errors
          556
          Datagrams Forwarded/sec
          558
          Datagrams Received Unknown Protocol
          560
          Datagrams Received Discarded
          562
          Datagrams Received Delivered/sec
          566
          Datagrams Outbound Discarded
          568
          Datagrams Outbound No Route
          570
          Fragments Received/sec
          572
          Fragments Re-assembled/sec
          574
          Fragment Re-assembly Failures
          576
          Fragmented Datagrams/sec
          578
          Fragmentation Failures
          580
          Fragments Created/sec
          582
          ICMP
          584
          Messages/sec
          586
          Messages Received/sec
          588
          Messages Received Errors
          590
          Received Dest. Unreachable
          592
          Received Time Exceeded
          594
          Received Parameter Problem
          596
          Received Source Quench
          598
          Received Redirect/sec
          600
          Received Echo/sec
          602
          Received Echo Reply/sec
          604
          Received Timestamp/sec
          606
          Received Timestamp Reply/sec
          608
          Received Address Mask
          610
          Received Address Mask Reply
          612
          Messages Sent/sec
          614
          Messages Outbound Errors
          616
          Sent Destination Unreachable
          618
          Sent Time Exceeded
          620
          Sent Parameter Problem
          622
          Sent Source Quench
          624
          Sent Redirect/sec
          626
          Sent Echo/sec
          628
          Sent Echo Reply/sec
          630
          Sent Timestamp/sec
          632
          Sent Timestamp Reply/sec
          634
          Sent Address Mask
          636
          Sent Address Mask Reply
          638
          TCP
          640
          Segments/sec
          642
          Connections Established
          644
          Connections Active
          646
          Connections Passive
          648
          Connection Failures
          650
          Connections Reset
          652
          Segments Received/sec
          654
          Segments Sent/sec
          656
          Segments Retransmitted/sec
          658
          UDP
          660
          % Total DPC Time
          662
          % Total Interrupt Time
          664
          Datagrams No Port/sec
          666
          Datagrams Received Errors
          670
          Disk Storage Unit
          672
          Allocation Failures
          674
          System Up Time
          676
          System Handle Count
          678
          Free System Page Table Entries
          680
          Thread Count
          682
          Priority Base
          684
          Elapsed Time
          686
          Alignment Fixups/sec
          688
          Exception Dispatches/sec
          690
          Floating Emulations/sec
          692
          Logon/sec
          694
          Priority Current
          696
          % DPC Time
          698
          % Interrupt Time
          700
          Paging File
          702
          % Usage
          704
          % Usage Peak
          706
          Start Address
          708
          User PC
          710
          Mapped Space No Access
          712
          Mapped Space Read Only
          714
          Mapped Space Read/Write
          716
          Mapped Space Write Copy
          718
          Mapped Space Executable
          720
          Mapped Space Exec Read Only
          722
          Mapped Space Exec Read/Write
          724
          Mapped Space Exec Write Copy
          726
          Reserved Space No Access
          728
          Reserved Space Read Only
          730
          Reserved Space Read/Write
          732
          Reserved Space Write Copy
          734
          Reserved Space Executable
          736
          Reserved Space Exec Read Only
          738
          Reserved Space Exec Read/Write
          740
          Image
          742
          Reserved Space Exec Write Copy
          744
          Unassigned Space No Access
          746
          Unassigned Space Read Only
          748
          Unassigned Space Read/Write
          750
          Unassigned Space Write Copy
          752
          Unassigned Space Executable
          754
          Unassigned Space Exec Read Only
          756
          Unassigned Space Exec Read/Write
          758
          Unassigned Space Exec Write Copy
          760
          Image Space No Access
          762
          Image Space Read Only
          764
          Image Space Read/Write
          766
          Image Space Write Copy
          768
          Image Space Executable
          770
          Image Space Exec Read Only
          772
          Image Space Exec Read/Write
          774
          Image Space Exec Write Copy
          776
          Bytes Image Reserved
          778
          Bytes Image Free
          780
          Bytes Reserved
          782
          Bytes Free
          784
          ID Process
          786
          Process Address Space
          788
          No Access
          790
          Read Only
          792
          Read/Write
          794
          Write Copy
          796
          Executable
          798
          Exec Read Only
          800
          Exec Read/Write
          802
          Exec Write Copy
          804
          ID Thread
          806
          Mailslot Receives Failed
          808
          Mailslot Writes Failed
          810
          Mailslot Opens Failed/sec
          812
          Duplicate Master Announcements
          814
          Illegal Datagrams/sec
          816
          Thread Details
          818
          Cache Bytes
          820
          Cache Bytes Peak
          822
          Pages Input/sec
          870
          RAS Port
          872
          Bytes Transmitted
          874
          Bytes Received
          876
          Frames Transmitted
          878
          Frames Received.
          880
          Percent Compression Out
          882
          Percent Compression In
          884
          CRC Errors
          886
          Timeout Errors
          888
          Serial Overrun Errors
          890
          Alignment Errors
          892
          Buffer Overrun Errors
          894
          Total Errors
          896
          Bytes Transmitted/Sec
          898
          Bytes Received/Sec
          900
          Frames Transmitted/Sec
          902
          Frames Received/Sec
          904
          Total Errors/Sec
          906
          RAS Total
          908
          Total Connections
          920
          WINS Server
          922
          Unique Registrations/sec
          924
          Group Registrations/sec
          926
          Total Number of Registrations/sec
          928
          Unique Renewals/sec
          930
          Group Renewals/sec
          932
          Total Number of Renewals/sec
          934
          Releases/sec
          936
          Queries/sec
          938
          Unique Conflicts/sec
          940
          Group Conflicts/sec
          942
          Total Number of Conflicts/sec
          944
          Successful Releases/sec
          946
          Failed Releases/sec
          948
          Successful Queries/sec
          950
          Failed Queries/sec
          952
          Handle Count
          1000
          MacFile Server
          1002
          Max Paged Memory
          1004
          Current Paged Memory
          1006
          Max NonPaged Memory
          1008
          Current NonPaged memory
          1010
          Current Sessions
          1012
          Maximum Sessions
          1014
          Current Files Open
          1016
          Maximum Files Open
          1018
          Failed Logons
          1020
          Data Read/sec
          1022
          Data Written/sec
          1024
          Data Received/sec
          1026
          Data Transmitted/sec
          1028
          Current Queue Length
          1030
          Maximum Queue Length
          1032
          Current Threads
          1034
          Maximum Threads
          1050
          AppleTalk
          1052
          Packets In/sec
          1054
          Packets Out/sec
          1056
          Bytes In/sec
          1058
          Bytes Out/sec
          1060
          Average Time/DDP Packet
          1062
          DDP Packets/sec
          1064
          Average Time/AARP Packet
          1066
          AARP Packets/sec
          1068
          Average Time/ATP Packet
          1070
          ATP Packets/sec
          1072
          Average Time/NBP Packet
          1074
          NBP Packets/sec
          1076
          Average Time/ZIP Packet
          1078
          ZIP Packets/sec
          1080
          Average Time/RTMP Packet
          1082
          RTMP Packets/sec
          1084
          ATP Retries Local
          1086
          ATP Response Timouts
          1088
          ATP XO Response/Sec
          1090
          ATP ALO Response/Sec
          1092
          ATP Recvd Release/Sec
          1094
          Current NonPaged Pool
          1096
          Packets Routed In/Sec
          1098
          Packets dropped
          1100
          ATP Retries Remote
          1102
          Packets Routed Out/Sec
          1110
          Network Segment
          1112
          Total frames received/second
          1114
          Total bytes received/second
          1116
          Broadcast frames received/second
          1118
          Multicast frames received/second
          1120
          % Network utilization
          1124
          % Broadcast Frames
          1126
          % Multicast Frames
          1150
          Telephony
          1152
          Lines
          1154
          Telephone Devices
          1156
          Active Lines
          1158
          Active Telephones
          1160
          Outgoing Calls/sec
          1162
          Incoming Calls/sec
          1164
          Client Apps
          1166
          Current Outgoing Calls
          1168
          Current Incoming Calls
          1228
          Gateway Service For NetWare
          1230
          Client Service For NetWare
          1232
          Packet Burst Read NCP Count/sec
          1234
          Packet Burst Read Timeouts/sec
          1236
          Packet Burst Write NCP Count/sec
          1238
          Packet Burst Write Timeouts/sec
          1240
          Packet Burst IO/sec
          1242
          Connect NetWare 2.x
          1244
          Connect NetWare 3.x
          1246
          Connect NetWare 4.x
          1260
          Logon Total
          1300
          Server Work Queues
          1302
          Queue Length
          1304
          Active Threads
          1306
          Available Threads
          1308
          Available Work Items
          1310
          Borrowed Work Items
          1312
          Work Item Shortages
          1314
          Current Clients
          1320
          Bytes Transferred/sec
          1324
          Read Bytes/sec
          1328
          Write Bytes/sec
          1332
          Total Operations/sec
          1334
          DPCs Queued/sec
          1336
          DPC Rate
          1342
          Total DPCs Queued/sec
          1344
          Total DPC Rate
          1350
          % Registry Quota In Use
          1360
          VL Memory
          1362
          VLM % Virtual Size In Use
          1364
          VLM Virtual Size
          1366
          VLM Virtual Size Peak 
          1368
          VLM Virtual Size Available
          1370
          VLM Commit Charge
          1372
          VLM Commit Charge Peak
          1374
          System VLM Commit Charge
          1376
          System VLM Commit Charge Peak
          1378
          System VLM Shared Commit Charge
          1380
          Available KBytes
          1382
          Available MBytes
          1400
          Avg. Disk Queue Length
          1402
          Avg. Disk Read Queue Length
          1404
          Avg. Disk Write Queue Length
          1406
          % Committed Bytes In Use
          1408
          Full Image
          1410
          Creating Process ID
          1412
          IO Read Operations/sec
          1414
          IO Write Operations/sec
          1416
          IO Data Operations/sec
          1418
          IO Other Operations/sec
          1420
          IO Read Bytes/sec
          1422
          IO Write Bytes/sec
          1424
          IO Data Bytes/sec
          1426
          IO Other Bytes/sec
          1450
          Print Queue
          1452
          Total Jobs Printed
          1454
          Bytes Printed/sec
          1456
          Total Pages Printed
          1458
          Jobs
          1460
          References
          1462
          Max References
          1464
          Jobs Spooling
          1466
          Max Jobs Spooling
          1468
          Out of Paper Errors
          1470
          Not Ready Errors
          1472
          Job Errors
          1474
          Enumerate Network Printer Calls
          1476
          Add Network Printer Calls
          1478
          Working Set - Private
          1480
          Working Set - Shared
          1482
          % Idle Time
          1484
          Split IO/Sec
          1500
          Job Object
          1502
          Current % Processor Time
          1504
          Current % User Mode Time
          1506
          Current % Kernel Mode Time
          1508
          This Period mSec - Processor
          1510
          This Period mSec - User Mode
          1512
          This Period mSec - Kernel Mode
          1514
          Pages/Sec
          1516
          Process Count - Total
          1518
          Process Count - Active
          1520
          Process Count - Terminated
          1522
          Total mSec - Processor
          1524
          Total mSec - User Mode
          1526
          Total mSec - Kernel Mode
          1548
          Job Object Details
          1746
          % Idle Time
          1748
          % C1 Time
          1750
          % C2 Time
          1752
          % C3 Time
          1754
          C1 Transitions/sec
          1756
          C2 Transitions/sec
          1758
          C3 Transitions/sec
          1760
          Heap
          1762
          Committed Bytes
          1764
          Reserved Bytes
          1766
          Virtual Bytes
          1768
          Free Bytes
          1770
          Free List Length
          1772
          Avg. alloc rate
          1774
          Avg. free rate
          1776
          Uncommitted Ranges Length
          1778
          Allocs - Frees
          1780
          Cached Allocs/sec
          1782
          Cached Frees/sec
          1784
          Allocs <1K/sec
          1786
          Frees <1K/sec
          1788
          Allocs 1-8K/sec
          1790
          Frees 1-8K/sec
          1792
          Allocs over 8K/sec
          1794
          Frees over 8K/sec
          1796
          Total Allocs/sec
          1798
          Total Frees/sec
          1800
          Blocks in Heap Cache
          1802
          Largest Cache Depth
          1804
          % Fragmentation
          1806
          % VAFragmentation
          1808
          Heap Lock contention
          1846
          End Marker
          1848
          RSVP Service
          1850
          Network Interfaces
          1852
          Network sockets
          1854
          Timers
          1856
          RSVP sessions
          1858
          QoS clients
          1860
          QoS-enabled senders
          1862
          QoS-enabled receivers
          1864
          Failed QoS requests
          1866
          Failed QoS sends
          1868
          QoS notifications
          1870
          Bytes in QoS notifications
          1872
          RSVP Interfaces
          1874
          Signaling bytes received
          1876
          Signaling bytes sent
          1878
          PATH messages received
          1880
          RESV messages received
          1882
          PATH ERR messages received
          1884
          RESV ERR messages received
          1886
          PATH TEAR messages received
          1888
          RESV TEAR messages received
          1890
          RESV CONFIRM messages received
          1892
          PATH messages sent
          1894
          RESV messages sent
          1896
          PATH ERR messages sent
          1898
          RESV ERR messages sent
          1900
          PATH TEAR messages sent
          1902
          RESV TEAR messages sent
          1904
          RESV CONFIRM messages sent
          1906
          Resource control failures
          1908
          Policy control failures
          1910
          General failures
          1912
          Blocked RESVs
          1914
          RESV state block timeouts
          1916
          PATH state block timeouts
          1918
          Send messages errors - Big messages
          1920
          Receive messages errors - Big messages
          1922
          Send messages errors - No memory
          1924
          Receive messages errors - No memory
          1926
          Number of incoming messages dropped
          1928
          Number of outgoing messages dropped
          1930
          Number of active flows
          1932
          Reserved bandwidth
          1934
          Maximum admitted bandwidth
          1936
          PSched Flow
          1938
          PSched Pipe
          1940
          Packets dropped
          1942
          Packets scheduled
          1944
          Packets transmitted
          1946
          Average packets in shaper
          1948
          Max packets in shaper
          1950
          Average packets in sequencer
          1952
          Max packets in sequencer
          1954
          Bytes scheduled
          1956
          Bytes transmitted
          1958
          Bytes transmitted/sec
          1960
          Bytes scheduled/sec
          1962
          Packets transmitted/sec
          1964
          Packets scheduled/sec
          1966
          Packets dropped/sec
          1968
          Nonconforming packets scheduled
          1970
          Nonconforming packets scheduled/sec
          1972
          Nonconforming packets transmitted
          1974
          Nonconforming packets transmitted/sec
          1976
          Maximum Packets in netcard
          1978
          Average Packets in netcard
          1980
          Out of packets
          1982
          Flows opened
          1984
          Flows closed
          1986
          Flows rejected
          1988
          Flows modified
          1990
          Flow mods rejected
          1992
          Max simultaneous flows
          1994
          Nonconforming packets scheduled
          1996
          Nonconforming packets scheduled/sec
          1998
          Nonconforming packets transmitted
          2000
          Nonconforming packets transmitted/sec
          2002
          Average packets in shaper
          2004
          Max packets in shaper
          2006
          Average packets in sequencer
          2008
          Max packets in sequencer
          2010
          Max packets in netcard
          2012
          Average packets in netcard
          2014
          RAS Port
          2016
          Bytes Transmitted
          2018
          Bytes Received
          2020
          Frames Transmitted
          2022
          Frames Received
          2024
          Percent Compression Out
          2026
          Percent Compression In
          2028
          CRC Errors
          2030
          Timeout Errors
          2032
          Serial Overrun Errors
          2034
          Alignment Errors
          2036
          Buffer Overrun Errors
          2038
          Total Errors
          2040
          Bytes Transmitted/Sec
          2042
          Bytes Received/Sec
          2044
          Frames Transmitted/Sec
          2046
          Frames Received/Sec
          2048
          Total Errors/Sec
          2050
          RAS Total
          2052
          Total Connections
          2054
          Terminal Services Session
          2056
          Input WdBytes
          2058
          Input WdFrames
          2060
          Input WaitForOutBuf
          2062
          Input Frames
          2064
          Input Bytes
          2066
          Input Compressed Bytes
          2068
          Input Compress Flushes
          2070
          Input Errors
          2072
          Input Timeouts
          2074
          Input Async Frame Error
          2076
          Input Async Overrun
          2078
          Input Async Overflow
          2080
          Input Async Parity Error
          2082
          Input Transport Errors
          2084
          Output WdBytes
          2086
          Output WdFrames
          2088
          Output WaitForOutBuf
          2090
          Output Frames
          2092
          Output Bytes
          2094
          Output Compressed Bytes
          2096
          Output Compress Flushes
          2098
          Output Errors
          2100
          Output Timeouts
          2102
          Output Async Frame Error
          2104
          Output Async Overrun
          2106
          Output Async Overflow
          2108
          Output Async Parity Error
          2110
          Output Transport Errors
          2112
          Total WdBytes
          2114
          Total WdFrames
          2116
          Total WaitForOutBuf
          2118
          Total Frames
          2120
          Total Bytes
          2122
          Total Compressed Bytes
          2124
          Total Compress Flushes
          2126
          Total Errors
          2128
          Total Timeouts
          2130
          Total Async Frame Error
          2132
          Total Async Overrun
          2134
          Total Async Overflow
          2136
          Total Async Parity Error
          2138
          Total Transport Errors
          2140
          Total Protocol Cache Reads
          2142
          Total Protocol Cache Hits
          2144
          Total Protocol Cache Hit Ratio
          2146
          Protocol Bitmap Cache Reads
          2148
          Protocol Bitmap Cache Hits
          2150
          Protocol Bitmap Cache Hit Ratio
          2152
          Protocol Glyph Cache Reads
          2154
          Protocol Glyph Cache Hits
          2156
          Protocol Glyph Cache Hit Ratio
          2158
          Protocol Brush Cache Reads
          2160
          Protocol Brush Cache Hits
          2162
          Protocol Brush Cache Hit Ratio
          2164
          Protocol Save Screen Bitmap Cache Reads
          2166
          Protocol Save Screen Bitmap Cache Hits
          2168
          Protocol Save Screen Bitmap Cache Hit Ratio
          2170
          Input Compression Ratio
          2172
          Output Compression Ratio
          2174
          Total Compression Ratio
          2176
          Terminal Services
          2178
          Total Sessions
          2180
          Active Sessions
          2182
          Inactive Sessions
          2184
          Distributed Transaction Coordinator
          2186
          Active Transactions
          2188
          Committed Transactions
          2190
          Aborted Transactions
          2192
          In Doubt Transactions
          2194
          Active Transactions Maximum
          2196
          Force Committed Transactions
          2198
          Force Aborted Transactions
          2200
          Response Time -- Minimum
          2202
          Response Time -- Average
          2204
          Response Time -- Maximum
          2206
          Transactions/sec
          2208
          Committed Transactions/sec
          2210
          Aborted Transactions/sec
          2218
          Indexing Service
          2220
          Word lists
          2222
          Saved indexes
          2224
          Index size (MB)
          2226
          Files to be indexed
          2228
          Unique keys
          2230
          Running queries
          2232
          Merge progress
          2234
          # documents indexed
          2236
          Total # documents
          2238
          Total # of queries
          2240
          Deferred for indexing
          2242
          Indexing Service Filter
          2244
          Total indexing speed (MB/hr)
          2246
          Binding time (msec)
          2248
          Indexing speed (MB/hr)
          2250
          Http Indexing Service
          2252
          Cache items
          2254
          % Cache hits
          2256
          Total cache accesses 1
          2258
          % Cache misses
          2260
          Total cache accesses 2
          2262
          Active queries
          2264
          Total queries
          2266
          Queries per minute
          2268
          Current requests queued
          2270
          Total requests rejected
          2272
          WMI Objects
          2274
          HiPerf Classes
          2276
          HiPerf Validity


          thsi is for copy in help

          Code:
          3
          The System performance object consists of counters that apply to more than one instance of a component processors on the computer. 
          5
          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.
          7
          % Processor Time is the percentage of elapsed time that the processor spends to execute a non-Idle thread. It is calculated by measuring the duration of the idle thread is active in the sample interval, and subtracting that time from interval duration.  (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 is calculated by monitoring the time that the service is inactive, and subtracting that value from 100%.
          9
          % 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.
          11
          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.  
          13
          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.
          15
          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. 
          17
          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.  
          19
          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.  
          21
          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. 
          23
          % 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. 
          25
          Available Bytes is the amount of physical memory, in bytes, available to processes running on the computer.  It is calculated by adding the amount of space on the Zeroed, Free, and Standby memory lists. Free memory is ready for use; Zeroed memory consists of pages of memory filled with zeros to prevent subsequent processes from seeing data used by a previous process; Standby memory is memory that has been removed from a process' working set (its physical memory) on route to disk, but is still available to be recalled.  This counter displays the last observed value only; it is not an average. 
          27
          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.
          29
          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.
          31
          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.
          33
          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.
          35
          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.
          37
          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.
          39
          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.
          41
          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.
          43
          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.
          45
          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.
          47
          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.
          49
          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.
          51
          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.
          53
          The Browser performance object consists of counters that measure the rates of announcements, enumerations, and other Browser transmissions.
          55
          Announcements Server/sec is the rate at which the servers in this domain have announced themselves to this server.
          57
          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.
          59
          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.
          61
          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.
          63
          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.
          65
          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.
          67
          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.
          69
          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.
          71
          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.
          73
          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.  
          75
          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.
          77
          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. 
          79
          Announcements Domain/sec is the rate at which a domain has announced itself to the network.
          81
          Election Packets/sec is the rate at which browser election packets have been received by this workstation.
          83
          Mailslot Writes/sec is the rate at which mailslot messages have been successfully received.
          85
          Server List Requests/sec is the rate at which requests to retrieve a list of browser servers have been processed by this workstation.
          87
          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.
          89
          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.
          91
          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.
          93
          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.
          95
          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.
          97
          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.
          99
          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.
          101
          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.
          103
          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.
          105
          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.
          107
          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.
          109
          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.
          111
          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.
          113
          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.
          115
          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.
          117
          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.
          119
          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.
          121
          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.
          123
          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.
          125
          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.
          127
          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.
          129
          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.
          131
          Fast Read Resource Misses/sec is the frequency of cache misses necessitated by the lack of available resources to satisfy the request.
          133
          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.
          135
          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.
          137
          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.
          139
          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.
          141
          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.
          143
          % 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.
          145
          % 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. 
          147
          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. 
          149
          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.
          151
          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. 
          153
          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.
          155
          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.
          157
          % 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.
          159
          % 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.
          161
          Enumerations Server/sec is the rate at which server browse requests have been processed by this workstation.
          163
          Enumerations Domain/sec is the rate at which domain browse requests have been processed by this workstation.
          165
          Enumerations Other/sec is the rate at which browse requests processed by this workstation are not domain or server browse requests.
          167
          Missed Server Announcements is the number of server announcements that have been missed due to configuration or allocation limits.
          169
          Missed Mailslot Datagrams is the number of Mailslot Datagrams that have been discarded due to configuration or allocation limits.
          171
          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.
          173
          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.
          175
          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.
          177
          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.
          179
          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.
          181
          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.
          183
          Page File Bytes Peak is the maximum number of bytes this process has used 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.
          185
          Page File Bytes is the current number of bytes that this process has used 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.
          187
          Private Bytes is the current size, in bytes, of memory that this process has allocated that cannot be shared with other processes.
          189
          % 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.
          191
          % 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.
          193
          % 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.
          195
          % 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.
          197
          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.
          199
          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.
          201
          % Disk Time is the percentage of elapsed time that the selected disk drive was busy servicing read or write requests.
          203
          % Disk Read Time is the percentage of elapsed time that the selected disk drive was busy servicing read requests.
          205
          % Disk Write Time is the percentage of elapsed time that the selected disk drive was busy servicing write requests.
          207
          Avg. Disk sec/Transfer is the time, in seconds, of the average disk transfer.
          209
          Avg. Disk sec/Read is the average time, in seconds, of a read of data from the disk.
          211
          Avg. Disk sec/Write is the average time, in seconds, of a write of data to the disk.
          213
          Disk Transfers/sec is the rate of read and write operations on the disk.
          215
          Disk Reads/sec is the rate of read operations on the disk.
          217
          Disk Writes/sec is the rate of write operations on the disk.
          219
          Disk Bytes/sec is the rate bytes are transferred to or from the disk during write or read operations.
          221
          Disk Read Bytes/sec is the rate at which bytes are transferred from the disk during read operations.
          223
          Disk Write Bytes/sec is rate at which bytes are transferred to the disk during write operations.
          225
          Avg. Disk Bytes/Transfer is the average number of bytes transferred to or from the disk during write or read operations.
          227
          Avg. Disk Bytes/Read is the average number of bytes transferred from the disk during read operations.
          229
          Avg. Disk Bytes/Write is the average number of bytes transferred to the disk during write operations.
          231
          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.
          233
          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.
          235
          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.
          237
          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.
          239
          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.
          241
          % 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%. 
          243
          % 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. 
          245
          % 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. 
          247
          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. 
          249
          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.
          251
          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.
          253
          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.
          255
          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.
          257
          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.
          259
          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.
          261
          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.
          263
          The Redirector performance object consists of counter that monitor network connections originating at the local computer.
          265
          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).
          267
          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).
          269
          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).
          271
          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.
          273
          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).
          275
          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).
          277
          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).
          279
          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.
          281
          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).
          283
          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.
          285
          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.
          287
          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).
          289
          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.
          291
          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.
          293
          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.
          295
          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.
          297
          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.
          299
          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.
          301
          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.
          303
          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.
          305
          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.
          307
          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.
          309
          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.
          311
          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.
          313
          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.
          315
          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.
          317
          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.
          319
          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.
          321
          Connects LAN Manager 2.0 counts connections to LAN Manager 2.0 servers, including LMX servers.
          323
          Connects LAN Manager 2.1 counts connections to LAN Manager 2.1 servers, including LMX servers.
          325
          Connects Windows NT counts the connections to Windows 2000 or earlier computers.
          327
          Server Disconnects counts the number of times a Server has disconnected your Redirector.  See also Server Reconnects.
          329
          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.
          331
          The Server performance object consists of counters that measure communication between the  local computer and the network.
          333
          The number of bytes the server has received from the network.  Indicates how busy the server is.
          335
          The number of bytes the server has sent on the network.  Indicates how busy the server is.
          337
          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).
          339
          % 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. 
          341
          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.
          343
          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.
          345
          The number of sessions that have terminated normally.  Useful in interpreting the Sessions Times Out and Sessions Errored Out statistics--allows percentage calculations.
          347
          The number of sessions that have been forced to logoff.  Can indicate how many sessions were forced to logoff due to logon time constraints.
          349
          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.
          351
          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.
          353
          The number of times accesses to files opened successfully were denied.  Can indicate attempts to access files without proper access authorization.
          355
          The number of times an internal Server Error was detected.  Unexpected errors usually indicate a problem with the Server.
          357
          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.
          359
          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.
          361
          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.
          363
          The number of files currently opened in the server.  Indicates current server activity.
          365
          The number of sessions currently active in the server.  Indicates current server activity.
          367
          The number of searches for files currently active in the server.  Indicates current server activity.
          369
          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.
          371
          The number of times allocations from nonpaged pool have failed.  Indicates that the computer's physical memory is too small.
          373
          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.
          375
          The number of bytes of pageable computer memory the server is currently using.  Can help in determining good values for the MaxPagedMemoryUsage parameter.
          377
          The number of times allocations from paged pool have failed.  Indicates that the computer's physical memory or paging file are too small.
          379
          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.
          381
          Server Announce Allocations Failed/sec is the rate at which server (or domain) announcements have failed due to lack of memory.
          383
          Mailslot Allocations Failed is the number of times the datagram receiver has failed to allocate a buffer to hold a user mailslot write.
          385
          Mailslot Receives Failed indicates the number of mailslot messages that could not be received due to transport failures.
          387
          Mailslot Writes Failed is the total number of mailslot messages that have been successfully received, but that could not be written to the mailslot.
          389
          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.
          391
          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.
          393
          Current Commands counts the number of requests to the Redirector that are currently queued for service.  If this number is much larger than the number of network adapter cards installed in the computer, then the network(s) and/or the server(s) being accessed are seriously bottlenecked.
          395
          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.
          397
          % 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.
          399
          The NWLink NetBIOS performance object consists of counters that monitor IPX transport rates and connections. 
          401
          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.
          405
          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.
          407
          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. 
          409
          % Free Space is the percentage of total usable space on the selected logical disk drive that was free.
          411
          Free Megabytes displays the unallocated space, in megabytes, on the disk drive in megabytes. One megabyte is equal to 1,048,576 bytes.
          413
          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.
          415
          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.
          417
          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.
          419
          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.
          421
          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.
          423
          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.
          425
          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.
          427
          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.
          429
          Connections Canceled is the number of connections that were canceled.  This number is an accumulator and shows a running total.
          431
          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.
          433
          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.
          435
          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.
          437
          Failures No Listen is the number of connections that were rejected because the remote computer was not listening for connection requests.
          439
          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.
          441
          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.
          443
          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.
          445
          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.
          447
          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.
          449
          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.
          451
          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.
          453
          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.
          455
          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.
          457
          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.
          459
          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.
          461
          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.
          463
          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.
          465
          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.
          467
          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.
          469
          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.
          471
          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.
          473
          Frames Rejected/sec is the rate at which data frames are rejected.  This counter only counts the frames (packets) that carry data.
          475
          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.
          477
          Expirations Response is the count of T1 timer expirations.
          479
          Expirations Ack is the count of T2 timer expirations.
          481
          Window Send Maximum is the maximum number of bytes of data that will be sent before waiting for an acknowledgment from the remote computer.
          483
          Window Send Average is the running average number of data bytes that were sent before waiting for an acknowledgment from the remote computer.
          485
          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.
          487
          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.
          489
          The NWLink IPX performance object consists of counters that measure datagram transmission to and from computers using the IPX protocol.
          491
          The NWLink SPX performance object consist of counters that measure data transmission and session connections for computers using the SPX protocol.
          493
          The NetBEUI performance object consists of counters that measure data transmission for network activity which conforms to the NetBIOS End User Interface standard.
          495
          The NetBEUI Resource performance object consists of counters that track the use of buffers by the NetBEUI protocol.
          497
          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.
          499
          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.
          501
          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.
          503
          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.
          505
          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.
          507
          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.
          509
          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.
          511
          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.
          513
          Bytes Total/sec is the rate at which bytes are sent and received over each network adapter, including framing characters. Network Interface\\Bytes Received/sec is a sum of Network Interface\\Bytes Received/sec and Network Interface\\Bytes Sent/sec.
          515
          Packets/sec is the rate at which packets are sent and received on the network interface.
          517
          Packets Received/sec is the rate at which packets are received on the network interface.
          519
          Packets Sent/sec is the rate at which packets are sent on the network interface.
          521
          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.
          523
          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.
          525
          Packets Received Unicast/sec is the rate at which (subnet) unicast packets are delivered to a higher-layer protocol.
          527
          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.
          529
          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.
          531
          Packets Received Errors is the number of inbound packets that contained errors preventing them from being deliverable to a higher-layer protocol.
          533
          Packets Received Unknown is the number of packets received through the interface that were discarded because of an unknown or unsupported protocol.
          535
          Bytes Sent/sec is the rate at which bytes are sent over each each network adapter, including framing characters. Network Interface\\Bytes Sent/sec is a subset of Network Interface\\Bytes Total/sec.
          537
          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.
          539
          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.
          541
          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.
          543
          Packets Outbound Errors is the number of outbound packets that could not be transmitted because of errors.
          545
          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.
          547
          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.
          549
          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.
          551
          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.
          553
          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.
          555
          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.
          557
          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.
          559
          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.
          561
          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.
          563
          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).
          565
          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.
          567
          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.
          569
          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.
          571
          Fragments Received/sec is the rate, in incidents per second, at which IP fragments that need to be reassembled at this entity are received.
          573
          Fragments Re-assembled/sec is the rate, in incidents per second, at which IP fragments were successfully reassembled.
          575
          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.
          577
          Fragmented Datagrams/sec is the rate, in incidents per second, at which datagrams are successfully fragmented.
          579
          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).
          581
          Fragments Created/sec is the rate, in incidents per second, at which IP datagram fragments were generated as a result of fragmentation.
          583
          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.
          585
          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.
          587
          Messages Received/sec is the rate, in incidents per second at which ICMP messages were received. The rate includes messages received in error.
          589
          Messages Received Errors is the number of ICMP messages that the entity received but had errors, such as bad ICMP checksums, bad length, etc.
          591
          Received Destination Unreachable is the number of ICMP Destination Unreachable messages received.
          593
          Received Time Exceeded is the number of ICMP Time Exceeded messages received.
          595
          Received Parameter Problem is the number of ICMP Parameter Problem messages received.
          597
          Received Source Quench is the number of ICMP Source Quench messages received.
          599
          Received Redirect/sec is the rate, in incidents per second, at which ICMP Redirect messages were received.
          601
          Received Echo/sec is the rate, in incidents per second, at which ICMP Echo messages were received.
          603
          Received Echo Reply/sec is the rate, in incidents per second, at which ICMP Echo Reply messages were received.
          605
          Received Timestamp/sec is the rate, in incidents per second at which ICMP Timestamp Request messages were received.
          607
          Received Timestamp Reply/sec is the rate of ICMP Timestamp Reply messages received.
          609
          Received Address Mask is the number of ICMP Address Mask Request messages received.
          611
          Received Address Mask Reply is the number of ICMP Address Mask Reply messages received.
          613
          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.
          615
          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.
          617
          Sent Destination Unreachable is the number of ICMP Destination Unreachable messages sent.
          619
          Sent Time Exceeded is the number of ICMP Time Exceeded messages sent.
          621
          Sent Parameter Problem is the number of ICMP Parameter Problem messages sent.
          623
          Sent Source Quench is the number of ICMP Source Quench messages sent.
          625
          Sent Redirect/sec is the rate, in incidents per second, at which ICMP Redirect messages were sent.
          627
          Sent Echo/sec is the rate of ICMP Echo messages sent.
          629
          Sent Echo Reply/sec is the rate, in incidents per second, at which ICMP Echo Reply messages were sent.
          631
          Sent Timestamp/sec is the rate, in incidents per second, at which ICMP Timestamp Request messages were sent.
          633
          Sent Timestamp Reply/sec is the rate, in incidents per second,  at which ICMP Timestamp Reply messages were sent.
          635
          Sent Address Mask is the number of ICMP Address Mask Request messages sent.
          637
          Sent Address Mask Reply is the number of ICMP Address Mask Reply messages sent.
          639
          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.
          641
          Segments/sec is the rate at which TCP segments are sent or received using the TCP protocol.
          643
          Connections Established is the number of TCP connections for which the current state is either ESTABLISHED or CLOSE-WAIT.
          645
          Connections Active is the number of times TCP connections have made a direct transition to the SYN-SENT state from the CLOSED state.
          647
          Connections Passive is the number of times TCP connections have made a direct transition to the SYN-RCVD state from the LISTEN state.
          649
          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.
          651
          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.
          653
          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.
          655
          Segments Sent/sec is the rate at which segments are sent, including those on current connections, but excluding those containing only retransmitted bytes.
          657
          Segments Retransmitted/sec is the rate at which segments are retransmitted, that is, segments transmitted containing one or more previously transmitted bytes.
          659
          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.
          661
          Datagrams/sec is the rate at which UDP datagrams are sent or received by the entity.
          663
          Datagrams Received/sec is the rate at which UDP datagrams are delivered to UDP users.
          665
          Datagrams No Port/sec is the rate of received UDP datagrams for which there was no application at the destination port.
          667
          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.
          669
          Datagrams Sent/sec is the rate at which UDP datagrams are sent from the entity.
          671
          Disk Storage device statistics from the foreign computer
          673
          The number of allocation failures reported by the disk storage device
          675
          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. 
          677
          The current number of system handles in use.
          679
          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. 
          681
          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.
          683
          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.
          685
          The total elapsed time, in seconds, that this process has been running.
          687
          Alignment Fixups/sec is the rate, in incidents per seconds, at alignment faults were fixed by the system.
          689
          Exception Dispatches/sec is the rate, in incidents per second, at which exceptions were dispatched by the system.
          691
          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.
          693
          Logon/sec is the rate of all server logons.
          695
          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.
          697
          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.
          699
          The total elapsed time (in seconds) this thread has been running.
          701
          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.
          703
          The amount of the Page File instance in use in percent.  See also Process\\Page File Bytes.
          705
          The peak usage of the Page File instance in percent.  See also Process\\Page File Bytes Peak.
          707
          Starting virtual address for this thread.
          709
          Current User Program Counter for this thread.
          711
          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.
          713
          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.
          715
          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.
          717
          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.
          719
          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.
          721
          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.
          723
          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.
          725
          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.
          727
          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.
          729
          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.
          731
          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.
          733
          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.
          735
          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.
          737
          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.
          739
          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.
          741
          The Image performance object consists of counters that monitor the virtual address usage of images executed by processes on the computer.
          743
          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.
          745
          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.
          747
          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.
          749
          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.
          751
          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.
          753
          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.
          755
          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.
          757
          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.
          759
          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.
          761
          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.
          763
          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.
          765
          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.
          767
          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.
          769
          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.
          771
          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.
          773
          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.
          775
          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.
          777
          Bytes Image Reserved is the sum of all virtual memory reserved by images within this process.
          779
          Bytes Image Free is the amount of virtual address space that is not in use or reserved by images within this process.
          781
          Bytes Reserved is the total amount of virtual memory reserved for future use by this process.
          783
          Bytes Free is the total unused virtual address space of this process.
          785
          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.
          787
          The Process Address Space performance object consists of counters that monitor memory allocation and use  for a selected process.
          789
          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.
          791
          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.
          793
          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.
          795
          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.
          797
          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.
          799
          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.
          801
          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.
          803
          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.
          805
          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.
          807
          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.
          809
          Duplicate Master Announcements indicates the number of times that the master browser has detected another master browser on the same domain.
          811
          Illegal Datagrams/sec is the rate at which incorrectly formatted datagrams have been received by the workstation.
          813
          Announcements Total/sec is the sum of Announcements Server/sec and Announcements Domain/sec.
          815
          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.
          817
          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.
          819
          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. 
          821
          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. 
          823
          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.
          871
          The RAS performance object consists of counters that monitor individual Remote Access Service ports of the RAS device on the computer.
          873
          The number of bytes transmitted total for this connection.
          875
          The number of bytes received total for this connection.
          877
          The number of data frames transmitted total for this connection.
          879
          The number of data frames received total for this connection.
          881
          The compression ratio for bytes being transmitted.
          883
          The compression ratio for bytes being received.
          885
          The total number of CRC Errors for this connection.  CRC Errors occur when the frame received contains erroneous data.
          887
          The total number of Timeout Errors for this connection.  Timeout Errors occur when an expected is not received in time.
          889
          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.
          891
          The total number of Alignment Errors for this connection.  Alignment Errors occur when a byte received is different from the byte expected.
          893
          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.
          895
          The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors for this connection.
          897
          The number of bytes transmitted per second.
          899
          The number of bytes received per second.
          901
          The number of frames transmitted per second.
          903
          The number of frames received per second.
          905
          The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors per second.
          907
          The RAS performance object consists of counters that combine values for all ports of the Remote Access service (RAS) device on the computer.
          909
          The total number of Remote Access connections.
          921
          The WINS Server performance object consists of counters that monitor communications using the WINS Server service.
          923
          Unique Registrations/sec is the rate at which unique registration are received by the WINS server.
          925
          Group Registrations/sec is the rate at which group registration are received by the WINS server.
          927
          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.
          929
          Unique Renewals/sec is the rate at which unique renewals are received by the WINS server.
          931
          Group Renewals/sec is the rate at which group renewals are received by the WINS server.
          933
          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.
          935
          Total Number of Releases/sec is the rate at which releases are received by the WINS server.
          937
          Total Number of Queries/sec is the rate at which queries are received by the WINS server.
          939
          Unique Conflicts/sec is the rate at which unique registrations/renewals received by the WINS server resulted in conflicts with records in the database.
          941
          Group Conflicts/sec is the rate at which group registration received by the WINS server resulted in conflicts with records in the database.
          943
          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.
          945
          Total Number of Successful Releases/sec
          947
          Total Number of Failed Releases/sec
          949
          Total Number of Successful Queries/sec
          951
          Total Number of Failed Queries/sec
          953
          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.
          1001
          Services for Macintosh AFP File Server.
          1003
          The maximum amount of paged memory resources used by the MacFile Server.
          1005
          The current amount of paged memory resources used by the MacFile Server.
          1007
          The maximum amount of nonpaged memory resources use by the MacFile Server.
          1009
          The current amount of nonpaged memory resources used by the MacFile Server.
          1011
          The number of sessions currently connected to the MacFile server.  Indicates current server activity.
          1013
          The maximum number of sessions connected at one time to the MacFile server.  Indicates usage level of server.
          1015
          The number of internal files currently open in the MacFile server.  This count does not include files opened on behalf of Macintosh clients.
          1017
          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.
          1019
          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.
          1021
          The number of bytes read from disk per second.
          1023
          The number of bytes written to disk per second.
          1025
          The number of bytes received from the network per second.  Indicates how busy the server is.
          1027
          The number of bytes sent on the network per second.  Indicates how busy the server is.
          1029
          The number of outstanding work items waiting to be processed.
          1031
          The maximum number of outstanding work items waiting at one time.
          1033
          The current number of threads used by MacFile server.  Indicates how busy the server is.
          1035
          The maximum number of threads used by MacFile server.  Indicates peak usage level of server.
          1051
          AppleTalk Protocol
          1053
          Number of packets received per second by Appletalk on this port.
          1055
          Number of packets sent per second by Appletalk on this port.
          1057
          Number of bytes received per second by Appletalk on this port.
          1059
          Number of bytes sent per second by Appletalk on this port.
          1061
          Average time in milliseconds to process a DDP packet on this port.
          1063
          Number of DDP packets per second received by Appletalk on this port.
          1065
          Average time in milliseconds to process an AARP packet on this port.
          1067
          Number of AARP packets per second received by Appletalk on this port.
          1069
          Average time in milliseconds to process an ATP packet on this port.
          1071
          Number of ATP packets per second received by Appletalk on this port.
          1073
          Average time in milliseconds to process an NBP packet on this port.
          1075
          Number of NBP packets per second received by Appletalk on this port.
          1077
          Average time in milliseconds to process a ZIP packet on this port.
          1079
          Number of ZIP packets per second received by Appletalk on this port.
          1081
          Average time in milliseconds to process an RTMP packet on this port.
          1083
          Number of RTMP packets per second received by Appletalk on this port.
          1085
          Number of ATP requests retransmitted on this port.
          1087
          Number of ATP release timers that have expired on this port.
          1089
          Number of ATP Exactly-once transaction responses per second on this port.
          1091
          Number of ATP At-least-once transaction responses per second on this port.
          1093
          Number of ATP transaction release packets per second received on this port.
          1095
          The current amount of nonpaged memory resources used by AppleTalk.
          1097
          Number of packets routed in on this port.
          1099
          Number of packets dropped due to resource limitations on this port.
          1101
          Number of ATP requests retransmitted to this port.
          1103
          Number of packets routed out on this port.
          1111
          Provides Network Statistics for the local network segment via the Network Monitor Service.
          1113
          The total number of frames received per second on this network segment.
          1115
          The number of bytes received per second on this network segment.
          1117
          The number of Broadcast frames received per second on this network segment.
          1119
          The number of Multicast frames received per second on this network segment.
          1121
          Percentage of network bandwidth in use on this network segment.
          1125
          Percentage of network bandwidth which is made up of broadcast traffic on this network segment.
          1127
          Percentage of network bandwidth which is made up of multicast traffic on this network segment.
          1151
          The Telephony System
          1153
          The number of telephone lines serviced by this computer.
          1155
          The number of telephone devices serviced by this computer.
          1157
          The number of telephone lines serviced by this computer that are currently active.
          1159
          The number of telephone devices that are currently being monitored.
          1161
          The rate of outgoing calls made by this computer.
          1163
          The rate of incoming calls answered by this computer.
          1165
          The number of applications that are currently using telephony services.
          1167
          Current outgoing calls being serviced by this computer.
          1169
          Current incoming calls being serviced by this computer.
          1229
          The Gateway Service For NetWare performance object consists of counters that measure the Gateway Server service.
          1231
          The Client Service For NetWare object consists of counters that measure packet transmission rates, logons, and connections.
          1233
          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.
          1235
          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.
          1237
          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.
          1239
          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.
          1241
          Packet Burst IO/sec is the sum of Packet Burst Read NCPs/sec and Packet Burst Write NCPs/sec.
          1243
          Connect NetWare 2.x counts connections to NetWare 2.x servers.
          1245
          Connect NetWare 3.x counts connections to NetWare 3.x servers.
          1247
          Connect NetWare 4.x counts connections to NetWare 4.x servers.
          1261
          Logon Total includes all interactive logons, network logons, service logons, successful logon, and failed logons since the machine is last rebooted.
          1301
          The Server Work Queues performance object consists of counters that monitor the length of the queues and objects in the queues.
          1303
          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.
          1305
          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.
          1307
          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.
          1309
          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.
          1311
          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.
          1313
          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.
          1315
          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.
          1317
          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.
          1319
          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.
          1321
          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.
          1323
          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.
          1325
          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.
          1327
          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.
          1329
          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.
          1331
          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.
          1333
          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.
          1335
          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. 
          1337
          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.
          1343
          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. 
          1345
          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. clock on the processor.  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. 
          1351
          % 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. 
          1361
          Counters that indicate the status of local and system Very Large memory allocations.
          1363
          VLM % Virtual Size In Use
          1365
          Current size of the process VLM Virtual memory space in bytes.
          1367
          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.
          1369
          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.
          1371
          The current size of committed VLM memory space for the current process in bytes.
          1373
          The peak size of the committed VLM memory space in bytes for the current process since the process started.
          1375
          The current size of all committed VLM memory space in bytes for the system.
          1377
          The peak size of all committed VLM memory space in bytes since the system was started.
          1379
          The current size of all committed shared VLM memory space in bytes for the system.
          1381
          Available KBytes is the amount of physical memory available to processes running on the computer, in Kilobytes, rather than bytes as reported in Memory\\Available Bytes. It is calculated by adding the amount of space on the Zeroed, Free, and Stand by memory lists.  Free memory is ready for use; Zeroed memory are pages of memory filled with zeros to prevent later processes from seeing data used by a previous process; Standby memory is memory removed from a process' working set (its physical memory) on route to disk, but is still available to be recalled.  This counter displays the last observed value only; it is not an average. 
          1383
          Available MBytes is the amount of physical memory available to processes running on the computer, in Megabytes, rather than bytes as reported in Memory\\Available Bytes. It is calculated by adding the amount of space on the Zeroed, Free, and Stand by memory lists. Free memory is ready for use; Zeroed memory are pages of memory filled with zeros to prevent later processes from seeing data used by a previous process; Standby memory is memory removed from a process' working set (its physical memory) on route to disk, but is still available to be recalled.  This counter displays the last observed value only; it is not an average. 
          1401
          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.
          1403
          Avg. Disk Read Queue Length is the average number of read requests that were queued for the selected disk during the sample interval.
          1405
          Avg. Disk Write Queue Length is the average number of write requests that were queued for the selected disk during the sample interval.
          1407
          % 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.
          1409
          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.
          1411
          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.
          1413
          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.
          1415
          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.
          1417
          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.
          1419
          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.
          1421
          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.
          1423
          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.
          1425
          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.
          1427
          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.
          1451
          Displays performance statistics about a Print Queue.
          1453
          Total number of jobs printed on a print queue since the last restart.
          1455
          Number of bytes per second printed on a print queue.
          1457
          Total number of pages printed through GDI on a print queue since the last restart.
          1459
          Current number of jobs in a print queue.
          1461
          Current number of references (open handles) to this printer.
          1463
          Peak number of references (open handles) to this printer.
          1465
          Current number of spooling jobs in a print queue.
          1467
          Maximum number of spooling jobs in a print queue since last restart.
          1469
          Total number of out of paper errors in a print queue since the last restart.
          1471
          Total number of printer not ready errors in a print queue since the last restart.
          1473
          Total number of job errors in a print queue since last restart.
          1475
          Total number of calls from browse clients to this print server to request network browse lists since last restart.
          1477
          Total number of calls from other print servers to add shared network printers to this server since last restart.
          1479
          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.
          1481
          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.
          1483
          % Idle Time reports the percentage of time during the sample interval that the disk was idle.
          1485
          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.
          1501
          Reports the accounting and processor usage data collected by each active named Job object.
          1503
          Current % Processor Time shows the percentage of the sample interval that the processes in the Job object spent executing code.
          1505
          Current % User mode Time shows the percentage of the sample interval that the processes in the Job object spent executing code in user mode.
          1507
          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.
          1509
          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.
          1511
          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.
          1513
          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.
          1515
          Pages/Sec shows the page fault rate of all the processes in the Job object.
          1517
          Process Count - Total shows the number of processes, both active and terminated, that are or have been associated with the Job object.
          1519
          Process Count - Active shows the number of processes that are currently associated with the Job object.
          1521
          Process Count - Terminated shows the number of processes that have been terminated because of a limit violation.
          1523
          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.
          1525
          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.
          1527
          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.
          1549
          % Job object Details shows detailed performance information about the active processes that make up a Job object.
          1747
          % Idle Time is the percentage of time the processor is idle during the sample interval
          1749
          % 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.
          1751
          % 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.
          1753
          % 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.
          1755
          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.
          1757
          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.
          1759
          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.
          1761
          Heap performance counters for must used heaps
          1763
          Memory actively used by this heap (FreeBytes + AllocatedBytes)
          1765
          Total virtual address space reserved for this heap (includes uncommitted ranges)
          1767
          ReservedBytes minus last uncommitted range in each segment
          1769
          Memory on freelists in this heap (does not include uncommitted ranges or blocks in heap cache)
          1771
          Number of blocks on the list of free blocks >1k in size
          1773
          1/Average time per allocation (excluding allocs from heap cache)
          1775
          1/Average time per free (excluding frees to heap cache)
          1777
          Number of uncommitted ranges in the reserved virtual address
          1779
          Difference between number of allocations and frees (for leak detection)
          1781
          Allocations/sec from heap cache
          1783
          Frees/sec from heap cache
          1785
          Allocations/sec of size <1k bytes (including heap cache)
          1787
          Frees/sec of size <1k bytes (including heap cache)
          1789
          Allocations/sec of size 1-8k bytes
          1791
          Frees/sec of size 1-8k bytes
          1793
          Allocations/sec of size over 8k bytes 
          1795
          Frees/sec of size over 8k bytes
          1797
          Allocations/sec (including from heap cache)
          1799
          Frees/sec (including to heap cache)
          1801
          Total number of blocks in the heap cache 
          1803
          Largest number of blocks of any one size in the heap cache
          1805
          (FreeBytes / CommittedBytes) *100
          1807
          (VirtualBytes / ReservedBytes) * 100
          1809
          Collisions/sec on the heap lock
          1847
          End Marker
          1849
          RSVP service performance counters.
          1851
          The number of local network interfaces visible to, and used by the RSVP service.
          1853
          The total number of raw sockets opened for the purpose of RSVP signaling.
          1855
          The number of timer events scheduled to take place. Shows the activity level of the RSVP service.
          1857
          The current number of active RSVP sessions on the RSVP service.
          1859
          The number of QoS enabled applications currently active.
          1861
          Indicates the number of PATH messages sent for QoS-enabled senders. This number increments each time a PATH is refreshed.
          1863
          Indicates the number of RESV messages sent for QoS-enabled receivers. This number increments each time a RESV is refreshed.
          1865
          The number of QoS requests generated by QoS-enabled applications that have been rejected by the RSVP service. Failed QoS requests can be caused by invalid QoS requests.
          1867
          The number of QoS notifications the RSVP service that could not be sent to the QoS applications. Failed QoS sends can be caused by terminated applications.
          1869
          The number of QoS notifications delivered to QoS-enabled applications by the QoS RSVP service.
          1871
          A running total of the number of bytes delivered in QoS Notifications to QoS-enabled applications.
          1873
          RSVP Interfaces performance counters.
          1875
          Total RSVP signaling traffic in bytes received by the RSVP service on this interface.
          1877
          Total RSVP signaling traffic in bytes sent by the RSVP service on this interface.
          1879
          The total number of PATH messages received on this interface.
          1881
          The total number of RESV messages received on this interface.
          1883
          The total number of PATH error messages received on this interface. This number indicates the number of times a PATH has been rejected by a remote host.
          1885
          The total number of RESV ERR messages received on this interface by the RSVP service rejecting incoming RESV messages.
          1887
          The total number of PATH TEAR messages received on the interface.
          1889
          The total number of RESV TEAR messages received on the interface.
          1891
          The total number of RESV CONFIRM messages received by the interface.
          1893
          The total number of PATH messages sent by the RSVP service sent on this the interface.
          1895
          The total number of RESV messages sent by the RSVP service sent on this the interface
          1897
          The total number of PATH ERR messages sent by the RSVP service rejecting incoming PATH messages.
          1899
          The total number of RESV error sent on this interface. This number indicates how many reservations have been rejected by the network.
          1901
          The total number of PATH TEAR messages sent on the interface to tear down an RSVP PATH state in the network.
          1903
          The total number of RESV TEAR messages sent on the interface to tear down a RESV state in the network.
          1905
          The total number of RESV CONFIRM messages sent on this interface in response to RESV messages sent from remote hosts.
          1907
          This counter shows the number of reservations that failed due to the lack of resources.
          1909
          This is the total number of RSVP requests that are not admitted on this interface due to a conflict with policy settings.
          1911
          This is the total number of non-admission control errors that have occurred on this interface. For more information about the other traffic control failures, see RFC 2205.
          1913
          The number of blockaded reservations that failed due to failed reservations that have not been removed from this node. For more information about blockade states, see RFC 2205.
          1915
          The total number of times the RSVP RESV state block (RSB) timed out. This happens when no RESV messages are received within the designated timeout period. This error message can be caused by a route change.
          1917
          The total number of times the RSVP PATH state block (PSB) timed out. This happens when no PATH messages are received within the designated timeout period. This error message can be caused by a route change.
          1919
          The total number of outgoing RSVP messages dropped because they were bigger than the max configured RSVP message size.
          1921
          The total number of incoming RSVP messages dropped because they were bigger than the max configured RSVP message size.
          1923
          The total number of outgoing RSVP messages dropped due to insufficient memory.
          1925
          The total number of incoming RSVP messages dropped due to insufficient memory.
          1927
          Number of incoming messages dropped due to badly constructed RSVP objects etc.
          1929
          Number of outgoing messages dropped
          1931
          The number of reserved flows currently installed and maintained by RSVP on this interface.
          1933
          Shows the reserved bandwidth for this interface, in bits per second.
          1935
          The highest amount of allocated bandwidth admitted on the interface during the period in which the service has been running.
          1937
          Flow statistics from the packet scheduler
          1939
          Pipe statistics from the packet scheduler
          1941
          The number of packets dropped by the packet scheduler
          1943
          The number of packets which got scheduled in some way (rather than just being directly sent to the underlying miniport)
          1945
          The number of packets from this flow which have been sent
          1947
          The average number of packets in the shaper over the last sampling period
          1949
          The maximum number of packets that have ever simultaneously been in the shaper
          1951
          The average number of packets in the sequencer over the last sampling period
          1953
          The maximum number of packets that have ever simultaneously been in the sequencer
          1955
          The number of bytes which got scheduled in some way (rather than just being directly sent to the underlying miniport)
          1957
          The number of bytes from this flow which have been sent
          1959
          The number of bytes per second from this flow which have been sent
          1961
          The number of bytes per second from this flow which have been scheduled
          1963
          The number of packets per second from this flow which have been sent
          1965
          The number of packets per second from this flow which have been scheduled
          1967
          The number of packets dropped by the packet scheduler from this flow per second
          1969
          The number of packets that have entered the packet scheduler at a rate which exceeded the flow parameters
          1971
          The rate at which nonconforming packets have entered the packet scheduler
          1973
          The number of packets that have been sent by the packet scheduler at a rate which exceeded the flow parameters
          1975
          The rate at which nonconforming packets have been sent by the packet scheduler
          1977
          The maximum number of packets that have been queued in the netcard by this flow.
          1979
          The average number of packets that have been queued in the netcard by this flow.
          1981
          The number of times PSched has been unable to allocate a packet
          1983
          The number of flows opened on this pipe (some of which may now be closed)
          1985
          The number of flows that have been closed
          1987
          The number of flow creations that were rejected
          1989
          The of times a flow has been modified
          1991
          The number of times a flow modification has been rejected
          1993
          The maximum number of flows that have been simultaneously open on this pipe
          1995
          The number of packets that have entered the packet scheduler at a rate which exceeded that packet's flow parameters
          1997
          The rate at which nonconforming packets have entered the packet scheduler
          1999
          The number of packets that have been sent by the packet scheduler at a rate which exceeded that packet's flow parameters
          2001
          The rate at which nonconforming packets have been sent by the packet scheduler
          2003
          The average number of packets in the shaper over the last sampling period
          2005
          The maximum number of packets that have ever simultaneously been in the shaper
          2007
          The average number of packets in the sequencer over the last sampling period
          2009
          The maximum number of packets that have ever simultaneously been in the sequencer
          2011
          The maximum number of packets ever simultaneously in the network card
          2013
          The average number of packets in the network card over the last sampling period
          2015
          The RAS Object Type handles individual ports of the RAS device on your system.
          2017
          The number of bytes transmitted total for this connection.
          2019
          The number of bytes received total for this connection.
          2021
          The number of data frames transmitted total for this connection.
          2023
          The number of data frames received total for this connection.
          2025
          The compression ratio for bytes being transmitted.
          2027
          The compression ratio for bytes being received.
          2029
          The total number of CRC Errors for this connection.  CRC Errors occur when the frame received contains erroneous data.
          2031
          The total number of Timeout Errors for this connection.  Timeout Errors occur when an expected is not received in time.
          2033
          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.
          2035
          The total number of Alignment Errors for this connection.  Alignment Errors occur when a byte received is different from the byte expected.
          2037
          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.
          2039
          The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors for this connection.
          2041
          The number of bytes transmitted per second.
          2043
          The number of bytes received per second.
          2045
          The number of frames transmitted per second.
          2047
          The number of frames received per second.
          2049
          The total number of CRC, Timeout, Serial Overrun, Alignment, and Buffer Overrun Errors per second.
          2051
          The RAS Object Type handles all combined ports of the RAS device on your system.
          2053
          The total number of Remote Access connections.
          2055
          Terminal Services per-session resource monitoring.
          2057
          Number of bytes input on this session after all protocol overhead has been removed.
          2059
          The number of frames input after any additional protocol added frames have been removed.
          2061
          The number of times that a wait for an available send buffer was done by the protocols on the client side of the connection.
          2063
          Number of frames (packets) input on this Session.
          2065
          Number of bytes input on this session that includes all protocol overhead.
          2067
          Number of bytes input after compression. This number compared with the Total Bytes input is the compression ratio.
          2069
          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.
          2071
          Number of input errors of all types. Some example input errors are lost ACK's, badly formed packets, etc.
          2073
          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.
          2075
          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.
          2077
          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.
          2079
          Number of input async overflow errors. These can be caused by a lack of buffer space available on the host.
          2081
          Number of input async parity errors. These can be caused by a noisy transmission line
          2083
          Number of Terminal Services transport-level errors on input.
          2085
          Number of bytes output on this session after all protocol overhead has been removed.
          2087
          The number of frames output before any additional protocol frames have been added.
          2089
          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.
          2091
          Number of frames (packets) output on this session.
          2093
          Number of bytes output on this Session that includes all protocol overhead.
          2095
          Number of bytes output after compression. This number compared with the Total Bytes output is the compression ratio.
          2097
          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.
          2099
          Number of output errors of all types. Some example output errors are lost ACK's, badly formed packets, etc.
          2101
          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.
          2103
          Number of output async framing errors. This could be caused by a hardware or line problem.
          2105
          Number of output async overrun errors.
          2107
          Number of output async overflow errors.
          2109
          Number of output async parity errors. These can be caused by a hardware or line problem.
          2111
          Number of Terminal Services transport-level errors on output.
          2113
          Total number of bytes on this Session after all protocol overhead has been removed.
          2115
          The total number of frames input and output before any additional protocol frames have been added.
          2117
          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.
          2119
          Total number of frames (packets) on this Session.
          2121
          Total number of bytes on this Session that includes all protocol overhead.
          2123
          Total number of bytes after compression. This number compared with the total bytes is the compression ratio.
          2125
          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.
          2127
          Total number of errors of all types. Some example errors are lost ACK's, badly formed packets, etc.
          2129
          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.
          2131
          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.
          2133
          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.
          2135
          Total number of async overflow errors. These can be caused by a lack of buffer space available on the host.
          2137
          Total number of async parity errors. These can be caused by a noisy transmission line.
          2139
          Total number of Terminal Services transport-level errors.
          2141
          Total references to all protocol caches.
          2143
          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.
          2145
          Overall hit ratio for all protocol caches.
          2147
          Number of references to the protocol bitmap cache.
          2149
          Number of hits in the protocol bitmap cache.
          2151
          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.
          2153
          Number of references to the protocol glyph cache.
          2155
          Number of hits in the protocol glyph cache.
          2157
          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.
          2159
          Number of references to the protocol brush cache.
          2161
          Number of hits in the protocol brush cache.
          2163
          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.
          2165
          Number of references to the protocol save screen bitmap cache.
          2167
          Number of hits in the protocol save screen bitmap cache.
          2169
          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.
          2171
          Compression ratio of the server input data stream.
          2173
          Compression ratio of the server output data stream.
          2175
          Total compression ratio of the server data stream.
          2177
          Terminal Services summary information.
          2179
          Total number of Terminal Services sessions.
          2181
          Number of active Terminal Services sessions.
          2183
          Number of inactive Terminal Services sessions.
          2185
          Microsoft Distributed Transaction Coordinator performance counters
          2187
          Number of currently active transactions
          2189
          Number of committed transactions
          2191
          Number of aborted transactions
          2193
          Number of in doubt transactions
          2195
          Maximum number of transactions ever concurrently active
          2197
          Number of transactions committed by the system administrator
          2199
          Number of transactions aborted by the system administrator
          2201
          Minimum time delta between transaction begin and commit
          2203
          Average time delta between transaction begin and commit
          2205
          Maximum time delta between transaction begin and commit
          2207
          Transactions performed per second
          2209
          Transactions committed per second
          2211
          Transactions aborted per second
          2219
          Indexing Service
          2221
          Number of word lists.
          2223
          Number of saved indexes.
          2225
          Size of the content index (*.ci files only) in megabytes.
          2227
          Number of files to be filtered and added to the index.
          2229
          Number of unique keys (words, etc.) in the index.
          2231
          Number of active query client connections.
          2233
          Percent merge complete for the current merge.
          2235
          Number of documents indexed since the index was mounted.
          2237
          Total number of documents in the index.
          2239
          Total number of queries since the index was mounted.
          2241
          Number of files not available and deferred for indexing.
          2243
          Indexing Service Filter
          2245
          Speed of indexing file contents and properties in megabytes per hour.
          2247
          Average time spent binding to indexing filters.
          2249
          Speed of indexing contents of files in megabytes per hour.
          2251
          Http Indexing Service
          2253
          Number of completed queries in cache.
          2255
          Percent of queries found in the query cache.
          2257
          Total cache accesses 1
          2259
          Percent of queries not found in the query cache.
          2261
          Total cache accesses 2
          2263
          Current number of running queries.
          2265
          Total number of queries run since service start.
          2267
          Number of queries per minute.
          2269
          Current number of query requests queued.
          2271
          Total number of query requests rejected.
          2273
          Number of WMI High Performance provider returned by WMI Adapter
          2275
          Shows High Performance Classes
          2277
          Shows if High Performance Classes are valid

          Comment


          • #20
            Thanks for sharing
            Rock _a.k.a._ Jack Daniel

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            Comment


            • #21
              Sorry I am having difficulty understanding this.

              My perflib, I edited to the MS reccomended values as did the other gentleman that reports his being fixed.

              My 009 is EMPTY however and I cannot manually or otherwise edit it in any of the many ways I have tried yet.

              I could backdoor it but am not sure you are saying what I think you are.

              Can you verify for me that 009 is supposed to be populated and if so please post here what the content should be or supply the reg key info fully, not that it will help me as I cannot get mine to edit or add anything to it so far.

              I also am at the same impass on that problem.

              I have extracted the files MS said to extract, manually edited the INI's per MS instruction and also ran the cmd you have above.

              Please help.

              Thank you.

              Comment


              • #22
                Oh and BTW I am on Win XP pro and installing 2008sqlexp.

                Comment


                • #23
                  Originally posted by jonny_sig View Post
                  Hello,


                  I fix the problem!
                  The problem was in the folder 009.

                  My folder 009 was empty and i export from one of the folder in Perflib 0816 the values and import to folder 009 and works!


                  Thank you for your time.
                  My 009 is empty as well and I cannot get it to edit in any normal manner as of yet.

                  I do not have any 0816 or other to grab anything from.

                  Can some one show me what 009 should look like and how to get it to edit?

                  I am admin but it will not allow more permissions and seems it is not even there but you can see it.

                  Will try to somehow fix all this but need some info.

                  Comment


                  • #24
                    InstallGlobalRules: SQL Server 2008 R2 Setup configuration checks for rules group 'InstallGlobalRules'
                    PerfMonCounterNotCorruptedCheck Checks if existing performance counter registry hive is consistent. Failed The performance counter registry hive is corrupted. To continue, you must repair the performance counter registry hive. For more information, see support.microsoft.com/kb/300956]How to manually rebuild Performance Counter Library values.

                    Well I agree it is corrupted but cannot so far fix it. Would like to know what info goes in it when I do fix it and fix it I will.

                    Comment


                    • #25
                      Originally posted by Rock View Post
                      Hi Tom,

                      Could you ensure that you're checking the values in the correct registry path?
                      ie: [HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Perflib]


                      If your 009 key is empty, follow these steps:

                      Changing the value of: [HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Perflib\Last Counter]

                      to: 5276 decimal (hex 0x0000149c)

                      Changing the value of: [HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows NT\CurrentVersion\Perflib\Last Help]

                      to: 5277 decimal (hex 0x0000149d)

                      Let me know if that helps, good luck..
                      Here is where I am lost now I just done 2 system restores and then a Nortons Ghost extract restore to get me back to yesterday and also back doored the registry from a dual boot and overwrote the old one from yesterday.

                      I have the exact values you describe above and 009 empty but corrupt and cannot write to it delete it or anything.

                      So my 009 was corrupt from before then I guess. Now I am going to have to go into a virtual drive or else reboot to another drive or check another computer and rule out if this sub key 009 is protected or just corrupt on here till I can hear from someone that does this all the time as I have not worked on boxes in about 10 years now and my expertise ended with win 2K but I can and will fix this. Would appreciate some help however.

                      Comment


                      • #26
                        Hi to every Body

                        dear Gladhatter plese see the register File File&Counter , and past inserted the codes, and reinstall SQL servers 2000,2005,2008 and you should backUp your registery for this time , or repair your registery, or mayby you should reinstall your Windows

                        Comment


                        • #27
                          Originally posted by omidghadiri View Post
                          Hi to every Body

                          dear Gladhatter plese see the register File File&Counter , and past inserted the codes, and reinstall SQL servers 2000,2005,2008 and you should backUp your registery for this time , or repair your registery, or mayby you should reinstall your Windows
                          I thank you omidghadiri. I cannot afford to reinstall windows now. I do not seem to know how to repair my registry. I will continue to hack away at this and I will fix it. Never failed on one yet and have many tricks up my sleeves yet but may take a couple more days hacking to get it.

                          Hope some one has some sound advice.

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                          • #28
                            Well I just got HKLM machine to export after 20 hours working. I may be closer than you can imagine.

                            To update you some as well I was finally able to also get the 009 exported from another registry and imported and while it showed all its values in the other registry it would not on my normal machine. Not sure what my bug is but am sure I will fix it.

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                            • #29
                              Well I had a busted registry hive but this was a good learning experience and I have fixed it. None of my issues were addressed here but I will be back to talk on other issues on this forum soon.

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                              • #30
                                Originally posted by Gladhatter View Post
                                Well I had a busted registry hive but this was a good learning experience and I have fixed it. None of my issues were addressed here but I will be back to talk on other issues on this forum soon.
                                Hi,

                                Would it be possible to get remote access to your local machine? You can try using RemoteAnywhere or LogMeIn or TeamViewer for this purpose.
                                Rock _a.k.a._ Jack Daniel

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