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diff --git a/public/oak/bin/perfh009.ini b/public/oak/bin/perfh009.ini new file mode 100644 index 000000000..c4a56ae3e --- /dev/null +++ b/public/oak/bin/perfh009.ini @@ -0,0 +1,2205 @@ + "3", "The System object type includes those counters " + "that apply to all processors on the computer " + "collectively. These counters represent the activity of " + "all processors on the computer.", + + "5", "The Memory object type includes those counters " + "that describe the behavior of both real and virtual " + "memory on the computer. Real memory is allocated in " + "units of pages. Virtual memory may exceed real " + "memory in size, causing page traffic as virtual pages " + "are moved between disk and real memory.", + + "7", "Processor Time is expressed as a percentage of the " + "elapsed time that a processor is busy executing " + "a non-Idle thread. It can be viewed as the fraction " + "of the time spent doing useful work. Each processor is " + "assigned an Idle thread in the Idle process which consumes " + "those unproductive processor cycles not used by any other " + "threads.", + + "11", "File Read Operations/sec is an aggregate of all the file system " + "read operations on the computer.", + + "13", "File Write Operations/sec is an aggregate of all the file system " + "write operations on the computer.", + + "15", "File Control Operations/sec is an aggregate of all " + "file system operations that are neither reads nor writes. " + "These operations usually include file system control requests or " + "requests for information about device characteristics or " + "status.", + + "17", "File Read Bytes/sec is an aggregate of the bytes transferred " + "for all the file system read operations on the computer.", + + "19", "File Write Bytes/sec is an aggregate of the bytes transferred " + "for all the file system write operations on the computer.", + + "21", "File Control Bytes/sec is an aggregate of bytes transferred " + "for all file system operations that are neither reads nor " + "writes. These operations usually include file system control " + "requests or requests for information about device " + "characteristics or status.", + + "25", "Available Bytes displays the size of the virtual memory " + "currently on the Zeroed, Free, and Standby lists. Zeroed " + "and Free memory is ready for use, with Zeroed memory cleared " + "to zeros. Standby memory is memory removed from a process's " + "Working Set but still available. Notice that this is an " + "instantaneous count, not an average over the time interval.", + + "27", "Committed Bytes displays the size of virtual memory " + "(in bytes) that has been Committed (as opposed to simply " + "reserved). Committed memory must have backing (i.e., disk) " + "storage available, or must be assured never to need disk " + "storage (because main memory is large enough to hold it.) " + "Notice that this is an instantaneous count, not an average " + "over the time interval.", + + "29", "Page Faults/sec is a count of the Page Faults in " + "the processor. A page fault occurs when a process " + "refers to a virtual memory page that is not in its " + "Working Set in main memory. A Page Fault will not " + "cause the page to be fetched from disk if that page " + "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.", + + "31", "Commit Limit is the size (in bytes) of " + "virtual memory that can be committed without having to " + "extend the paging file(s). If the paging file(s) can " + "be extended, this is a soft limit.", + + "33", "Write Copies/sec is the number of page faults that " + "have been satisfied by making a copy of a page when an " + "attempt to write to the page is made. This is an " + "economical way of sharing data since the copy " + "of the page is only made on an attempt to write to " + "the page; otherwise, the page is shared.", + + "35", "Transition Faults/sec is the number of page faults " + "resolved by recovering pages that were in " + "transition, i.e., being written to disk at the time " + "of the page fault. The pages were recovered without " + "additional disk activity.", + + "37", "Cache Faults occur whenever the Cache manager does " + "not find a file's page in the immediate Cache and " + "must ask the memory manager to locate the page " + "elsewhere in memory or on the disk so that it can be " + "loaded into the immediate Cache.", + + "39", "Demand Zero Faults are the number of page faults for " + "pages that must be filled with zeros before the " + "fault is satisfied. If the Zeroed list is not empty, " + "the fault can be resolved by removing a page from " + "the Zeroed list.", + + "41", "Pages/sec is the number of pages read from the disk " + "or written to the disk " + "to resolve memory references to pages that " + "were not in memory at the time of the reference. " + "This is the sum of Pages Input/sec and Pages Output/sec. " + "This counter includes paging traffic on behalf of the " + "system Cache to access file data for applications. " + "This is the primary counter to observe if you are concerned " + "about excessive memory pressure (that is, thrashing), and " + "the excessive paging that may result.", + + "43", "Page Reads/sec is the number of times the disk was read " + "to retrieve pages of virtual memory necessary to resolve " + "page faults. Multiple pages can be read during a disk read " + "operation.", + + "45", "Processor Queue Length is the instantaneous length of the " + "processor queue " + "in units of threads. This counter is always 0 " + "unless you are also monitoring a thread counter. " + "All processors use a single " + "queue in which threads wait for processor cycles. " + "This length does not include the threads that are " + "currently executing. A sustained processor queue length " + "greater than two generally indicates processor congestion. " + "This is an instantaneous count, not an average over the " + "time interval.", + + "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 a count of the number of pages that " + "are written to disk because the pages " + "have been modified in main memory.", + + "51", "Page Writes/sec is a count of the number of times " + "pages have been written to the disk because they " + "were changed since last retrieved. Each such write " + "operation may transfer a " + "number of pages.", + + "57", "Pool Paged Bytes is the number of bytes in the " + "Paged Pool, a system memory area where space is acquired " + "by operating system components as they accomplish their " + "appointed tasks. Paged Pool pages can " + "be paged out to the paging file when not accessed by " + "the system for sustained periods of time.", + + "59", "Pool Nonpaged Bytes is the number of bytes in the " + "Nonpaged Pool, a system memory area where space is acquired " + "by operating system components as they accomplish their " + "appointed tasks. Nonpaged Pool pages cannot be paged " + "out to the paging file, but instead remain in main memory " + "as long as they are allocated.", + + "61", "Pool Paged Allocs is the number of calls to allocate " + "space in the system Paged Pool. " + "Paged Pool is a system memory area where space is acquired " + "by operating system components as they accomplish their " + "appointed tasks. Paged Pool pages can " + "be paged out to the paging file when not accessed by " + "the system for sustained periods of time.", + + "63", "Pool Paged Resident Bytes is the size of paged Pool resident in " + "core memory. This is the actual cost of the paged Pool allocation, " + "since this is actively in use and using real physical memory.", + + "65", "Pool Nonpaged Allocs is the number of calls to " + "allocate space in the system Nonpaged Pool. " + "Nonpaged Pool is a system memory area where space is acquired " + "by operating system components as they accomplish their " + "appointed tasks. Nonpaged Pool pages cannot be paged " + "out to the paging file, but instead remain in main memory " + "as long as they are allocated.", + + "67", "Bytes Total/sec is the sum of Frame Bytes/sec and " + "Datagram Bytes/sec. This is the total rate of bytes " + "sent to or received from the network by the protocol, " + "but only counts the bytes in frames (i.e., packets) " + "which carry data.", + + "69", "System Code Total Bytes is the number of bytes of pagable pages " + "in ntoskrnl.exe, hal.dll, and the boot drivers and file systems " + "loaded by ntldr/osloader.", + + "71", "System Code Resident Bytes is the number of bytes of " + "System Code Total Bytes currently resident in core memory. " + "This is the code working set of the pagable executive. " + "In addition to this, there is another ~300k bytes of non-paged " + "kernel code.", + + "73", "System Driver Total Bytes is the number of bytes of pagable " + "pages in all other loaded device drivers.", + + "75", "System Driver Resident Bytes is the number of bytes of " + "System Driver Total Bytes currently resident in core memory. " + "This number is the code working set of the pagable drviers. " + "In addition to this, there is another ~700k bytes of non-paged " + "driver code.", + + "77", "System Cache Resident Bytes is the number of bytes currently " + "resident in the global disk cache.", + + "87", "The Cache object type manages memory for rapid access to " + "files. Files on Windows NT are cached in main memory in " + "units of pages. Main memory not being used in the working " + "sets of processes is available to the Cache for " + "this purpose. The Cache preserves file pages in memory " + "for as long as possible to permit access to the " + "data through the file system without having to access the " + "disk.", + + "89", "Data Maps/sec is the frequency that a file system " + "such as NTFS or " + "HPFS maps a page of a file into the Cache to read the page.", + + "91", "Sync Data Maps/sec counts the frequency that a " + "file system such as NTFS " + "or HPFS maps a page of a file into the Cache to read the " + "page, and wishes to wait for the Cache to retrieve the " + "page 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 or HPFS to map a page of a file into the Cache to read " + "the page, and does not wish to wait for the Cache to " + "retrieve the page if it is not in main memory.", + + "95", "Data Map Hits is the percentage of Data Maps in " + "the Cache that could be resolved without having to " + "retrieve a page from the disk, i.e. the page was already " + "in physical memory.", + + "97", "Data Map Pins/sec is the frequency of Data Maps in " + "the 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 Cache " + "will not be altered.", + + "99", "Pin Reads/sec is the frequency of " + "reading data into the 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 Cache will not be altered.", + + "101", "Sync Pin Reads/sec is the frequency of " + "reading data into the " + "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 Cache, " + "in particular if the disk must be accessed to retrieve the " + "page. While pinned, a page's physical address in the Cache will " + "not be altered.", + + "103", "Async Pin Reads/sec is the frequency of " + "reading data into the " + "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 Cache Pin Read " + "requests that hit the Cache, i.e., did not require a disk " + "read in order to provide access to the page in the Cache. " + "While pinned, a page's physical address in the Cache will " + "not be altered. " + "The LAN Redirector uses this method for retrieving Cache " + "information, 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 " + "Cache pages that involve " + "a memory copy of the data from the Cache to the " + "application's buffer. The LAN Redirector uses this method " + "for retrieving Cache information, 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 " + "Cache pages 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 Cache pages 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, i.e., 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 Cache page to the " + "application's buffer. " + "The LAN Redirector uses this method for " + "retrieving Cache information, 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 " + "Cache pages 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 " + "Cache pages 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 Cache pages using 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 Cache Memory " + "Descriptor List (MDL) Read " + "requests 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 Cache reads " + "where 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 " + "Cache pages 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 Cache " + "data 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 Cache pages 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 " + "Cache data 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 Cache pages 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 direct retrieval " + "of Cache data 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 at Cache data, that " + "could not be honored without invoking the file system " + "after all.", + + "135", "Lazy Write Flushes/sec is the frequency " + "the Cache's Lazy Write thread has written to disk. " + "Lazy Writing is the process of updating the disk after " + "the page has been changed in memory, so the application " + "making the change to the file does not have to wait for " + "the disk write to complete before proceeding. " + "More than one page can be transferred on each write " + "operation.", + + "137", "Lazy Write Pages/sec is the frequency " + "the Cache's Lazy Write thread has written to disk. " + "Lazy Writing is the process of updating the disk after " + "the page has been changed in memory, so the application " + "making the change to the file does not have to wait for " + "the disk write to complete before proceeding. " + "More than one page can be transferred on a single disk " + "write operation.", + + "139", "Data Flushes/sec is the frequency " + "the 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 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 processor time spent " + "in User Mode in non-Idle threads. All application code " + "and subsystem code " + "execute in User Mode. The graphics engine, graphics " + "device drivers, printer device drivers, and the " + "window manager also 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 may appear in other subsystem processes " + "in addition to the Privileged Time in your process.", + + "145", "Privileged Time is the percentage of processor time " + "spent in Privileged Mode in non-Idle threads. The Windows " + "NT service layer, " + "the Executive routines, and the Windows NT Kernel " + "execute in Privileged Mode. Device drivers for most " + "devices other than graphics adapters and printers " + "also execute in Privileged Mode. " + "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 may appear in other subsystem processes " + "in addition to the Privileged Time in your process.", + + "147", "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 may 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 may 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.", + + "149", "Interrupts/sec is the number of device interrupts the " + "processor is experiencing. A device interrupts the " + "processor when it has completed a task or when it " + "otherwise requires attention. Normal thread execution " + "is suspended during interrupts. An interrupt may cause " + "the processor to switch to another, higher priority " + "thread. Clock interrupts are frequent and periodic " + "and create a background of interrupt activity.", + + "151", "Systems Calls/sec is the frequency of calls to Windows NT " + "system service routines. These routines perform all " + "of the basic scheduling and synchronization of activities " + "on the computer, and provide access to non-graphical " + "devices, memory management, and name space management.", + + "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 this " + "process's threads have spent executing code in User Mode. " + "Applications execute in User Mode, as do subsystems " + "like the window manager and the graphics engine. " + "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 may appear in other subsystem processes " + "in addition to the Privileged Time in your process.", + + "159", "Privileged Time is the percentage of elapsed time that this " + "process's threads have spent executing code in Privileged " + "Mode. When a Windows NT 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 may be explicit, or " + "they may be implicit such as when a page fault or an " + "interrupt occurs. " + "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 may appear in other subsystem processes " + "in addition to the Privileged Time in your process.", + + "173", "Virtual Bytes Peak is the maximum number of 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. Virtual space is however finite, and by using " + "too much, the process may 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 however finite, and by using too much, " + "the process may limit its ability to load libraries.", + + "177", "Page Faults/sec is the rate of Page Faults by the threads " + "executing in this process. " + "A page fault occurs when a thread refers to a virtual " + "memory page that is not in its working set in main " + "memory. This will 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 number of bytes in 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 number of bytes " + "in 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 they leave 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 lack of space " + "in paging files can prevent other processes from " + "allocating memory.", + + "185", "Page File Bytes is the current 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 lack of space " + "in paging files can prevent other processes from " + "allocating memory.", + + "187", "Private Bytes is the current number of bytes this process " + "has allocated that cannot be shared with other processes.", + + "189", "Processor Time is the percentage of elapsed time that " + "all of the threads of this process used the processor " + "to execute 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 " + "certain hardware interrupts or trap conditions may be " + "counted for this process.", + + "191", "Processor Time is the percentage of elapsed time that this " + "thread used the processor to execute instructions. " + "An instruction is the basic unit of execution in a processor, " + "and a thread is the object that executes instructions. " + "Code executed to handle certain hardware interrupts or " + "trap conditions may be counted for this thread.", + + "193", "User Time is the percentage of elapsed time that this " + "thread has spent executing code in User Mode. " + "Applications execute in User Mode, as do subsystems like " + "the window manager and the graphics engine. " + "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 may appear in other subsystem processes " + "in addition to the Privileged Time in your process.", + + "195", "Privileged Time is the percentage of elapsed time that " + "this thread has spent executing code in Privileged Mode. " + "When a Windows NT system service is called, " + "the service will often run in Privileged Mode in order " + "to gain access to system-private data. Such data is " + "protected from access by threads executing in User Mode. " + "Calls to the system may be explicit, or they may be " + "implicit such as when a page fault or an interrupt occurs. " + "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 may appear in other subsystem processes " + "in addition to the Privileged Time in your 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 " + "may 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 may 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", "Disk Queue Length is the number of requests outstanding on " + "the disk at the time the performance data is collected. " + "It includes requests in service at the time of the snapshot. " + "This is an instantaneous length, not an average over the " + "time interval. " + "Multi-spindle disk devices can have multiple requests " + "active at one time, but other concurrent requests are " + "awaiting service. " + "This counter may 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 are experiencing " + "delays proportional to the length of this queue minus the " + "number of spindles on the disks. This difference should average " + "less than 2 for good performance.", + + "201", "Disk Time is the percentage of elapsed time that the " + "selected disk drive is busy servicing read or write requests.", + + "203", "Disk Read Time is the percentage of elapsed time that the " + "selected disk drive is busy servicing read requests.", + + "205", "Disk Write Time is the percentage of elapsed time that the " + "selected disk drive is 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 bytes are transferred from " + "the disk during read operations.", + + "223", "Disk Write Bytes is rate 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 object type is created when a " + "program is run. All the threads in a process share the " + "same address space and have access to the same data.", + + "233", "The Thread object type is the basic object that executes " + "instructions in a processor. Every running process has at " + "least one thread.", + + "235", "A Physical Disk object type is a hard or fixed disk drive. " + "It will contain 1 or more logical partitions. Disks are used " + "to store file, program, and paging data. The disk is read " + "to retrieve these items, and written to record changes to them.", + + "237", "A Logical Disk object type is a partition on a hard or fixed " + "disk drive and assigned a drive letter, such as C. " + "Disks can be partitioned into distinct sections where they " + "can store file, program, and page data. The disk is read " + "to retrieve these items, and written to record changes to them.", + + "239", "The Processor object type includes as instances all " + "processors on the computer. A processor is the part " + "in the computer that performs arithmetic and logical " + "computations, and initiates operations on peripherals. " + "It executes (i.e., runs) programs on the computer.", + + "241", "The % Total Processor Time is the average percentage of time " + "that all the processors on the system are busy executing " + "non-idle threads. " + "On a multi-processor system, if all processors are always " + "busy this is 100%, if all processors are 50% busy this " + "is 50% and if 1/4th of the processors are busy this is " + "25%. " + "It can be viewed as the fraction " + "of the time spent doing useful work. Each processor is " + "assigned an Idle thread in the Idle process which consumes " + "those unproductive processor cycles not used by any other " + "threads. ", + + "243", "The % Total User Time is the average percentage of time spent " + "in User mode by all processors. " + "On a multi-processor system, if all processors are always " + "in User mode this is 100%, if all processors are 50% " + "in User mode this " + "is 50% and if 1/4th of the processors are in User mode this " + "is 25%. " + "Applications execute in User Mode, as do subsystems like " + "the window manager and the graphics engine. " + "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 " + "an application may appear in other subsystem processes " + "in addition to the Privileged Time in the application process.", + + "245", "The % Total Privileged Time is the average percentage of time " + "spent in Privileged mode by all processors. " + "On a multi-processor system, if all processors are always " + "in Privileged mode this is 100%, if all processors are 50% " + "in Privileged mode this " + "is 50% and if 1/4th of the processors are in Privileged mode this " + "is 25%. " + "When a Windows NT system service is called, " + "the service will often run in Privileged Mode in order " + "to gain access to system-private data. Such data is " + "protected from access by threads executing in User Mode. " + "Calls to the system may be explicit, or they may be " + "implicit such as when a page fault or an interrupt occurs. " + "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 may appear in other subsystem processes " + "in addition to the Privileged Time in the application process.", + + "247", "Total Interrupts/sec is the rate the computer is receiving " + "and servicing hardware interrupts. Some devices that may " + "generate interrupts are the system timer, the mouse, data " + "communication lines, network interface " + "cards and other peripheral devices. This counter provides an " + "indication of how busy these devices are on a computer-wide " + "basis. See also Processor:Interrupts/sec.", + + "249", "Processes is the number of processes in the computer at " + "the time of data collection. Notice that 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. Notice that 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. Notice that this is an instantaneous " + "count, not an average over the time interval. An " + "event is used when two or more threads wish to synchronize " + "execution.", + + "255", "Semaphores is the number of semaphores in the computer at the " + "time of data collection. Notice that 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" + " some section of code.", + + "259", "Sections is the number of sections in the computer at the " + "time of data collection. Notice that 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 a storing data. A process may share sections " + "with other processes.", + + "261", "The Objects object type is a meta-object that contains " + "information about the objects in existence on the computer. " + "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 is the object that manages network " + "connections to other computers that originate from your own " + "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 that 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 may 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 that 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 that applications on " + "your computer are accessing the Cache using the Redirector. " + "Some of these data requests may be satisfied by merely " + "retrieving " + "the data from the system Cache on your own computer if it " + "happened to be used recently and there was room to keep it " + "in the Cache. Requests that miss the Cache will cause a " + "page fault (see Read Bytes Paging/sec).", + + "275", "Read Bytes Network/sec is the rate that applications " + "are reading data across the network. For one reason or " + "another the data was not in the system Cache, and these bytes " + "actually came across the network. Dividing this number by " + "Bytes Received/sec will indicate the 'efficiency' of data " + "coming in from the network, since all of these bytes are " + "real application data (see Bytes Received/sec.)", + + "277", "Bytes Transmitted/sec is the rate that 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 that 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 that 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 Cache (see Write Bytes Cache/sec).", + + "283", "Write Bytes Non-Paging/sec is the rate of the bytes " + "that are written by " + "the Redirector in response to normal file outputs by an " + "application when they are redirected to go to another " + "computer. In addition to file requests this counter 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 that applications on " + "your computer are writing to the Cache using the Redirector. " + "The data may not leave your computer immediately, but may " + "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 that your applications " + "are writing data across the network. Either the system Cache " + "was bypassed, as for Named Pipes or Transactions, or else the " + "Cache wrote the bytes to make room for other data. Dividing " + "this counter by " + "Bytes Transmitted/sec will indicate the 'efficiency' of data " + "written to the network, since all of these bytes are " + "real application data (see Transmitted Bytes/sec.)", + + "289", "File Read Operations/sec is the rate that 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 that, 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 that 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 that 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 that 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 that 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 that, 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 that 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 that 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 that 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 that 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 that 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 counts serious unexpected errors that " + "generally indicate the Redirector and one or more Servers " + "are having serious communication difficulties. " + "For example an SMB (Server Manager Block) protocol error " + "will generate a Network Error. These result in an entry " + "in the system Event Log, so look there for details.", + + "315", "Server Sessions counts the number of active security objects the " + "Redirector is managing. 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 NT " + "computers. Good choice!", + + "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", "Server - is the process that interfaces the services from the " + "local computer to the network services.", + + "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.)", + + "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. Indicates how frequently network problems are " + "causing dropped sessions on the server.", + + "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 may need " + "tuning.", + + "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 " + "may need tuning.", + + "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, determining " + "the effectiveness of oplocks.", + + "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 currently using. " + "Can help in determining good values for the " + "maxnonpagedmemoryusage " + "parameter.", + + "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 of pagefile 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.", + + "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 the Redirector is processing " + "data operations. One operation includes (hopefully) many " + "bytes. We say hopefully here because each operation " + "has 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/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.", + + "399", "The NWLink NetBIOS protocol layer handles the interface to " + "applicatons communicating over the IPX transport. ", + + "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.", + + "403", "Context Block Queue Time is the average time, in milliseconds, " + "a work context block sat on the server's FSP queue waiting for " + "the server to act on the request.", + + "405", "Context Blocks Queued per second is the rate that work " + "context blocks had to be placed on the server's FSP " + "queue to await server action.", + + "407", "File Data Operations per second is the rate that the computer " + "is issuing Read and Write operations to file system " + "devices. It does not include File Control Operations.", + + "409", "Percent Free Space is the ratio of the free space available " + "on the logical disk unit to the total usable space provided " + "by the selected logical disk drive", + + "411", "Free Megabytes displays the unallocated space on the disk " + "drive in megabytes. One megabyte = 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 that 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 that 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 that 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 that 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 that 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 that 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 that 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 that 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 that packets are received " + "by the computer. This counter counts all packets processed: " + "control as well as data packets.", + + "457", "Frames/sec is the rate that 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 that 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 that 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 that 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 that 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 that 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 that 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 that 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 that data frames are " + "rejected. This counter only counts the frames (packets) that " + "carry data.", + + "475", "Frame Bytes Rejected/sec is the rate that 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 that 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 transport handles datagram transmission to " + "and from computers using the IPX protocol.", + + "491", "The NWLink SPX transport handles data transmission and " + "session connections for computers using the SPX protocol.", + + "493", "The NetBEUI protocol handles data transmission for " + "that network activity which follows the NetBIOS End " + "User Interface standard.", + + "495", "The NetBEUI Resource object tracks the use of resources " + "(i.e., 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 Object Type includes those " + "counters that describe the rates that bytes are " + "received and sent over a single NBT connection " + "connecting the local computer with some remote computer. " + "The connection is identified by the name of the remote " + "computer.", + + "505", "Bytes Received/sec is the rate that 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 that 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 that 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 Object Type includes those counters " + "that describe the rates that bytes and packets are " + "received and sent over a Network TCP/IP connection. It also " + "describes various error counts for the same connection.", + + "513", "Bytes Total/sec is the rate that bytes are sent and received " + "on the interface, including framing characters.", + + "515", "Packets/sec is the rate that packets are sent and received " + "on the network interface.", + + "517", "Packets Received/sec is the rate that packets are received " + "on the network interface.", + + "519", "Packets Sent/sec is the rate that packets are sent " + "on the network interface.", + + "521", "Current Bandwidth is an estimate of the interface's " + "current bandwidth 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 that bytes are received " + "on the interface, including framing characters.", + + "525", "Packets Received Unicast/sec is the rate that (subnet) " + "unicast packets are delivered to a higher-layer protocol.", + + "527", "Packets Received Non-Unicast/sec is the rate that " + "non-unicast (i.e., 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 being deliverable to a " + "higher-layer protocol. One possible reason for discarding " + "such a packet 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 via the interface that were discarded because of " + "an unknown or unsupported protocol.", + + "535", "Bytes Sent/sec is the rate that bytes are sent " + "on the interface, including framing characters.", + + "537", "Packets Sent Unicast/sec is the rate that 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 that packets are " + "requested to be transmitted to non-unicast (i.e., 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 their being transmitted. " + "One possible reason for discarding " + "such a packet 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 2, delays are being " + "experienced and the bottleneck should be found and " + "eliminated if possible. Since the requests are queued by " + "NDIS in this implementations, this will always be 0.", + + "547", "The IP Object Type includes those counters " + "that describe the rates that IP datagrams are " + "received and sent by a certain computer using the IP protocol. " + "It also describes various error counts for the IP protocol.", + + "549", "Datagrams/sec is the rate that IP datagrams are received " + "from or sent to the interfaces, including those in error. " + "Any forwarded datagrams are not included in this rate.", + + "551", "Datagrams Received/sec is the rate that IP datagrams are " + "received from the interfaces, including those in error.", + + "553", "Datagrams Received Header Errors is the number of input " + "datagrams discarded due to errors in their 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 discarded because the IP address in their IP header's " + "destination field was not a valid address to be received at " + "this entity. This count includes invalid addresses (e.g., 0.0. " + "0.0) and addresses of unsupported Classes (e.g., Class E). " + "For entities that are not IP Gateways and therefore do not " + "forward datagrams, this counter includes datagrams discarded " + "because the destination address was not a local address.", + + "557", "Datagrams Forwarded/sec is the rate of input datagrams for " + "that this entity was not their final IP destination, as a " + "result of which an attempt was made to find a route to " + "forward them to that final destination. In entities that do " + "not act as IP Gateways, this rate will include only those " + "packets that were Source-Routed via this entity, and the " + "Source-Route option processing was successful.", + + "559", "Datagrams Received Unknown Protocol is the number of " + "locally-addressed datagrams received successfully but discarded " + "because of an unknown or unsupported protocol.", + + "561", "Datagrams Received Discarded is the number of input IP " + "datagrams for which no problems were encountered to prevent " + "their continued processing, but which were discarded " + "(e.g., for lack of buffer space). This counter does " + "not include any datagrams discarded while awaiting re-assembly.", + + "563", "Datagrams Received Delivered/sec is the rate that input " + "datagrams are successfully delivered to IP user-protocols " + "(including ICMP).", + + "565", "Datagrams Sent/sec is the rate that IP datagrams are " + "supplied to IP for transmission by local IP user-protocols " + "(including ICMP). That this counter does not include " + "any datagrams counted in Datagrams Forwarded.", + + "567", "Datagrams Outbound Discarded is the number of output IP " + "datagrams for which no problems were encountered to prevent " + "their transmission to their destination, but which were " + "discarded (e.g., for lack of buffer space.) This " + "counter would include datagrams counted in Datagrams Forwarded " + "if any such packets met this (discretionary) " + "discard criterion.", + + "569", "Datagrams Outbound No Route is the number of IP datagrams " + "discarded because no route could be found to transmit them " + "to their destination. This counter includes any " + "packets counted in Datagrams Forwarded that meet this " + "`no route' criterion.", + + "571", "Fragments Received/sec is the rate that IP fragments that " + "need to be re-assembled at this entity are received.", + + "573", "Fragments Re-assembled/sec is the rate that IP fragments " + "are successfully re-assembled.", + + "575", "Fragment Re-assembly Failures is the number of failures " + "detected by the IP re-assembly algorithm (for whatever reason: " + "timed out, errors, etc.) This is not necessarily a " + "count of discarded IP fragments since some algorithms " + "(notably RFC 815) can lose track of the number of fragments " + "by combining them as they are received.", + + "577", "Fragmented Datagrams/sec is the rate that datagrams are " + "successfully fragmented at this entity.", + + "579", "Fragmentation Failures is the number of IP datagrams that have " + "been discarded because they needed to be fragmented at this " + "entity but could not be, e.g., because their `Don't Fragment' " + "flag was set.", + + "581", "Fragments Created/sec is the rate that IP datagram fragments " + "have been generated as a result of fragmentation at this entity.", + + "583", "The ICMP Object Type includes those counters " + "that describe the rates that ICMP Messages are " + "received and sent by a certain entity using the ICMP protocol. " + "It also describes various error counts for the ICMP protocol.", + + "585", "Messages/sec is the total rate that ICMP messages are " + "received and sent by the entity. The rate includes those " + "messages received or sent in error.", + + "587", "Messages Received/sec is the rate that ICMP messages are " + "received by the entity. The rate includes those " + "messages received in error.", + + "589", "Messages Received Errors is the number of ICMP messages " + "that the entity received but determined as having errors " + "(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 of ICMP Redirect messages " + "received.", + + "601", "Received Echo/sec is the rate of ICMP Echo messages received.", + + "603", "Received Echo Reply/sec is the rate of ICMP Echo Reply " + "messages received.", + + "605", "Received Timestamp/sec is the rate of ICMP Timestamp " + "(request) messages 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 that ICMP messages are " + "attempted to be sent by the entity. The rate includes those " + "messages sent in error.", + + "615", "Messages Outbound Errors is the number of ICMP messages " + "that this entity did not send due to problems discovered " + "within ICMP such as lack of buffers. This value should not " + "include errors discovered outside the ICMP layer such as the " + "inability of IP to route the resultant datagram. In some " + "implementations there may be no types of error that contribute " + "to this counter's value.", + + "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 of ICMP Redirect messages " + "sent.", + + "627", "Sent Echo/sec is the rate of ICMP Echo messages sent.", + + "629", "Sent Echo Reply/sec is the rate of ICMP Echo Reply " + "messages sent.", + + "631", "Sent Timestamp/sec is the rate of ICMP Timestamp " + "(request) messages sent.", + + "633", "Sent Timestamp Reply/sec is the rate of ICMP Timestamp " + "Reply messages 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 Object Type includes those counters " + "that describe the rates that TCP Segments are " + "received and sent by a certain entity using the TCP protocol. " + "In addition, it describes the number of TCP connections that are " + "in each of the possible TCP connection states.", + + "641", "Segments/sec is the rate that 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 that segments are " + "received, including those received in error. This count includes " + "segments received on currently established connections.", + + "655", "Segments Sent/sec is the rate that segments are sent, " + "including those on current connections, but excluding those " + "containing only retransmitted bytes.", + + "657", "Segments Retransmitted/sec is the rate that segments are " + "retransmitted, that is, segments transmitted containing one " + "or more previously transmitted bytes.", + + "659", "The UDP Object Type includes those counters " + "that describe the rates that UDP datagrams are " + "received and sent by a certain entity using the UDP protocol. " + "It also describes various error counts for the UDP protocol.", + + "661", "Datagrams/sec is the rate that UDP datagrams are sent or " + "received by the entity.", + + "663", "Datagrams Received/sec is the rate that 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 that 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", "Total Time (in seconds) that the computer has been operational " + "since it was last started.", + + "677", "The current number of system handles in use.", + + "679", "The number of Page Table Entries not currently in use by the " + "system.", + + "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's base priority.", + + "685", "The total elapsed time (in seconds) this process has been " + "running.", + + "695", "The current dynamic priority of this thread. " + "The system may " + "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 may " + "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", "Displays information about the system's Page File(s).", + + "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's 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's 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's 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's 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's virtual address space. " + "Executable memory is memory that can be executed by " + "programs, but may not 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's 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's 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's 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 may not 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 object type displays information about the virtual " + "address usage of the images being executed by a process 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 may not 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 may not 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 run 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", "Process Address Space object type displays details about" + " the virtual memory usage and allocation of the 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 may not 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.", + + "817", "Thread Details object contains the thread counters that " + "are time consuming to collect.", + + "819", "Cache Bytes measures the number of bytes currently in " + "use by the system Cache. The system Cache " + "is used to buffer data retrieved from disk or LAN. " + "The system Cache uses memory not in use by active " + "processes in the computer.", + + "821", "Cache Bytes Peak measures the maximum number of bytes " + "used by the system Cache. The system Cache " + "is used to buffer data retrieved from disk or LAN. " + "The system Cache uses memory not in use by active " + "processes in the computer.", + + "823", "Pages Input/sec is the number of pages read from the disk " + "to resolve memory references to pages that " + "were not in memory at the time of the reference. " + "This counter includes paging traffic on behalf of the " + "system Cache to access file data for applications. " + "This is an important counter to observe if you are concerned " + "about excessive memory pressure (that is, thrashing), and " + "the excessive paging that may result."; + +
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