Changes the execution characteristics associated with the specified process or kernel thread for the current terminal session or job. If no process is specified, changes are made to the current process. Requires GROUP privilege to change other processes in the same group. Requires WORLD privilege to change processes outside your group. Format SET PROCESS [process-name]
1 – Parameter
process-name Requires that you own the process or that you have GROUP privilege and that the process is in your group. Specifies the name of the process for which the characteristics are to be changed. Process names can be up to 23 alphanumeric characters long in the following format: [node-name::]process-name o The node name can have as many as 6 alphanumeric characters. o The colons (:) count for 2 characters. o The process name can have as many as 15 characters. A local process name can look like a remote process name; therefore, if you specify ATHENS::SMITH, the system checks for a process named ATHENS::SMITH on the local node before checking node ATHENS for a process named SMITH. The default process is the current process. Process names are unique only within a particular UIC group. You cannot specify the process name for a process outside of your group. To change the characteristics of a process outside of your group, you must use the qualifier /IDENTIFICATION=pid. The process name parameter is ignored. If you include neither the process name nor the /IDENTIFICATION qualifier, the current process is assumed.
2 – Qualifiers
2.1 /AFFINITY
/AFFINITY (Alpha/Integrity servers only) /NOAFFINITY Allows bits in the kernel thread affinity mask to be set or cleared individually, in groups, or all at once. This qualifier is mutually exclusive with the /CAPABILITY qualifier. NOTE The SET PROCESS/[NO]AFFINITY command fails if none of the specified CPUs has the capabilities required by the process. The /NOAFFINITY qualifier clears all affinity bits currently set in the current or permanent affinity masks, based on the setting of the /PERMANENT qualifier. Specifying the /AFFINITY qualifier has no direct effect, but merely indicates the target of the operations specified by the following secondary parameters: /SET=(n[,..Sets affinity for currently active CPUs defined by the CPU IDs n, where n has the range of 0 to 31. /CLEAR=(n[,Clears affinity for currently active CPUs defined by the position values n, where n has the range of 0 to 31. /PERMANENT Performs the operation on the permanent affinity mask as well as the current affinity mask, making the changes valid for the life of the kernel thread. (The default behavior is to affect only the affinity mask for the running image.) The secondary qualifiers can all be used at once as long as the affinity bits defined in the /SET and /CLEAR parameters do not overlap. The privileges required to execute the SET PROCESS/AFFINITY command match those required by the $PROCESS_AFFINITY system service. ALTPRI is the base privilege required to make any modifications, and the only privilege required to modify the current owner's kernel thread. Modifications within the same UIC group require GROUP privilege. Modifications to any unrelated kernel thread require WORLD privilege. As with the other SET PROCESS qualifiers, the bit operations occur on the current process if no /IDENTIFICATION qualifier or explicit process name parameter is specified. Specifying a process name does not imply that all kernel threads associated with the process are affected; the SET PROCESS command affects only the initial kernel thread of a multithreaded process.
2.2 /AUTO_UNSHELVE
/AUTO_UNSHELVE /NOAUTO_UNSHELVE Controls whether the process automatically unshelves files. Note that the /NOAUTO_UNSHELVE qualifier does not work across a cluster. It can be issued only for a process on the same node, including as the default case, the process from which the command is issued.
2.3 /CAPABILITY
/CAPABILITY /NOCAPABILITY Allows bits in the process user capability mask to be set or cleared individually, in groups, or all at once. This qualifier is mutually exclusive with the /AFFINITY qualifier. NOTE The SET PROCESS/[NO]CAPABILITY command fails if there is no CPU with the required set of capabilities. The /NOCAPABILITY qualifier clears all user capability bits currently set in the current or permanent capability masks, based on the setting of the /PERMANENT qualifier. Specifying the /CAPABILITY qualifier has no direct effect, but merely indicates the target of the operations specified by the following secondary qualifiers: /SET=(n[,..Sets all user capabilities defined by the position values n, where n has the range of 1 to 16. /CLEAR=(n[,Clears all user capabilities defined by the position values n, where n has the range of 1 to 16. /PERMANENT Performs the operation on the permanent user capability mask as well as the current user capability mask, making the changes valid for the life of the kernel thread. (The default behavior is to affect only the capabilities mask for the running image.) The secondary qualifiers can all be used at once as long as the user capability bits defined in the /SET and /CLEAR parameters do not overlap. The privileges required to execute the SET PROCESS/CAPABILITY command match those required by the $PROCESS_CAPABILITIES system service. ALTPRI is the base privilege required to make any modifications, and the only privilege required to modify the current owner's kernel thread. Modifications within the same UIC group require GROUP privilege. Modifications to any unrelated kernel thread require WORLD privilege. As with the other SET PROCESS qualifiers, the bit operations occur on the current process if no /IDENTIFICATION qualifier or explicit process name parameter is specified. Specifying a process name does not imply that all kernel threads associated with the process are affected; the SET PROCESS command affects only the initial kernel thread of a multithreaded process.
2.4 /CASE_LOOKUP
/CASE_LOOKUP=keyword The valid keywords for this qualifier are BLIND and SENSITIVE. HP strongly recommends that you use caution when enabling case sensitivity in your processes. See the Guide to OpenVMS File Applications for additional information.
2.5 /CLEAR
/CLEAR=(n[,...]) Clears all user capabilities or CPU affinities defined by the position values n specified by the /CAPABILITY or the /AFFINITY qualifier.
2.6 /DUMP
/DUMP[=NOW] [/ID=pid] [process-name] /NODUMP (default) Causes the contents of the address space to be written to the file named (image-name).DMP in the current default directory (where the image name is the same as the file name) when an image terminates because of an unhandled error. To specify a target process, indicate either the process ID or the process name. Using the NOW option (available on Alpha and Integrity server systems only) causes the targeted process to dump as soon as possible. This is especially useful for hung processes. You can then analyze the dump with the ANALYZE/PROCESS_DUMP utility, the Debugger, or the System Dump Analyzer (SDA).
2.7 /GLOBAL
Modifies the global cell SCH$GL_DEFAULT_PROCESS_CAP. This global cell is used to initialize the user capability mask of processes when they are started.
2.8 /IDENTIFICATION
/IDENTIFICATION=pid Requires GROUP or WORLD privilege for processes other than your own. Specifies the process identification (PID) value of the kernel thread for which characteristics are to be changed. The target process must be on the same node as the process from which the command is issued. The /IDENTIFICATION qualifier overrides the process-name parameter. The PID is assigned by the system when the process is created. When you specify a PID, you can omit the leading zeros. If you use the /IDENTIFICATION qualifier, the process-name parameter is ignored. NOTE The /IDENTIFICATION qualifier allows the SET PROCESS command to affect individual kernel thread PIDs; because each thread is a separate runnable entity, this command treats them as discrete entities in terms of affinities and capabilities.
2.9 /KERNEL_THREAD_LIMIT
/KERNEL_THREAD_LIMIT=n Changes the limit of the number of kernel threads that can be created in the process. If the value specified is higher than the SYSGEN parameter MULTITHREAD, an error message is returned. Specifying the value 0 makes the process use the system-wide limit set by the MULTITHREAD parameter.
2.10 /NAME
/NAME=string Changes the name of the current process to a string of 1 to 15 characters.
2.11 /PARSE_STYLE
/PARSE_STYLE=(keyword) Allows a user to indicate how commands are to be parsed. Setting a particular parse style tells DCL how it should handle command syntax. User programs can also examine the state of this setting if they need to use different parse rules. The valid keywords for this qualifier are TRADITIONAL and EXTENDED. These keywords are mutually exclusive and cannot be negated. If the /PARSE_STYLE qualifier is not specified, the default is the TRADITIONAL format. Keyword Explanation TRADITIONAL Indicates that commands should be examined using the (default) former (prior to Version 7.2) rules for DCL syntax. EXTENDED Indicates that commands should be examined using a (Alpha/Integsyntax that allows ODS-5 file specifications. servers only) The main differences for DCL when EXTENDED parse rules are in effect are: o Arguments to foreign commands are case preserved. You can get the command string by calling LIB$GET_FOREIGN. C/C++ programs that use the argc/argv mechanism will have unquoted arguments in lowercase unless the C Run-Time Library logical DECC$ARGV_PARSE_STYLE is set to ENABLE. When DECC$ARGV_PARSE_STYLE is enabled, case is preserved in command line arguments when the process is set up for extended DCL parsing using /PARSE_STYLE=EXTENDED. o Some characters that were previously treated as token delimiters are no longer delimiters. The pound sign (#), circumflex (^), and question mark (?) fall into this category. o A circumflex (^) is an escape character, which can be used to indicate that the next character in the command string is to be treated as if it were quoted, thereby losing its syntactic significance. EXTENDED parsing also modifies DCL's rules for parsing a parameter or qualifier that is defined as a file specification in a command's definition: o File specifications will not be in uppercase. o Any number of commas (,) may be placed between directory delimiters ([] and <>). o Directory file ID's (DIDs) can be included in the file specification. o Any number of periods (.) or semi-colons (;) may be included in the file specification. See the HP OpenVMS System Manager's Manual, Volume 1: Essentials for more information.
2.12 /PERMANENT
Performs the operation on the permanent affinity or capability mask as well as the current mask, making the changes valid for the life of the kernel thread. (The default behavior is to affect the current mask only for the running image.) The /PERMANENT qualifier is only valid in conjunction with the /CAPABILITY or the /AFFINITY qualifier.
2.13 /PRIORITY
/PRIORITY=n Requires ALTPRI (alter priority) privilege to set the priority higher than the base priority of the specified process. Changes the priority for the specified kernel thread. If you do not have the ALTPRI privilege, the value you specify is compared to your current base priority, and the lower value is always used.
2.14 /PRIVILEGES
/PRIVILEGES=(privilege[,...]) Requires SETPRV (set privilege) privilege as an authorized privilege to enable any privilege you do not have in your authorized privilege mask. Enables the following process privileges: ACNT ALLSPOOL ALTPRI AUDIT BUGCHK BYPASS CMEXEC CMKRNL DETACH DIAGNOSE DOWNGRADE EXQUOTA GROUP GRPNAM GRPPRV IMPORT LOG_IO MOUNT NETMBX OPER PFNMAP PHY_IO PRMCEB PRMGBL PRMMBX PSWAPM READALL SECURITY SETPRV SHARE SHMEM SYSGBL SYSLCK SYSNAM SYSPRV TMPMBX UPGRADE VOLPRO WORLD Use the SHOW PROCESS/PRIVILEGES command to determine what authorized privileges are enabled currently.
2.15 /RAD
/RAD=HOME=n Changes the home resource affinity domain (RAD) of a process. This command only works on the current process. RAD is supported on AlphaServer GS series systems and starting from OpenVMS Version 8.4, support is extended to NUMA capable Integrity servers.
2.16 /RESOURCE_WAIT
/RESOURCE_WAIT /NORESOURCE_WAIT Enables resource wait mode so that the process waits for resources to become available. If you specify the /NORESOURCE_ WAIT qualifier, the process receives an error status code when system dynamic memory is not available or when the process exceeds one of the following resource quotas: direct I/O (DIOLM) limit, buffered I/O (BIOLM) limit, buffered I/O byte (BYTLM) count limit (buffer space), timer queue quota, mailbox buffer quota, or pipe quota. CAUTION Disabling resource waiting should be performed with caution, as doing so can have unexpected effects on constituent sharable images and runtime libraries. See the $SETRWM service in the HP OpenVMS System Services Reference Manual for additional information.
2.17 /RESUME
Allows a process suspended by a previous SET PROCESS/SUSPEND command to resume operation. The /RESUME qualifier is equivalent to the /NOSUSPEND qualifier.
2.18 /SCHEDULING_CLASS
/SCHEDULING_CLASS="class_name" /NOSCHEDULING_CLASS Adds a process to, or removes a process from, a scheduling class. This command does not modify the permanent class scheduling database file. Therefore, the effect of this command can be viewed as temporary placement into, or removal from, a scheduling class.
2.19 /SET
/SET=(n[,...]) Sets all user capabilities or CPU affinities defined by the position values n specified by the /CAPABILITY or the /AFFINITY qualifier.
2.20 /SSLOG
/SSLOG=(STATE={ON | OFF | UNLOAD} [,COUNT=n] [,FLAGS=[NO]ARG]) Valid on Alpha and Integrity server systems only. Requires CMEXEC, CMKRNL, or SETPRV privilege to log argument values. The SYSGEN parameter SYSSER_LOGGING must be enabled or the command will fail. Enables or disables system service logging, using a log file (named SSLOG.DAT by default) to log data. Keywords are as follows: Keyword Explanation COUNT=n Specifies how many P2-space buffers to log. (Default: 2) FLAGS=[NO]ARG Specifies whether service argument values are to be logged. (Default: ARG) ARG requires CMEXEC, CMKRNL, or SETPRV privilege. STATE=state Turns system service logging on or off. Possible states are: ON Enables system service logging. OFF Disables (turns off) system service logging; logging can still be reenabled. UNLOAD Stops logging and closes the log file, which is named SSLOG.DAT by default. When enabling SSLOG for a process, you can specify the number of buffers to be used for logging. Buffers are allocated in P2 space and are charged against the process's paging file quota. Each buffer is 65,024(10) bytes or FE00(16) bytes. The buffer space remains allocated and the quota is charged until the process is deleted. Between the time when SSLOG is first enabled and when the log file is closed, logging can be stopped and resumed. Before you delete the process, you should stop all logging and close the log file. The log file does not close automatically. To analyze the log file, use the DCL command ANALYZE/SSLOG, which is described in online help and in the System Service Logging chapter of the HP OpenVMS System Analysis Tools Manual.
2.21 /SUSPEND
/SUSPEND[=SUPERVISOR] /SUSPEND=KERNEL /NOSUSPEND Requires privileges as described in text. Temporarily stops the process's activities. The process remains suspended until another process resumes or deletes it. Use the qualifiers /NOSUSPEND and /RESUME to resume a suspended process. Specify either of the following keywords with the /SUSPEND qualifier to produce different results: Keyword Explanation SUPERVISOR Specifies that the named process is to be suspended (default) to allow the delivery of asynchronous system traps (ASTs) at EXEC or KERNEL mode. Specifying this keyword is optional. KERNEL Specifies that the named process is to be suspended such that no ASTs can be delivered. To specify the KERNEL keyword, you must be in either KERNEL mode or EXEC mode, or have CMKRNL (change mode to kernel) and CMEXEC (change mode to executive) privilege enabled. Note that this was the default behavior of the SET PROCESS/SUSPEND command for versions of OpenVMS prior to VMS Version 5.0. Depending on the operation, the process from which you specify the /SUSPEND qualifier requires privileges. You must have GROUP privilege to suspend another process in the same group, unless that process has the same user identification code (UIC). You must have WORLD privilege to suspend any other process in the system. When you enter the SET PROCESS/SUSPEND=KERNEL/ID= command in a cluster environment, the KERNEL keyword is ignored if the target process and the current process reside on different cluster nodes. As a result, process suspension is handled as if you had specified the SUPERVISOR keyword (the default). Note that you can specify SET PROCESS/SUSPEND=KERNEL to override a previous SET PROCESS/SUSPEND=SUPERVISOR. SET PROCESS/SUSPEND=SUPERVISOR does not, however, override SET PROCESS/SUSPEND=KERNEL.
2.22 /SWAPPING
/SWAPPING (default) /NOSWAPPING Requires the PSWAPM (process swap) privilege to disable swapping for your process. Permits the process to be swapped. By default, a process that is not currently executing can be removed from physical memory so that other processes can execute. If you specify the /NOSWAPPING qualifier, the process is not swapped out of the balance set when it is in a wait state.
2.23 /SYMLINK
/SYMLINK=keyword Controls the behavior of all directory wildcard searches used in the RMS$SEARCH service. Note that these directory wildcards are not overridden by command qualifiers or other explicit RMS characteristics. Keyword options are: Keyword Explanation NOWILDCARD Indicates that symlinks are disabled during directory wildcard searches. WILDCARD Indicates that symlinks are enabled during wildcard searches. NOELLIPSIS Indicates that symlinks are matched for all wildcard fields except for ellipsis. ELLIPSIS Equivalent to WILDCARD (included for command symmetry). On the command line, you can set a flag to select the /SYMLINK qualifier. It uses the keywords DEFAULT, [NO]WILDCARD, [NO]ELLIPSIS, and [NO]TARGET. In addition, /SYMLINK and /NOSYMLINK without any keywords are interpreted as /SYMLINK=NOTARGET and /SYMINK=TARGET, respectively.
2.24 /TOKEN
/TOKEN=keyword Changes the maximum size of tokens (elements) in a DCL command. (A token is any element in a command line that is bounded by spaces. For example, the command COPY X.TXT Y.TXT contains three tokens.) The token size is determined by the setting of bit 1 in the DCL_CTLFLAGS system parameter. By default, the bit is clear, indicating that traditional tokens (255 bytes) are being used. If the bit is set, extended tokens (4000 bytes) are used. The corresponding keywords for /TOKEN are TRADITIONAL and EXTENDED. You can use SHOW PROCESS/TOKEN to determine the current token size setting.
2.25 /UNITS
/UNITS[=keyword] Specifies whether the amount of disk space reported by certain utilities is to be displayed in blocks or bytes. Keyword options are: Keyword Explanation BLOCKS Displays disk space in blocks. BYTES Displays disk space in bytes. Blocks is the default until /UNITS is set to BYTES. If you specify /UNITS with no keyword, disk space is reported in blocks. Displays that are affected by changing the value of /UNITS include output from certain forms of the following commands: COPY, DELETE, DIRECTORY, PURGE, SHOW DEVICE, SHOW MEMORY, and SHOW QUOTA. Note that input to these commands can be specified only in blocks. The DIRECTORY, SHOW DEVICES, and SHOW MEMORY commands have a qualifier that lets you override the default SET PROCESS/UNITS setting for a single command.
3 – Examples
1.$ SET PROCESS/PRIVILEGE=EXQUOTA The SET PROCESS command in this example assigns the current process the privilege of exceeding quotas. 2.$ SET PROCESS/NORESOURCE_WAIT The SET PROCESS command in this example disables resource wait mode for the current process. 3.$ RUN/PROCESS_NAME=TESTER CALC %RUN-S-PROC_ID, identification of created process is 0005002F $ SET PROCESS/PRIORITY=10 TESTER The RUN command in this example creates a subprocess and gives it the name TESTER. Subsequently, the SET PROCESS/PRIORITY command assigns the subprocess a priority of 10. 4.$ SHOW PROCESS/SUBPROCESS 19-APR-2001 15:17:28.41 User: DAVIS Process ID: 31900218 Node: OCALA Process name: "DAVIS" Processes in this tree: DAVIS * DAVIS_1 DAVIS_2 $ SET PROCESS/SUSPEND DAVIS_1 $ The SET PROCESS/SUSPEND command in this example suspends the process DAVIS_1 such that ASTs can be delivered to it. Because no keyword was specified, the /SUSPEND=SUPERVISOR version is assumed. 5.$ SHOW PROCESS/SUBPROCESS OCALA::TESTA 19-APR-2001 12:17:24.45 User: TESTA Process ID: 31400208 Node: OCALA Process name: "TESTA" Processes in this tree: TESTA * TESTA_1 TESTA_2 $ SET PROCESS OCALA::TESTA_2 /SUSPEND=KERNEL $ The SET PROCESS/SUSPEND=KERNEL command in this example suspends the process TESTA_2 on node OCALA such that no ASTs can be delivered to it. 6.$ SET PROCESS CPUSCHED/AFFINITY/SET=1/PERMANENT $ SET PROCESS CPUSCHED/CAPABILITY/SET=8/PERMANENT $ SHOW CPU/FULL COBRA7, a DEC 4000 Model 620 Multiprocessing is ENABLED. Streamlined synchronization image loaded. Minimum multiprocessing revision levels: CPU = 1 System Page Size = 8192 System Revision Code = System Serial Number = Default CPU Capabilities: System: QUORUM RUN Default Process Capabilities: System: QUORUM RUN PRIMARY CPU = 00 CPU 00 is in RUN state Current Process: *** None *** Serial Number: AY24870417 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. Processor is Primary Eligible. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: PRIMARY QUORUM RUN User bitmask: 00000040 Processes which can only execute on this CPU: NETACP PID = 0000008E Reason: PRIMARY Capability CPU 01 is in RUN state Current Process: CPUSCHED PID = 00000095 Serial Number: AY24870406 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: QUORUM RUN User bitmask: 00000080 Processes which can only execute on this CPU: CPUSCHED PID = 00000095 Reason: Affinitized to this CPU Reason: User capabilities - 00000080) $ SET PROCESS/NOAFFINITY/PERMANENT $ SET PROCESS/NOCAPABILITY/PERMANENT $ SHOW CPU/FULL COBRA7, a DEC 4000 Model 620 Multiprocessing is ENABLED. Streamlined synchronization image loaded. Minimum multiprocessing revision levels: CPU = 1 System Page Size = 8192 System Revision Code = System Serial Number = Default CPU Capabilities: System: QUORUM RUN Default Process Capabilities: System: QUORUM RUN CPU 00 is in RUN state Current Process: *** None *** Serial Number: AY24870417 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. Processor is Primary Eligible. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: PRIMARY QUORUM RUN User bitmask: 00000040 Processes which can only execute on this CPU: NETACP PID = 0000008E Reason: PRIMARY Capability CPU 01 is in RUN state Current Process: CPUSCHED PID = 00000095 Serial Number: AY24870406 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: QUORUM RUN User bitmask: 00000080 Processes which can only execute on this CPU: *** None *** $ SET PROCESS/NOAFFINITY/PERMANENT $ SET PROCESS/NOCAPABILITY/PERMANENT $ SHOW CPU/FULL System: EUROS, HP rx2600 (900MHz/1.5MB) SMP execlet = 3 : Enabled : Streamlined. Config tree = Version 6 Primary CPU = 0 HWRPB CPUs = 2 Page Size = 8192 Revision Code = Serial Number = US30464615 Default CPU Capabilities: System: QUORUM RUN Default Process Capabilities: System: QUORUM RUN CPU 0 State: RUN CPUDB: 8901C000 Handle: 00005D70 Owner: 000004C8 Current: 000004C8 Partition 0 (EUROS) ChgCnt: 1 State: Present, Primary, Reassignable Process: * None * Capabilities: System: PRIMARY QUORUM RUN RAD0 User: Usr2 Slot Context: 901EB000 CPU - State..........: RC, PA, PP, CV, PV, PMV, PL Type...........: Itanium Major = 31, Minor = 0 Speed..........: 900 Mhz LID............: 00000000 Variation......: IEEE FP, Primary Eligible Serial Number..: 0001a968930a1a25 Revision.......: Halt Request...: 0 Software Comp..: 7.0 PALCODE - Revision Code..: 1.1 Compatibility..: 0 Max Shared CPUs: 0 Bindings: * None * Fastpath: FGB0 PKA0 PEA0 EIA0 Features: Autostart - Enabled. Fastpath - Selection enabled as Preferred CPU. CPU 1 State: RUN CPUDB: 89163480 Handle: 00005E80 Owner: 000004C8 Current: 000004C8 Partition 0 (EUROS) ChgCnt: 1 State: Present, Reassignable Process: TEST11 PID: 20201192 Capabilities: System: QUORUM RUN RAD0 Slot Context: 901EC000 CPU - State..........: RC, PA, PP, CV, PV, PMV, PL Type...........: Itanium Major = 31, Minor = 0 Speed..........: 900 Mhz LID............: 01000000 Variation......: IEEE FP Serial Number..: 000363b4b0c5c862 Revision.......: Halt Request...: 0 Software Comp..: 7.0 PALCODE - Revision Code..: 1.1 Compatibility..: 0 Max Shared CPUs: 0 Bindings: TEST11 PID = 20201192 Reason: Affinitized to this CPU Fastpath: FGA0 EWA0 PKB0 BG0 Features: Autostart - Enabled. Fastpath - Selection enabled as Preferred CPU. $ In this example, CPU 1 has user capability 8 enabled (user mask of process CPUSCHED, and CPU affinity is set to 1. Either of these settings forces the initial kernel thread to run only on CPU 1, as shown by the SHOW PROCESS command. Then, the SET PROCESS/NOAFFINITY/NOCAPABILITY command clears all CPU affinities and user capability requirements for the initial kernel thread of process (CPUSCHED), and the binding to CPU 1 disappears. 7.$ SET PROCESS/SSLOG=(STATE=ON,COUNT=4) This command turns on system service logging with four P2 space buffers, each having a size of FE00(16) bytes. If the process has SETPRV, CMKRNL, or CMEXEC privilege, argument values are logged. 8.$ SET PROCESS/SSLOG=(STATE=UNLOAD) This command stops logging and closes the log file.