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Programming Interface Information:
The Monitor Records are intended Programming Interfaces that allow the customer to write programs to obtain services of z/VM. |
MRUSEACT
PrologControl Block Contents
Cross Reference
MRUSEACT Prolog
DSECT NAME - USEACT
FUNCTION - Map a Monitor record.
LOCATED BY -
Through the Monitor Control Area
REFERENCED CONTROL BLOCKS -
MRRECHDR Monitor Record Header
NAME - MRUSEACT
DESCRIPTIVE NAME - Monitor Sample Record
Domain 4 - User Domain
Record 3 - User Activity Data
DESCRIPTION - User activity data. Generated for each virtual
processor in a virtual configuration.
NOTES -
- For additional information about the format and meaning of
the MRUSEACT_VMUTOPDA entries in this record, knowledge of
system topology as reported by the STSI instruction is
necessary. For a description of system topology, refer to
the following book:
- Principles of Operation for the layout of the
variable length STSI 15.1.x output which is
documented in Chapter 10 under "STORE SYSTEM
INFORMATION". Anyone looking at the STSI data
in this record should read about the format of
the data and the CPU Topology Overview contained
there. (SA22-7832-08)
- To give a fuller picture of time consumed, three
sets of used processor time are reported in this
monitor record. When multithreading is enabled on
the system, all three are also reported in the Type
1 and F accounting records. Timer field names
ending with _MT1 are MT-1 Equivalent times. Timer
field names ending with _PRO are Prorated Core
Times. Timer field names without an _MT1 or _PRO
suffix contain Raw Time values.
- Raw Time is tracked for ALL users for their entire
session. Raw Time is the CPU time each virtual CPU
spent dispatched on a thread and is the CPU Timer
information provided directly by the hardware.
- MT-1 Equivalent Time is tracked for ALL users for
their entire session. This calculated CPU time
approximates the time that would have been spent
if the workload had been run with multithreading
disabled, that is, with all core resources available
to one thread. When a user is running on a system
where multithreading is not installed or not
enabled, MT-1 Equivalent Time consumed will be
identical to Raw Time. However, if a guest has
relocated from an MT-enabled system to an
MT-disabled system, the cumulative raw and MT-1
Equivalent times reported in monitor records may
differ due to the prior execution in the MT
environment.
- Prorated Core Time charges for core utilization in
a way suitable to core-based software licensing.
Time is charged by dividing the time the core was
dispatched evenly among the threads dispatched in
that interval. Since Prorated Core Time is not always
calculated, additional information
is reported regarding the Prorated Core Time values:
* The _VMAPRCAL bit indicates whether the Prorated
Core Time values in this record are valid.
When the user is relocated to any other system
(even a Multithreading aware/enabled system),
Prorated Core Time is reset. This means:
* the _VMAPRCAL bit is set based on whether the
source system will be calculating prorated core
time or not
* all _VMAxxxxx_PRO fields are reset to PFXTMMAX.
MRUSEACT Control Block Contents
Offsets Dec Hex Type Len Name (Dim) Description 0 0 Structure 912+ USEACT Start of monitor record 0 0 Character 0 USEACT_MRHDR Record header. See MRRECHDR for details. 0 0 Character 20 MRHDR 0 0 Unsigned 2 MRHDRLEN 2 2 Unsigned 2 MRHDRZER 4 4 Unsigned 1 MRHDRDM 5 5 Unsigned 1 * 6 6 Unsigned 2 MRHDRRC 8 8 Character 8 MRHDRTOD 16 10 Character 4 * 20 14 Character 0 MRHDR_END 20 14 Character 8 USEACT_VMDUSER Userid 28 1C Unsigned 2 USEACT_VMDCPUAD Processor ID/CPU address of virtual processor 30 1E Bitstring 1 USEACT_VMDMODE Guest machine mode. This is as set for internal use by CP. See USEACT_CALMODE for the mode 'calculated' at. 31 1F Bitstring 1 USEACT_CALMODE Architectural mode of the virtual machine 1... .... * .1.. .... USEACT_CALMESA ESA architecture ..1. .... USEACT_CALMXA XA architecture ...1 .... USEACT_CALM370 370 architecture .... 1... USEACT_CALMXC XC architecture .... .1.. USEACT_CALMESAM Machine has entered z/Arch mode. .... ..1. USEACT_CALVARCH Guest's virtual architecture is not the same as the system's real architecture .... ...1 USEACT_CALMZONL z/Architecture-only 32 20 Bitstring 1 USEACT_VMDSLIST Scheduling list that the user is in: X'37' = Dispatch List. X'21' = Eligible List. X'0B' = Dormant List. X'00' = user is not in any list. 33 21 Unsigned 1 USEACT_VMDELIST Class number (0,1,2,or 3) of the scheduling list the user is in 34 22 Bitstring 1 USEACT_CALFLAG1 Flag byte 1... .... USEACT_CALBASE If on, this is the base VMDBK. VMDBASE .1.. .... USEACT_VMDQDSPU This user has the QUICKDSP designation, as set or defaulted by the SET QUICKDSP command. When the user has work to do, it will be added to the dispatch list immediately without waiting in the eligible list. ..1. .... USEACT_CALDIAL This user is a dialed user ...1 .... USEACT_CALSNA This user is connected through System Network Architecture (SNA) .... 1... USEACT_VMDNOINS User is prevented from inserting any tracks into the minidisk cache. (set when SET MDC INS OFF command is issued) .... .1.. USEACT_VMDNOFSL No MDC fair share limit applies. Set at LOGON if the NOMDCFS option is specified on the OPTIONS statement in the user's directory. .... ..1. USEACT_VMDMASST Collaborative Memory Management assist enabled. .... ...1 USEACT_VMDMAACT Collaborative Memory Management assist is active, i.e. in use by this virtual machine. Note: This guest may be in a pending off state if either a global or per-user SET MEMASSIST OFF has been issued (SYSMASST or VMDMASST is off). This indicates that the system or user setting was turned off after the guest started using the assist. The assist will remain active (USEACT_VMDMAACT=1) and available to this guest until the next virtual machine reset or IPL. 35 23 Bitstring 1 USEACT_VMDSTYPE Storage type this virtual machine resides in. X'00' => V=V. X'80' => Reserved and no longer available. X'40' => V=F. 36 24 Character 8 USEACT_VMDTTIME Total Raw Time which has been expended on this VMDBK. This includes time which the VMDBK spent doing its own work and also time which CP spent doing work on behalf of the VMDBK. It is in CPU timer format. The complement of this field is the elapsed time in TOD clock units. 44 2C Character 8 USEACT_VMDVTIME Total Raw Time that this user was running and doing productive work. It does NOT include any time that CP spends on behalf of that user doing such things as instruction simulation or page translation. This is in CPU timer format. The complement of this field is the elapsed time in TOD clock units. 52 34 Character 8 * Reserved for IBM use Previous field is no longer meaningful. (USEACT_VMDVFVTM) 60 3C Character 8 * Reserved for IBM use Previous field is no longer meaningful. (USEACT_VMDVFOTM) 68 44 Unsigned 4 USEACT_VMDCTPVR Cardinal count of resident pages in private address spaces belonging to this user. This monitor field is actually the sum of VMDCTPVR + VMDCTPVG. To get the count of resident pages below the 2GB line, subtract USEACT_VMDCTPVG from USEACT_VMDCTPVR. 72 48 Unsigned 4 USEACT_VMDCTPVL Cardinal count of locked pages in private address spaces <2G belonging to this user. See USEACT_VMDCTPVLA for the >2G value. 76 4C Unsigned 4 USEACT_VMDWSSPR This user's projected working set size. This is the scheduler's estimate of the amount of storage this user will require to be resident as it runs during its next stay in the dispatch list. It is based upon the user's past behavior and in some cases, on the behavior of similar types of users. 80 50 Unsigned 4 * Reserved for IBM use - was USEACT_VMDCTXBK 84 54 Unsigned 4 * Reserved for IBM use - was USEACT_CALXSTOR 88 58 Unsigned 4 USEACT_VMDCTFLT Count of host segment and page faults on guest pages which occurred while running this virtual CPU. It does not include faults on RCP pages. 92 5C Unsigned 4 * Reserved for IBM use Previous field is no longer meaningful. (USEACT_VMDCTVFL) 96 60 Unsigned 4 * Reserved for IBM use - was USEACT_VMDFLREO 100 64 Unsigned 4 * Reserved for IBM use - was USEACT_VMDCTORF 104 68 Unsigned 4 USEACT_CALCTPGS Cardinal count of non-preferred paging slots for private address spaces belonging to this user. 108 6C Unsigned 4 * Reserved for IBM use 112 70 Unsigned 4 USEACT_VMDCTPWT Count of outstanding paging and spooling I/O's for this user 116 74 Unsigned 4 USEACT_CALCPPGR Cumulative count of pages read from DASD to main storage for this user's address spaces while they were private. 120 78 Unsigned 4 USEACT_CALCPPGW Cumulative count of pages written from main storage to DASD for this user's address spaces while they were private. 124 7C Unsigned 4 USEACT_VMDCTSPR Number of times I/O was issued for a spool read request 128 80 Unsigned 4 USEACT_VMDCTSPW Number of times I/O was issued for a spool write request 132 84 Unsigned 4 USEACT_VMDPGSPL Number of pages spooled for this user. This includes the pages spooled for the virtual reader, printer, punch, console, dump, and trace files. 136 88 Unsigned 4 USEACT_VMDVCSCT Cumulative count of virtual SSCH requests to the virtual machine console 140 8C Unsigned 4 USEACT_VMDVDSCT Cumulative count of virtual SSCH requests the virtual machine has issued to DASD devices 144 90 Unsigned 4 USEACT_VMDVUSCT Cumulative count of virtual SSCH requests to virtual Unit Record devices 148 94 Unsigned 4 USEACT_VMDVTSCT Cumulative count of virtual SSCH requests to virtual channel-to-channel adapters 152 98 Unsigned 4 USEACT_VMDVOSCT Cumulative count of virtual SSCH requests to devices other than console, DASDs, CTCAs, and unit records. (see USEACT_VMDVCSCT, USEACT_VMDVDSCT, USEACT_VMDVUSCT, and USEACT_VMDVTSCT) 156 9C Unsigned 4 USEACT_CALCPPST Cumulative count of pages reclaimed from this user's address spaces while they were private. 160 A0 Unsigned 4 USEACT_VMDISEVM Number of times IUCV data was successfully transferred by this virtual complex. (SENDs and REPLYs with RC=0 when this virtual machine is the source). Not valid in the SYSTEM VMDBK. Valid only in base VMDBK. 164 A4 Unsigned 4 USEACT_VMDISTVM Number of times IUCV data was successfully transferred to this virtual complex. (SENDs and REPLYs with RC=0 when this virtual machine is the target). Not valid in the SYSTEM VMDBK. Valid only in base VMDBK. 168 A8 Unsigned 4 USEACT_VMDISUVM Number of times IUCV data was NOT successfully transferred by this virtual complex. (SENDs and REPLYs with RC^=0 when this virtual machine is the source). Not valid in the SYSTEM VMDBK. Valid only in base VMDBK. 172 AC Unsigned 4 USEACT_VMDVSEVM Number of times VMCF data was successfully transferred by this virtual machine. (SENDs SENDXs, SEND/RECEIVEs, and REPLYs with RC=0 and this virtual machine is source.) 176 B0 Unsigned 4 USEACT_VMDVSTVM Number of times VMCF data was successfully transferred to this virtual machine. (SENDs SENDXs, SEND/RECEIVEs, and REPLYs with RC=0 and this virtual machine is target.) 180 B4 Unsigned 4 USEACT_VMDVSUVM Number of times VMCF data was NOT successfully transferred by this virtual machine. (SENDs SENDXs, SEND/RECEIVEs, and REPLYs with RC^=0 and this virtual machine is source.) 184 B8 Signed 4 USEACT_CALIUCVS Cardinal count of messages on the IUCV SEND queue. The SEND queue consists of messages sent to this user either by another user or by a CP System Service. Note: A zero value may mean that the data could not be obtained as well as that there weren't any messages. 188 BC Signed 4 USEACT_CALIUCVR Cardinal count of messages on the IUCV RECEIVE queue which consists of messages this user has received from other users or CP System Services, but has not yet replied to. Note: A zero value may mean that the data could not be obtained as well as that there were not any messages. 192 C0 Signed 4 USEACT_CALIUCVY Cardinal count of messages on the IUCV REPLY queue which consists of replies to messages this user sent either to other users or to CP System Services. Note: A zero value may mean that the data could not be obtained as well as that there were not any messages. 196 C4 Signed 4 USEACT_CALVMCF Cardinal count of messages on the VMCF queue. Note: A zero value may mean that the data could not be obtained as well as that there were not any messages. 200 C8 Unsigned 4 USEACT_VMDX98CT Cumulative number of times Diagnose X'98' was issued by this virtual machine 204 CC Unsigned 4 * Reserved for IBM use - was USEACT_CALCPMIG 208 D0 Unsigned 4 * Reserved for IBM use - was USEACT_CALCPXWT 212 D4 Unsigned 4 * Reserved for IBM use - was USEACT_CALCPXRD 216 D8 Unsigned 2 USEACT_VMDASMCT Cardinal number of non-base address spaces owned by this user. 218 DA Bitstring 1 USEACT_CALSHARF Set Share flags 1... .... USEACT_VMDMXSHA Max share is Absolute if ON. Max share is Relative if OFF. .1.. .... USEACT_VMDSTOP This virtual CPU is in soft stop ..1. .... USEACT_VMDSTOPD This virtual CPU is stopped ...1 .... * .... 1... * .... .1.. * .... ..1. USEACT_VMDLIMTH Max Share is Limithard if ON. Max Share is Limitsoft if OFF. .... ...1 * 219 DB Bitstring 1 USEACT_LCLFLAGS General flags 1... .... USEACT_RELO1 Indicates this is first record since a live guest relocation occurred .1.. .... USEACT_VMDREOFL Reorder is always off ..1. .... USEACT_VMDVVECT Vector regs in use ...1 .... * .... 1... * .... .1.. * .... ..1. * .... ...1 * 220 DC Unsigned 4 USEACT_VMDBLKCT Count of SSCH's issued by BLOCKIO system service (includes both read and write requests) 224 E0 Unsigned 4 USEACT_VMDMDCIA Count of SSCH's avoided due to Minidisk Cache read hit 228 E4 Unsigned 4 * Reserved for IBM use Previous field is no longer meaningful. (USEACT_VMDCOPCT) 232 E8 Unsigned 4 USEACT_VMDCTISO Number of times ISOLATE occurred for spaces owned by this virtual system. Valid only in base VMDBK 236 EC Unsigned 4 USEACT_VMDRELSH This virtual CPU's RELATIVE share of the system, as set in the user's directory or via the SET SHARE command. Set to zero when this VMDBK has an ABSOLUTE share value, or has a virtual processor dedicated to it, or is in the process of being logged off. Note that if the USEACT_VMDSTOP bit is ON, this virtual CPU share value should not be included when calculating the user's share value. 240 F0 Unsigned 4 USEACT_VMDABSSH This virtual CPU's ABSOLUTE share of the system, as set in the user's directory or via the SET SHARE command. Unit of value is a hexadecimal factor scaled 16 bits. For example, X'00010000' = 1.00(100%), X'0000C000' = 0.75(75%), X'00008000' = 0.50(50%), etc. Set to zero when this VMDBK has a RELATIVE share value. Note that if the USEACT_VMDSTOP bit is ON, this virtual CPU share value should not be included when calculating the user's share value. 244 F4 Unsigned 4 USEACT_VMDSSIZE Virtual machine size, in bytes. This field is kept for compatability reasons, but may not be accurate for z/Arch systems where larger virtual machines are valid. The preferred field is USEACT_ASCDEFSZ 248 F8 Unsigned 4 USEACT_VMDMXRVP Number of pages reserved for the user 252 FC Character 8 USEACT_VMDACTNO User accounting number 260 104 Character 8 USEACT_VMDGRPN RACF ACI group name 268 10C Character 8 USEACT_CALTODON Time at which the user logged on for this session. In time-of-day (TOD) clock format. To get the user's connect time, subtract this time value from the time stamp in the record header's MRHDRTOD. 276 114 Unsigned 4 USEACT_VMDVDISK Cumulative count of virtual SSCH requests to virtual disk in storage. 280 118 Unsigned 4 USEACT_VMDMXSHR The virtual CPU's Max share of the system, as set in the user's directory or via the SET SHARE command. This value is set to zero if no Max share exists. If the Max share is Absolute, then the unit of the value is a hexadecimal factor scaled 16 bits. For example, X'00010000' = 1.00(100%), X'0000C000' = 0.75(75%), X'00008000' = 0.50(50%), etc. Check USEACT_VMDMXSHA to determine if Max share is absolute or relative. Note that if the USEACT_VMDSTOP bit is ON, this virtual CPU share value should not be included when calculating the user's share value. 284 11C Unsigned 4 USEACT_VMDTHRCT Total number of times this user was delayed doing I/O to a throttled device 288 120 Unsigned 2 USEACT_IUCTOTCN Total number of connections for IUCV. Valid only for base VMDKBK 290 122 Unsigned 2 USEACT_IUCMXCN Maximum number of connections from the MAXCONN directory option or the system default. 292 124 Unsigned 4 USEACT_VMDCTPVG Count of private address space resident pages in DPA owned by this virtual machine which are >= 2G. Valid only in base VMDBK. 296 128 Character 8 USEACT_ASCDEFSZ Defined storage size in addressable bytes, minus one. If DEF STOR CONFIG was used to define multiple discontiguous extents of addressable defined storage, this field contains the sum of the sizes in bytes of all of the individual extents (minus one). The minus one notation is used so that a total size of 16 Exabytes may be represented without ambiguity (as x'FFFFFFFF_FFFFFFFF'). 296 128 Character 4 USEACT_CALDEFHI high four bytes 300 12C Character 4 USEACT_CALDEFLO low four bytes 304 130 Unsigned 4 USEACT_VMDMVB2G Number of times page translation moved a page on behalf of this us user from a frame with address >= 2GB to one < 2GB. This field is only valid in the base VMDBK. 308 134 Bitstring 1 USEACT_IPQF0 I/O priority flag byte. See CP SET IOPRIORITY command for description of absolute and relative ranges. Valid only in base VMDBK. 1... .... USEACT_IPQRELRG Using a relative range. Valid only in base VMDBK. .1.. .... USEACT_IPQABSRG Using an absolute range. Valid only in base VMDBK. ..1. .... USEACT_IPQGSSC Guest requested I/O subsystem details which includes I/O priority facility status. This usually indicates that the guest is I/O priority aware. Valid only in base VMDBK. ...1 .... * .... 1... * .... .1.. * .... ..1. * .... ...1 * 309 135 Unsigned 1 USEACT_IPQRQLO I/O priority requested range low value. See CP SET IOPRIORITY command for description of requested and effective I/O priority values. Valid only in base VMDBK. 310 136 Unsigned 1 USEACT_IPQRQHI I/O priority requested range high value. Valid only in base VMDBK. 311 137 Unsigned 1 USEACT_IPQEFLO I/O priority effective range low value. Valid only in base VMDBK. 312 138 Unsigned 1 USEACT_IPQEFHI I/O priority effective range high value. Valid only in base VMDBK. 313 139 Unsigned 1 USEACT_CALMNEST When configuration-topology facility is installed, this is the selector 2 (x) value used by CP on STSI 15.1.x to obtain CPU topology information. When the configuration-topology facility is not installed, this contains a value of 1. This value is used to determine the number of valid entries in the USEACT_VMUPLTL, USEACT_VMUVMTL, and USEACT_VMUSTLTL arrays. 314 13A Character 2 * Reserved and available for IBM use. 316 13C Unsigned 4 USEACT_IPQDSKIP Count of times that a DASD I/O request was out-prioritized by another virtual machine's I/O. Valid only in base VMDBK. 320 140 Unsigned 4 USEACT_VEBALERT Number of alert interruptions Collected only for base VMDBK. 324 144 Unsigned 4 USEACT_VEBTVSCT Number of interceptions for guest TVS instructions Collected only for base VMDBK. 328 148 Unsigned 4 USEACT_VEBSVSCT Number of interceptions for guest SVS instructions Collected only for base VMDBK. 332 14C Unsigned 4 USEACT_VEBTPIAI Number of adapter interruptions delivered via guest TPI Collected only for base VMDBK. 336 150 Unsigned 4 USEACT_VEBVIRAI Number of adapter interruptions stacked for guest by CP Collected only for base VMDBK. 340 154 Unsigned 4 USEACT_VEBHDWAI Number of adapter interruptions delivered to guest inside SIE Collected only for base VMDBK. 344 158 Character 8 USEACT_VMDCTPVLA Cardinal count of locked pages in private address spaces >2G belonging to this user. See USEACT_VMDCTPVL for the <2G value. 352 160 Unsigned 4 USEACT_VMDCTSHL Count of shared address space resident pages <2G. Valid only in the SYSTEM VMDBK. 356 164 Character 8 USEACT_VMDCTSHLA Count of shared address space resident pages >2G. Valid only in the SYSTEM VMDBK. 364 16C Unsigned 4 USEACT_VMDUFOLKCT Total count of times UFO list lock has gone into the formal spin routine when attempting to get the lock in exclusive mode 368 170 Character 8 USEACT_VMDUFOLKTM Total elapsed spin time on UFO list lock when attempting to get it in exclusive mode, starting at zero and counting up 376 178 Unsigned 4 * Reserved for IBM use - was USEACT_VMDTMORD 380 17C Unsigned 4 USEACT_VMDPBKCT Count of PGMBKs that are currently on the PGMBK List 384 180 Unsigned 4 * Reserved for IBM use - was USEACT_VMDCRPGM 388 184 Unsigned 4 * Reserved for IBM use - was USEACT_VMDCUPGM last reorder 392 188 Unsigned 1 USEACT_VMDPUTYP CPU Type. Valid values: X'00' - General Purpose (CP) X'02' - zSeries Application Assist (zAAP) X'03' - Integrated Facility for Linux (IFL) X'04' - Internal Coupling Facility (ICF) X'05' - zSeries Integrated Information (zIIP) 393 189 Bitstring 1 USEACT_VMDCFGEM Virtual configuration indicators. Valid in base VMDBK only 1... .... * .1.. .... USEACT_VMDCPUAF User requested CPU Affinity ..1. .... * ...1 .... * .... 1... * .... .1.. * .... ..1. * .... ...1 * 394 18A Bitstring 1 USEACT_VMDPUST CPU Status flag 1... .... USEACT_VMDAFSUP CPU Affinity suppressed .1.. .... * ..1. .... * ...1 .... * .... 1... * .... .1.. * .... ..1. * .... ...1 * 395 18B Character 1 * Reserved for IBM use 396 18C Character 8 USEACT_VMDVTMP Total raw virtual time for user on primary processor 404 194 Character 8 USEACT_VMDTTMP Total raw virtual and simulation time for the user on primary processor 412 19C Character 8 USEACT_VMDVTMS Total raw virtual time for user on secondary processor 420 1A4 Character 8 USEACT_VMDTTMS Total raw virtual and simulation time for the user on secondary processor 428 1AC Unsigned 4 USEACT_VMDCACHN Number of minidisk cache inserts 432 1B0 Unsigned 4 USEACT_VMDCTSTA Count of times this virtual CPU has been started by one of the following methods: -SIGP START -SIGP RESTART -Begin Command 436 1B4 Unsigned 4 USEACT_VMDCTSTO Count of times this virtual CPU has been stopped by one of the following methods: -SIGP STOP -SIGP STOP AND STORE STATUS -SIGP INITIAL CPU RESET -SIGP CPU RESET -STOP Command 440 1B8 Unsigned 4 USEACT_VMDLKTOT Cumulative count of times this user has issued the LINK command. Valid only in base VMDBK. 444 1BC Unsigned 4 USEACT_VMDLKPLX Cumulative count of times this user has issued the LINK command and consulted with the SSI. Valid only in base VMDBK. 448 1C0 Character 8 USEACT_VMDLKTOD Total virtual time for LINK commands to consult with the SSI. Valid only in base VMDBK. 456 1C8 Unsigned 4 USEACT_VMDDTTOT Cumulative count of times this user has issued the DETACH command. Valid only in base VMDBK. 460 1CC Unsigned 4 USEACT_VMDDTPLX Cumulative count of times this user has issued the DETACH command and consulted with the SSI. Valid only in base VMDBK. 464 1D0 Character 8 USEACT_VMDDTTOD Total virtual time for DETACH commands to consult with the SSI. Valid only in base VMDBK. 472 1D8 Unsigned 4 USEACT_VMDWKTOT Cumulative count of times this user has used WRKALLEG (SET WRKALLEG, DASDOPT WRKALLEG or MINIOPT WRKALLEG). Valid only in base VMDBK. 476 1DC Unsigned 4 USEACT_VMDWKPLX Cumulative count of times this user has used WRKALLEG (SET WRKALLEG, DASDOPT WRKALLEG or MINIOPT WRKALLEG) and consulted with the SSI. Valid only in base VMDBK. 480 1E0 Character 8 USEACT_VMDWKTOD Total virtual time for WRKALLEG use to consult with the SSI. Valid only in base VMDBK. 488 1E8 Character 8 USEACT_VMDRLLST Time stamp of last relocation of this user. Only valid if USEACT_RELO1 is ON. 496 1F0 Character 8 USEACT_RDMNAME Name of the guest's relocation domain 504 1F8 Bitstring 4 USEACT_RDMMMASK Relocation domain's member mask - bit mask that indicates the slots of SSI members that are included in this guest's domain. (Bit 0 means SSI slot 1) 508 1FC Unsigned 4 USEACT_VMUNRBAL Cumulative count of the number of configuration rebalances. Valid only in base VMDBK. 512 200 Unsigned 1 USEACT_VMUTOPNE Number of elements that fit in the USEACT_VMUTOPDA array. 513 201 Unsigned 1 USEACT_VMUTOPNS The size in bytes of one element of the USEACT_VMUTOPDA array. 514 202 Unsigned 1 USEACT_VMUTOPDX Zero-based index into the circular array called USEACT_VMUTOPDA. This field indicates which element is the most recently updated of the ten. A value of zero indicates the first array element is the latest. A value of one indicates the second element is the latest and so on. 515 203 Unsigned 1 USEACT_MAXTOPO Maximum number of topology levels currently architected. The value should be used for array size calculation for the following fields: USEACT_VMUPLTL, USEACT_VMUVMTL, USEACT_VMUSTLTL. 516 204 Unsigned 2 USEACT_OFFPLTL Offset within this record to the USEACT_VMUPLTL array. 518 206 Unsigned 2 USEACT_OFFVMTL Offset within this record to the USEACT_VMUVMTL array. 520 208 Unsigned 2 USEACT_OFFSTLTL Offset within this record to the USEACT_VMUSTLTL array. 522 20A Unsigned 2 USEACT_OFFTOPDA Offset within this record to the USEACT_VMUTOPDA array. 524 20C Unsigned 4 USEACT_VMUREBAL The value of RCCREBAL (the count of the number of times a rebalance was done on this system) at the time of the most recent rebalance. 528 210 Unsigned 2 USEACT_VMDSTLFC Steal weight factor. Used to determine the level of aggressiveness in reclaiming frames from this user. Valid only for the base VMDBK. 530 212 Unsigned 2 USEACT_VMDSTFHW Steal weight factor high wat mark. Valid only for the base VMDBK. 532 214 Unsigned 4 USEACT_VMDUFACTC The length (in frames) of the active section of the UFO. Valid only for the base VMDBK. 536 218 Unsigned 4 USEACT_VMDUFIBRC The length (in frames) of the IBR section of the UFO. Valid only for the base VMDBK. 540 21C Unsigned 4 USEACT_CALCTINS Cardinal count of private instantiated pages. Valid only for the base VMDBK. 544 220 Unsigned 4 USEACT_CALCTIBRB2G Cardinal count of private IBR pages on the UFO that are backed by frames < 2G. Valid only for the base VMDBK. 548 224 Unsigned 4 USEACT_CALCTIBRA2G Cardinal count of private IBR pages on the UFO that are backed by frames > 2G. Valid only for the base VMDBK. 552 228 Unsigned 4 USEACT_CALCTAGLB2G Cardinal count of private IBR pages on the global aging list that are backed by frames < 2G. Valid only for the base VMDBK. 556 22C Unsigned 4 USEACT_CALCTAGLA2G Cardinal count of private IBR pages on the global aging list that are backed by frames > 2G. Valid only for the base VMDBK. 560 230 Unsigned 4 USEACT_CALCTRABISB2G Cardinal count of priva non-faulted pages read in by a block read, made IBR, currently on the UFO or the global aging list, and backed by frames < 2G. Valid only for the base VMDBK. 564 234 Unsigned 4 USEACT_CALCTRABISA2G Cardinal count of priva non-faulted pages read in by a block read, made IBR, currently on the UFO or the global aging list, and backed by frames > 2G. Valid only for the base VMDBK. 568 238 Unsigned 4 USEACT_CALCPINT Cumulative count of private instantiated pages. Valid only for the base VMDBK. 572 23C Unsigned 4 USEACT_CALCPREL Cumulative count of private pages whose frames were reclaimed without preserving page content because of the guest page state (that is, the collaborative memory management state or because the contents was released by the guest via DIAG x10 or Diag x214) Valid only for the base VMDBK. 576 240 Unsigned 4 USEACT_CALCPINV Cumulative count of private pages made IBR. Valid only for the base VMDBK. 580 244 Unsigned 4 USEACT_CALCPPFI Cumulative count of private IBR pages revalidated while on the UFO. Valid only for the base VMDBK. 584 248 Unsigned 4 USEACT_CALCPPFA Cumulative count of private IBR pages revalidated while on the global aging list. Valid only for the base VMDBK. 588 24C Unsigned 4 USEACT_CALCPFRY Cumulative count of private IBR pages on the global aging list that were already backed on auxiliary before the frames needed to be reclaimed. Valid only for the base VMDBK. 592 250 Unsigned 4 USEACT_CALCPFNR Cumulative count of private IBR pages on the UFO list that were written to auxiliary storage immediately before the frames were reclaimed. Valid only for the base VMDBK. 596 254 Unsigned 4 * Reserved for IBM use - was USEACT_CALCPXRL 600 258 Unsigned 4 USEACT_VMDDSRSV Cumulative count of times demand scan could not move any frames from the UFO to the global aging list because it would violate the user's SET RESERVED setting. Valid only for the base VMDBK. 604 25C Unsigned 4 USEACT_VMDWASTE Cumulative count of times page faults occurred for private pages on the global aging list that were already written to auxiliary storage. Valid only for the base VMDBK. 608 260 Unsigned 4 * Reserved for IBM use - was USEACT_CALCTXBK 612 264 Character 8 USEACT_LIMPOOL CPU pool name that the user is assigned to. 620 26C Character 8 USEACT_VMDTTIME_MT1 Total MT-1 Equivalent time which has been expended on this VMDBK. This includes time which the VMDBK spent doing its own work and also time which CP spent doing work on behalf of the VMDBK. It is in CPU timer format. 628 274 Character 8 USEACT_VMDVTIME_MT1 Total MT-1 Equivalent time that this user was running and doing productive work. It does NOT include any time that CP spends on behalf of that user doing such things as instruction simulation or page translation. This is in CPU timer format. 636 27C Character 8 USEACT_VMDVTMP_MT1 MT-1 Equivalent virtual time for the user on primary processor. 644 284 Character 8 USEACT_VMDTTMP_MT1 MT-1 Equivalent total virtual and simulation time for the user on primary processor. 652 28C Character 8 USEACT_VMDVTMS_MT1 MT-1 Equivalent total virtual time for the user on secondary processor. 660 294 Character 8 USEACT_VMDTTMS_MT1 MT-1 Equivalent total virtual and simulation time for the user on secondary processor. 668 29C Character 8 USEACT_VMATTIME_PRO Total Prorated Core Time which has been expended on this VMDBK. This includes time which the VMDBK spent doing its own work and also time which CP spent doing work on behalf of the VMDBK. It is in CPU timer format. See the notes above. 676 2A4 Character 8 USEACT_VMAVTIME_PRO Total Prorated Core Time that this user was running and doing productive work. It does not include any time that CP spends on behalf of that user doing such things as instruction simulation or page translation. This is in CPU timer format. See the notes above. 684 2AC Character 8 USEACT_VMAVTMP_PRO Total Prorated Core virtual time for user on primary processor. See the notes above. 692 2B4 Character 8 USEACT_VMATTMP_PRO Total Prorated Core virtual and simulation time for the user on primary processor. See the notes above. 700 2BC Character 8 USEACT_VMAVTMS_PRO Total Prorated Core virtual time for user on secondary processor. See the notes above. 708 2C4 Character 8 USEACT_VMATTMS_PRO Total Prorated Core virtual and simulation time for the user on secondary processor. See the notes above. 716 2CC Unsigned 4 * Reserved for IBM use 720 2D0 Bitstring 1 USEACT_PROBITS Prorated Core Time bits needed to understand those fields. 1... .... USEACT_VMAPRCAL Indicates whether the Prorated Core Time values in this record are valid. (only use if valid) 0 = values not valid 1 = values are valid .1.. .... * ..1. .... * ...1 .... * .... 1... * .... .1.. * .... ..1. * .... ...1 * 721 2D1 Unsigned 1 * Reserved for IBM use 722 2D2 Unsigned 2 * Reserved for IBM use
HOST SHARE IPTE INTERLOCK STATISTICS There are two sets of IPTE Interlock statistics, each of which is stored as a self-consistent set. The first set is a quintuple relating to Interlock wait and acquisition times. It comprises: CAL_VMAIPTEI, VMAIIA, VMAIIADD, VMAIIWTM and VMAIIWTSSQ. Derived from this are two triples from which we can calculate the mean and variance of host interlock acquisition wait times per interlock acquisition: 1) For Interlock acquisitions using method 1 use: CAL_VMAIPTEI (total IPTE Interlock acquisitions using method 1) VMAIIWTM (accumulated time waiting for the interlock using method 1 or 2) VMAIIWTSSQ (accumulated sum of squares of time waiting for the interlock using method 1 or 2) 2) For interlock acquisitions using method 2 use: VMAIIA (total IPTE interlock acquisitions using method 2) VMAIIWTM (accumulated time waiting for the interlock using method 1 or 2) VMAIIWTSSQ (accumulated sum of squares of time waiting for the interlock using method 1 or 2) It is important to note that VMAIIA=0 when method 1 is in use. When method 2 is used then VMAIIA=CAL_VMAIPTEI. Sums of wait times, squares of wait times, hold times and squares of hold times are accumulated for one method only. The remaining metric, VMAIIADD, is incremented whenever an interlock acquisition is granted and a host share is already held. It may be used with the total number of Interlock acquisitions to calculate the mean number of additional host shares per initial host interlock acquisition where its host share is not held already. To make this calculation, VMAIIADD and CAL_VMAIPTEI (or VMAIIA) are summed across all virtual CPUs. See note below about calculating mean and variance of hold times. Thus: delta-VMAIIADD/(delta-VMAIPTEI - delta-VMAIIADD) provides the desired mean. The second set is a triple relating to Interlock hold time. It comprises: CAL_VMAIINHLD, VMAIIHLD and VMAIIHDSSQ. These three values are used to calculate the mean and variance of the intervals over which the IPTE Interlock was continuously held by the host. Because an IPTE Interlock continuous-hold interval may begin on one logical CPU and terminate on another then the three values should be summed over all virtual CPUs of the virtual configuration before calculating mean and variance. Fields that provide sums of times are expressed in TOD units; and those that provide sums of squares of times are expressed in TOD-units-squared. If we carry out of the high-order bit position when calculating any component of the two tuples then the entire tuple affected is reset to zero. The only time any metric component within a tuple is observed not to increase monotonically between successive sample records is where the tuple has been reset. In all cases the recorded tuple is self-consistent. A tuple may be used as the base from which to calculate a delta from the previous sample provided each component value in that tuple is greater than or equal to the corresponding component of the previous sample's tuple.
Offsets Dec Hex Type Len Name (Dim) Description 724 2D4 Unsigned 4 USEACT_CAL_VMAIPTEI Total count of IPTE Interlock acquisitions using methods 1 and 2. 728 2D8 Unsigned 4 USEACT_VMAIIA Count of IPTE Interlock acquisitions using method 2. 732 2DC Unsigned 4 USEACT_VMAIIADD Count of times IPTE Interlock was acquired as an additional host share. 736 2E0 Character 8 USEACT_VMAIIWTM Cumulative amount of time spent waiting for IPTE Interlock acquisition. 744 2E8 Character 16 USEACT_VMAIIWTSSQ Sum of squared time spent waiting for IPTE Interlock acquisition. 760 2F8 Unsigned 4 USEACT_CAL_VMAIINHLD Count of intervals over which one or more host shares of and IPTE Interlock were continuously held. 764 2FC Character 8 USEACT_VMAIIHLD Cumulative amount of time over which one or more of host shares of an IPTE Interlock were continuously held. 772 304 Character 16 USEACT_VMAIIHDSSQ Sum of squared time over which one or more of the host shares of an IPTE Interlock were continuously held.
The following fields are statistics gathered by the dispatcher about how long a VMDBK has been dispatched and how long the VMDBK had to wait to be dispatched once it was ready to consume CPU time. The deltas of these fields between monitor intervals can be used to determine average dispatch time and average wait times, and using the sum of squares, the standard deviations of those time samples.
Offsets Dec Hex Type Len Name (Dim) Description 788 314 Unsigned 4 USEACT_CALDWTCT Count of the number of times this VMDBK became ready to be dispatched (unsigned fullword). This is calculated using VMUDWTCT. 792 318 Character 8 USEACT_VMUDWTETM Accumulated elapsed time between when this VMDBK became ready to be dispatched and when it was dispatched (unsigned doubleword in microseconds) 800 320 Character 16 USEACT_VMUDWTTSQ Sum of the squares of the individual elapsed time samples which comprise USEACT_VMUDWTETM (unsigned quadword in squared microseconds) Note: Use deltas of USEACT_CALDWTCT, USEACT_VMUDWTETM, and this field to calculate the average amount of elapsed time this VMDBK waited to be dispatched once it became ready, and the standard deviation of those time samples. 816 330 Unsigned 4 USEACT_CALDSPCT Count of the number of times this VMDBK was dispatched (unsigned fullword). This is calculated using VMUDSPCT. Note: This count can be used with both the dispatched times and the USEACT_VMDTTIME values as those are all calculated at the same moment. 820 334 Character 8 USEACT_VMUDSPETM Accumulated elapsed time during which this VMDBK was dispatched (unsigned doubleword in microseconds) 828 33C Character 16 USEACT_VMUDSPTSQ Sum of the squares of the individual elapsed time samples which comprise USEACT_VMUDSPETM (unsigned quadword in squared microseconds) Note: Use deltas of USEACT_CALDSPCT, USEACT_VMUDSPETM, and this field to calculate the average amount of elapsed time this VMDBK was dispatched, and the standard deviation of those time samples. 844 34C Character 16 USEACT_VMUTTIMSQ Sum of the squares of the individual CPU timer samples added to VMDTTIME at undispatch (unsigned quadword in squared TOD clock units) Note: Use deltas of USEACT_CALDSPCT, USEACT_VMDTTIME and this field to calculate the average amount of CPU time this VMDBK consumed while it was dispatched, and the standard deviation of those time samples. 860 35C Unsigned 4 USEACT_VMDCPUCH Count of SIE entries with SIEIHCPU <> x'FFFF' and this is a different logical CPU than the one on which this VMDBK was last run (i.e. CPU CHanged) 864 360 Unsigned 2 USEACT_OFFDIAG Offset to table of diagnose counts for this virtual processor (USEACT_VMADIAG) 866 362 Unsigned 2 USEACT_LENDIAG Length of table of diagnose counts for this virtual processor (USEACT_VMADIAG) 868 364 Unsigned 2 USEACT_OFFSIMCT Offset to table of simulated instruction counts for this virtual processor (USEACT_VMASIMCT) 870 366 Unsigned 2 USEACT_LENSIMCT Length of table of simulated instruction counts for this virtual processor (USEACT_VMASIMCT) 872 368 Unsigned 2 USEACT_OFFINSOT Offset to table of counts for other instruction simulation related events for this virtual processor (USEACT_VMAINSOT) 874 36A Unsigned 2 USEACT_LENINSOT Length of table of counts for other instruction simulation related events for this virtual processor (USEACT_VMAINSOT) 876 36C Bitstring 1 USEACT_VMDSHELD CPPROTECT setting 1... .... USEACT_VMDSHLOV 1= setting is an override .1.. .... USEACT_VMDSHLON 0= MODE2 OFF 1= MODE2 ON ..1. .... * ...1 .... * .... 1... * .... .1.. * .... ..1. * .... ...1 * 877 36D Character 3 * Reserved for IBM use 880 370 Unsigned 4 USEACT_VMDRUNCP Count of SIE instructions run for this VMDBK in the HCPRUN long path Guest Control Program Identification Control Program Name Codes for USEACT_VMACPNC: X'00' No CPNC specified. X'01' PR/SM X'02' z/VM X'04' Linux (including KVM) X'06' z/OS X'07' z/TPF X'08' z/VSE X'20'-X'23' Supplemental codes for z/VM X'24'-X'27' Supplemental codes for Linux/KVM X'28'-X'2B' Supplemental codes for z/OS X'2C'-X'2F' Supplemental codes for z/TPF X'30'-X'33' Supplemental codes for z/VSE 884 374 Unsigned 1 USEACT_VMACPNC Control Program name code. 885 375 Character 7 USEACT_VMACPVC Control Program version code. 892 37C Structure 20 USEACT_VMA370AC Counters of 370ACCOM operations 892 37C Unsigned 4 USEACT_VMA370CK Cumulative count of PSW manipulations for 370ACCOM in HCPPSWCK 896 380 Unsigned 4 USEACT_VMA370ME Cumulative count of PSW manipulations for 370ACCOM in HCPPSWME 900 384 Unsigned 4 USEACT_VMA370EM Cumulative count of PSW manipulations for 370ACCOM in HCPPSWEM 904 388 Unsigned 4 USEACT_VMA370NM Cumulative count of PSW manipulations for 370ACCOM in HCPPSWNM 908 38C Unsigned 4 USEACT_VMA370TMR Cumulative count of interval timer related 370ACCOM events 912 390 Character 0 * Additional fields may be inserted before here. Use offsets to locate any fields after this point. 0 0 Unsigned 4 USEACT_VMUPLTL(0:MAXTOPO) Array of counters of maximum rebalance topology distance placement. One of these counts is incremented each time a workload rebalance operation assigns VMDBKs in this guest to two or more different DSVBKs. None of these counts are incremented if the rebalance operation placed the entire guest in one DSVBK. These are all cumulative counts. (Valid only in the base VMDBK.) Entry 0:Count of times rebalance placed VMDBKs of this guest at a maximum scatter distance of more than one DSVBK that are all in an equivalent nesting level 1 (NL1) topology location. Entry 1:Count of times rebalance placed VMDBKs of this guest at a maximum scatter distance of DSVBKs in different nesting level 1 (NL1) topology locations but the same NL2 location. Entry 2:Count of times rebalance placed VMDBKs of this guest at a maximum scatter distance of DSVBKs in different nesting level 2 (NL2) topology locations but the same NL3 location. Entry 3:Count of times rebalance placed VMDBKs of this guest at a maximum scatter distance of DSVBKs in different nesting level 3 (NL3) topology locations but the same NL4 location. Entry 4:Count of times rebalance placed VMDBKs of this guest at a maximum scatter distance of DSVBKs in different nesting level 4 (NL4) topology locations but the same NL5 location. Entry 5:Count of times rebalance placed VMDBKs of this guest at a maximum scatter distance of DSVBKs in different nesting level 5 (NL5) topology locations. USEACT_MAXTOPO+1 should be used to determine the number of elements of this array. Only the first USEACT_CALMNEST entries contain valid data. 0 0 Unsigned 4 USEACT_VMUVMTL(0:MAXTOPO) Array of counters of how far the VMDBK was moved topologically during work load rebalancing. None of these counts are incremented if the VMDBK is assigned to its previous home. These are all cumulative counts. (Valid in all VMDBKs.) Entry 0:Count of moves between two DSVBKs that are both in an equivalent nesting level 1 (NL1) topology location Entry 1:Count of moves between DSVBKs in two different nesting level 1 (NL1) topology locations but the same NL2 location. Entry 2:Count of moves between DSVBKs in two different nesting level 2 (NL2) topology locations but the same NL3 location. Entry 3:Count of moves between DSVBKs in two different nesting level 3 (NL3) topology locations but the same NL4 location. Entry 4:Count of moves between DSVBKs in two different nesting level 4 (NL4) topology locations but the same NL5 location. Entry 5:Count of moves between DSVBKs in two different nesting level 5 (NL5) topology locations. The USEACT_MAXTOPO+1 value should be used to determine the number of elements of this array. Only the first USEACT_CALMNEST entries contain valid data. 0 0 Unsigned 4 USEACT_VMUSTLTL(0:MAXTOPO) Array of counters indicating how many times this VMDBK was stolen across different topology levels. (Valid in all VMDBKs.) Entry 0:Count of times a CPU stole a VMDBK from a DSVBK that is in an equivalent nesting level 1 (NL1) topology location. Entry 1:Count of times a CPU stole a VMDBK from a DSVBK in a different nesting level 1 (NL1) topology location but the same NL2 location. Entry 2:Count of times a CPU stole a VMDBK from a DSVBK in a different nesting level 2 (NL2) topology location but the same NL3 location. Entry 3:Count of times a CPU stole a VMDBK from a DSVBK in a different nesting level 3 (NL3) topology location but the same NL4 location. Entry 4:Count of times a CPU stole a VMDBK from a DSVBK in a different nesting level 4 (NL4) topology location but the same NL5 location. Entry 5:Count of times a CPU stole a VMDBK from a DSVBK in a different nesting level 5 (NL5) topology location. The USEACT_MAXTOPO value plus one should be used to determine the number of elements of this array. Only the first USEACT_CALMNEST entries contain valid data. 0 0 Unsigned 16 USEACT_VMUTOPDA(VMUTOPNE) An array of elements that contain the DSVBK ID and topology descriptor of the last DSVBKs to which this VMDBK was assigned by the last rebalance functions. This is a circular array with the USEACT_VMUTOPDX field pointing to the most recent element. This array is contained in all VMDBK records, not just the base. Within a virtual configuration the Nth element of the array for each VMDBK represents the assignment made during the same rebalance operation. The USEACT_VMUTOPNS value defines the size of one array's element. The USEACT_VMUTOPNE value should be used to determine the number of elements in this array. Each entry is all FFs initially until it is used and made valid. 0 0 Character 2 USEACT_VMUTOPDI Dispatch vector ID 2 2 Character 4 USEACT_VMUTOPDS This topology descriptor or identifier consists of the container IDs for each level of the topology tree above the dispatch vector specified in USEACT_VMUTOPDI. These container IDs are positioned left to right with the highest nesting level listed first. 6 6 Character 1 * Reserved for possible future topology level expansion. 7 7 Bitstring 1 USEACT_VMUTOPFL Flag byte 1... .... USEACT_VMURROBN Placed via round robin algorithm .1.. .... USEACT_VMUMODRB Placed by a modified rebalance. ..1. .... * ...1 .... * .... 1... * .... .1.. * .... ..1. * .... ...1 * 8 8 Character 4 USEACT_VMUTOPLU Last CPU usage of this VMDBK which was used to do the home DSVBK assignment. This is a scaled number where x'10000' represents 100% of one CPU. 12 C Unsigned 4 USEACT_VMUASNORD DSV assignment order number that represents the relative position in which this guest was visited and assigned a home by rebalance. Valid in VMUBK for all VMDBKs.
Provides the number of times a Diagnose was executed for this virtual processor.
Offsets Dec Hex Type Len Name (Dim) Description 0 0 Structure 528 USEACT_VMADIAG Diagnose counts 0 0 Unsigned 4 USEACT_VMADGUCT Count of all USER diagnose operations. i.e. diag 100-1FC 4 4 Unsigned 4 USEACT_VMADIAGT Count of all z/VM defined diagnose operations. 8 8 Structure 516 USEACT_VMADIAG0 Diagnose counts 8 8 Unsigned 4 USEACT_VMADGX00 Count of DIAG x'00' 12 C Unsigned 4 USEACT_VMADGX04 Count of DIAG x'04' 16 10 Unsigned 4 USEACT_VMADGX08 Count of DIAG x'08' 20 14 Unsigned 4 USEACT_VMADGX0C Count of DIAG x'0C' 24 18 Unsigned 4 USEACT_VMADGX10 Count of DIAG x'10' 28 1C Unsigned 4 USEACT_VMADGX14 Count of DIAG x'14' 32 20 Unsigned 4 USEACT_VMADGX18 Count of DIAG x'18' 36 24 Unsigned 4 USEACT_VMADGX1C Count of DIAG x'1C' 40 28 Unsigned 4 USEACT_VMADGX20 Count of DIAG x'20' 44 2C Unsigned 4 USEACT_VMADGX24 Count of DIAG x'24' 48 30 Unsigned 4 USEACT_VMADGX28 Count of DIAG x'28' 52 34 Unsigned 4 USEACT_VMADGX2C Count of DIAG x'2C' 56 38 Unsigned 4 USEACT_VMADGX30 Count of DIAG x'30' 60 3C Unsigned 4 USEACT_VMADGX34 Count of DIAG x'34' 64 40 Unsigned 4 USEACT_VMADGX38 Count of DIAG x'38' 68 44 Unsigned 4 USEACT_VMADGX3C Count of DIAG x'3C' 72 48 Unsigned 4 USEACT_VMADGX40 Count of DIAG x'40' 76 4C Unsigned 4 USEACT_VMADGX44 Count of DIAG x'44' 80 50 Unsigned 4 USEACT_VMADGX48 Count of DIAG x'48' 84 54 Unsigned 4 USEACT_VMADGX4C Count of DIAG x'4C' 88 58 Unsigned 4 USEACT_VMADGX50 Count of DIAG x'50' 92 5C Unsigned 4 USEACT_VMADGX54 Count of DIAG x'54' 96 60 Unsigned 4 USEACT_VMADGX58 Count of DIAG x'58' 100 64 Unsigned 4 USEACT_VMADGX5C Count of DIAG x'5C' 104 68 Unsigned 4 USEACT_VMADGX60 Count of DIAG x'60' 108 6C Unsigned 4 USEACT_VMADGX64 Count of DIAG x'64' 112 70 Unsigned 4 USEACT_VMADGX68 Count of DIAG x'68' 116 74 Unsigned 4 USEACT_VMADGX6C Count of DIAG x'6C' 120 78 Unsigned 4 USEACT_VMADGX70 Count of DIAG x'70' 124 7C Unsigned 4 USEACT_VMADGX74 Count of DIAG x'74' 128 80 Unsigned 4 USEACT_VMADGX78 Count of DIAG x'78' 132 84 Unsigned 4 USEACT_VMADGX7C Count of DIAG x'7C' 136 88 Unsigned 4 USEACT_VMADGX80 Count of DIAG x'80' 140 8C Unsigned 4 USEACT_VMADGX84 Count of DIAG x'84' 144 90 Unsigned 4 USEACT_VMADGX88 Count of DIAG x'88' 148 94 Unsigned 4 USEACT_VMADGX8C Count of DIAG x'8C' 152 98 Unsigned 4 USEACT_VMADGX90 Count of DIAG x'90' 156 9C Unsigned 4 USEACT_VMADGX94 Count of DIAG x'94' 160 A0 Unsigned 4 USEACT_VMADGX98 Count of DIAG x'98' 164 A4 Unsigned 4 USEACT_VMADGX9C Count of DIAG x'9C' 168 A8 Unsigned 4 USEACT_VMADGXA0 Count of DIAG x'A0' 172 AC Unsigned 4 USEACT_VMADGXA4 Count of DIAG x'A4' 176 B0 Unsigned 4 USEACT_VMADGXA8 Count of DIAG x'A8' 180 B4 Unsigned 4 USEACT_VMADGXAC Count of DIAG x'AC' 184 B8 Unsigned 4 USEACT_VMADGXB0 Count of DIAG x'B0' 188 BC Unsigned 4 USEACT_VMADGXB4 Count of DIAG x'B4' 192 C0 Unsigned 4 USEACT_VMADGXB8 Count of DIAG x'B8' 196 C4 Unsigned 4 USEACT_VMADGXBC Count of DIAG x'BC' 200 C8 Unsigned 4 USEACT_VMADGXC0 Count of DIAG x'C0' 204 CC Unsigned 4 USEACT_VMADGXC4 Count of DIAG x'C4' 208 D0 Unsigned 4 USEACT_VMADGXC8 Count of DIAG x'C8' 212 D4 Unsigned 4 USEACT_VMADGXCC Count of DIAG x'CC' 216 D8 Unsigned 4 USEACT_VMADGXD0 Count of DIAG x'D0' 220 DC Unsigned 4 USEACT_VMADGXD4 Count of DIAG x'D4' 224 E0 Unsigned 4 USEACT_VMADGXD8 Count of DIAG x'D8' 228 E4 Unsigned 4 USEACT_VMADGXDC Count of DIAG x'DC' 232 E8 Unsigned 4 USEACT_VMADGXE0 Count of DIAG x'E0' 236 EC Unsigned 4 USEACT_VMADGXE4 Count of DIAG x'E4' 240 F0 Unsigned 4 USEACT_VMADGXE8 Count of DIAG x'E8' 244 F4 Unsigned 4 USEACT_VMADGXEC Count of DIAG x'EC' 248 F8 Unsigned 4 USEACT_VMADGXF0 Count of DIAG x'F0' 252 FC Unsigned 4 USEACT_VMADGXF4 Count of DIAG x'F4' 256 100 Unsigned 4 USEACT_VMADGXF8 Count of DIAG x'F8' 260 104 Unsigned 4 USEACT_VMADGXFC Count of DIAG x'FC'
264 108 Structure 64 USEACT_VMADIAG2 Diagnose counts 264 108 Unsigned 4 USEACT_VMADG200 Count of DIAG x'200' 268 10C Unsigned 4 USEACT_VMADG204 Count of DIAG x'204' 272 110 Unsigned 4 USEACT_VMADG208 Count of DIAG x'208' 276 114 Unsigned 4 USEACT_VMADG20C Count of DIAG x'20C' 280 118 Unsigned 4 USEACT_VMADG210 Count of DIAG x'210' 284 11C Unsigned 4 USEACT_VMADG214 Count of DIAG x'214' 288 120 Unsigned 4 USEACT_VMADG218 Count of DIAG x'218' 292 124 Unsigned 4 USEACT_VMADG21C Count of DIAG x'21C' 296 128 Unsigned 4 USEACT_VMADG220 Count of DIAG x'220' 300 12C Unsigned 4 USEACT_VMADG224 Count of DIAG x'224' 304 130 Unsigned 4 USEACT_VMADG228 Count of DIAG x'228' 308 134 Unsigned 4 USEACT_VMADG22C Count of DIAG x'22C' 312 138 Unsigned 4 USEACT_VMADG230 Count of DIAG x'230' 316 13C Unsigned 4 USEACT_VMADG234 Count of DIAG x'234' 320 140 Unsigned 4 USEACT_VMADG238 Count of DIAG x'238' 324 144 Unsigned 4 USEACT_VMADG23C Count of DIAG x'23C' 328 148 Unsigned 4 USEACT_VMADG240 Count of DIAG x'240' 332 14C Unsigned 4 USEACT_VMADG244 Count of DIAG x'244' 336 150 Unsigned 4 USEACT_VMADG248 Count of DIAG x'248' 340 154 Unsigned 4 USEACT_VMADG24C Count of DIAG x'24C' 344 158 Unsigned 4 USEACT_VMADG250 Count of DIAG x'250' 348 15C Unsigned 4 USEACT_VMADG254 Count of DIAG x'254' 352 160 Unsigned 4 USEACT_VMADG258 Count of DIAG x'258' 356 164 Unsigned 4 USEACT_VMADG25C Count of DIAG x'25C' 360 168 Unsigned 4 USEACT_VMADG260 Count of DIAG x'260' 364 16C Unsigned 4 USEACT_VMADG264 Count of DIAG x'264' 368 170 Unsigned 4 USEACT_VMADG268 Count of DIAG x'268' 372 174 Unsigned 4 USEACT_VMADG26C Count of DIAG x'26C' 376 178 Unsigned 4 USEACT_VMADG270 Count of DIAG x'270' 380 17C Unsigned 4 USEACT_VMADG274 Count of DIAG x'274' 384 180 Unsigned 4 USEACT_VMADG278 Count of DIAG x'278' 388 184 Unsigned 4 USEACT_VMADG27C Count of DIAG x'27C' 392 188 Unsigned 4 USEACT_VMADG280 Count of DIAG x'280' 396 18C Unsigned 4 USEACT_VMADG284 Count of DIAG x'284' 400 190 Unsigned 4 USEACT_VMADG288 Count of DIAG x'288' 404 194 Unsigned 4 USEACT_VMADG28C Count of DIAG x'28C' 408 198 Unsigned 4 USEACT_VMADG290 Count of DIAG x'290' 412 19C Unsigned 4 USEACT_VMADG294 Count of DIAG x'294' 416 1A0 Unsigned 4 USEACT_VMADG298 Count of DIAG x'298' 420 1A4 Unsigned 4 USEACT_VMADG29C Count of DIAG x'29C' 424 1A8 Unsigned 4 USEACT_VMADG2A0 Count of DIAG x'2A0' 428 1AC Unsigned 4 USEACT_VMADG2A4 Count of DIAG x'2A4' 432 1B0 Unsigned 4 USEACT_VMADG2A8 Count of DIAG x'2A8' 436 1B4 Unsigned 4 USEACT_VMADG2AC Count of DIAG x'2AC' 440 1B8 Unsigned 4 USEACT_VMADG2B0 Count of DIAG x'2B0' 444 1BC Unsigned 4 USEACT_VMADG2B4 Count of DIAG x'2B4' 448 1C0 Unsigned 4 USEACT_VMADG2B8 Count of DIAG x'2B8' 452 1C4 Unsigned 4 USEACT_VMADG2BC Count of DIAG x'2BC' 456 1C8 Unsigned 4 USEACT_VMADG2C0 Count of DIAG x'2C0' 460 1CC Unsigned 4 USEACT_VMADG2C4 Count of DIAG x'2C4' 464 1D0 Unsigned 4 USEACT_VMADG2C8 Count of DIAG x'2C8' 468 1D4 Unsigned 4 USEACT_VMADG2CC Count of DIAG x'2CC' 472 1D8 Unsigned 4 USEACT_VMADG2D0 Count of DIAG x'2D0' 476 1DC Unsigned 4 USEACT_VMADG2D4 Count of DIAG x'2D4' 480 1E0 Unsigned 4 USEACT_VMADG2D8 Count of DIAG x'2D8' 484 1E4 Unsigned 4 USEACT_VMADG2DC Count of DIAG x'2DC' 488 1E8 Unsigned 4 USEACT_VMADG2E0 Count of DIAG x'2E0' 492 1EC Unsigned 4 USEACT_VMADG2E4 Count of DIAG x'2E4' 496 1F0 Unsigned 4 USEACT_VMADG2E8 Count of DIAG x'2E8' 500 1F4 Unsigned 4 USEACT_VMADG2EC Count of DIAG x'2EC' 504 1F8 Unsigned 4 USEACT_VMADG2F0 Count of DIAG x'2F0' 508 1FC Unsigned 4 USEACT_VMADG2F4 Count of DIAG x'2F4' 512 200 Unsigned 4 USEACT_VMADG2F8 Count of DIAG x'2F8' 516 204 Unsigned 4 USEACT_VMADG2FC Count of DIAG x'2FC'
520 208 Structure 8 USEACT_VMADIAG3 Diagnose counts 520 208 Unsigned 4 USEACT_VMADG308 Count of DIAG x'308' 524 20C Unsigned 4 USEACT_VMADG318 Count of DIAG x'318'
Counts of instructions simulated for this virtual processor. Actually they are counts of the number of times the various instructions were intercepted. There are occasions when an instruction is intercepted and CP takes an action other than simulating the instruction.
Offsets Dec Hex Type Len Name (Dim) Description 0 0 Structure 496 USEACT_VMASIMCT Table of Counters 0 0 Unsigned 4 USEACT_VMA_PR PR (0101) 4 4 Unsigned 4 USEACT_VMAPTFF PTFF (0104) 8 8 Unsigned 4 USEACT_VMA_0105 (0105) 12 C Unsigned 4 USEACT_VMA_0106 (0106) 16 10 Unsigned 4 USEACT_VMASCKPF SCKPF (0107) 20 14 Unsigned 4 USEACT_VMA_0108 (0108) 24 18 Unsigned 4 USEACT_VMA_0109 (0109) 28 1C Unsigned 4 USEACT_VMAKEYSK SSK (08) 32 20 Unsigned 4 USEACT_VMAKEYIK ISK (09) 36 24 Unsigned 4 USEACT_VMAPRVSV SVC (0A) 40 28 Unsigned 4 USEACT_VMAPRVMS SSM (80) 44 2C Unsigned 4 USEACT_VMAPRVLP LPSW (82) 48 30 Unsigned 4 USEACT_VMASIOCT SIO (9C) Also SIOF and RIO 52 34 Unsigned 4 USEACT_VMA_TIO TIO (9D) Also CLRIO 56 38 Unsigned 4 USEACT_VMA_HIO HIO (9E) Also HDV 60 3C Unsigned 4 USEACT_VMA_TCH TCH (9F) Also CLRCH 64 40 Unsigned 4 USEACT_VMAPRVMN STNSM (AC) 68 44 Unsigned 4 USEACT_VMAPRVMO STOSM (AD) 72 48 Unsigned 4 USEACT_VMAPRVGP SIGP (AE) 76 4C Unsigned 4 USEACT_VMABISCP STIDP (B202) 80 50 Unsigned 4 USEACT_VMA_STIDC STIDC (B203) 84 54 Unsigned 4 USEACT_VMABISTE SCK (B204) 88 58 Unsigned 4 USEACT_VMABISPB PTLB (B20D) 92 5C Unsigned 4 USEACT_VMABISXE SPX (B210) 96 60 Unsigned 4 USEACT_VMABISXS STPX (B211) 100 64 Unsigned 4 USEACT_VMABISAS STAP (B212) 104 68 Unsigned 4 USEACT_VMAKEYRR RRB (B213) 108 6C Unsigned 4 USEACT_VMABISSI SIE (B214) 112 70 Unsigned 4 USEACT_VMA_PC PC (B218) 116 74 Unsigned 4 USEACT_VMAPCVSC SERVC (B220) 120 78 Unsigned 4 USEACT_VMAVPTNV IPTE (B221) 124 7C Unsigned 4 USEACT_VMA_PT PT (B228) 128 80 Unsigned 4 USEACT_VMAKEYIE ISKE (B229) 132 84 Unsigned 4 USEACT_VMAKEYRE RRBE (B22A) 136 88 Unsigned 4 USEACT_VMAKEYSE SSKE (B22B) 140 8C Unsigned 4 USEACT_VMABISBT TB (B22C) 144 90 Unsigned 4 USEACT_VMAXPGIN PGIN (B22E) 148 94 Unsigned 4 USEACT_VMAXPGOU PGOUT (B22F) 152 98 Unsigned 4 USEACT_VMA_CSCH CSCH (B230) 156 9C Unsigned 4 USEACT_VMA_HSCH HSCH (B231) 160 A0 Unsigned 4 USEACT_VMA_MSCH MSCH (B232) 164 A4 Unsigned 4 USEACT_VMA_SSCH SSCH (B233) 168 A8 Unsigned 4 USEACT_VMA_STSCH STSCH (B234) 172 AC Unsigned 4 USEACT_VMA_TSCH TSCH (B235) 176 B0 Unsigned 4 USEACT_VMA_TPI TPI (B236) 180 B4 Unsigned 4 USEACT_VMA_SAL SAL (B237) 184 B8 Unsigned 4 USEACT_VMA_RSCH RSCH (B238) 188 BC Unsigned 4 USEACT_VMA_STCRW STCRW (B239) 192 C0 Unsigned 4 USEACT_VMA_STCPS STCPS (B23A) 196 C4 Unsigned 4 USEACT_VMA_RCHP RCHP (B23B) 200 C8 Unsigned 4 USEACT_VMA_SCHM SCHM (B23C) 204 CC Unsigned 4 USEACT_VMA_PALB PALB (B248) 208 D0 Unsigned 4 USEACT_VMA_TAR TAR (B24C) 212 D4 Unsigned 4 USEACT_VMAVCSP CSP (B250) 216 D8 Unsigned 4 USEACT_VMASTHYI STHYI (B256) 220 DC Unsigned 4 USEACT_VMA_BSG BSG (B258) 224 E0 Unsigned 4 USEACT_VMAVIESB IESBE (B259) 228 E4 Unsigned 4 USEACT_VMAXPG5A BSA (B25A) 232 E8 Unsigned 4 USEACT_VMA_B25F (B25F) 236 EC Unsigned 4 USEACT_VMA_B260 (B260) 240 F0 Unsigned 4 USEACT_VMA_B261 (B261) 244 F4 Unsigned 4 USEACT_VMA_B264 (B264) 248 F8 Unsigned 4 USEACT_VMA_B265 (B265) 252 FC Unsigned 4 USEACT_VMA_B266 (B266) 256 100 Unsigned 4 USEACT_VMA_B267 (B267) 260 104 Unsigned 4 USEACT_VMA_B268 (B268) 264 108 Unsigned 4 USEACT_VMA_B272 (B272) 268 10C Unsigned 4 USEACT_VMA_B274 (B274) 272 110 Unsigned 4 USEACT_VMA_XSCH XSCH (B276) 276 114 Unsigned 4 USEACT_VMA_B27A (B27A) 280 118 Unsigned 4 USEACT_VMABISST STSI (B27D) 284 11C Unsigned 4 USEACT_VMA_B27E (B27E) 288 120 Unsigned 4 USEACT_VMA_B27F (B27F) 292 124 Unsigned 4 USEACT_VMA_B2A4 (B2A4) 296 128 Unsigned 4 USEACT_VMA_B2AD (B2AD) 300 12C Unsigned 4 USEACT_VMA_B2AE (B2AE) 304 130 Unsigned 4 USEACT_VMA_B2AF (B2AF) 308 134 Unsigned 4 USEACT_VMASTFLE STFLE (B2B0) 312 138 Unsigned 4 USEACT_VMA0STFL STFL (B2B1) 316 13C Unsigned 4 USEACT_VMALPSWE LPSWE (B2B2) 320 140 Unsigned 4 USEACT_VMABISIU IUCV (B2F0) 324 144 Unsigned 4 USEACT_VMAPRVTC STCTL (B6) 328 148 Unsigned 4 USEACT_VMAPRVLC LCTL (B7) 332 14C Unsigned 4 USEACT_VMA_KMAC KMAC (B91E) 336 150 Unsigned 4 USEACT_VMA_PCKMO PCKMO (B928) 340 154 Unsigned 4 USEACT_VMA_KMA KMA (B929) 344 158 Unsigned 4 USEACT_VMA_KMF KMF (B92A) 348 15C Unsigned 4 USEACT_VMA_KMO KMO (B92B) 352 160 Unsigned 4 USEACT_VMA_PCC PCC (B92C) 356 164 Unsigned 4 USEACT_VMA_KMCTR KMCTR (B92D) 360 168 Unsigned 4 USEACT_VMA_KM KM (B92E) 364 16C Unsigned 4 USEACT_VMA_KMC KMC (B92F) 368 170 Unsigned 4 USEACT_VMA_PPNO PPNO (B93C) 372 174 Unsigned 4 USEACT_VMA_KIMD KIMD (B93E) 376 178 Unsigned 4 USEACT_VMA_KLMD KLMD (B93F) 380 17C Unsigned 4 USEACT_VMAVCSPG CSPG (B98A) 384 180 Unsigned 4 USEACT_VMA0EPSW EPSW (B98D) 388 184 Unsigned 4 USEACT_VMAVIDTE IDTE (B98E) 392 188 Unsigned 4 USEACT_VMA_B99C (B99C) 396 18C Unsigned 4 USEACT_VMA0ESEA ESEA (B99D) 400 190 Unsigned 4 USEACT_VMA_PTI PTI (B99E) 404 194 Unsigned 4 USEACT_VMA_B9A0 (B9A0) 408 198 Unsigned 4 USEACT_VMAESSA ESSA (B9AB) 412 19C Unsigned 4 USEACT_VMABPFMF PFMF (B9AF) 416 1A0 Unsigned 4 USEACT_VMA_B9D0 (B9D0) 420 1A4 Unsigned 4 USEACT_VMA_B9D2 (B9D2) 424 1A8 Unsigned 4 USEACT_VMA_B9D3 (B9D3) 428 1AC Unsigned 4 USEACT_VMA_E328 (E328) 432 1B0 Unsigned 4 USEACT_VMA_E3D0 (E3D0) 436 1B4 Unsigned 4 USEACT_VMA_E3D1 (E3D1) 440 1B8 Unsigned 4 USEACT_VMA_E3D4 (E3D4) 444 1BC Unsigned 4 USEACT_VMA_LASP LASP (E500) 448 1C0 Unsigned 4 USEACT_VMAPRVTP TPROT (E501) 452 1C4 Unsigned 4 USEACT_VMAPRVSG STCTG (EB25) 456 1C8 Unsigned 4 USEACT_VMAPRVLG LCTLG (EB2F) 460 1CC Unsigned 4 USEACT_VMA_EB8A (EB8A) 464 1D0 Unsigned 4 USEACT_VMA_EBD0 (EBD0) 468 1D4 Unsigned 4 USEACT_VMA_EBD1 (EBD1) 472 1D8 Unsigned 4 USEACT_VMA_PLO PLO (EE) 476 1DC Unsigned 4 USEACT_VMA_SORTL SORTL (B938) 480 1E0 Unsigned 4 USEACT_VMA_DFLTC DFLTCC (B939) 484 1E4 Unsigned 4 USEACT_VMA_KDSA KDSA (B93A) 488 1E8 Unsigned 4 USEACT_VMALPSWY LPSWEY (EB71) 492 1EC Unsigned 4 USEACT_VMARDP RDP (B98B)
Offsets Dec Hex Type Len Name (Dim) Description 0 0 Structure 24 USEACT_VMAINSOT Other instruction simulation related counters. 0 0 Unsigned 4 USEACT_VMAPRVVN Guest SVC 76's reflected to the guest 4 4 Unsigned 4 USEACT_VMAPRVSC Count of SVC interrupts reflected to the guest 8 8 Unsigned 4 USEACT_VMAFST44 Count of fast path diagnose 44s 12 C Unsigned 4 USEACT_VMAFSTPX Count of fast path processing of partial execution intercepts 16 10 Unsigned 4 USEACT_VMAFSTSG Count of fast path simulations of SIGP external calls 20 14 Unsigned 4 USEACT_VMAFSTXC Count of fast path reflections of guest external call interruptions * * Character 0 USEACT_END
MRUSEACT Cross Reference
Hex Hex Name Offset Length Value MRHDR 0 20 MRHDR_END 14 0 MRHDRDM 4 1 MRHDRLEN 0 2 MRHDRRC 6 2 MRHDRTOD 8 8 MRHDRZER 2 2 USEACT 0 912+ USEACT_ASCDEFSZ 128 8 USEACT_CAL_VMAIINHLD 2F8 4 USEACT_CAL_VMAIPTEI 2D4 4 USEACT_CALBASE 22 80 USEACT_CALCPFNR 250 4 USEACT_CALCPFRY 24C 4 USEACT_CALCPINT 238 4 USEACT_CALCPINV 240 4 USEACT_CALCPPFA 248 4 USEACT_CALCPPFI 244 4 USEACT_CALCPPGR 74 4 USEACT_CALCPPGW 78 4 USEACT_CALCPPST 9C 4 USEACT_CALCPREL 23C 4 USEACT_CALCTAGLA2G 22C 4 USEACT_CALCTAGLB2G 228 4 USEACT_CALCTIBRA2G 224 4 USEACT_CALCTIBRB2G 220 4 USEACT_CALCTINS 21C 4 USEACT_CALCTPGS 68 4 USEACT_CALCTRABISA2G 234 4 USEACT_CALCTRABISB2G 230 4 USEACT_CALDEFHI 128 4 USEACT_CALDEFLO 12C 4 USEACT_CALDIAL 22 20 USEACT_CALDSPCT 330 4 USEACT_CALDWTCT 314 4 USEACT_CALFLAG1 22 1 USEACT_CALIUCVR BC 4 USEACT_CALIUCVS B8 4 USEACT_CALIUCVY C0 4 USEACT_CALMESA 1F 40 USEACT_CALMESAM 1F 04 USEACT_CALMNEST 139 1 USEACT_CALMODE 1F 1 USEACT_CALMXA 1F 20 USEACT_CALMXC 1F 08 USEACT_CALMZONL 1F 01 USEACT_CALM370 1F 10 USEACT_CALSHARF DA 1 USEACT_CALSNA 22 10 USEACT_CALTODON 10C 8 USEACT_CALVARCH 1F 02 USEACT_CALVMCF C4 4 USEACT_END * * USEACT_IPQABSRG 134 40 USEACT_IPQDSKIP 13C 4 USEACT_IPQEFHI 138 1 USEACT_IPQEFLO 137 1 USEACT_IPQF0 134 1 USEACT_IPQGSSC 134 20 USEACT_IPQRELRG 134 80 USEACT_IPQRQHI 136 1 USEACT_IPQRQLO 135 1 USEACT_IUCMXCN 122 2 USEACT_IUCTOTCN 120 2 USEACT_LCLFLAGS DB 1 USEACT_LENDIAG 362 2 USEACT_LENINSOT 36A 2 USEACT_LENSIMCT 366 2 USEACT_LIMPOOL 612 8 USEACT_MAXTOPO 203 1 USEACT_MRHDR 0 0 USEACT_OFFDIAG 360 2 USEACT_OFFINSOT 368 2 USEACT_OFFPLTL 204 2 USEACT_OFFSIMCT 364 2 USEACT_OFFSTLTL 208 2 USEACT_OFFTOPDA 20A 2 USEACT_OFFVMTL 206 2 USEACT_PROBITS 2D0 1 USEACT_RDMMMASK 1F8 4 USEACT_RDMNAME 1F0 8 USEACT_RELO1 DB 80 USEACT_VEBALERT 140 4 USEACT_VEBHDWAI 154 4 USEACT_VEBSVSCT 148 4 USEACT_VEBTPIAI 14C 4 USEACT_VEBTVSCT 144 4 USEACT_VEBVIRAI 150 4 USEACT_VMA_0105 8 4 USEACT_VMA_0106 C 4 USEACT_VMA_0108 14 4 USEACT_VMA_0109 18 4 USEACT_VMA_BSG DC 4 USEACT_VMA_B25F E8 4 USEACT_VMA_B260 EC 4 USEACT_VMA_B261 F0 4 USEACT_VMA_B264 F4 4 USEACT_VMA_B265 F8 4 USEACT_VMA_B266 FC 4 USEACT_VMA_B267 100 4 USEACT_VMA_B268 104 4 USEACT_VMA_B272 108 4 USEACT_VMA_B274 10C 4 USEACT_VMA_B27A 114 4 USEACT_VMA_B27E 11C 4 USEACT_VMA_B27F 120 4 USEACT_VMA_B2A4 124 4 USEACT_VMA_B2AD 128 4 USEACT_VMA_B2AE 12C 4 USEACT_VMA_B2AF 130 4 USEACT_VMA_B99C 188 4 USEACT_VMA_B9A0 194 4 USEACT_VMA_B9D0 1B0 4 USEACT_VMA_B9D2 1B4 4 USEACT_VMA_B9D3 1B8 4 USEACT_VMA_CSCH 98 4 USEACT_VMA_DFLTC 1E0 4 USEACT_VMA_E328 1BC 4 USEACT_VMA_E3D0 1C0 4 USEACT_VMA_E3D1 1C4 4 USEACT_VMA_E3D4 1C8 4 USEACT_VMA_EB8A 1CC 4 USEACT_VMA_EBD0 1D0 4 USEACT_VMA_EBD1 1D4 4 USEACT_VMA_HIO 38 4 USEACT_VMA_HSCH 9C 4 USEACT_VMA_KDSA 1E4 4 USEACT_VMA_KIMD 174 4 USEACT_VMA_KLMD 178 4 USEACT_VMA_KM 168 4 USEACT_VMA_KMA 154 4 USEACT_VMA_KMAC 14C 4 USEACT_VMA_KMC 16C 4 USEACT_VMA_KMCTR 164 4 USEACT_VMA_KMF 158 4 USEACT_VMA_KMO 15C 4 USEACT_VMA_LASP 1CC 4 USEACT_VMA_MSCH A0 4 USEACT_VMA_PALB CC 4 USEACT_VMA_PC 70 4 USEACT_VMA_PCC 160 4 USEACT_VMA_PCKMO 150 4 USEACT_VMA_PLO 1D8 4 USEACT_VMA_PPNO 170 4 USEACT_VMA_PR 0 4 USEACT_VMA_PT 7C 4 USEACT_VMA_PTI 190 4 USEACT_VMA_RCHP C4 4 USEACT_VMA_RSCH B8 4 USEACT_VMA_SAL B4 4 USEACT_VMA_SCHM C8 4 USEACT_VMA_SORTL 1DC 4 USEACT_VMA_SSCH A4 4 USEACT_VMA_STCPS C0 4 USEACT_VMA_STCRW BC 4 USEACT_VMA_STIDC 50 4 USEACT_VMA_STSCH A8 4 USEACT_VMA_TAR D0 4 USEACT_VMA_TCH 3C 4 USEACT_VMA_TIO 34 4 USEACT_VMA_TPI B0 4 USEACT_VMA_TSCH AC 4 USEACT_VMA_XSCH 110 4 USEACT_VMA0EPSW 180 4 USEACT_VMA0ESEA 18C 4 USEACT_VMA0STFL 138 4 USEACT_VMA370AC 37C 20 USEACT_VMA370CK 37C 4 USEACT_VMA370EM 384 4 USEACT_VMA370ME 380 4 USEACT_VMA370NM 388 4 USEACT_VMA370TMR 38C 4 USEACT_VMABISAS 64 4 USEACT_VMABISBT 8C 4 USEACT_VMABISCP 4C 4 USEACT_VMABISIU 140 4 USEACT_VMABISPB 58 4 USEACT_VMABISSI 6C 4 USEACT_VMABISST 118 4 USEACT_VMABISTE 54 4 USEACT_VMABISXE 5C 4 USEACT_VMABISXS 60 4 USEACT_VMABPFMF 19C 4 USEACT_VMACPNC 374 1 USEACT_VMACPVC 375 7 USEACT_VMADGUCT 0 0 USEACT_VMADGX00 8 4 USEACT_VMADGX04 C 4 USEACT_VMADGX08 10 4 USEACT_VMADGX0C 14 4 USEACT_VMADGX10 18 4 USEACT_VMADGX14 1C 4 USEACT_VMADGX18 20 4 USEACT_VMADGX1C 24 4 USEACT_VMADGX20 28 4 USEACT_VMADGX24 2C 4 USEACT_VMADGX28 30 4 USEACT_VMADGX2C 34 4 USEACT_VMADGX30 38 4 USEACT_VMADGX34 3C 4 USEACT_VMADGX38 40 4 USEACT_VMADGX3C 44 4 USEACT_VMADGX40 48 4 USEACT_VMADGX44 4C 4 USEACT_VMADGX48 50 4 USEACT_VMADGX4C 54 4 USEACT_VMADGX50 58 4 USEACT_VMADGX54 5C 4 USEACT_VMADGX58 60 4 USEACT_VMADGX5C 64 4 USEACT_VMADGX60 68 4 USEACT_VMADGX64 6C 4 USEACT_VMADGX68 70 4 USEACT_VMADGX6C 74 4 USEACT_VMADGX70 78 4 USEACT_VMADGX74 7C 4 USEACT_VMADGX78 80 4 USEACT_VMADGX7C 84 4 USEACT_VMADGX80 88 4 USEACT_VMADGX84 8C 4 USEACT_VMADGX88 90 4 USEACT_VMADGX8C 94 4 USEACT_VMADGX90 98 4 USEACT_VMADGX94 9C 4 USEACT_VMADGX98 A0 4 USEACT_VMADGX9C A4 4 USEACT_VMADGXA0 A8 4 USEACT_VMADGXA4 AC 4 USEACT_VMADGXA8 B0 4 USEACT_VMADGXAC B4 4 USEACT_VMADGXB0 B8 4 USEACT_VMADGXB4 BC 4 USEACT_VMADGXB8 C0 4 USEACT_VMADGXBC C4 4 USEACT_VMADGXC0 C8 4 USEACT_VMADGXC4 CC 4 USEACT_VMADGXC8 D0 4 USEACT_VMADGXCC D4 4 USEACT_VMADGXD0 D8 4 USEACT_VMADGXD4 DC 4 USEACT_VMADGXD8 E0 4 USEACT_VMADGXDC E4 4 USEACT_VMADGXE0 E8 4 USEACT_VMADGXE4 EC 4 USEACT_VMADGXE8 F0 4 USEACT_VMADGXEC F4 4 USEACT_VMADGXF0 F8 4 USEACT_VMADGXF4 FC 4 USEACT_VMADGXF8 100 4 USEACT_VMADGXFC 104 4 USEACT_VMADG200 108 4 USEACT_VMADG204 10C 4 USEACT_VMADG208 110 4 USEACT_VMADG20C 114 4 USEACT_VMADG210 118 4 USEACT_VMADG214 11C 4 USEACT_VMADG218 120 4 USEACT_VMADG21C 124 4 USEACT_VMADG220 128 4 USEACT_VMADG224 12C 4 USEACT_VMADG228 130 4 USEACT_VMADG22C 134 4 USEACT_VMADG230 138 4 USEACT_VMADG234 13C 4 USEACT_VMADG238 140 4 USEACT_VMADG23C 144 4 USEACT_VMADG240 148 4 USEACT_VMADG244 14C 4 USEACT_VMADG248 150 4 USEACT_VMADG24C 154 4 USEACT_VMADG250 158 4 USEACT_VMADG254 15C 4 USEACT_VMADG258 160 4 USEACT_VMADG25C 164 4 USEACT_VMADG260 168 4 USEACT_VMADG264 16C 4 USEACT_VMADG268 170 4 USEACT_VMADG26C 174 4 USEACT_VMADG270 178 4 USEACT_VMADG274 17C 4 USEACT_VMADG278 180 4 USEACT_VMADG27C 184 4 USEACT_VMADG280 188 4 USEACT_VMADG284 18C 4 USEACT_VMADG288 190 4 USEACT_VMADG28C 194 4 USEACT_VMADG290 198 4 USEACT_VMADG294 19C 4 USEACT_VMADG298 1A0 4 USEACT_VMADG29C 1A4 4 USEACT_VMADG2A0 1A8 4 USEACT_VMADG2A4 1AC 4 USEACT_VMADG2A8 1B0 4 USEACT_VMADG2AC 1B4 4 USEACT_VMADG2B0 1B8 4 USEACT_VMADG2B4 1BC 4 USEACT_VMADG2B8 1C0 4 USEACT_VMADG2BC 1C4 4 USEACT_VMADG2C0 1C8 4 USEACT_VMADG2C4 1CC 4 USEACT_VMADG2C8 1D0 4 USEACT_VMADG2CC 1D4 4 USEACT_VMADG2D0 1D8 4 USEACT_VMADG2D4 1DC 4 USEACT_VMADG2D8 1E0 4 USEACT_VMADG2DC 1E4 4 USEACT_VMADG2E0 1E8 4 USEACT_VMADG2E4 1EC 4 USEACT_VMADG2E8 1F0 4 USEACT_VMADG2EC 1F4 4 USEACT_VMADG2F0 1F8 4 USEACT_VMADG2F4 1FC 4 USEACT_VMADG2F8 200 4 USEACT_VMADG2FC 204 4 USEACT_VMADG308 208 4 USEACT_VMADG318 20C 4 USEACT_VMADIAG 0 528 USEACT_VMADIAGT 4 4 USEACT_VMADIAG0 8 8 USEACT_VMADIAG2 108 64 USEACT_VMADIAG3 208 8 USEACT_VMAESSA 198 4 USEACT_VMAFST44 8 4 USEACT_VMAFSTPX C 4 USEACT_VMAFSTSG 10 4 USEACT_VMAFSTXC 14 4 USEACT_VMAIIA 2D8 4 USEACT_VMAIIADD 2DC 4 USEACT_VMAIIHDSSQ 304 16 USEACT_VMAIIHLD 2FC 8 USEACT_VMAIIWTM 2E0 8 USEACT_VMAIIWTSSQ 2E8 16 USEACT_VMAINSOT 0 24 USEACT_VMAKEYIE 80 4 USEACT_VMAKEYIK 20 4 USEACT_VMAKEYRE 84 4 USEACT_VMAKEYRR 68 4 USEACT_VMAKEYSE 88 4 USEACT_VMAKEYSK 1C 4 USEACT_VMALPSWE 13C 4 USEACT_VMALPSWY 1E8 4 USEACT_VMAPCVSC 74 4 USEACT_VMAPRCAL 2D0 80 USEACT_VMAPRVGP 48 4 USEACT_VMAPRVLC 148 4 USEACT_VMAPRVLG 1C8 4 USEACT_VMAPRVLP 2C 4 USEACT_VMAPRVMN 40 4 USEACT_VMAPRVMO 44 4 USEACT_VMAPRVMS 28 4 USEACT_VMAPRVSC 4 4 USEACT_VMAPRVSG 1C4 4 USEACT_VMAPRVSV 24 4 USEACT_VMAPRVTC 144 4 USEACT_VMAPRVTP 1C0 4 USEACT_VMAPRVVN 0 4 USEACT_VMAPTFF 4 4 USEACT_VMARDP 1EC 4 USEACT_VMASCKPF 10 4 USEACT_VMASIMCT 0 496 USEACT_VMASIOCT 30 4 USEACT_VMASTFLE 134 4 USEACT_VMASTHYI D8 4 USEACT_VMATTIME_PRO 29C 8 USEACT_VMATTMP_PRO 2B4 8 USEACT_VMATTMS_PRO 2C4 8 USEACT_VMAVCSP D4 4 USEACT_VMAVCSPG 17C 4 USEACT_VMAVIDTE 184 4 USEACT_VMAVIESB E0 4 USEACT_VMAVPTNV 78 4 USEACT_VMAVTIME_PRO 2A4 8 USEACT_VMAVTMP_PRO 2AC 8 USEACT_VMAVTMS_PRO 2BC 8 USEACT_VMAXPG5A E4 4 USEACT_VMAXPGIN 90 4 USEACT_VMAXPGOU 94 4 USEACT_VMDABSSH F0 4 USEACT_VMDACTNO FC 8 USEACT_VMDAFSUP 18A 80 USEACT_VMDASMCT D8 2 USEACT_VMDBLKCT DC 4 USEACT_VMDCACHN 1AC 4 USEACT_VMDCFGEM 189 1 USEACT_VMDCPUAD 1C 2 USEACT_VMDCPUAF 189 40 USEACT_VMDCPUCH 35C 4 USEACT_VMDCTFLT 58 4 USEACT_VMDCTISO E8 4 USEACT_VMDCTPVG 124 4 USEACT_VMDCTPVL 48 4 USEACT_VMDCTPVLA 158 8 USEACT_VMDCTPVR 44 4 USEACT_VMDCTPWT 70 4 USEACT_VMDCTSHL 160 4 USEACT_VMDCTSHLA 164 8 USEACT_VMDCTSPR 7C 4 USEACT_VMDCTSPW 80 4 USEACT_VMDCTSTA 1B0 4 USEACT_VMDCTSTO 1B4 4 USEACT_VMDCUPGM 184 4 USEACT_VMDDSRSV 252 4 USEACT_VMDDTPLX 1CC 4 USEACT_VMDDTTOD 1D0 8 USEACT_VMDDTTOT 1C8 4 USEACT_VMDELIST 21 1 USEACT_VMDGRPN 104 8 USEACT_VMDISEVM A0 4 USEACT_VMDISTVM A4 4 USEACT_VMDISUVM A8 4 USEACT_VMDLIMTH DA 02 USEACT_VMDLKPLX 1BC 4 USEACT_VMDLKTOD 1C0 8 USEACT_VMDLKTOT 1B8 4 USEACT_VMDMAACT 22 01 USEACT_VMDMASST 22 02 USEACT_VMDMDCIA E0 4 USEACT_VMDMODE 1E 1 USEACT_VMDMVB2G 130 4 USEACT_VMDMXRVP F8 4 USEACT_VMDMXSHA DA 80 USEACT_VMDMXSHR 118 4 USEACT_VMDNOFSL 22 04 USEACT_VMDNOINS 22 08 USEACT_VMDPBKCT 17C 4 USEACT_VMDPGSPL 84 4 USEACT_VMDPUST 18A 1 USEACT_VMDPUTYP 188 1 USEACT_VMDQDSPU 22 40 USEACT_VMDRELSH EC 4 USEACT_VMDREOFL DB 40 USEACT_VMDRLLST 1E8 8 USEACT_VMDRUNCP 370 4 USEACT_VMDSHELD 36C 1 USEACT_VMDSHLON 36C 40 USEACT_VMDSHLOV 36C 80 USEACT_VMDSLIST 20 1 USEACT_VMDSSIZE F4 4 USEACT_VMDSTFHW 212 2 USEACT_VMDSTLFC 210 2 USEACT_VMDSTOP DA 40 USEACT_VMDSTOPD DA 20 USEACT_VMDSTYPE 23 1 USEACT_VMDTHRCT 11C 4 USEACT_VMDTTIME 24 8 USEACT_VMDTTIME_MT1 26C 8 USEACT_VMDTTMP 194 8 USEACT_VMDTTMP_MT1 284 8 USEACT_VMDTTMS 1A4 8 USEACT_VMDTTMS_MT1 294 8 USEACT_VMDUFACTC 214 4 USEACT_VMDUFIBRC 218 4 USEACT_VMDUFOLKCT 16C 4 USEACT_VMDUFOLKTM 170 8 USEACT_VMDUSER 14 8 USEACT_VMDVCSCT 88 4 USEACT_VMDVDISK 114 4 USEACT_VMDVDSCT 8C 4 USEACT_VMDVOSCT 98 4 USEACT_VMDVSEVM AC 4 USEACT_VMDVSTVM B0 4 USEACT_VMDVSUVM B4 4 USEACT_VMDVTIME 2C 8 USEACT_VMDVTIME_MT1 274 8 USEACT_VMDVTMP 18C 8 USEACT_VMDVTMP_MT1 27C 8 USEACT_VMDVTMS 19C 8 USEACT_VMDVTMS_MT1 28C 8 USEACT_VMDVTSCT 94 4 USEACT_VMDVUSCT 90 4 USEACT_VMDVVEXT DB 20 USEACT_VMDWASTE 25C 4 USEACT_VMDWKPLX 1DC 4 USEACT_VMDWKTOD 1E0 8 USEACT_VMDWKTOT 1D8 4 USEACT_VMDWSSPR 4C 4 USEACT_VMDX98CT C8 4 USEACT_VMUASNORD C 4 USEACT_VMUDSPETM 334 8 USEACT_VMUDSPTSQ 33C 16 USEACT_VMUDWTETM 318 8 USEACT_VMUDWTTSQ 320 16 USEACT_VMUMODRB 6 40 USEACT_VMUNRBAL 1FC 4 USEACT_VMUPLTL 0 4 USEACT_VMUREBAL 20C 4 USEACT_VMURROBN 6 80 USEACT_VMUSTLTL 0 4 USEACT_VMUTOPDA 0 16 USEACT_VMUTOPDI 0 2 USEACT_VMUTOPDS 2 4 USEACT_VMUTOPDX 202 1 USEACT_VMUTOPFL 7 1 USEACT_VMUTOPLU 8 4 USEACT_VMUTOPNE 200 1 USEACT_VMUTOPNS 201 1 USEACT_VMUTTIMSQ 34C 16 USEACT_VMUVMTL 0 4
This information is based on z/VM V7R1.0.
Last updated on 21 April 2022 at 15:19:00.
Copyright IBM Corporation, 1990, 2022
