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SMF 70 Subtype 1

Samples

NameDescription
lpar_informationRequest necessary fields from SMF70S1 on LPARs
processor_informationRequest necessary fields from SMF70S1 on processors

Virtual fields

NameBased onDescription
timestampdate
time
Record Timestamp
boost_classflaBoost class is set at end of interval, valid only when zIIP boost and/or Speed boost is active: 001 IPL, 010 Shutdown, 011 Recovery Process
interval_in_millisecondsintervalInterval duration in milliseconds
cpu_adjustment_factorcpu_adjustment_factor_actual
cpa_scaling_factor
Physical CPU adjustment factor based on alternate CPU capability
cpu_adjustment_factor_effectivecpu_adjustment_factor
cpu_adjustment_factor_actual
cpu_control_section_length
Effective CPU adjustment factor
cpa_scaling_factor_effectivecpa_scaling_factor
cpu_adjustment_factor_actual
cpu_control_section_length
Scaling factor for SMF70CPA_actual and SMF70CPA_actual_CBP wherever they are used, else 1.
rate_io_interruptinterval
count_slh
count_tpi
I/O interrupt rate
rate_io_interrupt_by_tpiinterval_in_milliseconds
count_slh
count_tpi
I/O interrupt rate by TPI
cpu_parked_percentagecpu_parked_time
interval
CPU parked percentage
cpu_busy_timecpu_is_online
cpu_wait_time
cpu_parked_time
interval
CPU busy time
rate_tcbcount_tcb
interval_in_milliseconds
TCB rate for the CPU
rate_srbcount_srb
interval_in_milliseconds
I/O rate for the CPU
rate_iocount_io
interval_in_milliseconds
I/O rate for the CPU
lpar_system_namelpar_name
system_name
LPAR-System name
msu_physicaldispatch_time_total
cpa_scaling_factor_effective
cpu_adjustment_factor_effective
interval_in_milliseconds
Physical MSU
processor_weight_onlineprocessor_weight
logical_processor_online_time
Valid processor weight values
cpu_polarizationflags_polarizationPolarization indicator: 00 = Horizontally polarized or polarization no…
msu_effectivedispatch_time_effective
cpa_scaling_factor_effective
cpu_adjustment_factor_effective
interval_in_milliseconds
Effective MSU
share_currentshare_actual
sample_diagnose
processor_weight
Accumulated processor current share
logical_processor_is_onlinelogical_processor_online_timeLogical processor is online for the given partition
cpu_unparked_timecpu_parked_time
interval
cpu_is_online
cpu_busy_time
CPU unparked time
cpu_unparked_percentagecpu_unparked_time
interval_in_milliseconds
CPU unparked percentage
cpu_busy_percentagecpu_busy_time
cpu_unparked_time
cpu_unparked_percentage
CPU busy percentage
unparked_percentagecpu_unparked_percentage
timestamp
cpu_type
Total MVS unparked percentage, per CPU type
mvs_busy_percentagecpu_busy_percentage
unparked_percentage
Total MVS busy percentage, per CPU type
utilization_per_cpu_physicaldispatch_time_total
logical_processor_online_time
cpu_count
Physical per CPU Utilization
lpar_management_per_cpudispatch_time_total
dispatch_time_effective
logical_processor_online_time
cpu_count
Physical per CPU Utilization

Record fields

NameBased onDescriptionType/Format
dateSMF70DTEDate of Recorddate
timeSMF70TMETime of Recordtime
timestamp virtualdate
time
Record Timestamp
lenSMF70LENSMF RECORD LENGTH. ZERO AFTER GRBSMFR REASSEMBLYinteger
segSMF70SEGSEGMENT DESCRIPTORinteger
flg flagSMF70FLGSYSTEM INDICATOR FLAGSstring
new_recordflgNEW RECORD FORMAT
subtypes_usedflgSUBTYPES USED
v4flgMVS/ESA V4 IF ON
esaflgMVS/ESA IF ON
vxaflgMVS/XA IF ON
osflgOPERATING SYSTEM IS OS/VS2
bfyflgSYSTEM RUNNING IN PR/SM MODE
rtySMF70RTYRECORD TYPEinteger
tmeSMF70TMETIME RECORD WRITTENtime
dteSMF70DTEDATE RECORD WRITTENdate
sidSMF70SIDSYSTEM ID FROM INSTALLATIONstring
ssiSMF70SSISUBSYSTEM ID (RMF )string
stySMF70STYSUBTYPEinteger
trnSMF70TRNNUMBER OF TRIPLETS IN THIS RECinteger
prsSMF70PRSOFFSET TO RMF PRODUCT SECTIONinteger
prlSMF70PRLLENGTH OF RMF PRODUCT SECTIONinteger
prnSMF70PRNNUMBER OF RMF PRODUCT SECTIONSinteger
ccsSMF70CCSOFFSET TO CPU CONTROL SECTIONinteger
cpu_control_section_lengthSMF70CCLLENGTH OF CPU CONTROL SECTIONinteger
ccnSMF70CCNNUMBER OF CPU CONTROL SECTIONSinteger
cpsSMF70CPSOFFSET TO CPU DATA SECTIONinteger
cplSMF70CPLLENGTH OF CPU DATA SECTIONinteger
cpnSMF70CPNNUMBER OF CPU DATA SECTIONSinteger
assSMF70ASSOFFSET TO ASID DATA SECTIONinteger
aslSMF70ASLLENGTH OF ASID DATA SECTIONinteger
asnSMF70ASNNUMBER OF ASID DATA SECTIONSinteger
bcsSMF70BCSOFFSET TO PR/SM PARTITION DATA SECTIONSinteger
bclSMF70BCLLENGTH OF PR/SM PARTITION DATA SECTIONSinteger
bcnSMF70BCNNUMBER OF PR/SM PARTITION DATA SECTIONSinteger
bvsSMF70BVSOFFSET TO PR/SM LOGICAL PROCESSOR DATA SECTIONSinteger
bvlSMF70BVLLENGTH OF PR/SM LOGICAL PROCESSOR DATA SECTIONSinteger
bvnSMF70BVNNUMBER OF PR/SM LOGICAL PROCESSOR DATA SECTIONSinteger
cnsSMF70CNSOFFSET TO CPU-IDENTIFICATION NAME SECTIONSinteger
cnlSMF70CNLLENGTH OF CPU-IDENTIFICATION NAME SECTIONSinteger
cnnSMF70CNNNUMBER OF CPU-IDENTIFICATION NAME SECTIONSinteger
cosSMF70COSOFFSET TO LOGICAL CORE DATA SECTIONSinteger
colSMF70COLLENGTH OF LOGICAL CORE DATA SECTIONinteger
conSMF70CONNUMBER OF LOGICAL CORE DATA SECTIONSinteger
tnsSMF70TNSOFFSET TO TENANT RESOURCE GROUP DATA SECTIONSinteger
tnlSMF70TNLLENGTH OF TENANT RESOURCE GROUP DATA SECTIONinteger
tnnSMF70TNNNUMBER OF TENANT RESOURCE GROUP DATA SECTIONSinteger

Maps and sections

SMF70PRO

RMF Product Section

NameBased onDescriptionType/Format
mfvSMF70MFVRMF version numberinteger
prdSMF70PRDProduct namestring
istSMF70ISTTime monitor interval starttime
datSMF70DATDate monitor interval startdate
intervalSMF70INTDuration of monitor intervaltimedelta
samSMF70SAMNumber of samplesinteger
fla flagSMF70FLAFlagsstring
cnvflaData converted from version 2
invalid_samplesflaInvalid samples to be skipped
m3rflaRecord was written by RMF Monitor III
interval_smf_controlflaInterval was under SMF control
rclflaSMF record converted to lower service level. Bit is set by SMF record retrieval service GRBSMFR.
rchflaSMF record converted to higher release or service level. Bit is set by SMF record retrieval service GRBSMFR.
altvmflaRunning under an alternate virtual machine environment
ziip_boostflazIIP boost was active during entire interval
speed_boostflaSpeed boost was active during entire interval
boost_class virtualflaBoost class is set at end of interval, valid only when zIIP boost and/or Speed boost is active: 001 IPL, 010 Shutdown, 011 Recovery Process
cycSMF70CYCSampling cycle lengthtimedelta
mvsSMF70MVSMVS software level (consists of an acronym and the version, release, and modification level - ZVvvrrmm)string
imlSMF70IMLIndicates the type of processor complex on which data measurements were taken. X'03’ = 9672, zSeriesinteger
prf flagSMF70PRFProcessor flagsstring
expanded_storprfSystem has expanded storage
escon_chprfEquipped with ESCON channel
escon_dirprfESCON Director in configuration
arch_modeprfSystem in z/ARCH mode
zaap_instprfAt least one zAAP is currently installed
ziip_instprfAt least one zIIP is currently installed
dat_facility1prfEnhanced DAT facility 1
dat_facility2prfEnhanced DAT facility 2
ptnSMF70PTNPR/SM partition numberstring
srlSMF70SRLSMF record levelinteger
ietSMF70IETInterval expiration time tokendate-time
lgo processedSMF70LGOOffset GMT to local timeinteger
raoSMF70RAOOffset to reassembly area relative to start of RMF product sectioninteger
ralSMF70RALLength of reassembly area. Area consists of a fixed header and a variable number of information blocks. Length depends on the record type/subtype, but is fixed for a specific type/subtypeinteger
ranSMF70RANNumber of reassembly area. This field is used to indicate whether SMF record is broken. If 0, record is not broken. If 1, record is broken. Offset and length are only valid if SMFxxRAN is 1. Reassembly area is only present in broken records.integer
oilSMF70OILOriginal interval length as defined in the session or by SMF (in seconds)integer
synSMF70SYNSYNC value in secondsinteger
gieSMF70GIEProjected gathering interval end GMT timedate-time
xnmSMF70XNMSysplex name as defined in ECVTSPLXstring
snmSMF70SNMSystem name for current system as defined in CVTSNAMEstring
interval_in_milliseconds virtualintervalInterval duration in milliseconds

SMF70AID

ASID DATA SECTION

NameBased onDescriptionType/Format
rmnSMF70RMNREADY MINIMUM VALUEinteger
rmmSMF70RMMREADY MAXIMUM VALUEinteger
rttSMF70RTTREADY TOTAL VALUEinteger
r00SMF70R00# TIMES READY VAL WAS 0integer
r01SMF70R01# TIMES READY VAL WAS 1integer
r02SMF70R02# TIMES READY VAL WAS 2integer
r03SMF70R03# TIMES READY VAL WAS 3integer
r04SMF70R04# TIMES READY VAL WAS 4integer
r05SMF70R05# TIMES READY VAL WAS 5integer
r06SMF70R06# TIMES READY VAL WAS 6integer
r07SMF70R07# TIMES READY VAL WAS 7integer
r08SMF70R08# TIMES READY VAL WAS 8integer
r09SMF70R09# TIMES READY VAL WAS 9integer
r10SMF70R10# TIMES RDY VAL WAS 10integer
r11SMF70R11# TIMES RDY VAL WAS 11integer
r12SMF70R12# TIMES RDY VAL WAS 12integer
r13SMF70R13# TIMES RDY VAL WAS 13integer
r14SMF70R14# TIMES RDY VAL WAS 14integer
r15SMF70R15# TIMES RDY VAL WAS 14+integer
imnSMF70IMNIN USERS MINIMUMinteger
immSMF70IMMIN USERS MAXIMUMinteger
ittSMF70ITTIN USERS TOTAL VALUEinteger
i00SMF70I00# TIMES IN USERS WAS 0integer
i01SMF70I01# TIMES IN USERS WAS 1 OR 2integer
i02SMF70I02# TIMES IN USERS WAS 3 OR 4integer
i03SMF70I03# TIMES IN USERS WAS 5 OR 6integer
i04SMF70I04# TIMES IN USERS WAS 7 OR 8integer
i05SMF70I05# TIMES IN USERS WAS 9 OR 10integer
i06SMF70I06# TIMES IN USERS WAS 11 - 15integer
i07SMF70I07# TIMES IN USERS WAS 16 - 20integer
i08SMF70I08# TIMES IN USERS WAS 21 - 25integer
i09SMF70I09# TIMES IN USERS WAS 26 - 30integer
i10SMF70I10# TIMES IN USERS WAS 31 - 35integer
i11SMF70I11# TIMES IN USERS WAS 35+integer
omnSMF70OMNOUT USERS MINIMUMinteger
ommSMF70OMMOUT USERS MAXIMUMinteger
ottSMF70OTTOUT USERS TOTAL VALUEinteger
o00SMF70O00# TIMES OUT USERS WAS 0integer
o01SMF70O01# TIMES OUT USERS WAS 1 OR 2integer
o02SMF70O02# TIMES OUT USERS WAS 3 OR 4integer
o03SMF70O03# TIMES OUT USERS WAS 5 OR 6integer
o04SMF70O04# TIMES OUT USERS WAS 7 OR 8integer
o05SMF70O05# TIMES OUT USERS WAS 9 OR 10integer
o06SMF70O06# TIMES OUT USERS WAS 11 - 15integer
o07SMF70O07# TIMES OUT USERS WAS 16 - 20integer
o08SMF70O08# TIMES OUT USERS WAS 21 - 25integer
o09SMF70O09# TIMES OUT USERS WAS 26 - 30integer
o10SMF70O10# TIMES OUT USERS WAS 31 - 35integer
o11SMF70O11# TIMES OUT USERS WAS 35+integer
wmnSMF70WMNWAIT USER MINIMUMinteger
wmmSMF70WMMWAIT USERS MAXIMUMinteger
wttSMF70WTTWAIT USERS TOTAL VALUEinteger
w00SMF70W00# TIMES WAIT USER WAS 0integer
w01SMF70W01# TIMES WAIT USERS WAS 1 OR 2integer
w02SMF70W02# TIMES WAIT USERS WAS 3 OR 4integer
w03SMF70W03# TIMES WAIT USERS WAS 5 OR 6integer
w04SMF70W04# TIMES WAIT USERS WAS 7 OR 8integer
w05SMF70W05# TIMES WAIT USERS WAS 9 OR 10integer
w06SMF70W06# TIMES WAIT USERS WAS 11 - 15integer
w07SMF70W07# TIMES WAIT USERS WAS 16 - 20integer
w08SMF70W08# TIMES WAIT USERS WAS 21 - 25integer
w09SMF70W09# TIMES WAIT USERS WAS 26 - 30integer
w10SMF70W10# TIMES WAIT USERS WAS 31 - 35integer
w11SMF70W11# TIMES WAIT USERS WAS 35+integer
bmnSMF70BMNBATCH USERS MINIMUMinteger
bmmSMF70BMMBATCH USERS MAXIMUMinteger
bttSMF70BTTBATCH USERS TOTAL VALUEinteger
b00SMF70B00# TIMES BATCH USERS WAS 0integer
b01SMF70B01# TIMES BATCH USERS WAS 1 OR 2integer
b02SMF70B02# TIMES BATCH USERS WAS 3 OR 4integer
b03SMF70B03# TIMES BATCH USERS WAS 5 OR 6integer
b04SMF70B04# TIMES BATCH USERS WAS 7 OR 8integer
b05SMF70B05# TIMES BATCH USERS WAS 9 OR 10integer
b06SMF70B06# TIMES BATCH USERS WAS 11 - 15integer
b07SMF70B07# TIMES BATCH USERS WAS 16 - 20integer
b08SMF70B08# TIMES BATCH USERS WAS 21 - 25integer
b09SMF70B09# TIMES BATCH USERS WAS 26 - 30integer
b10SMF70B10# TIMES BATCH USERS WAS 31 - 35integer
b11SMF70B11# TIMES BATCH USERS WAS 35+integer
smnSMF70SMNSTARTED USERS MINIMUMinteger
smmSMF70SMMSTARTED USERS MAXIMUMinteger
sttSMF70STTSTARTED USERS TOTAL VALUEinteger
s00SMF70S00# TIMES STC USERS WAS 0integer
s01SMF70S01# TIMES STC USERS WAS 1 OR 2integer
s02SMF70S02# TIMES STC USERS WAS 3 OR 4integer
s03SMF70S03# TIMES STC USERS WAS 5 OR 6integer
s04SMF70S04# TIMES STC USERS WAS 7 OR 8integer
s05SMF70S05# TIMES STC USERS WAS 9 OR 10integer
s06SMF70S06# TIMES STC USERS WAS 11 - 15integer
s07SMF70S07# TIMES STC USERS WAS 16 - 20integer
s08SMF70S08# TIMES STC USERS WAS 21 - 25integer
s09SMF70S09# TIMES STC USERS WAS 26 - 30integer
s10SMF70S10# TIMES STC USERS WAS 31 - 35integer
s11SMF70S11# TIMES STC USERS WAS 35+integer
tmnSMF70TMNTSO USERS MINIMUMinteger
tmmSMF70TMMTSO USERS MAXIMUMinteger
tttSMF70TTTTSO USERS TOTAL VALUEinteger
t00SMF70T00# TIMES TSO USERS WAS 0integer
t01SMF70T01# TIMES TSO USERS WAS 1 OR 2integer
t02SMF70T02# TIMES TSO USERS WAS 3 OR 4integer
t03SMF70T03# TIMES TSO USERS WAS 5 OR 6integer
t04SMF70T04# TIMES TSO USERS WAS 7 OR 8integer
t05SMF70T05# TIMES TSO USERS WAS 9 OR 10integer
t06SMF70T06# TIMES TSO USERS WAS 11 - 15integer
t07SMF70T07# TIMES TSO USERS WAS 16 - 20integer
t08SMF70T08# TIMES TSO USERS WAS 21 - 25integer
t09SMF70T09# TIMES TSO USERS WAS 26 - 30integer
t10SMF70T10# TIMES TSO USERS WAS 31 - 35integer
t11SMF70T11# TIMES TSO USERS WAS 35+integer
lmnSMF70LMNLOG RDY USERS MINIMUMinteger
lmmSMF70LMMLOG RDY USERS MAXIMUMinteger
lttSMF70LTTLOG RDY USERS TOTAL VALUEinteger
l00SMF70L00# TIMES LOG RDY USERS WAS 0integer
l01SMF70L01# TIMES LOG RDY USERS WAS 1-2integer
l02SMF70L02# TIMES LOG RDY USERS WAS 3-4integer
l03SMF70L03# TIMES LOG RDY USERS WAS 5-6integer
l04SMF70L04# TIMES LOG RDY USERS WAS 7-8integer
l05SMF70L05# TIMES LOG RDY USERS WAS 9-10integer
l06SMF70L06# TIMES LOG RDY USERS WAS 11-15integer
l07SMF70L07# TIMES LOG RDY USERS WAS 16-20integer
l08SMF70L08# TIMES LOG RDY USERS WAS 21-25integer
l09SMF70L09# TIMES LOG RDY USERS WAS 26-30integer
l10SMF70L10# TIMES LOG RDY USERS WAS 31-35integer
l11SMF70L11# TIMES LOG RDY USERS WAS 35+integer
amnSMF70AMNLOG WAIT USERS MINIMUMinteger
ammSMF70AMMLOG WAIT USERS MAXIMUMinteger
attSMF70ATTLOG WAIT USERS TOTAL VALUEinteger
a00SMF70A00# TIME LOG WAIT USERS WAS 0integer
a01SMF70A01# TIME LOG WAIT USERS WAS 1-2integer
a02SMF70A02# TIME LOG WAIT USERS WAS 3-4integer
a03SMF70A03# TIME LOG WAIT USERS WAS 5-6integer
a04SMF70A04# TIME LOG WAIT USERS WAS 7-8integer
a05SMF70A05# TIME LOG WAIT USERS WAS 9-10integer
a06SMF70A06# TIME LOG WAIT USERS WAS 11-15integer
a07SMF70A07# TIME LOG WAIT USERS WAS 16-20integer
a08SMF70A08# TIME LOG WAIT USERS WAS 21-25integer
a09SMF70A09# TIME LOG WAIT USERS WAS 26-30integer
a10SMF70A10# TIME LOG WAIT USERS WAS 31-35integer
a11SMF70A11# TIME LOG WAIT USERS WAS 35+integer
pmnSMF70PMNASCH USERS MINIMUMinteger
pmmSMF70PMMASCH USERS MAXIMUMinteger
pttSMF70PTTASCH USERS TOTAL VALUEinteger
p00SMF70P00# TIMES ASCH USERS WAS 0integer
p01SMF70P01# TIMES ASCH USERS WAS 1 OR 2integer
p02SMF70P02# TIMES ASCH USERS WAS 3 OR 4integer
p03SMF70P03# TIMES ASCH USERS WAS 5 OR 6integer
p04SMF70P04# TIMES ASCH USERS WAS 7 OR 8integer
p05SMF70P05# TIMES ASCH USERS WAS 9 OR 10integer
p06SMF70P06# TIMES ASCH USERS WAS 11 - 15integer
p07SMF70P07# TIMES ASCH USERS WAS 16 - 20integer
p08SMF70P08# TIMES ASCH USERS WAS 21 - 25integer
p09SMF70P09# TIMES ASCH USERS WAS 26 - 30integer
p10SMF70P10# TIMES ASCH USERS WAS 31 - 35integer
p11SMF70P11# TIMES ASCH USERS WAS 35+integer
xmnSMF70XMNOMVS USERS MINIMUMinteger
xmmSMF70XMMOMVS USERS MAXIMUMinteger
xttSMF70XTTOMVS USERS TOTAL VALUEinteger
x00SMF70X00# TIMES OMVS USERS WAS 0integer
x01SMF70X01# TIMES OMVS USERS WAS 1 OR 2integer
x02SMF70X02# TIMES OMVS USERS WAS 3 OR 4integer
x03SMF70X03# TIMES OMVS USERS WAS 5 OR 6integer
x04SMF70X04# TIMES OMVS USERS WAS 7 OR 8integer
x05SMF70X05# TIMES OMVS USERS WAS 9 OR 10integer
x06SMF70X06# TIMES OMVS USERS WAS 11 - 15integer
x07SMF70X07# TIMES OMVS USERS WAS 16 - 20integer
x08SMF70X08# TIMES OMVS USERS WAS 21 - 25integer
x09SMF70X09# TIMES OMVS USERS WAS 26 - 30integer
x10SMF70X10# TIMES OMVS USERS WAS 31 - 35integer
x11SMF70X11# TIMES OMVS USERS WAS 35+integer
q00SMF70Q00Count of times In Ready was <= Ninteger
q01SMF70Q01Count of times In Ready was N+1integer
q02SMF70Q02Count of times In Ready was N+2integer
q03SMF70Q03Count of times In Ready was N+3integer
q04SMF70Q04Count of times In Ready was N+4 or N+5integer
q05SMF70Q05Count of times In Ready was N+6 to N+10integer
q06SMF70Q06Count of times In Ready was N+11 to N+15integer
q07SMF70Q07Count of times In Ready was N+16 to N+20integer
q08SMF70Q08Count of times In Ready was N+21 to N+30integer
q09SMF70Q09Count of times In Ready was N+31 to N+40integer
q10SMF70Q10Count of times In Ready was N+41 to N+60integer
q11SMF70Q11Count of times In Ready was N+61 to N+80integer
q12SMF70Q12Count of times In Ready was greater N+80integer
srmSMF70SRMNumber of SRM samples for calculation of WEB valuesinteger
cp_minSMF70CMNCP processors minimuminteger
cp_maxSMF70CMMCP processors maximuminteger
cp_totalSMF70CTTCP processors total valueinteger
zaap_minSMF70DMNAAP processors minimuminteger
zaap_maxSMF70DMMAAP processors maximuminteger
zaap_totalSMF70DTTAAP processors totalinteger
ziip_minSMF70EMNIIP processors minimuminteger
ziip_maxSMF70EMMIIP processors maximuminteger
ziip_totalSMF70ETTIIP processors total valueinteger
u00SMF70U00Count of times the number of work units was <= Ninteger
u01SMF70U01Count of times the number of work units was N+1integer
u02SMF70U02Count of times the number of work units was N+2integer
u03SMF70U03Count of times the number of work units was N+3integer
u04SMF70U04Count of times the number of work units was N+4 or N+5integer
u05SMF70U05Count of times the number of work units was N+6 to N+10integer
u06SMF70U06Count of times the number of work units was N+11 to N+15integer
u07SMF70U07Count of times the number of work units was N+16 to N+20integer
u08SMF70U08Count of times the number of work units was N+21 to N+30integer
u09SMF70U09Count of times the number of work units was N+31 to N+40integer
u10SMF70U10Count of times the number of work units was N+41 to N+60integer
u11SMF70U11Count of times the number of work units was N+61 to N+80integer
u12SMF70U12Count of times the number of work units was N+81 to N+100integer
u13SMF70U13Count of times the number of work units was N+101 to N+120integer
u14SMF70U14Count of times the number of work units was N+121 to N+150integer
u15SMF70U15Count of times the number of work units was greater N+150integer

SMF70CTL

CPU CONTROL SECTION

NameBased onDescriptionType/Format
modSMF70MODCPU processor familystring
verSMF70VERCPU VERSION NUMBERinteger
bnpSMF70BNPNumber of physical processors assigned for PR/SM useinteger
inb flagSMF70INBPR/SM indicator bitsstring
diagnose_204_failureinbPR/SM - Diagnose X'204’ failure
physical_proc_chnginbPR/SM - Number of physical processors has changed
dispatch_interval_chnginbPR/SM - Dispatch interval value has changed
physical_partinbPR/SM - An additional partition is presented with the name “PHYSICAL”. This partition includes all of the otherwise uncaptured time which was used by LPAR but could not be attributed to a specific logical partition
diagnose_204_extinbPR/SM - Diagnose X'204’ extended data is supported
diagnose_204_smplinbSimplified Diagnose X'204’ data provided for system running as z/VM guest. CPU consumption by z/VM itself provided with partition data section named “PHYSICAL”
stf flagSMF70STFControl section flagsstring
store_sys_infostfStore-system-information facility installed
cpu_adjustment_factor_chngstfPhysical CPU adjustment factor changed
su_availablestfService units available to MVS image changed
rcustfSMF70LAC is provided for systems running in LPAR mode, as a z/VM guest, or under an alternate virtual machine. The value does no longer include CPU wait times.
hwvstfSMF70MDL is the model-capacity identifier and SMF70HWM is the physical model. If OFF, SMF70MDL represents both model-capacity identifier and physical model
cp_promote_slicesstfCP promote slices (OPT parameter BLWLTRPCT) changed
starvation_thresholdstfSwapped-in starvation threshold (OPT parameter BLWLINTHD) changed
gavstfSMF70GAU is valid
dispatch_intervalSMF70GTSPR/SM - Dispatch accumulated interval time in milliseconds. A zero value indicates that the dispatch interval was dynamically determinedinteger
mdlSMF70MDLEBCDIC CPC model identifier. See Bit 4 of SMF70STF (SMF70HWV)string
sample_diagnoseSMF70DSANumber of Diagnose samplesinteger
ifa_onlineSMF70IFAzAAPs (IFAs) online at the end of the intervalinteger
wlaSMF70WLAMillions of service units available to MVS image when not running as VM guest. If running as VM guest, capactity available to VMinteger
lacSMF70LACLong-term average CPU service in millions of service units. For details, see RCTLACS of IRARCT. Scope of value depends on Bit 3 of SMF70STF (SMF70RCU).integer
hofSMF70HOFHypervisor date/time offset (aka Sysplex timer offset)date-time
hwmSMF70HWMEBCDIC CPC physical model identifier. Valid if Bit 4 of SMF70STF (SMF70HWV) is set.string
ziip_onlineSMF70SUPzIIPs online at the end of the intervalinteger
gjtSMF70GJTTime when the partition that wrote this record has joined or left its capacity group (last change of group name). Also set at IPL time when no member of a capacity group.time
pomSMF70POMEBCDIC plant code that identifies the plant of manufacture for the configuration. The plant code is left-justified with trailing blank characters if necessarystring
cscSMF70CSCEBCDIC sequence code of the configuration. The sequence code is right-justified with leading EBCDIC zeroes if necessarystring
hhf flagSMF70HHFAdditional flagsstring
hd_supportedhhfHiperDispatch supported
hd_activehhfHiperDispatch is active
hd_staus_chnghhfHiperDispatch status changed during interval
hismt_failurehhfFailure returned by HisMT service. Values in logical core data section, multithreading capacity factors and average thread density values are invalid.
absolut_msu_cappinghhfAbsolute MSU capping is active
prtct_validhhfSMF70OS_PRTCT is valid
crSMF70CRZEP field 0string
pmiSMF70PMIAccumulated number of blocked dispatachable units per second that may get promoted in their dispatch priority. To get the average promote event rate, divide SMF70PMI by SMF70SAMinteger
pmuSMF70PMUNumber of blocked dispatchable units being promoted during the intervalinteger
pmwSMF70PMWAccumulated number of address spaces and enclaves being blocked during the interval. To get the average number of waiters for promote, divide SMF70PMW by SMF70SAM.integer
pmpSMF70PMPMaximum number of address spaces and enclaves found being blocked during the intervalinteger
pmtSMF70PMT1/1000s of the CPU capacity for promote slices (OPT parameter BLWLTRPCT)integer
pmlSMF70PMLSwapped-in starvation threshold. When an address space or enclave not received CPU service within this time interval although it has ready-to-tun work, it is considered being blocked (OPT parameter BLWLINTHD)integer
mpcSMF70MPCWhen non-zero, EBCDIC model permanent capacity identifier of the configuration. The identifier is left justified with trailing blanks if necessary.string
mtcSMF70MTCWhen non-zero, EBCDIC model temporary capacity identifier of the configuration. The identifier is left justified with trailing blanks if necessary.string
mcrSMF70MCRModel capacity rating. When non-zero, this value is associated with the model capacity as identified in field SMF70MDL.integer
mprSMF70MPRModel permanent capacity rating. When non-zero, this value is associated with the model capacity as identified in field SMF70MPC.integer
mtrSMF70MTRModel temporary capacity rating. When non-zero, this value is associated with the model capacity as identified in field SMF70MTC.integer
zepSMF70ZEPZEP field 1integer
zerSMF70ZERZEP field 2string
zeeSMF70ZEEZEP field 3string
zecSMF70ZECZEP field 4string
nrmSMF70NRMNormalization factor for zIIP Multiply zIIP time by this value and divide by 256 to get the equivalent time on a CPinteger
gauSMF70GAULong-term average of CPU service in millions of service units which would be allowed by the limit of the capacity group but is not used by its members. If the value is negative, this capacity group is capped. Valid if Bit 7 of SMF70STF (SMF70GAV) set.integer
zeiSMF70ZEIZEP field 5string
ncrSMF70NCRNominal model-capacity rating. When non-zero, this value is associated with the nominal model capacity as identified in field SMF70MDL. When field SMF70CAI contains a value of 100, this value equals the value in field SMF70MCR.integer
nprSMF70NPRNominal permanent model-capacity rating. When non-zero, this value is associated with the nominal permanent model capacity as identified in field SMF70MPC. When field SMF70CAI contains a value of 100, this value equals the value in field SMF70MPR.integer
ntrSMF70NTRNominal temporary model-capacity rating. When non-zero, this value is associated with the nominal temporary model capacity as identified in field SMF70MTC. When field SMF70CAI contains a value of 100, this value equals the value in field SMF70MTR.integer
caiSMF70CAICapacity-adjustment indication. When zero, the indication is not reported. When in the range 1 to 99, some amount of reduction is indicated. When 100, the machine is operating at its normal capacity. Temporary capacity changes that affect machine performance (for example, CBU or OOCoD) are not includedinteger
ccrSMF70CCRCapacity-change reason. Valid if SMF70CAI is non-zero. When 1, the capacity change is due to the setting of a manual control. When greater than 1, capacity change is due to an internal machine conditioninteger
mcpSMF70MCPMaximum CPU address available at this IPLinteger
icpSMF70ICPHighest CPU Id installed at IPL timeinteger
ccpSMF70CCPHighest CPU Id currently installed This number can increase upon dynamic CPU additioninteger
cpu_adjustment_factor_actualSMF70CPA_ACTUALPhysical CPU adjustment factor based on Model Capacity Rating (will be used for converting processor time to service units). This value together with SMF70CPUA_scaling_factor replaces SMF70CPA.integer
cpa_scaling_factorSMF70CPA_SCALING_FACTORScaling factor for SMF70CPA_actualinteger
multithreading_cap_cp_max processedSMF70MCFMultithreading maximum capacity numerator for general purpose processors. Divide this value by 1024 to get the multithreading maximum capacity factor for all general purpose processors that were configured ONLINE for the complete interval.integer
multithreading_cap_ziip_max processedSMF70MCFSMultithreading maximum capacity numerator for zIIP processors. Divide this value by 1024 to get the multithreading maximum capacity factor for all zIIPs that were configured ONLINE for the complete interval. A zero value is reported if no zIIP is currently installedinteger
multithreading_cap_zaap_max processedSMF70MCFIMultithreading maximum capacity numerator for zAAP processors. Divide this value by 1024 to get the multithreading maximum capacity factor for all zAAPs that were configured ONLINE for the complete interval. A zero value is reported if no zAAP is currently installedinteger
multithreading_cap_cp processedSMF70CFMultithreading capacity numerator for general purpose processors. Divide this value by 1024 to get the multithreading capacity factor for all general purpose processors that were configured ONLINE for the complete interval.integer
multithreading_cap_ziip processedSMF70CFSMultithreading capacity numerator for zIIP processors. Divide this value by 1024 to get get the multithreading capacity factor for all zIIPs that were configured ONLINE for the complete interval. A zero value is reported if no zIIP is currently installedinteger
multithreading_cap_zaap processedSMF70CFIMultithreading capacity numerator for zAAP processors. Divide this value by 1024 to get get the multithreading capacity factor for all zAAPs that were configured ONLINE for the complete interval. A zero value is reported if no zAAP is currently installedinteger
atdSMF70ATDAverage Thread Density numerator for general purpose processors. Divide this value by 1024 to get the average number of active threads for all general purpose processors that were dispatched to physical hardware and configured ONLINE for the complete interval.integer
atdsSMF70ATDSAverage Thread Density numerator for zIIP. Divide this value by 1024 to get the average number of active threads for all zIIPs that were dispatched to physical hardware and configured ONLINE for the complete interval. A zero value is reported if no zIIP is currently installedinteger
atdiSMF70ATDIAverage Thread Density numerator for zAAP. Divide this value by 1024 to get the average number of active threads for all zAAPs that were dispatched to physical hardware and configured ONLINE for the complete interval. A zero value is reported if no zAAP is currently installedinteger
lacmSMF70LACMLong-term average CPU service (millions of service units) consumed by transactions classified with reporting attribute MOBILE. If an address space or enclave is part of a tenant resource group, it will not contribute to SMF70LACM.integer
lacaSMF70LACALong-term average CPU service (millions of service units) consumed by transactions classified with reporting attribute CATEGORYA. If an address space or enclave is part of a tenant resource group, it will not contribute to SMF70LACA.integer
lacbSMF70LACBLong-term average CPU service (millions of service units) consumed by transactions classified with reporting attribute CATEGORYB. If an address space or enclave is part of a tenant resource group, it will not contribute to SMF70LACB.integer
adjSMF70ADJLogical adjustment factor for CPU rateinteger
laccrSMF70LACCRLong-term average CPU service (millions of service units) consumed by DFSMS data set encryption. Valid only for IBM z14 and later CPCsinteger
maxpuSMF70MAXPUWhen non-zero, this field indicates how many processor cores are physically available in this particular machine. When the value is 0, it is not defined for this model.integer
os_prtctSMF70OS_PRTCTWhen non-zero, OSPROTECT system parameter with value other than SYSTEM is in effect. X'01’ indicates OSPROTECT=1. May be 0 for IBM z15 and later machines when OSPROTECT=1integer
ipl_timeSMF70_IPL_TIMEIPL time of partition (TOD format)date-time
trg_m_cntSMF70_TRG_M_CNTNumber of times sampling of tenant resource group memory consumption happenedinteger
cpc_typeSMF70CPC_TYPECPC Typestring
mdl_varSMF70MDL_VAREBCDIC model variable capacity identifier. The identifier is left justified with trailing blanks if necessary. This field is zero, if not supported by the hardware.string
mvcrSMF70MVCRModel variable capacity rating. When non-zero, this value is associated with the model capacity as identified in field SMF70MDL_VAR.integer
nvcrSMF70NVCRNominal model variable capacity rating. When non-zero, this value is associated with the nominal model capacity as identified in field SMF70MDL_VAR. When field SMF70CAI contains a value of 100, this value equals the value in field SMF70MVCR.integer
zsu_on_ziipSMF70ZSU_ON_ZIIPUnweighted zIIP-eligible service units spent on zIIP for the entire systeminteger
zsu_on_cpSMF70ZSU_ON_CPUnweighted zIIP-eligible service units spent on CP for the entire systeminteger
jsu_on_ziipSMF70JSU_ON_ZIIPUnweighted zIIP-eligible Java service units spent on zIIP for the entire systeminteger
jsu_on_cpSMF70JSU_ON_CPUnweighted zIIP-eligible Java service units spent on CP for the entire systeminteger
cpe_loSMF70CPE_LOLow threshold value of OPT parameter CPENABLEinteger
cpe_hiSMF70CPE_HIHigh threshold value of OPT parameter CPENABLEinteger
cpu_adjustment_factor virtualcpu_adjustment_factor_actual
cpa_scaling_factor
Physical CPU adjustment factor based on alternate CPU capabilityinteger
cpu_adjustment_factor_effective virtualcpu_adjustment_factor
cpu_adjustment_factor_actual
cpu_control_section_length
Effective CPU adjustment factor
cpa_scaling_factor_effective virtualcpa_scaling_factor
cpu_adjustment_factor_actual
cpu_control_section_length
Scaling factor for SMF70CPA_actual and SMF70CPA_actual_CBP wherever they are used, else 1.

SMF70CPU

CPU DATA SECTION

NameBased onDescriptionType/Format
cpu_wait_timeSMF70WATCPU wait timetimedelta
cpu_idSMF70CIDCPU identifierinteger
cnf flagSMF70CNFConfiguration activity flagsstring
cpu_offcnfCPU is offline while core is online
data_availablecnfData available for a complete interval
cpu_variedcnfCPU was varied during Postprocessor duration interval
data_invalidcnfData invalid, CPU reconfigured in measurement interval
cpu_is_onlinecnfCPU online at end of interval
cpu_serialSMF70SERCPU serial number, 6 hex digitsstring
cpu_type processedSMF70TYPCPU type: 0 = General purpose CP 1 = zAAP (IFA) 2 = zIIPinteger
count_slhSMF70SLHNum of entries to the I/O SLIHinteger
count_tpiSMF70TPINumber of TPI with CC=1integer
vfsSMF70VFSNumber of samples where the vector bit in the PSA image was ONinteger
v flagSMF70VVector configurationstring
vector_onlinevVector was online
cpu_parked_timeSMF70PATCPU parked timetimedelta
count_tcbSMF70TCBNumber of TCB dispatchesinteger
count_srbSMF70SRBNumber of SRB dispatchesinteger
count_ioSMF70NIONumber of I/Os for this CPUinteger
sigSMF70SIGTotal number of SIGPs done by this CPUinteger
wtdSMF70WTDWait dispatch count for this CPUinteger
wtsSMF70WTSThe number of times PR/SM issued a warning-track interruption to a logical processor and z/OS was able to return the logical processor to PR/SM within the grace periodinteger
wtuSMF70WTUThe number of times PR/SM issued a warning-track interruption to a logical processor and z/OS was unable to return the logical processor to PR/SM within the grace periodinteger
wtiSMF70WTIAmount of time in milliseconds that a logical processor was yielded to PR/SM due to warning track processinginteger
rate_io_interrupt virtualinterval
count_slh
count_tpi
I/O interrupt rate
rate_io_interrupt_by_tpi virtualinterval_in_milliseconds
count_slh
count_tpi
I/O interrupt rate by TPI
cpu_unparked_time virtualcpu_parked_time
interval
cpu_is_online
cpu_busy_time
CPU unparked time
cpu_parked_percentage virtualcpu_parked_time
interval
CPU parked percentage
cpu_unparked_percentage virtualcpu_unparked_time
interval_in_milliseconds
CPU unparked percentage
cpu_busy_time virtualcpu_is_online
cpu_wait_time
cpu_parked_time
interval
CPU busy time
cpu_busy_percentage virtualcpu_busy_time
cpu_unparked_time
cpu_unparked_percentage
CPU busy percentage
unparked_percentage virtualcpu_unparked_percentage
timestamp
cpu_type
Total MVS unparked percentage, per CPU type
mvs_busy_percentage virtualcpu_busy_percentage
unparked_percentage
Total MVS busy percentage, per CPU type
rate_tcb virtualcount_tcb
interval_in_milliseconds
TCB rate for the CPU
rate_srb virtualcount_srb
interval_in_milliseconds
I/O rate for the CPU
rate_io virtualcount_io
interval_in_milliseconds
I/O rate for the CPU

SMF70BCT

PR/SM PARTITION DATA SECTION There is one section per configured partition. It is referred to as a partition data entry.

NameBased onDescriptionType/Format
lpar_nameSMF70LPMLogical partition namestring
lpar_numberSMF70LPNLogical partition numberinteger
pfg flagSMF70PFGPartition flagsstring
pdvpfgPartition has changed from activated to deactivated, or vice versa, during interval
logical_proc_chngpfgPartition’s number of logical processors has changed
dedicated_proc_chngpfgPartition’s number of dedicated processors has changed
shared_proc_chngpfgPartition’s number of shared processors has changed
wlm_activepfgWLM LPAR Management is active for this partition
wait_time_fieldpfgWait time field (SMF70WST) is is defined
capacity_limit_chngpfgDefined capacity limit has been changed
msfpfgNo longer used
lpar_cpu_countSMF70BDNNumber of logical CPUs assigned to this partition. This count matches the number of subsequent PR/SM logical processor data sectionsinteger
bdsSMF70BDSNumber of logical processor data blocks to skip before reaching the block(s) belonging to this partition.integer
bdaSMF70BDAAccumulated number of logical CPUs active for this partitioninteger
sysplex_nameSMF70SPNName of the logical-partition cluster. Zeros if this partition is no cluster member. For z/OS, the LPAR cluster name is the sysplex name. For any other logical partition, the LPAR cluster name is the name provided in the HMC definition of this logical partition.string
system_nameSMF70STNName of the operating-system instance. Zeros if no name declared for this partitionstring
csfSMF70CSFNumber of megabytes of central storage currently online to this partitioninteger
esfSMF70ESFNumber of megabytes of expanded storage currently online to this partitioninteger
msuSMF70MSUDefined capacity limit (in millions of service units) that a logical partition may consume per unit time on average (extended mode only)integer
pfl flagSMF70PFLAdditional flagsstring
uvfpflContent of SMF70UPI is valid
capacity_group_memberpflGroup flag. This partition is member of a capacity group.
vertically_polarizedpflPolarization flag. This partition is vertically polarized. That is, HiperDispatch mode is active. The SMF70POW fields in the logical processor data section are valid for CPUs of this partition.
init_weightpflInitial weight instead of current weight should be used to project usage of the members in the capacity group.
upiSMF70UPIUser partition ID. Valid if bit 0 (SMF70UVF) of SMF70PFL is set.integer
mtidSMF70MTIDMaximum Thread Identification. A non-zero value indicates that PROCVIEW CORE is effective for this partition and the hardware supports multithreading.integer
capactiy_group_nameSMF70GNMName of the capacity group this parition belongs to. Valid if bit 1 (SMF70GRP) of SMF70PFL is ON.string
gmuSMF70GMUGroup maximum licensing units. The maximum number of processor licensing units for the group of logical partitions identified by having the same group name, of which this partition is a member, and which may be consumed per unit of time, on average. Valid if bit 1 (SMF70GRP) of SMF70PFL is ON.integer
hwgr_nameSMF70HWGR_NAMEName of the hardware group this parition belongs to.string
boostinfo flagSMF70_BOOSTINFOBoost informationstring
boostinfo_ziipboostinfozIIP boost was active at some point within the interval.
boostinfo_speedboostinfoSpeed boost was active at some point within the interval.
lpar_system_name virtuallpar_name
system_name
LPAR-System name

SMF70BPD

PR/SM Logical Processor Data Section. There is one data section per logical processor per partition.

NameBased onDescriptionType/Format
dispatch_time_totalSMF70PDTLogical processor total dispatch time, in microseconds. When associated with partition name PHYSICAL, this field contains the accumulated number of microseconds during which a physical CPU was busy but the time could not be attributed to a specific logical partition. This time includes the time PR/SM was controlling the physical processor (LPAR management time) as well as any other time the processor was busy for any reason such as managing coupling facility traffic.integer
vpaSMF70VPALogical processor addressinteger
processor_weightSMF70BPSProcessor relative shareinteger
vpf flagSMF70VPFLogical processor flagsstring
wait_completion_statusvpfWait Completion state enabled
wait_completion_status_chngvpfWait Completion status has changed during interval
relative_share_chngvpfRelative share value has changed during interval
initial_cap_novpf‘Initial Capping’ was set to ‘ON’ on the Hardware Management Console
initial_cap_chngvpf‘Initial Capping’ status has changed during the interval
logical_vary_onlinevpfLogical processor varied online during measurment interval
hw_cap_limit_chngvpfSMF70HW_Cap_Limit has changed during the interval
cap_limit_chngvpfSMF70HWGr_Name or SMF70HWGr_Cap_Limit has changed during the interval
flags_polarizationSMF70POFPolarization flagsstring
poi flagSMF70POIPolarization indicator: 00 = Horizontally polarized or polarization not indicated, 01 = Vertically polarized with low entitlement, 10 = Vertically polarized with medium entitlement, 11 = Vertically polarized with high entitlementstring
pocpoiPolarization indication changed during the interval
cpu_id_indexSMF70CIXIndex to the CPU-identification name section that contains the EBCDIC name corresponding to the CPU type of the logical processorinteger
dispatch_time_effectiveSMF70EDTLogical processor effective dispatch time, in microseconds. When associated with partition name PHYSICAL, this field contains the accumulated number of microseconds during which a physical CPU was busy but the time could not be attributed to a specific logical partition or to LPAR management of the physical processor. One example is time managing coupling facility traffic. This field is zero, if not supported by the hardware. LPAR management time is the time from SMF70PDT associated with partition name PHYSICAL less the contents of this field.integer
share_actualSMF70ACSAccumulated processor actual shareinteger
share_minimumSMF70MISProcessor minimum shareinteger
share_maximumSMF70MASProcessor maximum shareinteger
nsiSMF70NSINumber of Diagnose samples within the specified minimum (+10%)integer
nsaSMF70NSANumber of Diagnose samples within the specified maximum (-10%)integer
logical_processor_online_timeSMF70ONTLogical processor online timeinteger
wstSMF70WSTLogical processor wait state timeinteger
pmaSMF70PMAAverage adjustment weight for pricing managementinteger
cap_wlm_percentageSMF70NSWNumber of Diagnose samples where WLM considers to cap the set of logical CPUs of type SMF70CIX within the logical partition (see also SMF70NCA).integer
powSMF70POWWeight for the logical CPU when HiperDispatch mode is active. See bit 2 (SMF70PWF) of SMF70PFL. Multiplied by a factor of 4096 for more granularity. The value may be the same or different for all shared CPUs of type SMF70CIX. This is an accumulated value. Divide by the number of Diagnose samples SMF70DSA to get the average weight value for the interval.integer
cap_actual_percentageSMF70NCANumber of Diagnose samples where capping actually limited the usage of processor resources for the set of logical CPUs of type SMF70CIX within the logical partitioninteger
cap_absoluteSMF70HW_CAP_LIMITIf not zero, absolute limit on partition usage of all CPUs of the type indicated in SMF70CIX in terms of numbers of hundredth of CPUs.integer
cap_absolute_groupSMF70HWGR_CAP_LIMITIf not zero, absolute limit on partition usage of all CPUs of the type indicated in SMF70CIX which are members of the same hardware group, in terms of numbers of hundredth of CPUs.integer
mtitSMF70MTITMultithreading Idle Time in microseconds accumulated for all threads of a dispatched core. This field is only valid if SMF70MTID is not zero for this partition.integer
lpf flagSMF70LPFAdditional processor flagsstring
lpf_topo_changedlpfCPU topology has changed during the interval
max_nesting_levelSMF70MAXNLMaximum number of topology nesting level. The value is model dependent with a maximum of 6. If zero, the model does not provide information about the topological nesting levels. If one, there is no actual topological nesting structure. If 2-6, topological nesting levels are available in field SMF70CordL1 up to SMF70CordLx. Where x is the value that defines the maximum number of topology nesting level.integer
cord_l1SMF70CORDL1Coordinate of the preferred dispatch location of the logical core at topological nesting level 1. Valid if SMF70MaxNL > 0integer
cord_l2SMF70CORDL2Coordinate of the preferred dispatch location of the logical core at topological nesting level 2. Valid if SMF70MaxNL > 1integer
cord_l3SMF70CORDL3Coordinate of the preferred dispatch location of the logical core at topological nesting level 3. Valid if SMF70MaxNL > 2integer
cord_l4SMF70CORDL4Coordinate of the preferred dispatch location of the logical core at topological nesting level 4. Valid if SMF70MaxNL > 3integer
cord_l5SMF70CORDL5Coordinate of the preferred dispatch location of the logical core at topological nesting level 5. Valid if SMF70MaxNL > 4integer
cord_l6SMF70CORDL6Coordinate of the preferred dispatch location of the logical core at topological nesting level 6. Valid if SMF70MaxNL > 5integer
msu_physical virtualdispatch_time_total
cpa_scaling_factor_effective
cpu_adjustment_factor_effective
interval_in_milliseconds
Physical MSU
processor_weight_online virtualprocessor_weight
logical_processor_online_time
Valid processor weight values
cpu_polarization virtualflags_polarizationPolarization indicator: 00 = Horizontally polarized or polarization no…
msu_effective virtualdispatch_time_effective
cpa_scaling_factor_effective
cpu_adjustment_factor_effective
interval_in_milliseconds
Effective MSU
share_current virtualshare_actual
sample_diagnose
processor_weight
Accumulated processor current share
logical_processor_is_online virtuallogical_processor_online_timeLogical processor is online for the given partition
utilization_per_cpu_physical virtualdispatch_time_total
logical_processor_online_time
cpu_count
Physical per CPU Utilization
lpar_management_per_cpu virtualdispatch_time_total
dispatch_time_effective
logical_processor_online_time
cpu_count
Physical per CPU Utilization

SMF70CIS

CPU-identification name Section. There is one section per EBCDIC name that identifies a CPU type. ‘CP’ and ‘ICF’, with appropriate trailing blanks, are examples of EBCDIC names describing a General Purpose CPU and an Internal Coupling Facility CPU, respectively.

NameBased onDescriptionType/Format
cpu_name processedSMF70CINCPU-identification namestring
cpu_countSMF70CTNNumber of physical CPUs of this type at interval endinteger
cpu_count_accumulatedSMF70CANAccumulated number of physical CPUs. Divide by SMF70DSA to get the average number of physical CPUs of this type applicable during the interval.integer

SMF70LCS

Logical Core Data Section. This section contains usage information for logical cores in a multithreading environment (when the LOADxx PROCVIEW CORE parameter is in effect)

NameBased onDescriptionType/Format
core_idSMF70_CORE_IDCore identificationinteger
core_flg flagSMF70_CORE_FLGLogical Core Informationstring
lpb_validcore_flgCore LPAR Busy time is valid
cpu_skipSMF70_CPU_SKIPThe CPU data sections for this core are grouped together in the record. To get to the first CPU data section associated with this logical core, skip over the number of CPU data sections specified by this field, starting at the first CPU data section in the record.integer
cpu_numSMF70_CPU_NUMNumber of CPU data sections for this core. This value represents the number of threads that are active on this core.integer
prodSMF70_PRODMultithreading core productivity numerator. Divide this value by 1024 to get the multithreading core productivity. A zero value is reported if the core was not configured ONLINE for the complete interval. If SMF70_CPU_NUM is greater than 1, the core productivity represents the percentage of how much work the core resources accomplished while dispatched to physical hardware over the maximum amount of work the core resources could have accomplished while dispatched to physical hardware.integer
lpar_busySMF70_LPAR_BUSYMultithreading Core LPAR Busy time in milliseconds. This field is valid if bit 0 of SMF70_CORE_FLG is set.integer

SMF70TNT

Tenant Resource Group (TRG) Data Section. This section contains CPU activity data TRGs.

NameBased onDescriptionType/Format
trg_nameSMF70_TRG_NAMETRG namestring
trg_descSMF70_TRG_DESCTRG descriptionstring
trg_tntidSMF70_TRG_TNTIDTenant identifierstring
trg_tntnameSMF70_TRG_TNTNAMETenant namestring
trg_sbidSMF70_TRG_SBIDSolution identifierstring
trg_sucpSMF70_TRG_SUCPUnweighted service units on CPs consumed by TRGinteger
trg_suifaSMF70_TRG_SUIFAUnweighted service units on zAAPs consumed by TRG. Valid if bit 8 of SMF70FLA is not setinteger
trg_susupSMF70_TRG_SUSUPUnweighted service units on zIIPs consumed by TRGinteger
trg_lagSMF70_TRG_LACLong-term average service on general purpose processors in millions of service units per hour consumed by TRGinteger
trg_flagsSMF70_TRG_FLAGSFlagsstring
trg_memSMF70_TRG_MEMMemory consumption of tenant resource group in units of 4K framesinteger