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author | Santosh Sivaraj <santosiv@in.ibm.com> | 2015-07-16 12:51:38 +0530 |
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committer | Santosh Sivaraj <santosiv@in.ibm.com> | 2016-11-09 19:42:34 +0530 |
commit | b64828a2907fe5fde45f61c0d8af26634fe3e4ca (patch) | |
tree | 8c947f451769c3fca4ec916c91ae0bb750dc97d2 /catalog | |
parent | febf8efcc0694c3c4597928986583789db98ed8c (diff) | |
download | ima-catalog-b64828a2907fe5fde45f61c0d8af26634fe3e4ca.tar.gz ima-catalog-b64828a2907fe5fde45f61c0d8af26634fe3e4ca.zip |
24x7 catalog formula typo corrections
Signed-off-by: Santosh Sivaraj <santosiv@in.ibm.com>
Diffstat (limited to 'catalog')
-rw-r--r-- | catalog/csv/events.csv | 8 | ||||
-rw-r--r-- | catalog/csv/formulae.csv | 24 |
2 files changed, 16 insertions, 16 deletions
diff --git a/catalog/csv/events.csv b/catalog/csv/events.csv index c4fb3d1..ccbcf2d 100644 --- a/catalog/csv/events.csv +++ b/catalog/csv/events.csv @@ -1279,18 +1279,18 @@ domain,counter offset,name,group count,detailed description,flag,record byte off 1,88,PM_MCS_DOWN_128B_DATA_XFER_MC3_LAST_SAMPLE,1,,0,384,128,3,-1, 1,24,PM_XLINK0_IN_DATA_CYC,1,,0,512,128,4,15,Total X-Link0 inbound data cycles 1,32,PM_XLINK1_IN_DATA_CYC,1,,0,512,128,4,16,Total X-Link1 inbound data cycles -1,40,PM_XLINK2_IN_DATA_CYC,1,,0,512,128,4,17,Total X-Link2 inbound data cycles +1,40,PM_XLINK3_IN_DATA_CYC,1,,0,512,128,4,17,Total X-Link3 inbound data cycles 1,48,PM_XLINK_CYCLES,2,,0,512,128,4,-1,Xlinks Cycle counts 1,64,PM_XLINK0_IN_DATA_CYC_LAST_SAMPLE,1,,0,512,128,4,-1, 1,72,PM_XLINK1_IN_DATA_CYC_LAST_SAMPLE,1,,0,512,128,4,-1, -1,80,PM_XLINK2_IN_DATA_CYC_LAST_SAMPLE,1,,0,512,128,4,-1, +1,80,PM_XLINK3_IN_DATA_CYC_LAST_SAMPLE,1,,0,512,128,4,-1, 1,88,PM_XLINK_CYCLES_LAST_SAMPLE,2,,0,512,128,4,-1, 1,24,PM_XLINK0_IN_IDL_CYC,1,,0,640,128,5,18,Total X-Link0 inbound Idle cycles 1,32,PM_XLINK1_IN_IDL_CYC,1,,0,640,128,5,19,Total X-Link1 inbound Idle cycles -1,40,PM_XLINK2_IN_IDL_CYC,1,,0,640,128,5,20,Total X-Link2 inbound Idle cycles +1,40,PM_XLINK3_IN_IDL_CYC,1,,0,640,128,5,20,Total X-Link3 inbound Idle cycles 1,64,PM_XLINK0_IN_IDL_CYC_LAST_SAMPLE,1,,0,640,128,5,-1, 1,72,PM_XLINK1_IN_IDL_CYC_LAST_SAMPLE,1,,0,640,128,5,-1, -1,80,PM_XLINK2_IN_IDL_CYC_LAST_SAMPLE,1,,0,640,128,5,-1, +1,80,PM_XLINK3_IN_IDL_CYC_LAST_SAMPLE,1,,0,640,128,5,-1, 1,24,PM_ALINK0_IN_DATA_CYC,1,,0,768,128,6,21,Total A-Link0 inbound data cycles 1,32,PM_ALINK1_IN_DATA_CYC,1,,0,768,128,6,21,Total A-Link1 inbound data cycles 1,40,PM_ALINK2_IN_DATA_CYC,1,,0,768,128,6,23,Total A-Link2 inbound data cycles diff --git a/catalog/csv/formulae.csv b/catalog/csv/formulae.csv index a9df369..1939009 100644 --- a/catalog/csv/formulae.csv +++ b/catalog/csv/formulae.csv @@ -2,24 +2,24 @@ Formula Name,Group,Grouped,flag,Formula Description,Formula,Unit MCD_RETRY_DINC_PERSEC,0,y,4,Total number of Retries per second With Domain Increment indication seen on Port0 and Port1 of MCD,(PM_MCD_CHECK_RTY_DINC/PM_PB_CYC) * PB_Freq, TOTAL_INT_PB_BW,0,y,4,Total internal PB Bandwidth,((PM_PB_INT_DATA_XFER * 512) / PM_PB_CYC) * PB_Freq,bytes/sec TOTAL_EXT_PB_BW,0,y,4,Total external PB Bandwidth,((PM_PB_EXT_DATA_XFER * 512) / PM_PB_CYC) * PB_Freq,bytes/sec -TOTAL_SYSTEM_PUMPS_PERSEC,1,n,0,Sum of System Pumps on P0 and P1,((PM_PB_SYS_PUMP) / PM_PB_CYC) * PB_Freq,bytes/sec -TOTAL_NODE_PUMPS_PERSEC,1,n,0,Sum of Node Pumps on P0 and P1,((PM_PB_NODE_PUMP) / PM_PB_CYC) * PB_Freq,bytes/sec +TOTAL_SYSTEM_PUMPS_PERSEC,1,n,0,Sum of System Pumps on P0 and P1,(PM_PB_SYS_PUMP / PM_PB_CYC) * PB_Freq,bytes/sec +TOTAL_NODE_PUMPS_PERSEC,1,n,0,Sum of Node Pumps on P0 and P1,(PM_PB_NODE_PUMP / PM_PB_CYC) * PB_Freq,bytes/sec TOTAL_SYSTEM_PUMP_RETRY_PERSEC,1,n,0,Total number of System pump Retries seen on P0 and P1,((PM_PB_SYS_PUMP_RTY) / PM_PB_CYC) * PB_Freq,bytes/sec TOTAL_NODE_PUMP_RETRY_PERSEC,1,n,0,Total number of Node pump Retries seen on P0 and P1,((PM_PB_NODE_PUMP_RTY) / PM_PB_CYC) * PB_Freq,bytes/sec -TOTAL_MC0_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC0,PM_MCS_UP_128B_DATA_XFER*128*PB_Freq)/ PM_PB_CYC,bytes/sec -TOTAL_MC1_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC1,PM_MCS_UP_128B_DATA_XFER*128*PB_Freq)/ PM_PB_CYC,bytes/sec -TOTAL_MC2_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC2,PM_MCS_UP_128B_DATA_XFER*128*PB_Freq)/ PM_PB_CYC,bytes/sec -TOTAL_MC3_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC3,PM_MCS_UP_128B_DATA_XFER*128*PB_Freq)/ PM_PB_CYC,bytes/sec -TOTAL_MC0_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC0,PM_MCS_DOWN_128B_DATA_XFER_MC0*128*PB_Freq)/ PM_PB_CYC,bytes/sec -TOTAL_MC1_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC1,PM_MCS_DOWN_128B_DATA_XFER_MC1*128*PB_Freq)/ PM_PB_CYC,bytes/sec -TOTAL_MC2_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC2,PM_MCS_DOWN_128B_DATA_XFER_MC2*128*PB_Freq)/ PM_PB_CYC,bytes/sec -TOTAL_MC3_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC3,PM_MCS_DOWN_128B_DATA_XFER_MC3*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC0_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC0,(PM_MCS_UP_128B_DATA_XFER_MC0*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC1_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC1,(PM_MCS_UP_128B_DATA_XFER_MC1*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC2_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC2,(PM_MCS_UP_128B_DATA_XFER_MC2*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC3_READ_BW,2,n,0,Total Read Bandwidth seen on both MCS of MC3,(PM_MCS_UP_128B_DATA_XFER_MC3*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC0_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC0,(PM_MCS_DOWN_128B_DATA_XFER_MC0*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC1_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC1,(PM_MCS_DOWN_128B_DATA_XFER_MC1*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC2_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC2,(PM_MCS_DOWN_128B_DATA_XFER_MC2*128*PB_Freq)/ PM_PB_CYC,bytes/sec +TOTAL_MC3_WRITE_BW,3,n,0,Total Write Bandwidth seen on both MCS of MC3,(PM_MCS_DOWN_128B_DATA_XFER_MC3*128*PB_Freq)/ PM_PB_CYC,bytes/sec TOTAL_INBOUND_XLINK0_BW,4,y,4,Total X-Link0 inbound data cycles,(PM_XLINK0_IN_DATA_CYC * 8 * XBUS_Freq) / PM_XLINK_CYCLES,bytes/sec TOTAL_INBOUND_XLINK1_BW,4,y,4,Total X-Link1 inbound data cycles,(PM_XLINK1_IN_DATA_CYC * 8 * XBUS_Freq) / PM_XLINK_CYCLES,bytes/sec -TOTAL_INBOUND_XLINK2_BW,4,y,4,Total X-Link2 inbound data cycles,(PM_XLINK2_IN_DATA_CYC * 8 * XBUS_Freq) / PM_XLINK_CYCLES,bytes/sec +TOTAL_INBOUND_XLINK3_BW,4,y,4,Total X-Link2 inbound data cycles,(PM_XLINK3_IN_DATA_CYC * 8 * XBUS_Freq) / PM_XLINK_CYCLES,bytes/sec TOTAL_XLINK0_UTILISATION%,5,y,4,Total X-Link0 inbound Idle cycles,(1 - PM_XLINK0_IN_IDL_CYC/PM_XLINK_CYCLES)*100,% TOTAL_XLINK1_UTILISATION%,5,y,4,Total X-Link1 inbound Idle cycles,(1 - PM_XLINK1_IN_IDL_CYC/PM_XLINK_CYCLES)*100,% -TOTAL_XLINK2_UTILISATION%,5,y,4,Total X-Link2 inbound Idle cycles,(1 - PM_XLINK2_IN_IDL_CYC/PM_XLINK_CYCLES)*100,% +TOTAL_XLINK3_UTILISATION%,5,y,4,Total X-Link3 inbound Idle cycles,(1 - PM_XLINK3_IN_IDL_CYC/PM_XLINK_CYCLES)*100,% TOTAL_INBOUND_ALINK0_BW,6,y,4,Total A-Link0 inbound data cycles,(PM_ALINK0_IN_DATA_CYC * 8 * ABUS_Freq) / PM_ALINK_CYCLES,bytes/sec TOTAL_INBOUND_ALINK1_BW,6,y,4,Total A-Link1 inbound data cycles,(PM_ALINK1_IN_DATA_CYC * 8 * ABUS_Freq) / PM_ALINK_CYCLES,bytes/sec TOTAL_INBOUND_ALINK2_BW,6,y,4,Total A-Link2 inbound data cycles,(PM_ALINK2_IN_DATA_CYC * 8 * ABUS_Freq) / PM_ALINK_CYCLES,bytes/sec |