1.\" Copyright (c) 2010 Fabien Thomas. All rights reserved. 2.\" 3.\" Redistribution and use in source and binary forms, with or without 4.\" modification, are permitted provided that the following conditions 5.\" are met: 6.\" 1. Redistributions of source code must retain the above copyright 7.\" notice, this list of conditions and the following disclaimer. 8.\" 2. Redistributions in binary form must reproduce the above copyright 9.\" notice, this list of conditions and the following disclaimer in the 10.\" documentation and/or other materials provided with the distribution. 11.\" 12.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 13.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 14.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 15.\" ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 16.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 17.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 18.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 19.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 20.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 21.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 22.\" SUCH DAMAGE. 23.\" 24.\" $FreeBSD$ 25.\" 26.Dd March 24, 2010 27.Dt PMC.COREI7 3 28.Os 29.Sh NAME 30.Nm pmc.corei7 31.Nd measurement events for 32.Tn Intel 33.Tn Core i7 and Xeon 5500 34family CPUs 35.Sh LIBRARY 36.Lb libpmc 37.Sh SYNOPSIS 38.In pmc.h 39.Sh DESCRIPTION 40.Tn Intel 41.Tn "Core i7" 42CPUs contain PMCs conforming to version 2 of the 43.Tn Intel 44performance measurement architecture. 45These CPUs may contain up to three classes of PMCs: 46.Bl -tag -width "Li PMC_CLASS_IAP" 47.It Li PMC_CLASS_IAF 48Fixed-function counters that count only one hardware event per counter. 49.It Li PMC_CLASS_IAP 50Programmable counters that may be configured to count one of a defined 51set of hardware events. 52.El 53.Pp 54The number of PMCs available in each class and their widths need to be 55determined at run time by calling 56.Xr pmc_cpuinfo 3 . 57.Pp 58Intel Core i7 and Xeon 5500 PMCs are documented in 59.Rs 60.%B "Intel(R) 64 and IA-32 Architectures Software Developes Manual" 61.%T "Volume 3B: System Programming Guide, Part 2" 62.%N "Order Number: 253669-033US" 63.%D December 2009 64.%Q "Intel Corporation" 65.Re 66.Ss COREI7 AND XEON 5500 FIXED FUNCTION PMCS 67These PMCs and their supported events are documented in 68.Xr pmc.iaf 3 . 69Not all CPUs in this family implement fixed-function counters. 70.Ss COREI7 AND XEON 5500 PROGRAMMABLE PMCS 71The programmable PMCs support the following capabilities: 72.Bl -column "PMC_CAP_INTERRUPT" "Support" 73.It Em Capability Ta Em Support 74.It PMC_CAP_CASCADE Ta \&No 75.It PMC_CAP_EDGE Ta Yes 76.It PMC_CAP_INTERRUPT Ta Yes 77.It PMC_CAP_INVERT Ta Yes 78.It PMC_CAP_READ Ta Yes 79.It PMC_CAP_PRECISE Ta \&No 80.It PMC_CAP_SYSTEM Ta Yes 81.It PMC_CAP_TAGGING Ta \&No 82.It PMC_CAP_THRESHOLD Ta Yes 83.It PMC_CAP_USER Ta Yes 84.It PMC_CAP_WRITE Ta Yes 85.El 86.Ss Event Qualifiers 87Event specifiers for these PMCs support the following common 88qualifiers: 89.Bl -tag -width indent 90.It Li rsp= Ns Ar value 91Configure the Off-core Response bits. 92.Bl -tag -width indent 93.It Li DMND_DATA_RD 94Counts the number of demand and DCU prefetch data reads of full 95and partial cachelines as well as demand data page table entry 96cacheline reads. Does not count L2 data read prefetches or 97instruction fetches. 98.It Li DMND_RFO 99Counts the number of demand and DCU prefetch reads for ownership 100(RFO) requests generated by a write to data cacheline. Does not 101count L2 RFO. 102.It Li DMND_IFETCH 103Counts the number of demand and DCU prefetch instruction cacheline 104reads. Does not count L2 code read prefetches. 105WB 106Counts the number of writeback (modified to exclusive) transactions. 107.It Li PF_DATA_RD 108Counts the number of data cacheline reads generated by L2 prefetchers. 109.It Li PF_RFO 110Counts the number of RFO requests generated by L2 prefetchers. 111.It Li PF_IFETCH 112Counts the number of code reads generated by L2 prefetchers. 113.It Li OTHER 114Counts one of the following transaction types, including L3 invalidate, 115I/O, full or partial writes, WC or non-temporal stores, CLFLUSH, Fences, 116lock, unlock, split lock. 117.It Li UNCORE_HIT 118L3 Hit: local or remote home requests that hit L3 cache in the uncore 119with no coherency actions required (snooping). 120.It Li OTHER_CORE_HIT_SNP 121L3 Hit: local or remote home requests that hit L3 cache in the uncore 122and was serviced by another core with a cross core snoop where no modified 123copies were found (clean). 124.It Li OTHER_CORE_HITM 125L3 Hit: local or remote home requests that hit L3 cache in the uncore 126and was serviced by another core with a cross core snoop where modified 127copies were found (HITM). 128.It Li REMOTE_CACHE_FWD 129L3 Miss: local homed requests that missed the L3 cache and was serviced 130by forwarded data following a cross package snoop where no modified 131copies found. (Remote home requests are not counted) 132.It Li REMOTE_DRAM 133L3 Miss: remote home requests that missed the L3 cache and were serviced 134by remote DRAM. 135.It Li LOCAL_DRAM 136L3 Miss: local home requests that missed the L3 cache and were serviced 137by local DRAM. 138.It Li NON_DRAM 139Non-DRAM requests that were serviced by IOH. 140.El 141.It Li cmask= Ns Ar value 142Configure the PMC to increment only if the number of configured 143events measured in a cycle is greater than or equal to 144.Ar value . 145.It Li edge 146Configure the PMC to count the number of de-asserted to asserted 147transitions of the conditions expressed by the other qualifiers. 148If specified, the counter will increment only once whenever a 149condition becomes true, irrespective of the number of clocks during 150which the condition remains true. 151.It Li inv 152Invert the sense of comparison when the 153.Dq Li cmask 154qualifier is present, making the counter increment when the number of 155events per cycle is less than the value specified by the 156.Dq Li cmask 157qualifier. 158.It Li os 159Configure the PMC to count events happening at processor privilege 160level 0. 161.It Li usr 162Configure the PMC to count events occurring at privilege levels 1, 2 163or 3. 164.El 165.Pp 166If neither of the 167.Dq Li os 168or 169.Dq Li usr 170qualifiers are specified, the default is to enable both. 171.Ss Event Specifiers (Programmable PMCs) 172Core i7 and Xeon 5500 programmable PMCs support the following events: 173.Bl -tag -width indent 174.It Li SB_DRAIN.ANY 175.Pq Event 04H , Umask 07H 176Counts the number of store buffer drains. 177.It Li STORE_BLOCKS.AT_RET 178.Pq Event 06H , Umask 04H 179Counts number of loads delayed with at-Retirement block code. The following 180loads need to be executed at retirement and wait for all senior stores on 181the same thread to be drained: load splitting across 4K boundary (page 182split), load accessing uncacheable (UC or USWC) memory, load lock, and load 183with page table in UC or USWC memory region. 184.It Li STORE_BLOCKS.L1D_BLOCK 185.Pq Event 06H , Umask 08H 186Cacheable loads delayed with L1D block code 187.It Li PARTIAL_ADDRESS_ALIAS 188.Pq Event 07H , Umask 01H 189Counts false dependency due to partial address aliasing 190.It Li DTLB_LOAD_MISSES.ANY 191.Pq Event 08H , Umask 01H 192Counts all load misses that cause a page walk 193.It Li DTLB_LOAD_MISSES.WALK_COMPLETED 194.Pq Event 08H , Umask 02H 195Counts number of completed page walks due to load miss in the STLB. 196.It Li DTLB_LOAD_MISSES.STLB_HIT 197.Pq Event 08H , Umask 10H 198Number of cache load STLB hits 199.It Li DTLB_LOAD_MISSES.PDE_MISS 200.Pq Event 08H , Umask 20H 201Number of DTLB cache load misses where the low part of the linear to 202physical address translation was missed. 203.It Li DTLB_LOAD_MISSES.LARGE_WALK_COMPLETED 204.Pq Event 08H , Umask 80H 205Counts number of completed large page walks due to load miss in the STLB. 206.It Li MEM_INST_RETIRED.LOADS 207.Pq Event 0BH , Umask 01H 208Counts the number of instructions with an architecturally-visible store 209retired on the architected path. 210In conjunction with ld_lat facility 211.It Li MEM_INST_RETIRED.STORES 212.Pq Event 0BH , Umask 02H 213Counts the number of instructions with an architecturally-visible store 214retired on the architected path. 215In conjunction with ld_lat facility 216.It Li MEM_INST_RETIRED.LATENCY_ABOVE_THRESHOLD 217.Pq Event 0BH , Umask 10H 218Counts the number of instructions exceeding the latency specified with 219ld_lat facility. 220In conjunction with ld_lat facility 221.It Li MEM_STORE_RETIRED.DTLB_MISS 222.Pq Event 0CH , Umask 01H 223The event counts the number of retired stores that missed the DTLB. The DTLB 224miss is not counted if the store operation causes a fault. Does not counter 225prefetches. Counts both primary and secondary misses to the TLB 226.It Li UOPS_ISSUED.ANY 227.Pq Event 0EH , Umask 01H 228Counts the number of Uops issued by the Register Allocation Table to the 229Reservation Station, i.e. the UOPs issued from the front end to the back 230end. 231.It Li UOPS_ISSUED.STALLED_CYCLES 232.Pq Event 0EH , Umask 01H 233Counts the number of cycles no Uops issued by the Register Allocation Table 234to the Reservation Station, i.e. the UOPs issued from the front end to the 235back end. 236set invert=1, cmask = 1 237.It Li UOPS_ISSUED.FUSED 238.Pq Event 0EH , Umask 02H 239Counts the number of fused Uops that were issued from the Register 240Allocation Table to the Reservation Station. 241.It Li MEM_UNCORE_RETIRED.L3_DATA_MISS_UNKNOWN 242.Pq Event 0FH , Umask 01H 243Counts number of memory load instructions retired where the memory reference 244missed L3 and data source is unknown. 245Available only for CPUID signature 06_2EH 246.It Li MEM_UNCORE_RETIRED.OTHER_CORE_L2_HITM 247.Pq Event 0FH , Umask 02H 248Counts number of memory load instructions retired where the memory reference 249hit modified data in a sibling core residing on the same socket. 250.It Li MEM_UNCORE_RETIRED.REMOTE_CACHE_LOCAL_HOME_HIT 251.Pq Event 0FH , Umask 08H 252Counts number of memory load instructions retired where the memory reference 253missed the L1, L2 and L3 caches and HIT in a remote socket's cache. Only 254counts locally homed lines. 255.It Li MEM_UNCORE_RETIRED.REMOTE_DRAM 256.Pq Event 0FH , Umask 10H 257Counts number of memory load instructions retired where the memory reference 258missed the L1, L2 and L3 caches and was remotely homed. This includes both 259DRAM access and HITM in a remote socket's cache for remotely homed lines. 260.It Li MEM_UNCORE_RETIRED.LOCAL_DRAM 261.Pq Event 0FH , Umask 20H 262Counts number of memory load instructions retired where the memory reference 263missed the L1, L2 and L3 caches and required a local socket memory 264reference. This includes locally homed cachelines that were in a modified 265state in another socket. 266.It Li MEM_UNCORE_RETIRED.UNCACHEABLE 267.Pq Event 0FH , Umask 80H 268Counts number of memory load instructions retired where the memory reference 269missed the L1, L2 and L3 caches and to perform I/O. 270Available only for CPUID signature 06_2EH 271.It Li FP_COMP_OPS_EXE.X87 272.Pq Event 10H , Umask 01H 273Counts the number of FP Computational Uops Executed. The number of FADD, 274FSUB, FCOM, FMULs, integer MULsand IMULs, FDIVs, FPREMs, FSQRTS, integer 275DIVs, and IDIVs. This event does not distinguish an FADD used in the middle 276of a transcendental flow from a separate FADD instruction. 277.It Li FP_COMP_OPS_EXE.MMX 278.Pq Event 10H , Umask 02H 279Counts number of MMX Uops executed. 280.It Li FP_COMP_OPS_EXE.SSE_FP 281.Pq Event 10H , Umask 04H 282Counts number of SSE and SSE2 FP uops executed. 283.It Li FP_COMP_OPS_EXE.SSE2_INTEGER 284.Pq Event 10H , Umask 08H 285Counts number of SSE2 integer uops executed. 286.It Li FP_COMP_OPS_EXE.SSE_FP_PACKED 287.Pq Event 10H , Umask 10H 288Counts number of SSE FP packed uops executed. 289.It Li FP_COMP_OPS_EXE.SSE_FP_SCALAR 290.Pq Event 10H , Umask 20H 291Counts number of SSE FP scalar uops executed. 292.It Li FP_COMP_OPS_EXE.SSE_SINGLE_PRECISION 293.Pq Event 10H , Umask 40H 294Counts number of SSE* FP single precision uops executed. 295.It Li FP_COMP_OPS_EXE.SSE_DOUBLE_PRECISION 296.Pq Event 10H , Umask 80H 297Counts number of SSE* FP double precision uops executed. 298.It Li SIMD_INT_128.PACKED_MPY 299.Pq Event 12H , Umask 01H 300Counts number of 128 bit SIMD integer multiply operations. 301.It Li SIMD_INT_128.PACKED_SHIFT 302.Pq Event 12H , Umask 02H 303Counts number of 128 bit SIMD integer shift operations. 304.It Li SIMD_INT_128.PACK 305.Pq Event 12H , Umask 04H 306Counts number of 128 bit SIMD integer pack operations. 307.It Li SIMD_INT_128.UNPACK 308.Pq Event 12H , Umask 08H 309Counts number of 128 bit SIMD integer unpack operations. 310.It Li SIMD_INT_128.PACKED_LOGICAL 311.Pq Event 12H , Umask 10H 312Counts number of 128 bit SIMD integer logical operations. 313.It Li SIMD_INT_128.PACKED_ARITH 314.Pq Event 12H , Umask 20H 315Counts number of 128 bit SIMD integer arithmetic operations. 316.It Li SIMD_INT_128.SHUFFLE_MOVE 317.Pq Event 12H , Umask 40H 318Counts number of 128 bit SIMD integer shuffle and move operations. 319.It Li LOAD_DISPATCH.RS 320.Pq Event 13H , Umask 01H 321Counts number of loads dispatched from the Reservation Station that bypass 322the Memory Order Buffer. 323.It Li LOAD_DISPATCH.RS_DELAYED 324.Pq Event 13H , Umask 02H 325Counts the number of delayed RS dispatches at the stage latch. If an RS 326dispatch can not bypass to LB, it has another chance to dispatch from the 327one-cycle delayed staging latch before it is written into the LB. 328.It Li LOAD_DISPATCH.MOB 329.Pq Event 13H , Umask 04H 330Counts the number of loads dispatched from the Reservation Station to the 331Memory Order Buffer. 332.It Li LOAD_DISPATCH.ANY 333.Pq Event 13H , Umask 07H 334Counts all loads dispatched from the Reservation Station. 335.It Li ARITH.CYCLES_DIV_BUSY 336.Pq Event 14H , Umask 01H 337Counts the number of cycles the divider is busy executing divide or square 338root operations. The divide can be integer, X87 or Streaming SIMD Extensions 339(SSE). The square root operation can be either X87 or SSE. 340Set 'edge =1, invert=1, cmask=1' to count the number of divides. 341Count may be incorrect When SMT is on. 342.It Li ARITH.MUL 343.Pq Event 14H , Umask 02H 344Counts the number of multiply operations executed. This includes integer as 345well as floating point multiply operations but excludes DPPS mul and MPSAD. 346Count may be incorrect When SMT is on 347.It Li INST_QUEUE_WRITES 348.Pq Event 17H , Umask 01H 349Counts the number of instructions written into the instruction queue every 350cycle. 351.It Li INST_DECODED.DEC0 352.Pq Event 18H , Umask 01H 353Counts number of instructions that require decoder 0 to be decoded. Usually, 354this means that the instruction maps to more than 1 uop 355.It Li TWO_UOP_INSTS_DECODED 356.Pq Event 19H , Umask 01H 357An instruction that generates two uops was decoded 358.It Li INST_QUEUE_WRITE_CYCLES 359.Pq Event 1EH , Umask 01H 360This event counts the number of cycles during which instructions are written 361to the instruction queue. Dividing this counter by the number of 362instructions written to the instruction queue (INST_QUEUE_WRITES) yields the 363average number of instructions decoded each cycle. If this number is less 364than four and the pipe stalls, this indicates that the decoder is failing to 365decode enough instructions per cycle to sustain the 4-wide pipeline. 366If SSE* instructions that are 6 bytes or longer arrive one after another, 367then front end throughput may limit execution speed. In such case, 368.It Li LSD_OVERFLOW 369.Pq Event 20H , Umask 01H 370Counts number of loops that cant stream from the instruction queue. 371.It Li L2_RQSTS.LD_HIT 372.Pq Event 24H , Umask 01H 373Counts number of loads that hit the L2 cache. L2 loads include both L1D 374demand misses as well as L1D prefetches. L2 loads can be rejected for 375various reasons. Only non rejected loads are counted. 376.It Li L2_RQSTS.LD_MISS 377.Pq Event 24H , Umask 02H 378Counts the number of loads that miss the L2 cache. L2 loads include both L1D 379demand misses as well as L1D prefetches. 380.It Li L2_RQSTS.LOADS 381.Pq Event 24H , Umask 03H 382Counts all L2 load requests. L2 loads include both L1D demand misses as well 383as L1D prefetches. 384.It Li L2_RQSTS.RFO_HIT 385.Pq Event 24H , Umask 04H 386Counts the number of store RFO requests that hit the L2 cache. L2 RFO 387requests include both L1D demand RFO misses as well as L1D RFO prefetches. 388Count includes WC memory requests, where the data is not fetched but the 389permission to write the line is required. 390.It Li L2_RQSTS.RFO_MISS 391.Pq Event 24H , Umask 08H 392Counts the number of store RFO requests that miss the L2 cache. L2 RFO 393requests include both L1D demand RFO misses as well as L1D RFO prefetches. 394.It Li L2_RQSTS.RFOS 395.Pq Event 24H , Umask 0CH 396Counts all L2 store RFO requests. L2 RFO requests include both L1D demand 397RFO misses as well as L1D RFO prefetches. 398.It Li L2_RQSTS.IFETCH_HIT 399.Pq Event 24H , Umask 10H 400Counts number of instruction fetches that hit the L2 cache. L2 instruction 401fetches include both L1I demand misses as well as L1I instruction 402prefetches. 403.It Li L2_RQSTS.IFETCH_MISS 404.Pq Event 24H , Umask 20H 405Counts number of instruction fetches that miss the L2 cache. L2 instruction 406fetches include both L1I demand misses as well as L1I instruction 407prefetches. 408.It Li L2_RQSTS.IFETCHES 409.Pq Event 24H , Umask 30H 410Counts all instruction fetches. L2 instruction fetches include both L1I 411demand misses as well as L1I instruction prefetches. 412.It Li L2_RQSTS.PREFETCH_HIT 413.Pq Event 24H , Umask 40H 414Counts L2 prefetch hits for both code and data. 415.It Li L2_RQSTS.PREFETCH_MISS 416.Pq Event 24H , Umask 80H 417Counts L2 prefetch misses for both code and data. 418.It Li L2_RQSTS.PREFETCHES 419.Pq Event 24H , Umask C0H 420Counts all L2 prefetches for both code and data. 421.It Li L2_RQSTS.MISS 422.Pq Event 24H , Umask AAH 423Counts all L2 misses for both code and data. 424.It Li L2_RQSTS.REFERENCES 425.Pq Event 24H , Umask FFH 426Counts all L2 requests for both code and data. 427.It Li L2_DATA_RQSTS.DEMAND.I_STATE 428.Pq Event 26H , Umask 01H 429Counts number of L2 data demand loads where the cache line to be loaded is 430in the I (invalid) state, i.e. a cache miss. L2 demand loads are both L1D 431demand misses and L1D prefetches. 432.It Li L2_DATA_RQSTS.DEMAND.S_STATE 433.Pq Event 26H , Umask 02H 434Counts number of L2 data demand loads where the cache line to be loaded is 435in the S (shared) state. L2 demand loads are both L1D demand misses and L1D 436prefetches. 437.It Li L2_DATA_RQSTS.DEMAND.E_STATE 438.Pq Event 26H , Umask 04H 439Counts number of L2 data demand loads where the cache line to be loaded is 440in the E (exclusive) state. L2 demand loads are both L1D demand misses and 441L1D prefetches. 442.It Li L2_DATA_RQSTS.DEMAND.M_STATE 443.Pq Event 26H , Umask 08H 444Counts number of L2 data demand loads where the cache line to be loaded is 445in the M (modified) state. L2 demand loads are both L1D demand misses and 446L1D prefetches. 447.It Li L2_DATA_RQSTS.DEMAND.MESI 448.Pq Event 26H , Umask 0FH 449Counts all L2 data demand requests. L2 demand loads are both L1D demand 450misses and L1D prefetches. 451.It Li L2_DATA_RQSTS.PREFETCH.I_STATE 452.Pq Event 26H , Umask 10H 453Counts number of L2 prefetch data loads where the cache line to be loaded is 454in the I (invalid) state, i.e. a cache miss. 455.It Li L2_DATA_RQSTS.PREFETCH.S_STATE 456.Pq Event 26H , Umask 20H 457Counts number of L2 prefetch data loads where the cache line to be loaded is 458in the S (shared) state. A prefetch RFO will miss on an S state line, while 459a prefetch read will hit on an S state line. 460.It Li L2_DATA_RQSTS.PREFETCH.E_STATE 461.Pq Event 26H , Umask 40H 462Counts number of L2 prefetch data loads where the cache line to be loaded is 463in the E (exclusive) state. 464.It Li L2_DATA_RQSTS.PREFETCH.M_STATE 465.Pq Event 26H , Umask 80H 466Counts number of L2 prefetch data loads where the cache line to be loaded is 467in the M (modified) state. 468.It Li L2_DATA_RQSTS.PREFETCH.MESI 469.Pq Event 26H , Umask F0H 470Counts all L2 prefetch requests. 471.It Li L2_DATA_RQSTS.ANY 472.Pq Event 26H , Umask FFH 473Counts all L2 data requests. 474.It Li L2_WRITE.RFO.I_STATE 475.Pq Event 27H , Umask 01H 476Counts number of L2 demand store RFO requests where the cache line to be 477loaded is in the I (invalid) state, i.e, a cache miss. The L1D prefetcher 478does not issue a RFO prefetch. 479This is a demand RFO request 480.It Li L2_WRITE.RFO.S_STATE 481.Pq Event 27H , Umask 02H 482Counts number of L2 store RFO requests where the cache line to be loaded is 483in the S (shared) state. The L1D prefetcher does not issue a RFO prefetch,. 484This is a demand RFO request 485.It Li L2_WRITE.RFO.M_STATE 486.Pq Event 27H , Umask 08H 487Counts number of L2 store RFO requests where the cache line to be loaded is 488in the M (modified) state. The L1D prefetcher does not issue a RFO prefetch. 489This is a demand RFO request 490.It Li L2_WRITE.RFO.HIT 491.Pq Event 27H , Umask 0EH 492Counts number of L2 store RFO requests where the cache line to be loaded is 493in either the S, E or M states. The L1D prefetcher does not issue a RFO 494prefetch. 495This is a demand RFO request 496.It Li L2_WRITE.RFO.MESI 497.Pq Event 27H , Umask 0FH 498Counts all L2 store RFO requests.The L1D prefetcher does not issue a RFO 499prefetch. 500This is a demand RFO request 501.It Li L2_WRITE.LOCK.I_STATE 502.Pq Event 27H , Umask 10H 503Counts number of L2 demand lock RFO requests where the cache line to be 504loaded is in the I (invalid) state, i.e. a cache miss. 505.It Li L2_WRITE.LOCK.S_STATE 506.Pq Event 27H , Umask 20H 507Counts number of L2 lock RFO requests where the cache line to be loaded is 508in the S (shared) state. 509.It Li L2_WRITE.LOCK.E_STATE 510.Pq Event 27H , Umask 40H 511Counts number of L2 demand lock RFO requests where the cache line to be 512loaded is in the E (exclusive) state. 513.It Li L2_WRITE.LOCK.M_STATE 514.Pq Event 27H , Umask 80H 515Counts number of L2 demand lock RFO requests where the cache line to be 516loaded is in the M (modified) state. 517.It Li L2_WRITE.LOCK.HIT 518.Pq Event 27H , Umask E0H 519Counts number of L2 demand lock RFO requests where the cache line to be 520loaded is in either the S, E, or M state. 521.It Li L2_WRITE.LOCK.MESI 522.Pq Event 27H , Umask F0H 523Counts all L2 demand lock RFO requests. 524.It Li L1D_WB_L2.I_STATE 525.Pq Event 28H , Umask 01H 526Counts number of L1 writebacks to the L2 where the cache line to be written 527is in the I (invalid) state, i.e. a cache miss. 528.It Li L1D_WB_L2.S_STATE 529.Pq Event 28H , Umask 02H 530Counts number of L1 writebacks to the L2 where the cache line to be written 531is in the S state. 532.It Li L1D_WB_L2.E_STATE 533.Pq Event 28H , Umask 04H 534Counts number of L1 writebacks to the L2 where the cache line to be written 535is in the E (exclusive) state. 536.It Li L1D_WB_L2.M_STATE 537.Pq Event 28H , Umask 08H 538Counts number of L1 writebacks to the L2 where the cache line to be written 539is in the M (modified) state. 540.It Li L1D_WB_L2.MESI 541.Pq Event 28H , Umask 0FH 542Counts all L1 writebacks to the L2. 543.It Li L3_LAT_CACHE.REFERENCE 544.Pq Event 2EH , Umask 4FH 545This event counts requests originating from the core that reference a cache 546line in the last level cache. The event count includes speculative traffic 547but excludes cache line fills due to a L2 hardware-prefetch. Because cache 548hierarchy, cache sizes and other implementation-specific characteristics; 549value comparison to estimate performance differences is not recommended. 550see Table A-1 551.It Li L3_LAT_CACHE.MISS 552.Pq Event 2EH , Umask 41H 553This event counts each cache miss condition for references to the last level 554cache. The event count may include speculative traffic but excludes cache 555line fills due to L2 hardware-prefetches. Because cache hierarchy, cache 556sizes and other implementation-specific characteristics; value comparison to 557estimate performance differences is not recommended. 558see Table A-1 559.It Li CPU_CLK_UNHALTED.THREAD_P 560.Pq Event 3CH , Umask 00H 561Counts the number of thread cycles while the thread is not in a halt state. 562The thread enters the halt state when it is running the HLT instruction. The 563core frequency may change from time to time due to power or thermal 564throttling. 565see Table A-1 566.It Li CPU_CLK_UNHALTED.REF_P 567.Pq Event 3CH , Umask 01H 568Increments at the frequency of TSC when not halted. 569see Table A-1 570.It Li L1D_CACHE_LD.I_STATE 571.Pq Event 40H , Umask 01H 572Counts L1 data cache read requests where the cache line to be loaded is in 573the I (invalid) state, i.e. the read request missed the cache. 574Counter 0, 1 only 575.It Li L1D_CACHE_LD.S_STATE 576.Pq Event 40H , Umask 02H 577Counts L1 data cache read requests where the cache line to be loaded is in 578the S (shared) state. 579Counter 0, 1 only 580.It Li L1D_CACHE_LD.E_STATE 581.Pq Event 40H , Umask 04H 582Counts L1 data cache read requests where the cache line to be loaded is in 583the E (exclusive) state. 584Counter 0, 1 only 585.It Li L1D_CACHE_LD.M_STATE 586.Pq Event 40H , Umask 08H 587Counts L1 data cache read requests where the cache line to be loaded is in 588the M (modified) state. 589Counter 0, 1 only 590.It Li L1D_CACHE_LD.MESI 591.Pq Event 40H , Umask 0FH 592Counts L1 data cache read requests. 593Counter 0, 1 only 594.It Li L1D_CACHE_ST.S_STATE 595.Pq Event 41H , Umask 02H 596Counts L1 data cache store RFO requests where the cache line to be loaded is 597in the S (shared) state. 598Counter 0, 1 only 599.It Li L1D_CACHE_ST.E_STATE 600.Pq Event 41H , Umask 04H 601Counts L1 data cache store RFO requests where the cache line to be loaded is 602in the E (exclusive) state. 603Counter 0, 1 only 604.It Li L1D_CACHE_ST.M_STATE 605.Pq Event 41H , Umask 08H 606Counts L1 data cache store RFO requests where cache line to be loaded is in 607the M (modified) state. 608Counter 0, 1 only 609.It Li L1D_CACHE_LOCK.HIT 610.Pq Event 42H , Umask 01H 611Counts retired load locks that hit in the L1 data cache or hit in an already 612allocated fill buffer. The lock portion of the load lock transaction must 613hit in the L1D. 614The initial load will pull the lock into the L1 data cache. Counter 0, 1 615only 616.It Li L1D_CACHE_LOCK.S_STATE 617.Pq Event 42H , Umask 02H 618Counts L1 data cache retired load locks that hit the target cache line in 619the shared state. 620Counter 0, 1 only 621.It Li L1D_CACHE_LOCK.E_STATE 622.Pq Event 42H , Umask 04H 623Counts L1 data cache retired load locks that hit the target cache line in 624the exclusive state. 625Counter 0, 1 only 626.It Li L1D_CACHE_LOCK.M_STATE 627.Pq Event 42H , Umask 08H 628Counts L1 data cache retired load locks that hit the target cache line in 629the modified state. 630Counter 0, 1 only 631.It Li L1D_ALL_REF.ANY 632.Pq Event 43H , Umask 01H 633Counts all references (uncached, speculated and retired) to the L1 data 634cache, including all loads and stores with any memory types. The event 635counts memory accesses only when they are actually performed. For example, a 636load blocked by unknown store address and later performed is only counted 637once. 638The event does not include non- memory accesses, such as I/O accesses. 639Counter 0, 1 only 640.It Li L1D_ALL_REF.CACHEABLE 641.Pq Event 43H , Umask 02H 642Counts all data reads and writes (speculated and retired) from cacheable 643memory, including locked operations. 644Counter 0, 1 only 645.It Li DTLB_MISSES.ANY 646.Pq Event 49H , Umask 01H 647Counts the number of misses in the STLB which causes a page walk. 648.It Li DTLB_MISSES.WALK_COMPLETED 649.Pq Event 49H , Umask 02H 650Counts number of misses in the STLB which resulted in a completed page walk. 651.It Li DTLB_MISSES.STLB_HIT 652.Pq Event 49H , Umask 10H 653Counts the number of DTLB first level misses that hit in the second level 654TLB. This event is only relevant if the core contains multiple DTLB levels. 655.It Li DTLB_MISSES.PDE_MISS 656.Pq Event 49H , Umask 20H 657Number of DTLB misses caused by low part of address, includes references to 2M pages because 2M pages do not use the PDE. 658.It Li DTLB_MISSES.LARGE_WALK_COMPLETED 659.Pq Event 49H , Umask 80H 660Counts number of misses in the STLB which resulted in a completed page walk for large pages. 661.It Li LOAD_HIT_PRE 662.Pq Event 4CH , Umask 01H 663Counts load operations sent to the L1 data cache while a previous SSE 664prefetch instruction to the same cache line has started prefetching but has 665not yet finished. 666.It Li L1D_PREFETCH.REQUESTS 667.Pq Event 4EH , Umask 01H 668Counts number of hardware prefetch requests dispatched out of the prefetch 669FIFO. 670.It Li L1D_PREFETCH.MISS 671.Pq Event 4EH , Umask 02H 672Counts number of hardware prefetch requests that miss the L1D. There are two 673prefetchers in the L1D. A streamer, which predicts lines sequentially after 674this one should be fetched, and the IP prefetcher that remembers access 675patterns for the current instruction. The streamer prefetcher stops on an 676L1D hit, while the IP prefetcher does not. 677.It Li L1D_PREFETCH.TRIGGERS 678.Pq Event 4EH , Umask 04H 679Counts number of prefetch requests triggered by the Finite State Machine and 680pushed into the prefetch FIFO. Some of the prefetch requests are dropped due 681to overwrites or competition between the IP index prefetcher and streamer 682prefetcher. The prefetch FIFO contains 4 entries. 683.It Li L1D.REPL 684.Pq Event 51H , Umask 01H 685Counts the number of lines brought into the L1 data cache. 686Counter 0, 1 only 687.It Li L1D.M_REPL 688.Pq Event 51H , Umask 02H 689Counts the number of modified lines brought into the L1 data cache. 690Counter 0, 1 only 691.It Li L1D.M_EVICT 692.Pq Event 51H , Umask 04H 693Counts the number of modified lines evicted from the L1 data cache due to 694replacement. 695Counter 0, 1 only 696.It Li L1D.M_SNOOP_EVICT 697.Pq Event 51H , Umask 08H 698Counts the number of modified lines evicted from the L1 data cache due to 699snoop HITM intervention. 700Counter 0, 1 only 701.It Li L1D_CACHE_PREFETCH_LOCK_FB_HIT 702.Pq Event 52H , Umask 01H 703Counts the number of cacheable load lock speculated instructions accepted 704into the fill buffer. 705.It Li L1D_CACHE_LOCK_FB_HIT 706.Pq Event 53H , Umask 01H 707Counts the number of cacheable load lock speculated or retired instructions 708accepted into the fill buffer. 709.It Li CACHE_LOCK_CYCLES.L1D_L2 710.Pq Event 63H , Umask 01H 711Cycle count during which the L1D and L2 are locked. A lock is asserted when 712there is a locked memory access, due to uncacheable memory, a locked 713operation that spans two cache lines, or a page walk from an uncacheable 714page table. 715Counter 0, 1 only. L1D and L2 locks have a very high performance penalty and 716it is highly recommended to avoid such accesses. 717.It Li CACHE_LOCK_CYCLES.L1D 718.Pq Event 63H , Umask 02H 719Counts the number of cycles that cacheline in the L1 data cache unit is 720locked. 721Counter 0, 1 only. 722.It Li IO_TRANSACTIONS 723.Pq Event 6CH , Umask 01H 724Counts the number of completed I/O transactions. 725.It Li L1I.HITS 726.Pq Event 80H , Umask 01H 727Counts all instruction fetches that hit the L1 instruction cache. 728.It Li L1I.MISSES 729.Pq Event 80H , Umask 02H 730Counts all instruction fetches that miss the L1I cache. This includes 731instruction cache misses, streaming buffer misses, victim cache misses and 732uncacheable fetches. An instruction fetch miss is counted only once and not 733once for every cycle it is outstanding. 734.It Li L1I.READS 735.Pq Event 80H , Umask 03H 736Counts all instruction fetches, including uncacheable fetches that bypass 737the L1I. 738.It Li L1I.CYCLES_STALLED 739.Pq Event 80H , Umask 04H 740Cycle counts for which an instruction fetch stalls due to a L1I cache miss, 741ITLB miss or ITLB fault. 742.It Li LARGE_ITLB.HIT 743.Pq Event 82H , Umask 01H 744Counts number of large ITLB hits. 745.It Li ITLB_MISSES.ANY 746.Pq Event 85H , Umask 01H 747Counts the number of misses in all levels of the ITLB which causes a page 748walk. 749.It Li ITLB_MISSES.WALK_COMPLETED 750.Pq Event 85H , Umask 02H 751Counts number of misses in all levels of the ITLB which resulted in a 752completed page walk. 753.It Li ILD_STALL.LCP 754.Pq Event 87H , Umask 01H 755Cycles Instruction Length Decoder stalls due to length changing prefixes: 75666, 67 or REX.W (for EM64T) instructions which change the length of the 757decoded instruction. 758.It Li ILD_STALL.MRU 759.Pq Event 87H , Umask 02H 760Instruction Length Decoder stall cycles due to Brand Prediction Unit (PBU) 761Most Recently Used (MRU) bypass. 762.It Li ILD_STALL.IQ_FULL 763.Pq Event 87H , Umask 04H 764Stall cycles due to a full instruction queue. 765.It Li ILD_STALL.REGEN 766.Pq Event 87H , Umask 08H 767Counts the number of regen stalls. 768.It Li ILD_STALL.ANY 769.Pq Event 87H , Umask 0FH 770Counts any cycles the Instruction Length Decoder is stalled. 771.It Li BR_INST_EXEC.COND 772.Pq Event 88H , Umask 01H 773Counts the number of conditional near branch instructions executed, but not 774necessarily retired. 775.It Li BR_INST_EXEC.DIRECT 776.Pq Event 88H , Umask 02H 777Counts all unconditional near branch instructions excluding calls and 778indirect branches. 779.It Li BR_INST_EXEC.INDIRECT_NON_CALL 780.Pq Event 88H , Umask 04H 781Counts the number of executed indirect near branch instructions that are not 782calls. 783.It Li BR_INST_EXEC.NON_CALLS 784.Pq Event 88H , Umask 07H 785Counts all non call near branch instructions executed, but not necessarily 786retired. 787.It Li BR_INST_EXEC.RETURN_NEAR 788.Pq Event 88H , Umask 08H 789Counts indirect near branches that have a return mnemonic. 790.It Li BR_INST_EXEC.DIRECT_NEAR_CALL 791.Pq Event 88H , Umask 10H 792Counts unconditional near call branch instructions, excluding non call 793branch, executed. 794.It Li BR_INST_EXEC.INDIRECT_NEAR_CALL 795.Pq Event 88H , Umask 20H 796Counts indirect near calls, including both register and memory indirect, 797executed. 798.It Li BR_INST_EXEC.NEAR_CALLS 799.Pq Event 88H , Umask 30H 800Counts all near call branches executed, but not necessarily retired. 801.It Li BR_INST_EXEC.TAKEN 802.Pq Event 88H , Umask 40H 803Counts taken near branches executed, but not necessarily retired. 804.It Li BR_INST_EXEC.ANY 805.Pq Event 88H , Umask 7FH 806Counts all near executed branches (not necessarily retired). This includes 807only instructions and not micro-op branches. Frequent branching is not 808necessarily a major performance issue. However frequent branch 809mispredictions may be a problem. 810.It Li BR_MISP_EXEC.COND 811.Pq Event 89H , Umask 01H 812Counts the number of mispredicted conditional near branch instructions 813executed, but not necessarily retired. 814.It Li BR_MISP_EXEC.DIRECT 815.Pq Event 89H , Umask 02H 816Counts mispredicted macro unconditional near branch instructions, excluding 817calls and indirect branches (should always be 0). 818.It Li BR_MISP_EXEC.INDIRECT_NON_CALL 819.Pq Event 89H , Umask 04H 820Counts the number of executed mispredicted indirect near branch instructions 821that are not calls. 822.It Li BR_MISP_EXEC.NON_CALLS 823.Pq Event 89H , Umask 07H 824Counts mispredicted non call near branches executed, but not necessarily 825retired. 826.It Li BR_MISP_EXEC.RETURN_NEAR 827.Pq Event 89H , Umask 08H 828Counts mispredicted indirect branches that have a rear return mnemonic. 829.It Li BR_MISP_EXEC.DIRECT_NEAR_CALL 830.Pq Event 89H , Umask 10H 831Counts mispredicted non-indirect near calls executed, (should always be 0). 832.It Li BR_MISP_EXEC.INDIRECT_NEAR_CALL 833.Pq Event 89H , Umask 20H 834Counts mispredicted indirect near calls executed, including both register 835and memory indirect. 836.It Li BR_MISP_EXEC.NEAR_CALLS 837.Pq Event 89H , Umask 30H 838Counts all mispredicted near call branches executed, but not necessarily 839retired. 840.It Li BR_MISP_EXEC.TAKEN 841.Pq Event 89H , Umask 40H 842Counts executed mispredicted near branches that are taken, but not 843necessarily retired. 844.It Li BR_MISP_EXEC.ANY 845.Pq Event 89H , Umask 7FH 846Counts the number of mispredicted near branch instructions that were 847executed, but not necessarily retired. 848.It Li RESOURCE_STALLS.ANY 849.Pq Event A2H , Umask 01H 850Counts the number of Allocator resource related stalls. Includes register 851renaming buffer entries, memory buffer entries. In addition to resource 852related stalls, this event counts some other events. Includes stalls arising 853during branch misprediction recovery, such as if retirement of the 854mispredicted branch is delayed and stalls arising while store buffer is 855draining from synchronizing operations. 856Does not include stalls due to SuperQ (off core) queue full, too many cache 857misses, etc. 858.It Li RESOURCE_STALLS.LOAD 859.Pq Event A2H , Umask 02H 860Counts the cycles of stall due to lack of load buffer for load operation. 861.It Li RESOURCE_STALLS.RS_FULL 862.Pq Event A2H , Umask 04H 863This event counts the number of cycles when the number of instructions in 864the pipeline waiting for execution reaches the limit the processor can 865handle. A high count of this event indicates that there are long latency 866operations in the pipe (possibly load and store operations that miss the L2 867cache, or instructions dependent upon instructions further down the pipeline 868that have yet to retire. 869When RS is full, new instructions can not enter the reservation station and 870start execution. 871.It Li RESOURCE_STALLS.STORE 872.Pq Event A2H , Umask 08H 873This event counts the number of cycles that a resource related stall will 874occur due to the number of store instructions reaching the limit of the 875pipeline, (i.e. all store buffers are used). The stall ends when a store 876instruction commits its data to the cache or memory. 877.It Li RESOURCE_STALLS.ROB_FULL 878.Pq Event A2H , Umask 10H 879Counts the cycles of stall due to re- order buffer full. 880.It Li RESOURCE_STALLS.FPCW 881.Pq Event A2H , Umask 20H 882Counts the number of cycles while execution was stalled due to writing the 883floating-point unit (FPU) control word. 884.It Li RESOURCE_STALLS.MXCSR 885.Pq Event A2H , Umask 40H 886Stalls due to the MXCSR register rename occurring to close to a previous 887MXCSR rename. The MXCSR provides control and status for the MMX registers. 888.It Li RESOURCE_STALLS.OTHER 889.Pq Event A2H , Umask 80H 890Counts the number of cycles while execution was stalled due to other 891resource issues. 892.It Li MACRO_INSTS.FUSIONS_DECODED 893.Pq Event A6H , Umask 01H 894Counts the number of instructions decoded that are macro-fused but not 895necessarily executed or retired. 896.It Li BACLEAR_FORCE_IQ 897.Pq Event A7H , Umask 01H 898Counts number of times a BACLEAR was forced by the Instruction Queue. The IQ 899is also responsible for providing conditional branch prediction direction 900based on a static scheme and dynamic data provided by the L2 Branch 901Prediction Unit. If the conditional branch target is not found in the Target 902Array and the IQ predicts that the branch is taken, then the IQ will force 903the Branch Address Calculator to issue a BACLEAR. Each BACLEAR asserted by 904the BAC generates approximately an 8 cycle bubble in the instruction fetch 905pipeline. 906.It Li LSD.UOPS 907.Pq Event A8H , Umask 01H 908Counts the number of micro-ops delivered by loop stream detector 909Use cmask=1 and invert to count cycles 910.It Li ITLB_FLUSH 911.Pq Event AEH , Umask 01H 912Counts the number of ITLB flushes 913.It Li OFFCORE_REQUESTS.L1D_WRITEBACK 914.Pq Event B0H , Umask 40H 915Counts number of L1D writebacks to the uncore. 916.It Li UOPS_EXECUTED.PORT0 917.Pq Event B1H , Umask 01H 918Counts number of Uops executed that were issued on port 0. Port 0 handles 919integer arithmetic, SIMD and FP add Uops. 920.It Li UOPS_EXECUTED.PORT1 921.Pq Event B1H , Umask 02H 922Counts number of Uops executed that were issued on port 1. Port 1 handles 923integer arithmetic, SIMD, integer shift, FP multiply and FP divide Uops. 924.It Li UOPS_EXECUTED.PORT2_CORE 925.Pq Event B1H , Umask 04H 926Counts number of Uops executed that were issued on port 2. Port 2 handles 927the load Uops. This is a core count only and can not be collected per 928thread. 929.It Li UOPS_EXECUTED.PORT3_CORE 930.Pq Event B1H , Umask 08H 931Counts number of Uops executed that were issued on port 3. Port 3 handles 932store Uops. This is a core count only and can not be collected per thread. 933.It Li UOPS_EXECUTED.PORT4_CORE 934.Pq Event B1H , Umask 10H 935Counts number of Uops executed that where issued on port 4. Port 4 handles 936the value to be stored for the store Uops issued on port 3. This is a core 937count only and can not be collected per thread. 938.It Li UOPS_EXECUTED.CORE_ACTIVE_CYCLES_NO_PORT5 939.Pq Event B1H , Umask 1FH 940Counts cycles when the Uops executed were issued from any ports except port 9415. Use Cmask=1 for active cycles; Cmask=0 for weighted cycles; Use CMask=1, 942Invert=1 to count P0-4 stalled cycles Use Cmask=1, Edge=1, Invert=1 to count 943P0-4 stalls. 944.It Li UOPS_EXECUTED.PORT5 945.Pq Event B1H , Umask 20H 946Counts number of Uops executed that where issued on port 5. 947.It Li UOPS_EXECUTED.CORE_ACTIVE_CYCLES 948.Pq Event B1H , Umask 3FH 949Counts cycles when the Uops are executing. Use Cmask=1 for active cycles; 950Cmask=0 for weighted cycles; Use CMask=1, Invert=1 to count P0-4 stalled 951cycles Use Cmask=1, Edge=1, Invert=1 to count P0-4 stalls. 952.It Li UOPS_EXECUTED.PORT015 953.Pq Event B1H , Umask 40H 954Counts number of Uops executed that where issued on port 0, 1, or 5. 955use cmask=1, invert=1 to count stall cycles 956.It Li UOPS_EXECUTED.PORT234 957.Pq Event B1H , Umask 80H 958Counts number of Uops executed that where issued on port 2, 3, or 4. 959.It Li OFFCORE_REQUESTS_SQ_FULL 960.Pq Event B2H , Umask 01H 961Counts number of cycles the SQ is full to handle off-core requests. 962.It Li OFF_CORE_RESPONSE_0 963.Pq Event B7H , Umask 01H 964see Section 30.6.1.3, Off-core Response Performance Monitoring in the 965Processor Core 966Requires programming MSR 01A6H 967.It Li SNOOP_RESPONSE.HIT 968.Pq Event B8H , Umask 01H 969Counts HIT snoop response sent by this thread in response to a snoop 970request. 971.It Li SNOOP_RESPONSE.HITE 972.Pq Event B8H , Umask 02H 973Counts HIT E snoop response sent by this thread in response to a snoop 974request. 975.It Li SNOOP_RESPONSE.HITM 976.Pq Event B8H , Umask 04H 977Counts HIT M snoop response sent by this thread in response to a snoop 978request. 979.It Li OFF_CORE_RESPONSE_1 980.Pq Event BBH , Umask 01H 981see Section 30.6.1.3, Off-core Response Performance Monitoring in the 982Processor Core 983Requires programming MSR 01A7H 984.It Li INST_RETIRED.ANY_P 985.Pq Event C0H , Umask 01H 986See Table A-1 987Notes: INST_RETIRED.ANY is counted by a designated fixed counter. 988INST_RETIRED.ANY_P is counted by a programmable counter and is an 989architectural performance event. Event is supported if CPUID.A.EBX[1] = 0. 990Counting: Faulting executions of GETSEC/VM entry/VM Exit/MWait will not 991count as retired instructions. 992.It Li INST_RETIRED.X87 993.Pq Event C0H , Umask 02H 994Counts the number of MMX instructions retired. 995.It Li INST_RETIRED.MMX 996.Pq Event C0H , Umask 04H 997Counts the number of floating point computational operations retired: 998floating point computational operations executed by the assist handler and 999sub-operations of complex floating point instructions like transcendental 1000instructions. 1001.It Li UOPS_RETIRED.ANY 1002.Pq Event C2H , Umask 01H 1003Counts the number of micro-ops retired, (macro-fused=1, micro- fused=2, 1004others=1; maximum count of 8 per cycle). Most instructions are composed of 1005one or two micro-ops. Some instructions are decoded into longer sequences 1006such as repeat instructions, floating point transcendental instructions, and 1007assists. 1008Use cmask=1 and invert to count active cycles or stalled cycles 1009.It Li UOPS_RETIRED.RETIRE_SLOTS 1010.Pq Event C2H , Umask 02H 1011Counts the number of retirement slots used each cycle 1012.It Li UOPS_RETIRED.MACRO_FUSED 1013.Pq Event C2H , Umask 04H 1014Counts number of macro-fused uops retired. 1015.It Li MACHINE_CLEARS.CYCLES 1016.Pq Event C3H , Umask 01H 1017Counts the cycles machine clear is asserted. 1018.It Li MACHINE_CLEARS.MEM_ORDER 1019.Pq Event C3H , Umask 02H 1020Counts the number of machine clears due to memory order conflicts. 1021.It Li MACHINE_CLEARS.SMC 1022.Pq Event C3H , Umask 04H 1023Counts the number of times that a program writes to a code section. 1024Self-modifying code causes a sever penalty in all Intel 64 and IA-32 1025processors. The modified cache line is written back to the L2 and L3caches. 1026.It Li BR_INST_RETIRED.ALL_BRANCHES 1027.Pq Event C4H , Umask 00H 1028See Table A-1 1029.It Li BR_INST_RETIRED.CONDITIONAL 1030.Pq Event C4H , Umask 01H 1031Counts the number of conditional branch instructions retired. 1032.It Li BR_INST_RETIRED.NEAR_CALL 1033.Pq Event C4H , Umask 02H 1034Counts the number of direct & indirect near unconditional calls retired 1035.It Li BR_INST_RETIRED.ALL_BRANCHES 1036.Pq Event C4H , Umask 04H 1037Counts the number of branch instructions retired 1038.It Li BR_MISP_RETIRED.ALL_BRANCHES 1039.Pq Event C5H , Umask 00H 1040See Table A-1 1041.It Li BR_MISP_RETIRED.NEAR_CALL 1042.Pq Event C5H , Umask 02H 1043Counts mispredicted direct & indirect near unconditional retired calls. 1044.It Li SSEX_UOPS_RETIRED.PACKED_SINGLE 1045.Pq Event C7H , Umask 01H 1046Counts SIMD packed single-precision floating point Uops retired. 1047.It Li SSEX_UOPS_RETIRED.SCALAR_SINGLE 1048.Pq Event C7H , Umask 02H 1049Counts SIMD calar single-precision floating point Uops retired. 1050.It Li SSEX_UOPS_RETIRED.PACKED_DOUBLE 1051.Pq Event C7H , Umask 04H 1052Counts SIMD packed double- precision floating point Uops retired. 1053.It Li SSEX_UOPS_RETIRED.SCALAR_DOUBLE 1054.Pq Event C7H , Umask 08H 1055Counts SIMD scalar double-precision floating point Uops retired. 1056.It Li SSEX_UOPS_RETIRED.VECTOR_INTEGER 1057.Pq Event C7H , Umask 10H 1058Counts 128-bit SIMD vector integer Uops retired. 1059.It Li ITLB_MISS_RETIRED 1060.Pq Event C8H , Umask 20H 1061Counts the number of retired instructions that missed the ITLB when the 1062instruction was fetched. 1063.It Li MEM_LOAD_RETIRED.L1D_HIT 1064.Pq Event CBH , Umask 01H 1065Counts number of retired loads that hit the L1 data cache. 1066.It Li MEM_LOAD_RETIRED.L2_HIT 1067.Pq Event CBH , Umask 02H 1068Counts number of retired loads that hit the L2 data cache. 1069.It Li MEM_LOAD_RETIRED.L3_UNSHARED_HIT 1070.Pq Event CBH , Umask 04H 1071Counts number of retired loads that hit their own, unshared lines in the L3 1072cache. 1073.It Li MEM_LOAD_RETIRED.OTHER_CORE_L2_HIT_HITM 1074.Pq Event CBH , Umask 08H 1075Counts number of retired loads that hit in a sibling core's L2 (on die 1076core). Since the L3 is inclusive of all cores on the package, this is an L3 1077hit. This counts both clean or modified hits. 1078.It Li MEM_LOAD_RETIRED.L3_MISS 1079.Pq Event CBH , Umask 10H 1080Counts number of retired loads that miss the L3 cache. The load was 1081satisfied by a remote socket, local memory or an IOH. 1082.It Li MEM_LOAD_RETIRED.HIT_LFB 1083.Pq Event CBH , Umask 40H 1084Counts number of retired loads that miss the L1D and the address is located 1085in an allocated line fill buffer and will soon be committed to cache. This 1086is counting secondary L1D misses. 1087.It Li MEM_LOAD_RETIRED.DTLB_MISS 1088.Pq Event CBH , Umask 80H 1089Counts the number of retired loads that missed the DTLB. The DTLB miss is 1090not counted if the load operation causes a fault. This event counts loads 1091from cacheable memory only. The event does not count loads by software 1092prefetches. Counts both primary and secondary misses to the TLB. 1093.It Li FP_MMX_TRANS.TO_FP 1094.Pq Event CCH , Umask 01H 1095Counts the first floating-point instruction following any MMX instruction. 1096You can use this event to estimate the penalties for the transitions between 1097floating-point and MMX technology states. 1098.It Li FP_MMX_TRANS.TO_MMX 1099.Pq Event CCH , Umask 02H 1100Counts the first MMX instruction following a floating-point instruction. You 1101can use this event to estimate the penalties for the transitions between 1102floating-point and MMX technology states. 1103.It Li FP_MMX_TRANS.ANY 1104.Pq Event CCH , Umask 03H 1105Counts all transitions from floating point to MMX instructions and from MMX 1106instructions to floating point instructions. You can use this event to 1107estimate the penalties for the transitions between floating-point and MMX 1108technology states. 1109.It Li MACRO_INSTS.DECODED 1110.Pq Event D0H , Umask 01H 1111Counts the number of instructions decoded, (but not necessarily executed or 1112retired). 1113.It Li UOPS_DECODED.MS 1114.Pq Event D1H , Umask 02H 1115Counts the number of Uops decoded by the Microcode Sequencer, MS. The MS 1116delivers uops when the instruction is more than 4 uops long or a microcode 1117assist is occurring. 1118.It Li UOPS_DECODED.ESP_FOLDING 1119.Pq Event D1H , Umask 04H 1120Counts number of stack pointer (ESP) instructions decoded: push , pop , call 1121, ret, etc. ESP instructions do not generate a Uop to increment or decrement 1122ESP. Instead, they update an ESP_Offset register that keeps track of the 1123delta to the current value of the ESP register. 1124.It Li UOPS_DECODED.ESP_SYNC 1125.Pq Event D1H , Umask 08H 1126Counts number of stack pointer (ESP) sync operations where an ESP 1127instruction is corrected by adding the ESP offset register to the current 1128value of the ESP register. 1129.It Li RAT_STALLS.FLAGS 1130.Pq Event D2H , Umask 01H 1131Counts the number of cycles during which execution stalled due to several 1132reasons, one of which is a partial flag register stall. A partial register 1133stall may occur when two conditions are met: 1) an instruction modifies 1134some, but not all, of the flags in the flag register and 2) the next 1135instruction, which depends on flags, depends on flags that were not modified 1136by this instruction. 1137.It Li RAT_STALLS.REGISTERS 1138.Pq Event D2H , Umask 02H 1139This event counts the number of cycles instruction execution latency became 1140longer than the defined latency because the instruction used a register that 1141was partially written by previous instruction. 1142.It Li RAT_STALLS.ROB_READ_PORT 1143.Pq Event D2H , Umask 04H 1144Counts the number of cycles when ROB read port stalls occurred, which did 1145not allow new micro-ops to enter the out-of-order pipeline. Note that, at 1146this stage in the pipeline, additional stalls may occur at the same cycle 1147and prevent the stalled micro-ops from entering the pipe. In such a case, 1148micro-ops retry entering the execution pipe in the next cycle and the 1149ROB-read port stall is counted again. 1150.It Li RAT_STALLS.SCOREBOARD 1151.Pq Event D2H , Umask 08H 1152Counts the cycles where we stall due to microarchitecturally required 1153serialization. Microcode scoreboarding stalls. 1154.It Li RAT_STALLS.ANY 1155.Pq Event D2H , Umask 0FH 1156Counts all Register Allocation Table stall cycles due to: Cycles when ROB 1157read port stalls occurred, which did not allow new micro-ops to enter the 1158execution pipe. Cycles when partial register stalls occurred Cycles when 1159flag stalls occurred Cycles floating-point unit (FPU) status word stalls 1160occurred. To count each of these conditions separately use the events: 1161RAT_STALLS.ROB_READ_PORT, RAT_STALLS.PARTIAL, RAT_STALLS.FLAGS, and 1162RAT_STALLS.FPSW. 1163.It Li SEG_RENAME_STALLS 1164.Pq Event D4H , Umask 01H 1165Counts the number of stall cycles due to the lack of renaming resources for 1166the ES, DS, FS, and GS segment registers. If a segment is renamed but not 1167retired and a second update to the same segment occurs, a stall occurs in 1168the front-end of the pipeline until the renamed segment retires. 1169.It Li ES_REG_RENAMES 1170.Pq Event D5H , Umask 01H 1171Counts the number of times the ES segment register is renamed. 1172.It Li UOP_UNFUSION 1173.Pq Event DBH , Umask 01H 1174Counts unfusion events due to floating point exception to a fused uop. 1175.It Li BR_INST_DECODED 1176.Pq Event E0H , Umask 01H 1177Counts the number of branch instructions decoded. 1178.It Li BPU_MISSED_CALL_RET 1179.Pq Event E5H , Umask 01H 1180Counts number of times the Branch Prediction Unit missed predicting a call 1181or return branch. 1182.It Li BACLEAR.CLEAR 1183.Pq Event E6H , Umask 01H 1184Counts the number of times the front end is resteered, mainly when the 1185Branch Prediction Unit cannot provide a correct prediction and this is 1186corrected by the Branch Address Calculator at the front end. This can occur 1187if the code has many branches such that they cannot be consumed by the BPU. 1188Each BACLEAR asserted by the BAC generates approximately an 8 cycle bubble 1189in the instruction fetch pipeline. The effect on total execution time 1190depends on the surrounding code. 1191.It Li BACLEAR.BAD_TARGET 1192.Pq Event E6H , Umask 02H 1193Counts number of Branch Address Calculator clears (BACLEAR) asserted due to 1194conditional branch instructions in which there was a target hit but the 1195direction was wrong. Each BACLEAR asserted by the BAC generates 1196approximately an 8 cycle bubble in the instruction fetch pipeline. 1197.It Li BPU_CLEARS.EARLY 1198.Pq Event E8H , Umask 01H 1199Counts early (normal) Branch Prediction Unit clears: BPU predicted a taken 1200branch after incorrectly assuming that it was not taken. 1201The BPU clear leads to 2 cycle bubble in the Front End. 1202.It Li BPU_CLEARS.LATE 1203.Pq Event E8H , Umask 02H 1204Counts late Branch Prediction Unit clears due to Most Recently Used 1205conflicts. The PBU clear leads to a 3 cycle bubble in the Front End. 1206.It Li L2_TRANSACTIONS.LOAD 1207.Pq Event F0H , Umask 01H 1208Counts L2 load operations due to HW prefetch or demand loads. 1209.It Li L2_TRANSACTIONS.RFO 1210.Pq Event F0H , Umask 02H 1211Counts L2 RFO operations due to HW prefetch or demand RFOs. 1212.It Li L2_TRANSACTIONS.IFETCH 1213.Pq Event F0H , Umask 04H 1214Counts L2 instruction fetch operations due to HW prefetch or demand ifetch. 1215.It Li L2_TRANSACTIONS.PREFETCH 1216.Pq Event F0H , Umask 08H 1217Counts L2 prefetch operations. 1218.It Li L2_TRANSACTIONS.L1D_WB 1219.Pq Event F0H , Umask 10H 1220Counts L1D writeback operations to the L2. 1221.It Li L2_TRANSACTIONS.FILL 1222.Pq Event F0H , Umask 20H 1223Counts L2 cache line fill operations due to load, RFO, L1D writeback or 1224prefetch. 1225.It Li L2_TRANSACTIONS.WB 1226.Pq Event F0H , Umask 40H 1227Counts L2 writeback operations to the L3. 1228.It Li L2_TRANSACTIONS.ANY 1229.Pq Event F0H , Umask 80H 1230Counts all L2 cache operations. 1231.It Li L2_LINES_IN.S_STATE 1232.Pq Event F1H , Umask 02H 1233Counts the number of cache lines allocated in the L2 cache in the S (shared) 1234state. 1235.It Li L2_LINES_IN.E_STATE 1236.Pq Event F1H , Umask 04H 1237Counts the number of cache lines allocated in the L2 cache in the E 1238(exclusive) state. 1239.It Li L2_LINES_IN.ANY 1240.Pq Event F1H , Umask 07H 1241Counts the number of cache lines allocated in the L2 cache. 1242.It Li L2_LINES_OUT.DEMAND_CLEAN 1243.Pq Event F2H , Umask 01H 1244Counts L2 clean cache lines evicted by a demand request. 1245.It Li L2_LINES_OUT.DEMAND_DIRTY 1246.Pq Event F2H , Umask 02H 1247Counts L2 dirty (modified) cache lines evicted by a demand request. 1248.It Li L2_LINES_OUT.PREFETCH_CLEAN 1249.Pq Event F2H , Umask 04H 1250Counts L2 clean cache line evicted by a prefetch request. 1251.It Li L2_LINES_OUT.PREFETCH_DIRTY 1252.Pq Event F2H , Umask 08H 1253Counts L2 modified cache line evicted by a prefetch request. 1254.It Li L2_LINES_OUT.ANY 1255.Pq Event F2H , Umask 0FH 1256Counts all L2 cache lines evicted for any reason. 1257.It Li SQ_MISC.SPLIT_LOCK 1258.Pq Event F4H , Umask 10H 1259Counts the number of SQ lock splits across a cache line. 1260.It Li SQ_FULL_STALL_CYCLES 1261.Pq Event F6H , Umask 01H 1262Counts cycles the Super Queue is full. Neither of the threads on this core 1263will be able to access the uncore. 1264.It Li FP_ASSIST.ALL 1265.Pq Event F7H , Umask 01H 1266Counts the number of floating point operations executed that required 1267micro-code assist intervention. Assists are required in the following cases: 1268SSE instructions, (Denormal input when the DAZ flag is off or Underflow 1269result when the FTZ flag is off): x87 instructions, (NaN or denormal are 1270loaded to a register or used as input from memory, Division by 0 or 1271Underflow output). 1272.It Li FP_ASSIST.OUTPUT 1273.Pq Event F7H , Umask 02H 1274Counts number of floating point micro-code assist when the output value 1275(destination register) is invalid. 1276.It Li FP_ASSIST.INPUT 1277.Pq Event F7H , Umask 04H 1278Counts number of floating point micro-code assist when the input value (one 1279of the source operands to an FP instruction) is invalid. 1280.It Li SIMD_INT_64.PACKED_MPY 1281.Pq Event FDH , Umask 01H 1282Counts number of SID integer 64 bit packed multiply operations. 1283.It Li SIMD_INT_64.PACKED_SHIFT 1284.Pq Event FDH , Umask 02H 1285Counts number of SID integer 64 bit packed shift operations. 1286.It Li SIMD_INT_64.PACK 1287.Pq Event FDH , Umask 04H 1288Counts number of SID integer 64 bit pack operations. 1289.It Li SIMD_INT_64.UNPACK 1290.Pq Event FDH , Umask 08H 1291Counts number of SID integer 64 bit unpack operations. 1292.It Li SIMD_INT_64.PACKED_LOGICAL 1293.Pq Event FDH , Umask 10H 1294Counts number of SID integer 64 bit logical operations. 1295.It Li SIMD_INT_64.PACKED_ARITH 1296.Pq Event FDH , Umask 20H 1297Counts number of SID integer 64 bit arithmetic operations. 1298.It Li SIMD_INT_64.SHUFFLE_MOVE 1299.Pq Event FDH , Umask 40H 1300Counts number of SID integer 64 bit shift or move operations. 1301.El 1302.Ss Event Specifiers (Programmable PMCs) 1303Core i7 and Xeon 5500 programmable PMCs support the following events as 1304June 2009 document (removed in December 2009): 1305.Bl -tag -width indent 1306.It Li SB_FORWARD.ANY 1307.Pq Event 02H , Umask 01H 1308Counts the number of store forwards. 1309.It Li LOAD_BLOCK.STD 1310.Pq Event 03H , Umask 01H 1311Counts the number of loads blocked by a preceding store with unknown data. 1312.It Li LOAD_BLOCK.ADDRESS_OFFSET 1313.Pq Event 03H , Umask 04H 1314Counts the number of loads blocked by a preceding store address. 1315.It Li LOAD_BLOCK.ADDRESS_OFFSET 1316.Pq Event 01H , Umask 04H 1317Counts the cycles of store buffer drains. 1318.It Li MISALIGN_MEM_REF.LOAD 1319.Pq Event 05H , Umask 01H 1320Counts the number of misaligned load references 1321.It Li MISALIGN_MEM_REF.STORE 1322.Pq Event 05H , Umask 02H 1323Counts the number of misaligned store references 1324.It Li MISALIGN_MEM_REF.ANY 1325.Pq Event 05H , Umask 03H 1326Counts the number of misaligned memory references 1327.It Li STORE_BLOCKS.NOT_STA 1328.Pq Event 06H , Umask 01H 1329This event counts the number of load operations delayed caused by preceding 1330stores whose addresses are known but whose data is unknown, and preceding 1331stores that conflict with the load but which incompletely overlap the load. 1332.It Li STORE_BLOCKS.STA 1333.Pq Event 06H , Umask 02H 1334This event counts load operations delayed caused by preceding stores whose 1335addresses are unknown (STA block). 1336.It Li STORE_BLOCKS.ANY 1337.Pq Event 06H , Umask 0FH 1338All loads delayed due to store blocks 1339.It Li MEMORY_DISAMBIGURATION.RESET 1340.Pq Event 09H , Umask 01H 1341Counts memory disambiguration reset cycles 1342.It Li MEMORY_DISAMBIGURATION.SUCCESS 1343.Pq Event 09H , Umask 02H 1344Counts the number of loads that memory disambiguration succeeded 1345.It Li MEMORY_DISAMBIGURATION.WATCHDOG 1346.Pq Event 09H , Umask 04H 1347Counts the number of times the memory disambiguration watchdog kicked in. 1348.It Li MEMORY_DISAMBIGURATION.WATCH_CYCLES 1349.Pq Event 09H , Umask 08H 1350Counts the cycles that the memory disambiguration watchdog is active. 1351set invert=1, cmask = 1 1352.It Li HW_INT.RCV 1353.Pq Event 1DH , Umask 01H 1354Number of interrupt received 1355.It Li HW_INT.CYCLES_MASKED 1356.Pq Event 1DH , Umask 02H 1357Number of cycles interrupt are masked 1358.It Li HW_INT.CYCLES_PENDING_AND_MASKED 1359.Pq Event 1DH , Umask 04H 1360Number of cycles interrupts are pending and masked 1361.It Li HW_INT.CYCLES_PENDING_AND_MASKED 1362.Pq Event 04H , Umask 04H 1363Counts number of L2 store RFO requests where the cache line to be loaded is 1364in the E (exclusive) state. The L1D prefetcher does not issue a RFO 1365prefetch. 1366This is a demand RFO request 1367.It Li HW_INT.CYCLES_PENDING_AND_MASKED 1368.Pq Event 27H , Umask 04H 1369LONGEST_LAT_CACH E.MISS 1370.It Li UOPS_DECODED.DEC0 1371.Pq Event 3DH , Umask 01H 1372Counts micro-ops decoded by decoder 0. 1373.It Li UOPS_DECODED.DEC0 1374.Pq Event 01H , Umask 01H 1375Counts L1 data cache store RFO requests where the cache line to be loaded is 1376in the I state. 1377Counter 0, 1 only 1378.It Li 0FH 1379.Pq Event 41H , Umask 41H 1380L1D_CACHE_ST.MESI 1381Counts L1 data cache store RFO requests. 1382Counter 0, 1 only 1383.It Li DTLB_MISSES.PDE_MISS 1384.Pq Event 49H , Umask 20H 1385Number of DTLB cache misses where the low part of the linear to physical 1386address translation was missed. 1387.It Li DTLB_MISSES.PDP_MISS 1388.Pq Event 49H , Umask 40H 1389Number of DTLB misses where the high part of the linear to physical address 1390translation was missed. 1391.It Li DTLB_MISSES.LARGE_WALK_COMPLETED 1392.Pq Event 49H , Umask 80H 1393Counts number of completed large page walks due to misses in the STLB. 1394.It Li SSE_MEM_EXEC.NTA 1395.Pq Event 4BH , Umask 01H 1396Counts number of SSE NTA prefetch/weakly-ordered instructions which missed 1397the L1 data cache. 1398.It Li SSE_MEM_EXEC.STREAMING_STORES 1399.Pq Event 4BH , Umask 08H 1400Counts number of SSE non temporal stores 1401.It Li SFENCE_CYCLES 1402.Pq Event 4DH , Umask 01H 1403Counts store fence cycles 1404.It Li EPT.EPDE_MISS 1405.Pq Event 4FH , Umask 02H 1406Counts Extended Page Directory Entry misses. The Extended Page Directory 1407cache is used by Virtual Machine operating systems while the guest operating 1408systems use the standard TLB caches. 1409.It Li EPT.EPDPE_HIT 1410.Pq Event 4FH , Umask 04H 1411Counts Extended Page Directory Pointer Entry hits. 1412.It Li EPT.EPDPE_MISS 1413.Pq Event 4FH , Umask 08H 1414Counts Extended Page Directory Pointer Entry misses. T 1415.It Li OFFCORE_REQUESTS_OUTSTANDING.DEMAND.READ_DATA 1416.Pq Event 60H , Umask 01H 1417Counts weighted cycles of offcore demand data read requests. Does not 1418include L2 prefetch requests. 1419counter 0 1420.It Li OFFCORE_REQUESTS_OUTSTANDING.DEMAND.READ_CODE 1421.Pq Event 60H , Umask 02H 1422Counts weighted cycles of offcore demand code read requests. Does not 1423include L2 prefetch requests. 1424counter 0 1425.It Li OFFCORE_REQUESTS_OUTSTANDING.DEMAND.RFO 1426.Pq Event 60H , Umask 04H 1427Counts weighted cycles of offcore demand RFO requests. Does not include L2 1428prefetch requests. 1429counter 0 1430.It Li OFFCORE_REQUESTS_OUTSTANDING.ANY.READ 1431.Pq Event 60H , Umask 08H 1432Counts weighted cycles of offcore read requests of any kind. Include L2 1433prefetch requests. 1434counter 0 1435.It Li IFU_IVC.FULL 1436.Pq Event 81H , Umask 01H 1437Instruction Fetche unit victim cache full. 1438.It Li IFU_IVC.L1I_EVICTION 1439.Pq Event 81H , Umask 02H 1440L1 Instruction cache evictions. 1441.It Li L1I_OPPORTUNISTIC_HITS 1442.Pq Event 83H , Umask 01H 1443Opportunistic hits in streaming. 1444.It Li ITLB_MISSES.WALK_CYCLES 1445.Pq Event 85H , Umask 04H 1446Counts ITLB miss page walk cycles. 1447.It Li ITLB_MISSES.PMH_BUSY_CYCLES 1448.Pq Event 85H , Umask 04H 1449Counts PMH busy cycles. 1450.It Li ITLB_MISSES.STLB_HIT 1451.Pq Event 85H , Umask 10H 1452Counts the number of ITLB misses that hit in the second level TLB. 1453.It Li ITLB_MISSES.PDE_MISS 1454.Pq Event 85H , Umask 20H 1455Number of ITLB misses where the low part of the linear to physical address 1456translation was missed. 1457.It Li ITLB_MISSES.PDP_MISS 1458.Pq Event 85H , Umask 40H 1459Number of ITLB misses where the high part of the linear to physical address 1460translation was missed. 1461.It Li ITLB_MISSES.LARGE_WALK_COMPLETED 1462.Pq Event 85H , Umask 80H 1463Counts number of completed large page walks due to misses in the STLB. 1464.It Li ITLB_MISSES.LARGE_WALK_COMPLETED 1465.Pq Event 01H , Umask 80H 1466Counts number of offcore demand data read requests. Does not count L2 1467prefetch requests. 1468.It Li OFFCORE_REQUESTS.DEMAND.READ_CODE 1469.Pq Event B0H , Umask 02H 1470Counts number of offcore demand code read requests. Does not count L2 1471prefetch requests. 1472.It Li OFFCORE_REQUESTS.DEMAND.RFO 1473.Pq Event B0H , Umask 04H 1474Counts number of offcore demand RFO requests. Does not count L2 prefetch 1475requests. 1476.It Li OFFCORE_REQUESTS.ANY.READ 1477.Pq Event B0H , Umask 08H 1478Counts number of offcore read requests. Includes L2 prefetch requests. 1479.It Li OFFCORE_REQUESTS.ANY.RFO 1480.Pq Event B0H , Umask 10H 1481Counts number of offcore RFO requests. Includes L2 prefetch requests. 1482.It Li OFFCORE_REQUESTS.UNCACHED_MEM 1483.Pq Event B0H , Umask 20H 1484Counts number of offcore uncached memory requests. 1485.It Li OFFCORE_REQUESTS.ANY 1486.Pq Event B0H , Umask 80H 1487Counts all offcore requests. 1488.It Li SNOOPQ_REQUESTS_OUTSTANDING.DATA 1489.Pq Event B3H , Umask 01H 1490Counts weighted cycles of snoopq requests for data. Counter 0 only 1491Use cmask=1 to count cycles not empty. 1492.It Li SNOOPQ_REQUESTS_OUTSTANDING.INVALIDATE 1493.Pq Event B3H , Umask 02H 1494Counts weighted cycles of snoopq invalidate requests. Counter 0 only 1495Use cmask=1 to count cycles not empty. 1496.It Li SNOOPQ_REQUESTS_OUTSTANDING.CODE 1497.Pq Event B3H , Umask 04H 1498Counts weighted cycles of snoopq requests for code. Counter 0 only 1499Use cmask=1 to count cycles not empty. 1500.It Li SNOOPQ_REQUESTS_OUTSTANDING.CODE 1501.Pq Event BAH , Umask 04H 1502Counts number of TPR reads 1503.It Li PIC_ACCESSES.TPR_WRITES 1504.Pq Event BAH , Umask 02H 1505Counts number of TPR writes 1506one or two micro-ops. Some instructions are decoded into longer sequences 1507.It Li MACHINE_CLEARS.FUSION_ASSIST 1508.Pq Event C3H , Umask 10H 1509Counts the number of macro-fusion assists 1510Counts SIMD packed single- precision floating point Uops retired. 1511.It Li BOGUS_BR 1512.Pq Event E4H , Umask 01H 1513Counts the number of bogus branches. 1514.It Li L2_HW_PREFETCH.HIT 1515.Pq Event F3H , Umask 01H 1516Count L2 HW prefetcher detector hits 1517.It Li L2_HW_PREFETCH.ALLOC 1518.Pq Event F3H , Umask 02H 1519Count L2 HW prefetcher allocations 1520.It Li L2_HW_PREFETCH.DATA_TRIGGER 1521.Pq Event F3H , Umask 04H 1522Count L2 HW data prefetcher triggered 1523.It Li L2_HW_PREFETCH.CODE_TRIGGER 1524.Pq Event F3H , Umask 08H 1525Count L2 HW code prefetcher triggered 1526.It Li L2_HW_PREFETCH.DCA_TRIGGER 1527.Pq Event F3H , Umask 10H 1528Count L2 HW DCA prefetcher triggered 1529.It Li L2_HW_PREFETCH.KICK_START 1530.Pq Event F3H , Umask 20H 1531Count L2 HW prefetcher kick started 1532.It Li SQ_MISC.PROMOTION 1533.Pq Event F4H , Umask 01H 1534Counts the number of L2 secondary misses that hit the Super Queue. 1535.It Li SQ_MISC.PROMOTION_POST_GO 1536.Pq Event F4H , Umask 02H 1537Counts the number of L2 secondary misses during the Super Queue filling L2. 1538.It Li SQ_MISC.LRU_HINTS 1539.Pq Event F4H , Umask 04H 1540Counts number of Super Queue LRU hints sent to L3. 1541.It Li SQ_MISC.FILL_DROPPED 1542.Pq Event F4H , Umask 08H 1543Counts the number of SQ L2 fills dropped due to L2 busy. 1544.It Li SEGMENT_REG_LOADS 1545.Pq Event F8H , Umask 01H 1546Counts number of segment register loads. 1547.El 1548.Sh SEE ALSO 1549.Xr pmc 3 , 1550.Xr pmc.atom 3 , 1551.Xr pmc.core 3 , 1552.Xr pmc.iaf 3 , 1553.Xr pmc.ucf 3 , 1554.Xr pmc.k7 3 , 1555.Xr pmc.k8 3 , 1556.Xr pmc.p4 3 , 1557.Xr pmc.p5 3 , 1558.Xr pmc.p6 3 , 1559.Xr pmc.corei7uc 3 , 1560.Xr pmc.westmere 3 , 1561.Xr pmc.westmereuc 3 , 1562.Xr pmc.soft 3 , 1563.Xr pmc.tsc 3 , 1564.Xr pmc_cpuinfo 3 , 1565.Xr pmclog 3 , 1566.Xr hwpmc 4 1567.Sh HISTORY 1568The 1569.Nm pmc 1570library first appeared in 1571.Fx 6.0 . 1572.Sh AUTHORS 1573The 1574.Lb libpmc 1575library was written by 1576.An Joseph Koshy Aq Mt jkoshy@FreeBSD.org . 1577