/* * Contributed by Stephane Eranian * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, * INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE * OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * This file is part of libpfm, a performance monitoring support library for * applications on Linux. * * * PMU: intel_icl (Intel Icelake) * Based on Intel JSON event table version : 1.19 * Based on Intel JSON event table pusblised : 02/16/2023 */ static const intel_x86_umask_t intel_icl_ocr[]={ { .uname = "OTHER_LOCAL_DRAM", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that DRAM supplied the request.", .ucode = 0x18400800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_LOCAL_DRAM", .udesc = "Counts streaming stores that DRAM supplied the request.", .ucode = 0x18400080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_LOCAL_DRAM", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that DRAM supplied the request.", .ucode = 0x18400040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_LOCAL_DRAM", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that DRAM supplied the request.", .ucode = 0x18400002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_LOCAL_DRAM", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that DRAM supplied the request.", .ucode = 0x18400001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_LOCAL_DRAM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that DRAM supplied the request.", .ucode = 0x18400000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_LOCAL_DRAM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that DRAM supplied the request.", .ucode = 0x18400000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_LOCAL_DRAM", .udesc = "Counts demand data reads that DRAM supplied the request.", .ucode = 0x18400000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_L3_MISS", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that was not supplied by the L3 cache.", .ucode = 0x3fffc0800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_L3_MISS", .udesc = "Counts streaming stores that was not supplied by the L3 cache.", .ucode = 0x3fffc0080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_L3_MISS", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that was not supplied by the L3 cache.", .ucode = 0x3fffc0040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_L3_MISS", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that was not supplied by the L3 cache.", .ucode = 0x3fffc0002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_L3_MISS", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that was not supplied by the L3 cache.", .ucode = 0x3fffc0001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_MISS", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that was not supplied by the L3 cache.", .ucode = 0x3fffc0000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_MISS", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that was not supplied by the L3 cache.", .ucode = 0x3fffc0000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_MISS", .udesc = "Counts demand data reads that was not supplied by the L3 cache.", .ucode = 0x3fffc0000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_DRAM", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that DRAM supplied the request.", .ucode = 0x18400800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_DRAM", .udesc = "Counts streaming stores that DRAM supplied the request.", .ucode = 0x18400080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_DRAM", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that DRAM supplied the request.", .ucode = 0x18400040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_DRAM", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that DRAM supplied the request.", .ucode = 0x18400002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_DRAM", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that DRAM supplied the request.", .ucode = 0x18400001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_DRAM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that DRAM supplied the request.", .ucode = 0x18400000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_DRAM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that DRAM supplied the request.", .ucode = 0x18400000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_DRAM", .udesc = "Counts demand data reads that DRAM supplied the request.", .ucode = 0x18400000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_L3_HIT_SNOOP_SENT", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that hit a cacheline in the L3 where a snoop was sent.", .ucode = 0x1e003c800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_L3_HIT_SNOOP_SENT", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that hit a cacheline in the L3 where a snoop was sent.", .ucode = 0x1e003c002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_L3_HIT_SNOOP_SENT", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that hit a cacheline in the L3 where a snoop was sent.", .ucode = 0x1e003c001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT_SNOOP_SENT", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit a cacheline in the L3 where a snoop was sent.", .ucode = 0x1e003c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT_SNOOP_SENT", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit a cacheline in the L3 where a snoop was sent.", .ucode = 0x1e003c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_SENT", .udesc = "Counts demand data reads that hit a cacheline in the L3 where a snoop was sent.", .ucode = 0x1e003c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_ANY_RESPONSE", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that have any type of response.", .ucode = 0x1800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_ANY_RESPONSE", .udesc = "Counts streaming stores that have any type of response.", .ucode = 0x1080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_ANY_RESPONSE", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that have any type of response.", .ucode = 0x1040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_ANY_RESPONSE", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that have any type of response.", .ucode = 0x1002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_ANY_RESPONSE", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that have any type of response.", .ucode = 0x1001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_ANY_RESPONSE", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that have any type of response.", .ucode = 0x1000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_ANY_RESPONSE", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that have any type of response.", .ucode = 0x1000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_ANY_RESPONSE", .udesc = "Counts demand data reads that have any type of response.", .ucode = 0x1000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L3_L3_HIT_ANY", .udesc = "Counts hardware prefetches to the L3 only that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c238000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that hit a cacheline in the L3 where a snoop hit in another core, data forwarding is not required.", .ucode = 0x4003c800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_L3_HIT_SNOOP_MISS", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that hit a cacheline in the L3 where a snoop was sent but no other cores had the data.", .ucode = 0x2003c800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_L3_HIT_SNOOP_NOT_NEEDED", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that hit a cacheline in the L3 where a snoop was not needed to satisfy the request.", .ucode = 0x1003c800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_L3_HIT_ANY", .udesc = "Counts streaming stores that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_L3_HIT_ANY", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_L3_HIT_SNOOP_MISS", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that hit a cacheline in the L3 where a snoop was sent but no other cores had the data.", .ucode = 0x2003c040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_L3_HIT_SNOOP_NOT_NEEDED", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that hit a cacheline in the L3 where a snoop was not needed to satisfy the request.", .ucode = 0x1003c040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_L3_HIT_ANY", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_L3_HIT_SNOOP_HITM", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that hit a cacheline in the L3 where a snoop hit in another cores caches, data forwarding is required as the data is modified.", .ucode = 0x10003c002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that hit a cacheline in the L3 where a snoop hit in another core, data forwarding is not required.", .ucode = 0x4003c002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_L3_HIT_SNOOP_MISS", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that hit a cacheline in the L3 where a snoop was sent but no other cores had the data.", .ucode = 0x2003c002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_RFO_L3_HIT_SNOOP_NOT_NEEDED", .udesc = "Counts hardware prefetch RFOs (which bring data to L2) that hit a cacheline in the L3 where a snoop was not needed to satisfy the request.", .ucode = 0x1003c002000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_L3_HIT_ANY", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_L3_HIT_SNOOP_HITM", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that hit a cacheline in the L3 where a snoop hit in another cores caches, data forwarding is required as the data is modified.", .ucode = 0x10003c001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that hit a cacheline in the L3 where a snoop hit in another core, data forwarding is not required.", .ucode = 0x4003c001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_L3_HIT_SNOOP_MISS", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that hit a cacheline in the L3 where a snoop was sent but no other cores had the data.", .ucode = 0x2003c001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_DATA_RD_L3_HIT_SNOOP_NOT_NEEDED", .udesc = "Counts hardware prefetch data reads (which bring data to L2) that hit a cacheline in the L3 where a snoop was not needed to satisfy the request.", .ucode = 0x1003c001000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT_ANY", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT_SNOOP_HITM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit a cacheline in the L3 where a snoop hit in another cores caches, data forwarding is required as the data is modified.", .ucode = 0x10003c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit a cacheline in the L3 where a snoop hit in another core, data forwarding is not required.", .ucode = 0x4003c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT_SNOOP_MISS", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit a cacheline in the L3 where a snoop was sent but no other cores had the data.", .ucode = 0x2003c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT_SNOOP_NOT_NEEDED", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit a cacheline in the L3 where a snoop was not needed to satisfy the request.", .ucode = 0x1003c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT_ANY", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT_SNOOP_HITM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit a cacheline in the L3 where a snoop hit in another cores caches, data forwarding is required as the data is modified.", .ucode = 0x10003c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit a cacheline in the L3 where a snoop hit in another core, data forwarding is not required.", .ucode = 0x4003c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT_SNOOP_MISS", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit a cacheline in the L3 where a snoop was sent but no other cores had the data.", .ucode = 0x2003c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT_SNOOP_NOT_NEEDED", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit a cacheline in the L3 where a snoop was not needed to satisfy the request.", .ucode = 0x1003c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_ANY", .udesc = "Counts demand data reads that hit a cacheline in the L3 where a snoop was sent or not.", .ucode = 0x3fc03c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_HITM", .udesc = "Counts demand data reads that hit a cacheline in the L3 where a snoop hit in another cores caches, data forwarding is required as the data is modified.", .ucode = 0x10003c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts demand data reads that hit a cacheline in the L3 where a snoop hit in another core, data forwarding is not required.", .ucode = 0x4003c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_MISS", .udesc = "Counts demand data reads that hit a cacheline in the L3 where a snoop was sent but no other cores had the data.", .ucode = 0x2003c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_NOT_NEEDED", .udesc = "Counts demand data reads that hit a cacheline in the L3 where a snoop was not needed to satisfy the request.", .ucode = 0x1003c000100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icx_ocr[]={ { .uname = "WRITE_ESTIMATE_MEMORY", .udesc = "Counts Demand RFOs, ItoM's, PREFECTHW's, Hardware RFO Prefetches to the L1/L2 and Streaming stores that likely resulted in a store to Memory (DRAM or PMM)", .ucode = 0xfbff8082200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_REMOTE_MEMORY", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by DRAM or PMM attached to another socket.", .ucode = 0x73180047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L2_ANY_RESPONSE", .udesc = "Counts hardware prefetch (which bring data to L2) that have any type of response.", .ucode = 0x1007000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_LOCAL_SOCKET_PMM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by PMM attached to this socket, whether or not in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts PMM accesses that are controlled by the close or distant SNC Cluster.", .ucode = 0x700c0047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_LOCAL_SOCKET_DRAM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by DRAM attached to this socket, whether or not in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts DRAM accesses that are controlled by the close or distant SNC Cluster.", .ucode = 0x70c00047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_L3_MISS_LOCAL_SOCKET", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that missed the L3 Cache and were supplied by the local socket (DRAM or PMM), whether or not in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts PMM or DRAM accesses that are controlled by the close or distant SNC Cluster.", .ucode = 0x70cc0047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_SNC_CACHE_HITM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that hit a modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x100800047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_SNC_CACHE_HITM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit a modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x100800000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_SNC_CACHE_HITM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit a modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x100800000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_SNC_CACHE_HITM", .udesc = "Counts demand data reads that hit a modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x100800000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_SNC_CACHE_HIT_WITH_FWD", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that either hit a non-modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x80800047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_SNC_CACHE_HIT_WITH_FWD", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that either hit a non-modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x80800000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_SNC_CACHE_HIT_WITH_FWD", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that either hit a non-modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x80800000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_SNC_CACHE_HIT_WITH_FWD", .udesc = "Counts demand data reads that either hit a non-modified line in a distant L3 Cache or were snooped from a distant core's L1/L2 caches on this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x80800000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PREFETCHES_L3_HIT", .udesc = "Counts hardware and software prefetches to all cache levels that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x3f803c27f000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PREFETCHES_L3_MISS_LOCAL", .udesc = "Counts hardware and software prefetches to all cache levels that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x3f844027f000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L3_L3_MISS", .udesc = "Counts hardware prefetches to the L3 only that missed the local socket's L1, L2, and L3 caches.", .ucode = 0x9400238000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_L3_MISS", .udesc = "Counts streaming stores that missed the local socket's L1, L2, and L3 caches.", .ucode = 0x9400080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_L3_MISS", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were not supplied by the local socket's L1, L2, or L3 caches.", .ucode = 0x3f3fc0047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_MISS", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were not supplied by the local socket's L1, L2, or L3 caches.", .ucode = 0x3f3fc0000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ITOM_REMOTE", .udesc = "Counts full cacheline writes (ItoM) that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline was homed in a remote socket.", .ucode = 0x9000000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L3_REMOTE", .udesc = "Counts hardware prefetches to the L3 only that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline was homed in a remote socket.", .ucode = 0x9000238000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_REMOTE", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were not supplied by the local socket's L1, L2, or L3 caches and were supplied by a remote socket.", .ucode = 0x3f3300047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ITOM_L3_MISS_LOCAL", .udesc = "Counts full cacheline writes (ItoM) that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x8400000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L3_L3_MISS_LOCAL", .udesc = "Counts hardware prefetches to the L3 only that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x8400238000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_L3_MISS_LOCAL", .udesc = "Counts streaming stores that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x8400080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_L3_MISS_LOCAL", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were not supplied by the local socket's L1, L2, or L3 caches and were supplied by the local socket.", .ucode = 0x3f0440047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_MISS_LOCAL", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were not supplied by the local socket's L1, L2, or L3 caches and were supplied by the local socket.", .ucode = 0x3f0440000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_L3_HIT", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x3f003c047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L3_L3_HIT", .udesc = "Counts hardware prefetches to the L3 only that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x8008238000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_L3_HIT", .udesc = "Counts streaming stores that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x8008080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_ANY_RESPONSE", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that have any type of response.", .ucode = 0x3f3ffc047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_ANY_RESPONSE", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that have any type of response.", .ucode = 0x3f3ffc000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_SNC_DRAM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by DRAM on a distant memory controller of this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x70800047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_SNC_DRAM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that were supplied by DRAM on a distant memory controller of this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x70800000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_SNC_DRAM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were supplied by DRAM on a distant memory controller of this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x70800000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_SNC_DRAM", .udesc = "Counts demand data reads that were supplied by DRAM on a distant memory controller of this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x70800000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_SNC_PMM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by PMM on a distant memory controller of this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x70080047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_LOCAL_PMM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by PMM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those PMM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10040047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_REMOTE_PMM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by PMM attached to another socket.", .ucode = 0x70300047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_REMOTE_DRAM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by DRAM attached to another socket.", .ucode = 0x73000047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_LOCAL_DRAM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by DRAM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those DRAM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10400047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_DRAM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by DRAM.", .ucode = 0x73c00047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_REMOTE_CACHE_SNOOP_FWD", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by a cache on a remote socket where a snoop was sent and data was returned (Modified or Not Modified).", .ucode = 0x183000047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_REMOTE_CACHE_SNOOP_HIT_WITH_FWD", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by a cache on a remote socket where a snoop hit in another core's caches which forwarded the unmodified data to the requesting core.", .ucode = 0x83000047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_REMOTE_CACHE_SNOOP_HITM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that were supplied by a cache on a remote socket where a snoop hit a modified line in another core's caches which forwarded the data.", .ucode = 0x103000047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_L3_HIT_SNOOP_HIT_WITH_FWD", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that resulted in a snoop hit in another core's caches which forwarded the unmodified data to the requesting core.", .ucode = 0x8003c047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_L3_HIT_SNOOP_HITM", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that resulted in a snoop hit a modified line in another core's caches which forwarded the data.", .ucode = 0x10003c047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "READS_TO_CORE_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts all (cacheable) data read, code read and RFO requests including demands and prefetches to the core caches (L1 or L2) that resulted in a snoop that hit in another core, which did not forward the data.", .ucode = 0x4003c047700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_L3_HIT", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x3f803c040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x3f803c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x3f803c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT", .udesc = "Counts demand data reads that hit in the L3 or were snooped from another core's caches on the same socket.", .ucode = 0x3f803c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_SNC_PMM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were supplied by PMM on a distant memory controller of this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x70080000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_SNC_PMM", .udesc = "Counts demand data reads that were supplied by PMM on a distant memory controller of this socket when the system is in SNC (sub-NUMA cluster) mode.", .ucode = 0x70080000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_L3_MISS_LOCAL", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x3f8440800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_L3_MISS_LOCAL", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x3f8440040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_DRAM", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that were supplied by DRAM.", .ucode = 0x73c00040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_MISS_LOCAL", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x3f8440000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_DRAM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that were supplied by DRAM.", .ucode = 0x73c00000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_PMM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were supplied by PMM.", .ucode = 0x703c0000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_LOCAL_PMM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were supplied by PMM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those PMM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10040000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_REMOTE_PMM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were supplied by PMM attached to another socket.", .ucode = 0x70300000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_DRAM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were supplied by DRAM.", .ucode = 0x73c00000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_PMM", .udesc = "Counts demand data reads that were supplied by PMM.", .ucode = 0x703c0000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_LOCAL_PMM", .udesc = "Counts demand data reads that were supplied by PMM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those PMM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10040000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_MISS_LOCAL", .udesc = "Counts demand data reads that were not supplied by the local socket's L1, L2, or L3 caches and the cacheline is homed locally.", .ucode = 0x3f8440000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_REMOTE_PMM", .udesc = "Counts demand data reads that were supplied by PMM attached to another socket.", .ucode = 0x70300000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_DRAM", .udesc = "Counts demand data reads that were supplied by DRAM.", .ucode = 0x73c00000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_REMOTE_CACHE_SNOOP_HIT_WITH_FWD", .udesc = "Counts demand data reads that were supplied by a cache on a remote socket where a snoop hit in another core's caches which forwarded the unmodified data to the requesting core.", .ucode = 0x83000000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_REMOTE_CACHE_SNOOP_HITM", .udesc = "Counts demand data reads that were supplied by a cache on a remote socket where a snoop hit a modified line in another core's caches which forwarded the data.", .ucode = 0x103000000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_REMOTE_DRAM", .udesc = "Counts demand data reads that were supplied by DRAM attached to another socket.", .ucode = 0x73000000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L3_ANY_RESPONSE", .udesc = "Counts hardware prefetches to the L3 only that have any type of response.", .ucode = 0x1238000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_L3_MISS", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that were not supplied by the local socket's L1, L2, or L3 caches.", .ucode = 0x3fbfc0800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "OTHER_ANY_RESPONSE", .udesc = "Counts miscellaneous requests, such as I/O and un-cacheable accesses that have any type of response.", .ucode = 0x1800000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STREAMING_WR_ANY_RESPONSE", .udesc = "Counts streaming stores that have any type of response.", .ucode = 0x1080000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_LOCAL_DRAM", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that were supplied by DRAM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those DRAM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10400040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HWPF_L1D_AND_SWPF_L3_MISS", .udesc = "Counts L1 data cache prefetch requests and software prefetches (except PREFETCHW) that were not supplied by the local socket's L1, L2, or L3 caches.", .ucode = 0x3fbfc0040000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_LOCAL_DRAM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that were supplied by DRAM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those DRAM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10400000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_MISS", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that were not supplied by the local socket's L1, L2, or L3 caches.", .ucode = 0x3fbfc0000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_ANY_RESPONSE", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that have any type of response.", .ucode = 0x1000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_LOCAL_DRAM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that were supplied by DRAM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those DRAM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10400000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_LOCAL_DRAM", .udesc = "Counts demand data reads that were supplied by DRAM attached to this socket, unless in Sub NUMA Cluster(SNC) Mode. In SNC Mode counts only those DRAM accesses that are controlled by the close SNC Cluster.", .ucode = 0x10400000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_MISS", .udesc = "Counts demand data reads that were not supplied by the local socket's L1, L2, or L3 caches.", .ucode = 0x3fbfc0000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_ANY_RESPONSE", .udesc = "Counts demand data reads that have any type of response.", .ucode = 0x1000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD_L3_HIT_SNOOP_HITM", .udesc = "Counts demand instruction fetches and L1 instruction cache prefetches that resulted in a snoop hit a modified line in another core's caches which forwarded the data.", .ucode = 0x10003c000400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO_L3_HIT_SNOOP_HITM", .udesc = "Counts demand reads for ownership (RFO) requests and software prefetches for exclusive ownership (PREFETCHW) that resulted in a snoop hit a modified line in another core's caches which forwarded the data.", .ucode = 0x10003c000200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_HIT_WITH_FWD", .udesc = "Counts demand data reads that resulted in a snoop hit in another core's caches which forwarded the unmodified data to the requesting core.", .ucode = 0x8003c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_HITM", .udesc = "Counts demand data reads that resulted in a snoop hit a modified line in another core's caches which forwarded the data.", .ucode = 0x10003c000100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_L3_HIT_SNOOP_HIT_NO_FWD", .udesc = "Counts demand data reads that resulted in a snoop that hit in another core, which did not forward the data.", .ucode = 0x4003c000100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_sq_misc[]={ { .uname = "SQ_FULL", .udesc = "Cycles the thread is active and superQ cannot take any more entries.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "BUS_LOCK", .udesc = "Counts bus locks, accounts for cache line split locks and UC locks.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_l2_lines_out[]={ { .uname = "USELESS_HWPF", .udesc = "Cache lines that have been L2 hardware prefetched but not used by demand accesses", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "NON_SILENT", .udesc = "Modified cache lines that are evicted by L2 cache when triggered by an L2 cache fill.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SILENT", .udesc = "Non-modified cache lines that are silently dropped by L2 cache when triggered by an L2 cache fill.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_l2_lines_in[]={ { .uname = "ALL", .udesc = "L2 cache lines filling L2", .ucode = 0x1f00ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_l2_trans[]={ { .uname = "L2_WB", .udesc = "L2 writebacks that access L2 cache", .ucode = 0x4000ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_baclears[]={ { .uname = "ANY", .udesc = "Counts the total number when the front end is resteered, mainly when the BPU cannot provide a correct prediction and this is corrected by other branch handling mechanisms at the front end.", .ucode = 0x0100ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_mem_load_l3_miss_retired[]={ { .uname = "REMOTE_PMM", .udesc = "Retired load instructions with remote Intel Optane DC persistent memory as the data source where the data request missed all caches.", .ucode = 0x1000ull, .umodel = PFM_PMU_INTEL_ICX, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "REMOTE_FWD", .udesc = "Retired load instructions whose data sources was forwarded from a remote cache", .ucode = 0x0800ull, .umodel = PFM_PMU_INTEL_ICX, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "REMOTE_HITM", .udesc = "Retired load instructions whose data sources was remote HITM", .ucode = 0x0400ull, .umodel = PFM_PMU_INTEL_ICX, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "REMOTE_DRAM", .udesc = "Retired load instructions which data sources missed L3 but serviced from remote dram", .ucode = 0x0200ull, .umodel = PFM_PMU_INTEL_ICX, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "LOCAL_DRAM", .udesc = "Retired load instructions which data sources missed L3 but serviced from local dram", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, }; static const intel_x86_umask_t intel_icl_mem_load_l3_hit_retired[]={ { .uname = "XSNP_NONE", .udesc = "Retired load instructions whose data sources were hits in L3 without snoops required", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "XSNP_HITM", .udesc = "Retired load instructions whose data sources were HitM responses from shared L3", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "XSNP_HIT", .udesc = "Retired load instructions whose data sources were L3 and cross-core snoop hits in on-pkg core cache", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "XSNP_MISS", .udesc = "Retired load instructions whose data sources were L3 hit and cross-core snoop missed in on-pkg core cache.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, }; static const intel_x86_umask_t intel_icl_mem_load_retired[]={ { .uname = "FB_HIT", .udesc = "Number of completed demand load requests that missed the L1, but hit the FB(fill buffer), because a preceding miss to the same cacheline initiated the line to be brought into L1, but data is not yet ready in L1.", .ucode = 0x4000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L3_MISS", .udesc = "Retired load instructions missed L3 cache as data sources", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L2_MISS", .udesc = "Retired load instructions missed L2 cache as data sources", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L1_MISS", .udesc = "Retired load instructions missed L1 cache as data sources", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L3_HIT", .udesc = "Retired load instructions with L3 cache hits as data sources", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L2_HIT", .udesc = "Retired load instructions with L2 cache hits as data sources", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L1_HIT", .udesc = "Retired load instructions with L1 cache hits as data sources", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "LOCAL_PMM", .udesc = "Retired load instructions with local Intel Optane DC persistent memory as the data source where the data request missed all caches.", .ucode = 0x8000ull, .umodel = PFM_PMU_INTEL_ICX, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, }; static const intel_x86_umask_t intel_icl_mem_inst_retired[]={ { .uname = "ALL_STORES", .udesc = "All retired store instructions.", .ucode = 0x8200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "ALL_LOADS", .udesc = "All retired load instructions.", .ucode = 0x8100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "SPLIT_STORES", .udesc = "Retired store instructions that split across a cacheline boundary.", .ucode = 0x4200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "SPLIT_LOADS", .udesc = "Retired load instructions that split across a cacheline boundary.", .ucode = 0x4100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "LOCK_LOADS", .udesc = "Retired load instructions with locked access.", .ucode = 0x2100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "STLB_MISS_STORES", .udesc = "Retired store instructions that miss the STLB.", .ucode = 0x1200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "STLB_MISS_LOADS", .udesc = "Retired load instructions that miss the STLB.", .ucode = 0x1100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "ANY", .udesc = "All retired memory instructions.", .ucode = 0x8300ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS | INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_mem_trans_retired[]={ { .uname = "LOAD_LATENCY", .udesc = "Memory load instructions retired above programmed clocks, minimum threshold value is 3 (Precise Event and ldlat required)", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS | INTEL_X86_LDLAT | INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_misc_retired[]={ { .uname = "PAUSE_INST", .udesc = "Number of retired PAUSE instructions.", .ucode = 0x4000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "LBR_INSERTS", .udesc = "Increments whenever there is an update to the LBR array.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_rtm_retired[]={ { .uname = "ABORTED_EVENTS", .udesc = "Number of times an RTM execution aborted due to none of the previous 4 categories (e.g. interrupt)", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORTED_MEMTYPE", .udesc = "Number of times an RTM execution aborted due to incompatible memory type", .ucode = 0x4000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORTED_UNFRIENDLY", .udesc = "Number of times an RTM execution aborted due to HLE-unfriendly instructions", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORTED_MEM", .udesc = "Number of times an RTM execution aborted due to various memory events (e.g. read/write capacity and conflicts)", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORTED", .udesc = "Number of times an RTM execution aborted.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "COMMIT", .udesc = "Number of times an RTM execution successfully committed", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "START", .udesc = "Number of times an RTM execution started.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_hle_retired[]={ { .uname = "ABORTED_EVENTS", .udesc = "Number of times an HLE execution aborted due to unfriendly events (such as interrupts).", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORTED_UNFRIENDLY", .udesc = "Number of times an HLE execution aborted due to HLE-unfriendly instructions and certain unfriendly events (such as AD assists etc.).", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORTED_MEM", .udesc = "Number of times an HLE execution aborted due to various memory events (e.g., read/write capacity and conflicts).", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORTED", .udesc = "Number of times an HLE execution aborted due to any reasons (multiple categories may count as one).", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "COMMIT", .udesc = "Number of times an HLE execution successfully committed", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "START", .udesc = "Number of times an HLE execution started.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_fp_arith_inst_retired[]={ { .uname = "512B_PACKED_SINGLE", .udesc = "Counts number of SSE/AVX computational 512-bit packed double precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 16 computation operations, one for each element. Applies to SSE* and AVX* packed double precision floating-point instructions: ADD SUB MUL DIV MIN MAX SQRT RSQRT14 RCP14 FM(N)ADD/SUB. FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event.", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "512B_PACKED_DOUBLE", .udesc = "Counts number of SSE/AVX computational 512-bit packed double precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 8 computation operations, one for each element. Applies to SSE* and AVX* packed double precision floating-point instructions: ADD SUB MUL DIV MIN MAX SQRT RSQRT14 RCP14 FM(N)ADD/SUB. FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event", .ucode = 0x4000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "256B_PACKED_SINGLE", .udesc = "Counts number of SSE/AVX computational 256-bit packed single precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 8 computation operations, one for each element. Applies to SSE* and AVX* packed single precision floating-point instructions: ADD SUB HADD HSUB SUBADD MUL DIV MIN MAX SQRT RSQRT RCP DPP FM(N)ADD/SUB. DPP and FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "256B_PACKED_DOUBLE", .udesc = "Counts number of SSE/AVX computational 256-bit packed double precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 4 computation operations, one for each element. Applies to SSE* and AVX* packed double precision floating-point instructions: ADD SUB HADD HSUB SUBADD MUL DIV MIN MAX SQRT FM(N)ADD/SUB. FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "128B_PACKED_SINGLE", .udesc = "Number of SSE/AVX computational 128-bit packed single precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 4 computation operations, one for each element. Applies to SSE* and AVX* packed single precision floating-point instructions: ADD SUB MUL DIV MIN MAX RCP14 RSQRT14 SQRT DPP FM(N)ADD/SUB. DPP and FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "128B_PACKED_DOUBLE", .udesc = "Counts number of SSE/AVX computational 128-bit packed double precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 2 computation operations, one for each element. Applies to SSE* and AVX* packed double precision floating-point instructions: ADD SUB HADD HSUB SUBADD MUL DIV MIN MAX SQRT DPP FM(N)ADD/SUB. DPP and FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SCALAR_SINGLE", .udesc = "Counts number of SSE/AVX computational scalar single precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 1 computational operation. Applies to SSE* and AVX* scalar single precision floating-point instructions: ADD SUB MUL DIV MIN MAX SQRT RSQRT RCP FM(N)ADD/SUB. FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SCALAR_DOUBLE", .udesc = "Counts number of SSE/AVX computational scalar double precision floating-point instructions retired; some instructions will count twice as noted below. Each count represents 1 computational operation. Applies to SSE* and AVX* scalar double precision floating-point instructions: ADD SUB MUL DIV MIN MAX SQRT FM(N)ADD/SUB. FM(N)ADD/SUB instructions count twice as they perform 2 calculations per element. The DAZ and FTZ flags in the MXCSR register need to be set when using this event.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SCALAR", .udesc = "Number of SSE/AVX computational scalar floating-point instructions retired; some instructions will count twice as noted below. Applies to SSE* and AVX* scalar, double and single precision floating-point: ADD SUB MUL DIV MIN MAX RCP14 RSQRT14 SQRT DPP FM(N)ADD/SUB. DPP and FM(N)ADD/SUB instructions count twice as they perform multiple calculations per element.", .ucode = 0x0300ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "4_FLOPS", .udesc = "Number of SSE/AVX computational 128-bit packed single and 256-bit packed double precision FP instructions retired; some instructions will count twice as noted below. Each count represents 2 or/and 4 computation operations, 1 for each element. Applies to SSE* and AVX* packed single precision and packed double precision FP instructions: ADD SUB HADD HSUB SUBADD MUL DIV MIN MAX RCP14 RSQRT14 SQRT DPP FM(N)ADD/SUB. DPP and FM(N)ADD/SUB count twice as they perform 2 calculations per element.", .ucode = 0x1800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "8_FLOPS", .udesc = "Number of SSE/AVX computational 256-bit packed single precision and 512-bit packed double precision FP instructions retired; some instructions will count twice as noted below. Each count represents 8 computation operations, 1 for each element. Applies to SSE* and AVX* packed single precision and double precision FP instructions: ADD SUB HADD HSUB SUBADD MUL DIV MIN MAX SQRT RSQRT RSQRT14 RCP RCP14 DPP FM(N)ADD/SUB. DPP and FM(N)ADD/SUB count twice as they perform 2 calculations per element.", .ucode = 0x6000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "VECTOR", .udesc = "Number of any Vector retired FP arithmetic instructions", .ucode = 0xfc00ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_frontend_retired[]={ { .uname = "LATENCY_GE_1", .udesc = "Retired instructions after front-end starvation of at least 1 cycle", .ucode = 0x50010600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_2_BUBBLES_GE_1", .udesc = "Retired instructions that are fetched after an interval where the front-end had at least 1 bubble-slot for a period of 2 cycles which was not interrupted by a back-end stall.", .ucode = 0x10020600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_512", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 512 cycles which was not interrupted by a back-end stall.", .ucode = 0x52000600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_256", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 256 cycles which was not interrupted by a back-end stall.", .ucode = 0x51000600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_128", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 128 cycles which was not interrupted by a back-end stall.", .ucode = 0x50800600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_64", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 64 cycles which was not interrupted by a back-end stall.", .ucode = 0x50400600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_32", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 32 cycles which was not interrupted by a back-end stall.", .ucode = 0x50200600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_16", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 16 cycles which was not interrupted by a back-end stall.", .ucode = 0x50100600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_8", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 8 cycles which was not interrupted by a back-end stall.", .ucode = 0x50080600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_4", .udesc = "Retired instructions that are fetched after an interval where the front-end delivered no uops for a period of 4 cycles which was not interrupted by a back-end stall.", .ucode = 0x50040600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "LATENCY_GE_2", .udesc = "Retired instructions after front-end starvation of at least 2 cycles", .ucode = 0x50020600ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, .modhw = _INTEL_X86_ATTR_FETHR, }, { .uname = "STLB_MISS", .udesc = "Retired Instructions who experienced STLB (2nd level TLB) true miss.", .ucode = 0x1500ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "ITLB_MISS", .udesc = "Retired Instructions who experienced iTLB true miss.", .ucode = 0x1400ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L2_MISS", .udesc = "Retired Instructions who experienced Instruction L2 Cache true miss.", .ucode = 0x1300ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "L1I_MISS", .udesc = "Retired Instructions who experienced Instruction L1 Cache true miss.", .ucode = 0x1200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "DSB_MISS", .udesc = "Retired Instructions experiencing a critical DSB miss.", .ucode = 0x1100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "ANY_DSB_MISS", .udesc = "Retired Instructions experiencing a DSB miss.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "IDQ_4_BUBBLES", .udesc = "Retired instructions after an interval where the front-end did not deliver any uops (4 bubbles) for a period determined by the fe_thres modifier (set to 1 cycle by default) and which was not interrupted by a back-end stall", .ucode = (4 << 20 | 0x6) << 8, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, }, { .uname = "IDQ_3_BUBBLES", .udesc = "Counts instructions retired after an interval where the front-end did not deliver more than 1 uop (3 bubbles) for a period determined by the fe_thres modifier (set to 1 cycle by default) and which was not interrupted by a back-end stall", .ucode = (3 << 20 | 0x6) << 8, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, }, { .uname = "IDQ_2_BUBBLES", .udesc = "Counts instructions retired after an interval where the front-end did not deliver more than 2 uops (2 bubbles) for a period determined by the fe_thres modifier (set to 1 cycle by default) and which was not interrupted by a back-end stall", .ucode = (2 << 20 | 0x6) << 8, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, }, { .uname = "IDQ_1_BUBBLE", .udesc = "Counts instructions retired after an interval where the front-end did not deliver more than 3 uops (1 bubble) for a period determined by the fe_thres modifier (set to 1 cycle by default) and which was not interrupted by a back-end stall", .ucode = (1 << 20 | 0x6) << 8, .uflags = INTEL_X86_NCOMBO | INTEL_X86_FETHR | INTEL_X86_PEBS, }, }; static const intel_x86_umask_t intel_icl_br_misp_retired[]={ { .uname = "INDIRECT", .udesc = "All miss-predicted indirect branch instructions retired (excluding RETs. TSX aborts is considered indirect branch).", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "NEAR_TAKEN", .udesc = "Number of near branch instructions retired that were mispredicted and taken.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "COND", .udesc = "Mispredicted conditional branch instructions retired.", .ucode = 0x1100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "COND_NTAKEN", .udesc = "Mispredicted non-taken conditional branch instructions retired.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "INDIRECT_CALL", .udesc = "Mispredicted indirect CALL instructions retired.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "COND_TAKEN", .udesc = "number of branch instructions retired that were mispredicted and taken.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "ALL_BRANCHES", .udesc = "All mispredicted branch instructions retired.", .ucode = 0x0000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS | INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_br_inst_retired[]={ { .uname = "INDIRECT", .udesc = "Indirect near branch instructions retired (excluding returns)", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "FAR_BRANCH", .udesc = "Far branch instructions retired.", .ucode = 0x4000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "NEAR_TAKEN", .udesc = "Taken branch instructions retired.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "COND", .udesc = "Conditional branch instructions retired.", .ucode = 0x1100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "COND_NTAKEN", .udesc = "Not taken branch instructions retired.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "NEAR_RETURN", .udesc = "Return instructions retired.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "NEAR_CALL", .udesc = "Direct and indirect near call instructions retired.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "COND_TAKEN", .udesc = "Taken conditional branch instructions retired.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS, }, { .uname = "ALL_BRANCHES", .udesc = "All branch instructions retired.", .ucode = 0x0000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_PEBS | INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_machine_clears[]={ { .uname = "SMC", .udesc = "Self-modifying code (SMC) detected.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MEMORY_ORDERING", .udesc = "Number of machine clears due to memory ordering conflicts.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "COUNT", .udesc = "Number of machine clears (nukes) of any type.", .ucode = 0x0100ull | (0x1 << INTEL_X86_CMASK_BIT) | (0x1 << INTEL_X86_EDGE_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_E, }, }; static const intel_x86_umask_t intel_icl_uops_retired[]={ { .uname = "SLOTS", .udesc = "Retirement slots used.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "TOTAL_CYCLES", .udesc = "Cycles with less than 10 actually retired uops.", .ucode = 0x0200ull | (0x1 << INTEL_X86_INV_BIT) | (0xa << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_C, }, { .uname = "STALL_CYCLES", .udesc = "Cycles without actually retired uops.", .ucode = 0x0200ull | (0x1 << INTEL_X86_INV_BIT) | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_C, }, }; static const intel_x86_umask_t intel_icl_assists[]={ { .uname = "ANY", .udesc = "Number of occurrences where a microcode assist is invoked by hardware.", .ucode = 0x0700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "FP", .udesc = "Counts all microcode FP assists.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_tlb_flush[]={ { .uname = "STLB_ANY", .udesc = "STLB flush attempts", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DTLB_THREAD", .udesc = "DTLB flush attempts of the thread-specific entries", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_uops_executed[]={ { .uname = "X87", .udesc = "Counts the number of x87 uops dispatched.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CORE_CYCLES_GE_4", .udesc = "Cycles at least 4 micro-op is executed from any thread on physical core.", .ucode = 0x0200ull | (0x4 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CORE_CYCLES_GE_3", .udesc = "Cycles at least 3 micro-op is executed from any thread on physical core.", .ucode = 0x0200ull | (0x3 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CORE_CYCLES_GE_2", .udesc = "Cycles at least 2 micro-op is executed from any thread on physical core.", .ucode = 0x0200ull | (0x2 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CORE_CYCLES_GE_1", .udesc = "Cycles at least 1 micro-op is executed from any thread on physical core.", .ucode = 0x0200ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CORE", .udesc = "Number of uops executed on the core.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CYCLES_GE_4", .udesc = "Cycles where at least 4 uops were executed per-thread", .ucode = 0x0100ull | (0x4 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_GE_3", .udesc = "Cycles where at least 3 uops were executed per-thread", .ucode = 0x0100ull | (0x3 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_GE_2", .udesc = "Cycles where at least 2 uops were executed per-thread", .ucode = 0x0100ull | (0x2 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_GE_1", .udesc = "Cycles where at least 1 uop was executed per-thread", .ucode = 0x0100ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "STALL_CYCLES", .udesc = "Counts number of cycles no uops were dispatched to be executed on this thread.", .ucode = 0x0100ull | (0x1 << INTEL_X86_INV_BIT) | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_C, }, { .uname = "THREAD", .udesc = "Counts the number of uops to be executed per-thread each cycle.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_offcore_requests[]={ { .uname = "ALL_REQUESTS", .udesc = "Any memory transaction that reached the SQ.", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL, }, { .uname = "L3_MISS_DEMAND_DATA_RD", .udesc = "Demand Data Read requests who miss L3 cache", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ALL_DATA_RD", .udesc = "Demand and prefetch data reads", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_RFO", .udesc = "Demand RFO requests including regular RFOs, locks, ItoM", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD", .udesc = "Demand Data Read requests sent to uncore", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD", .udesc = "Counts cacheable and non-cacheable code reads to the core.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_dsb2mite_switches[]={ { .uname = "COUNT", .udesc = "DSB-to-MITE transitions count.", .ucode = 0x0200ull | (0x1 << INTEL_X86_CMASK_BIT) | (0x1 << INTEL_X86_EDGE_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_E, }, { .uname = "PENALTY_CYCLES", .udesc = "DSB-to-MITE switch true penalty cycles.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_lsd[]={ { .uname = "CYCLES_OK", .udesc = "Cycles optimal number of Uops delivered by the LSD, but did not come from the decoder.", .ucode = 0x0100ull | (0x5 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_ACTIVE", .udesc = "Cycles Uops delivered by the LSD, but didn't come from the decoder.", .ucode = 0x0100ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "UOPS", .udesc = "Number of Uops delivered by the LSD.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_exe_activity[]={ { .uname = "EXE_BOUND_0_PORTS", .udesc = "Cycles where no uops were executed, the Reservation Station was not empty, the Store Buffer was full and there was no outstanding load.", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "BOUND_ON_STORES", .udesc = "Cycles where the Store Buffer was full and no loads caused an execution stall.", .ucode = 0x4000ull | (0x2 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "4_PORTS_UTIL", .udesc = "Cycles total of 4 uops are executed on all ports and Reservation Station was not empty.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "3_PORTS_UTIL", .udesc = "Cycles total of 3 uops are executed on all ports and Reservation Station was not empty.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "2_PORTS_UTIL", .udesc = "Cycles total of 2 uops are executed on all ports and Reservation Station was not empty.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "1_PORTS_UTIL", .udesc = "Cycles total of 1 uop is executed on all ports and Reservation Station was not empty.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_cycle_activity[]={ { .uname = "STALLS_MEM_ANY", .udesc = "Execution stalls while memory subsystem has an outstanding load.", .ucode = 0x1400ull | (0x14 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_MEM_ANY", .udesc = "Cycles while memory subsystem has an outstanding load.", .ucode = 0x1000ull | (0x10 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "STALLS_L1D_MISS", .udesc = "Execution stalls while L1 cache miss demand load is outstanding.", .ucode = 0x0c00ull | (0xc << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_L1D_MISS", .udesc = "Cycles while L1 cache miss demand load is outstanding.", .ucode = 0x0800ull | (0x8 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "STALLS_L3_MISS", .udesc = "Execution stalls while L3 cache miss demand load is outstanding.", .ucode = 0x0600ull | (0x6 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "STALLS_L2_MISS", .udesc = "Execution stalls while L2 cache miss demand load is outstanding.", .ucode = 0x0500ull | (0x5 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "STALLS_TOTAL", .udesc = "Total execution stalls.", .ucode = 0x0400ull | (0x4 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_L3_MISS", .udesc = "Cycles while L3 cache miss demand load is outstanding.", .ucode = 0x0200ull | (0x2 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_L2_MISS", .udesc = "Cycles while L2 cache miss demand load is outstanding.", .ucode = 0x0100ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, }; static const intel_x86_umask_t intel_icl_resource_stalls[]={ { .uname = "SB", .udesc = "Cycles stalled due to no store buffers available. (not including draining form sync).", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SCOREBOARD", .udesc = "Counts cycles where the pipeline is stalled due to serializing operations.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_uops_dispatched[]={ { .uname = "PORT_7_8", .udesc = "Number of uops executed on port 7 and 8", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PORT_6", .udesc = "Number of uops executed on port 6", .ucode = 0x4000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PORT_5", .udesc = "Number of uops executed on port 5", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PORT_4_9", .udesc = "Number of uops executed on port 4 and 9", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PORT_2_3", .udesc = "Number of uops executed on port 2 and 3", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PORT_1", .udesc = "Number of uops executed on port 1", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PORT_0", .udesc = "Number of uops executed on port 0", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_idq_uops_not_delivered[]={ { .uname = "CYCLES_FE_WAS_OK", .udesc = "Cycles when optimal number of uops was delivered to the back-end when the back-end is not stalled", .ucode = 0x0100ull | (0x1 << INTEL_X86_INV_BIT) | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_0_UOPS_DELIV_CORE", .udesc = "Cycles when no uops are not delivered by the IDQ when backend of the machine is not stalled", .ucode = 0x0100ull | (0x5 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CORE", .udesc = "Uops not delivered by IDQ when backend of the machine is not stalled", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_ild_stall[]={ { .uname = "LCP", .udesc = "Stalls caused by changing prefix length of the instruction.", .ucode = 0x0100ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_itlb_misses[]={ { .uname = "STLB_HIT", .udesc = "Instruction fetch requests that miss the ITLB and hit the STLB.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_ACTIVE", .udesc = "Cycles when at least one PMH is busy with a page walk for code (instruction fetch) request.", .ucode = 0x1000ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "WALK_PENDING", .udesc = "Number of page walks outstanding for an outstanding code request in the PMH each cycle.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED", .udesc = "Code miss in all TLB levels causes a page walk that completes. (All page sizes)", .ucode = 0x0e00ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED_2M_4M", .udesc = "Code miss in all TLB levels causes a page walk that completes. (2M/4M)", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED_4K", .udesc = "Code miss in all TLB levels causes a page walk that completes. (4K)", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_icache_64b[]={ { .uname = "IFTAG_STALL", .udesc = "Cycles where a code fetch is stalled due to L1 instruction cache tag miss.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "IFTAG_MISS", .udesc = "Instruction fetch tag lookups that miss in the instruction cache (L1I). Counts at 64-byte cache-line granularity.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "IFTAG_HIT", .udesc = "Instruction fetch tag lookups that hit in the instruction cache (L1I). Counts at 64-byte cache-line granularity.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_icache_16b[]={ { .uname = "IFDATA_STALL", .udesc = "Cycles where a code fetch is stalled due to L1 instruction cache miss.", .ucode = 0x0400ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_idq[]={ { .uname = "MS_CYCLES_ANY", .udesc = "Cycles when uops are being delivered to IDQ while MS is busy", .ucode = 0x3000ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "MS_UOPS", .udesc = "Uops delivered to IDQ while MS is busy", .ucode = 0x3000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MS_SWITCHES", .udesc = "Number of switches from DSB or MITE to the MS", .ucode = 0x3000ull | (0x1 << INTEL_X86_CMASK_BIT) | (0x1 << INTEL_X86_EDGE_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_E, }, { .uname = "DSB_CYCLES_ANY", .udesc = "Cycles Decode Stream Buffer (DSB) is delivering any Uop", .ucode = 0x0800ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "DSB_CYCLES_OK", .udesc = "Cycles DSB is delivering optimal number of Uops", .ucode = 0x0800ull | (0x5 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "DSB_UOPS", .udesc = "Uops delivered to Instruction Decode Queue (IDQ) from the Decode Stream Buffer (DSB) path", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MITE_CYCLES_ANY", .udesc = "Cycles MITE is delivering any Uop", .ucode = 0x0400ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "MITE_CYCLES_OK", .udesc = "Cycles MITE is delivering optimal number of Uops", .ucode = 0x0400ull | (0x5 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "MITE_UOPS", .udesc = "Uops delivered to Instruction Decode Queue (IDQ) from MITE path", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_rs_events[]={ { .uname = "EMPTY_END", .udesc = "Counts end of periods where the Reservation Station (RS) was empty.", .ucode = 0x0100ull | (0x1 << INTEL_X86_INV_BIT) | (0x1 << INTEL_X86_CMASK_BIT) | (0x1 << INTEL_X86_EDGE_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_E, }, { .uname = "EMPTY_CYCLES", .udesc = "Cycles when Reservation Station (RS) is empty for the thread", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_tx_exec[]={ { .uname = "MISC3", .udesc = "Number of times an instruction execution caused the transactional nest count supported to be exceeded", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MISC2", .udesc = "Counts the number of times a class of instructions that may cause a transactional abort was executed inside a transactional region", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_tx_mem[]={ { .uname = "ABORT_CAPACITY_READ", .udesc = "Speculatively counts the number of TSX aborts due to a data capacity limitation for transactional reads", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "HLE_ELISION_BUFFER_FULL", .udesc = "Number of times HLE lock could not be elided due to ElisionBufferAvailable being zero.", .ucode = 0x4000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORT_HLE_ELISION_BUFFER_UNSUPPORTED_ALIGNMENT", .udesc = "Number of times an HLE transactional execution aborted due to an unsupported read alignment from the elision buffer.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORT_HLE_ELISION_BUFFER_MISMATCH", .udesc = "Number of times an HLE transactional execution aborted due to XRELEASE lock not satisfying the address and value requirements in the elision buffer", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORT_HLE_ELISION_BUFFER_NOT_EMPTY", .udesc = "Number of times an HLE transactional execution aborted due to NoAllocatedElisionBuffer being non-zero.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORT_HLE_STORE_TO_ELIDED_LOCK", .udesc = "Number of times a HLE transactional region aborted due to a non XRELEASE prefixed instruction writing to an elided lock in the elision buffer", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORT_CAPACITY_WRITE", .udesc = "Speculatively counts the number of TSX aborts due to a data capacity limitation for transactional writes.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ABORT_CONFLICT", .udesc = "Number of times a transactional abort was signaled due to a data conflict on a transactionally accessed address", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_l1d[]={ { .uname = "REPLACEMENT", .udesc = "Counts the number of cache lines replaced in L1 data cache.", .ucode = 0x0100ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_load_hit_prefetch[]={ { .uname = "SWPF", .udesc = "Counts the number of demand load dispatches that hit L1D fill buffer (FB) allocated for software prefetch.", .ucode = 0x0100ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_dtlb_store_misses[]={ { .uname = "STLB_HIT", .udesc = "Stores that miss the DTLB and hit the STLB.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_ACTIVE", .udesc = "Cycles when at least one PMH is busy with a page walk for a store.", .ucode = 0x1000ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "WALK_PENDING", .udesc = "Number of page walks outstanding for a store in the PMH each cycle.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED", .udesc = "Store misses in all TLB levels causes a page walk that completes. (All page sizes)", .ucode = 0x0e00ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED_2M_4M", .udesc = "Page walks completed due to a demand data store to a 2M/4M page.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED_4K", .udesc = "Page walks completed due to a demand data store to a 4K page.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_l1d_pend_miss[]={ { .uname = "L2_STALL", .udesc = "Number of cycles a demand request has waited due to L1D due to lack of L2 resources.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "FB_FULL_PERIODS", .udesc = "Number of phases a demand request has waited due to L1D Fill Buffer (FB) unavailability.", .ucode = 0x0200ull | (0x1 << INTEL_X86_CMASK_BIT) | (0x1 << INTEL_X86_EDGE_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_E, }, { .uname = "FB_FULL", .udesc = "Number of cycles a demand request has waited due to L1D Fill Buffer (FB) unavailability.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PENDING_CYCLES", .udesc = "Cycles with L1D load Misses outstanding.", .ucode = 0x0100ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "PENDING", .udesc = "Number of L1D misses that are outstanding", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_sw_prefetch_access[]={ { .uname = "PREFETCHW", .udesc = "Number of PREFETCHW instructions executed.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "T1_T2", .udesc = "Number of PREFETCHT1 or PREFETCHT2 instructions executed.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "T0", .udesc = "Number of PREFETCHT0 instructions executed.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "NTA", .udesc = "Number of PREFETCHNTA instructions executed.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_longest_lat_cache[]={ { .uname = "MISS", .udesc = "Core-originated cacheable demand requests missed L3 (except hardware prefetches to L3).", .ucode = 0x4100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "REFERENCES", .udesc = "Core-originated cacheable requests that refer to L3 (Except hardware prefetches to the L3).", .ucode = 0x4f00ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_core_power[]={ { .uname = "LVL2_TURBO_LICENSE", .udesc = "Core cycles where the core was running in a manner where Turbo may be clipped to the AVX512 turbo schedule.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "LVL1_TURBO_LICENSE", .udesc = "Core cycles where the core was running in a manner where Turbo may be clipped to the AVX2 turbo schedule.", .ucode = 0x1800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "LVL0_TURBO_LICENSE", .udesc = "Core cycles where the core was running in a manner where Turbo may be clipped to the Non-AVX turbo schedule.", .ucode = 0x0700ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_l2_rqsts[]={ { .uname = "ALL_DEMAND_REFERENCES", .udesc = "Demand requests to L2 cache", .ucode = 0xe700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ALL_CODE_RD", .udesc = "L2 code requests", .ucode = 0xe400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ALL_RFO", .udesc = "RFO requests to L2 cache", .ucode = 0xe200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ALL_DEMAND_DATA_RD", .udesc = "Demand Data Read requests", .ucode = 0xe100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SWPF_HIT", .udesc = "SW prefetch requests that hit L2 cache. Accounts for PREFETCHNTA and PREFETCH0/1/2 instructions when FB is not full.", .ucode = 0xc800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CODE_RD_HIT", .udesc = "L2 cache hits when fetching instructions, code reads.", .ucode = 0xc400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RFO_HIT", .udesc = "RFO requests that hit L2 cache", .ucode = 0xc200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_HIT", .udesc = "Demand Data Read requests that hit L2 cache", .ucode = 0xc100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SWPF_MISS", .udesc = "SW prefetch requests that miss L2 cache. Accounts for PREFETCHNTA and PREFETCH0/1/2 instructions when FB is not full.", .ucode = 0x2800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ALL_DEMAND_MISS", .udesc = "Demand requests that miss L2 cache", .ucode = 0x2700ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CODE_RD_MISS", .udesc = "L2 cache misses when fetching instructions", .ucode = 0x2400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RFO_MISS", .udesc = "RFO requests that miss L2 cache", .ucode = 0x2200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_DATA_RD_MISS", .udesc = "Demand Data Read miss L2, no rejects", .ucode = 0x2100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_arith[]={ { .uname = "DIVIDER_ACTIVE", .udesc = "Cycles when divide unit is busy executing divide or square root operations.", .ucode = 0x0900ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_DFL, .modhw = _INTEL_X86_ATTR_C, }, }; static const intel_x86_umask_t intel_icl_uops_issued[]={ { .uname = "STALL_CYCLES", .udesc = "Cycles when RAT does not issue Uops to RS for the thread", .ucode = 0x0100ull | (0x1 << INTEL_X86_INV_BIT) | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_C, }, { .uname = "VECTOR_WIDTH_MISMATCH", .udesc = "Uops inserted at issue-stage in order to preserve upper bits of vector registers.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ANY", .udesc = "Uops that RAT issues to RS", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_int_misc[]={ { .uname = "CLEAR_RESTEER_CYCLES", .udesc = "Counts cycles after recovery from a branch misprediction or machine clear till the first uop is issued from the resteered path.", .ucode = 0x8000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "UOP_DROPPING", .udesc = "TMA slots where uops got dropped", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ALL_RECOVERY_CYCLES", .udesc = "Cycles the Backend cluster is recovering after a miss-speculation or a Store Buffer or Load Buffer drain stall.", .ucode = 0x0300ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "RECOVERY_CYCLES", .udesc = "Core cycles the allocator was stalled due to recovery from earlier clear event for this thread", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CLEARS_COUNT", .udesc = "Clears speculative count", .ucode = 0x0100ull | (0x1 << INTEL_X86_CMASK_BIT) | (0x1 << INTEL_X86_EDGE_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_E, }, }; static const intel_x86_umask_t intel_icl_dtlb_load_misses[]={ { .uname = "STLB_HIT", .udesc = "Loads that miss the DTLB and hit the STLB.", .ucode = 0x2000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_ACTIVE", .udesc = "Cycles when at least one PMH is busy with a page walk for a demand load.", .ucode = 0x1000ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "WALK_PENDING", .udesc = "Number of page walks outstanding for a demand load in the PMH each cycle.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED", .udesc = "Load miss in all TLB levels causes a page walk that completes (All page sizes).", .ucode = 0x0e00ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED_2M_4M", .udesc = "Page walks completed due to a demand data load to a 2M/4M page.", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WALK_COMPLETED_4K", .udesc = "Page walks completed due to a demand data load to a 4K page.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_ld_blocks_partial[]={ { .uname = "ADDRESS_ALIAS", .udesc = "False dependencies in MOB due to partial compare on address.", .ucode = 0x0100ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_ld_blocks[]={ { .uname = "NO_SR", .udesc = "The number of times that split load operations are temporarily blocked because all resources for handling the split accesses are in use.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STORE_FORWARD", .udesc = "Loads blocked due to overlapping with a preceding store that cannot be forwarded.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_topdown[]={ { .uname = "BR_MISPREDICT_SLOTS", .udesc = "TMA slots wasted due to incorrect speculation by branch mispredictions", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "BACKEND_BOUND_SLOTS", .udesc = "TMA slots where no uops were being issued due to lack of back-end resources.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "SLOTS_P", .udesc = "TMA slots available for an unhalted logical processor. General counter - architectural event", .ucode = 0x01a4ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_CODE_OVERRIDE, }, { .uname = "SLOTS", .udesc = "TMA slots available for an unhalted logical processor. Fixed counter - architectural event", .ucode = 0x0400ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_cpu_clk_unhalted[]={ { .uname = "DISTRIBUTED", .udesc = "Cycle counts are evenly distributed between active threads in the Core.", .ucode = 0x02ecull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_CODE_OVERRIDE, }, { .uname = "REF_DISTRIBUTED", .udesc = "Core crystal clock cycles. Cycle counts are evenly distributed between active threads in the Core.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ONE_THREAD_ACTIVE", .udesc = "Core crystal clock cycles when this thread is unhalted and the other thread is halted.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "REF_XCLK", .udesc = "Core crystal clock cycles when the thread is unhalted.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "THREAD_P", .udesc = "Thread cycles when thread is not in halt state", .ucode = 0x0000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "REF_TSC", .udesc = "Reference cycles when the core is not in halt state.", .ucode = 0x0300ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_CODE_OVERRIDE, }, }; static const intel_x86_umask_t intel_icl_inst_retired[]={ { .uname = "STALL_CYCLES", .udesc = "Cycles without actually retired instructions.", .ucode = 0x0100ull | (0x1 << INTEL_X86_INV_BIT) | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_C, }, { .uname = "ANY_P", .udesc = "Number of instructions retired. General Counter - architectural event", .ucode = 0x0000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "PREC_DIST", .udesc = "Precise instruction retired event with a reduced effect of PEBS shadow in IP distribution (Fixed counter 0 only. c, e, i, intx, intxcp modifiers not available)", .ucode = 0x0100ull, .ucntmsk = 0x100000000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_CODE_OVERRIDE | INTEL_X86_FIXED | INTEL_X86_PEBS, /* * because this encoding is for a fixed counter, not all modifiers are available. Given that we do not have per umask modmsk, we use * the hardcoded modifiers field instead. We mark all unavailable modifiers as set (to 0) so the user cannot modify them */ .modhw = _INTEL_X86_ATTR_INTX | _INTEL_X86_ATTR_INTXCP | _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_I, }, { .uname = "ANY", .udesc = "Number of instructions retired. Fixed Counter - architectural event (c, e, i, intx, intxcp modifiers not available)", .ucode = 0x0100ull, .ucntmsk = 0x100000000ull, .uflags = INTEL_X86_NCOMBO | INTEL_X86_CODE_OVERRIDE | INTEL_X86_FIXED, /* * because this encoding is for a fixed counter, not all modifiers are available. Given that we do not have per umask modmsk, we use * the hardcoded modifiers field instead. We mark all unavailable modifiers as set (to 0) so the user cannot modify them */ .modhw = _INTEL_X86_ATTR_INTX | _INTEL_X86_ATTR_INTXCP | _INTEL_X86_ATTR_C | _INTEL_X86_ATTR_I | _INTEL_X86_ATTR_E, }, { .uname = "NOP", .udesc = "Number of retired NOP instructions.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t intel_icl_uops_decoded[]={ { .uname = "DEC0", .udesc = "Number of uops decoded out of instructions exclusively fetched by decoder 0", .ucode = 0x0100ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_umask_t intel_icl_mem_load_misc_retired[]={ { .uname = "UC", .udesc = "Retired instructions with at least 1 uncacheable load or Bus Lock.", .ucode = 0x0400ull, .uflags = INTEL_X86_DFL | INTEL_X86_PEBS, }, }; static const intel_x86_umask_t intel_icl_core_snoop_response[]={ { .uname = "MISS", .udesc = "Number of lines not found in snoop replies.", .ucode = 0x0100ull, }, { .uname = "I_HIT_FSE", .udesc = "Hit snoop reply without sending the data, line invalidated.", .ucode = 0x0200ull, }, { .uname = "S_HIT_FSE", .udesc = "Hit snoop reply without sending the data, line kept in Shared state.", .ucode = 0x0400ull, }, { .uname = "S_FWD_M", .udesc = "HitM snoop reply with data, line kept in Shared state", .ucode = 0x0800ull, }, { .uname = "I_FWD_M", .udesc = "HitM snoop reply with data, line invalidated.", .ucode = 0x1000ull, }, { .uname = "I_FWD_FE", .udesc = "Hit snoop reply with data, line invalidated.", .ucode = 0x2000ull, }, { .uname = "S_FWD_FE", .udesc = "Hit snoop reply with data, line kept in Shared state.", .ucode = 0x4000ull, }, }; static const intel_x86_umask_t intel_icl_offcore_requests_outstanding[]={ { .uname = "DEMAND_DATA_RD", .udesc = "For every cycle, increments by the number of outstanding demand data read requests pending.", .ucode = 0x0100ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "DEMAND_CODE_RD", .udesc = "For every cycle, increments by the number of outstanding code read requests pending.", .ucode = 0x0200ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CYCLES_WITH_DEMAND_CODE_RD", .udesc = "Cycles with outstanding code read requests pending.", .ucode = 0x0200ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "CYCLES_WITH_DEMAND_RFO", .udesc = "Cycles where at least 1 outstanding Demand RFO request is pending.", .ucode = 0x0400ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "ALL_DATA_RD", .udesc = "For every cycle, increments by the number of outstanding data read requests pending.", .ucode = 0x0800ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CYCLES_WITH_DATA_RD", .udesc = "Cycles where at least 1 outstanding data read request is pending.", .ucode = 0x0800ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "L3_MISS_DEMAND_DATA_RD", .udesc = "For every cycle, increments by the number of demand data read requests pending that are known to have missed the L3 cache.", .ucode = 0x1000ull, .uflags = INTEL_X86_NCOMBO, }, { .uname = "CYCLES_WITH_L3_MISS_DEMAND_DATA_RD", .udesc = "Cycles where at least one demand data read request known to have missed the L3 cache is pending.", .ucode = 0x1000ull | (0x1 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, { .uname = "L3_MISS_DEMAND_DATA_RD_GE_6", .udesc = "Cycles where the core is waiting on at least 6 outstanding demand data read requests known to have missed the L3 cache.", .ucode = 0x1000ull | (0x6 << INTEL_X86_CMASK_BIT), .uflags = INTEL_X86_NCOMBO, .modhw = _INTEL_X86_ATTR_C, }, }; static const intel_x86_umask_t intel_icl_inst_decoded[]={ { .uname = "DECODERS", .udesc = "Number of decoders utilized in a cycle when the MITE (legacy decode pipeline) fetches instructions.", .ucode = 0x0100ull, .uflags = INTEL_X86_DFL, }, }; static const intel_x86_entry_t intel_icl_pe[]={ { .name = "UNHALTED_CORE_CYCLES", .desc = "Count core clock cycles whenever the clock signal on the specific core is running (not halted)", .modmsk = INTEL_V2_ATTRS, .cntmsk = 0x20000000full, .code = 0x3c, }, { .name = "UNHALTED_REFERENCE_CYCLES", .desc = "Unhalted reference cycles", .modmsk = INTEL_FIXED3_ATTRS, .cntmsk = 0x400000000ull, .code = 0x0300, /* pseudo encoding */ .flags = INTEL_X86_FIXED, }, { .name = "INSTRUCTION_RETIRED", .desc = "Number of instructions at retirement", .modmsk = INTEL_V2_ATTRS, .cntmsk = 0x1000000ffull, .code = 0xc0, }, { .name = "INSTRUCTIONS_RETIRED", .desc = "Number of instructions at retirement", .modmsk = INTEL_V2_ATTRS, .equiv = "INSTRUCTION_RETIRED", .cntmsk = 0x1000000ffull, .code = 0xc0, }, { .name = "SQ_MISC", .desc = "SuperQueue miscellaneous.", .code = 0x00f4, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_sq_misc), .umasks = intel_icl_sq_misc, }, { .name = "L2_LINES_OUT", .desc = "L2 lines evicted.", .code = 0x00f2, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_l2_lines_out), .umasks = intel_icl_l2_lines_out, }, { .name = "L2_LINES_IN", .desc = "L2 lines allocated.", .code = 0x00f1, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_l2_lines_in), .umasks = intel_icl_l2_lines_in, }, { .name = "L2_TRANS", .desc = "L2 transactions.", .code = 0x00f0, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_l2_trans), .umasks = intel_icl_l2_trans, }, { .name = "BACLEARS", .desc = "Branch re-steers.", .code = 0x00e6, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_baclears), .umasks = intel_icl_baclears, }, { .name = "MEM_LOAD_L3_HIT_RETIRED", .desc = "L3 hit load uops retired.", .code = 0x00d2, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_mem_load_l3_hit_retired), .umasks = intel_icl_mem_load_l3_hit_retired, }, { .name = "MEM_LOAD_RETIRED", .desc = "Retired load uops.", .code = 0x00d1, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_mem_load_retired), .umasks = intel_icl_mem_load_retired, }, { .name = "MEM_INST_RETIRED", .desc = "Memory instructions retired.", .code = 0x00d0, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_mem_inst_retired), .umasks = intel_icl_mem_inst_retired, }, { .name = "MEM_LOAD_L3_MISS_RETIRED", .desc = "Retired load instructions which data sources missed L3 but serviced from local dram", .code = 0x00d3, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_mem_load_l3_miss_retired), .umasks = intel_icl_mem_load_l3_miss_retired, }, { .name = "MEM_TRANS_RETIRED", .desc = "Memory transactions retired,", .code = 0x00cd, .modmsk = INTEL_V5_ATTRS | _INTEL_X86_ATTR_LDLAT, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_mem_trans_retired), .umasks = intel_icl_mem_trans_retired, }, { .name = "MISC_RETIRED", .desc = "Miscellaneous retired events.", .code = 0x00cc, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = 0, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_misc_retired), .umasks = intel_icl_misc_retired, }, { .name = "RTM_RETIRED", .desc = "RTM (Restricted Transaction Memory) execution.", .code = 0x00c9, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = 0, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_rtm_retired), .umasks = intel_icl_rtm_retired, }, { .name = "HLE_RETIRED", .desc = "HLE (Hardware Lock Elision) execution.", .code = 0x00c8, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = 0, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_hle_retired), .umasks = intel_icl_hle_retired, }, { .name = "FP_ARITH_INST_RETIRED", .desc = "Floating-point instructions retired.", .code = 0x00c7, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = 0, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_fp_arith_inst_retired), .umasks = intel_icl_fp_arith_inst_retired, }, { .name = "FP_ARITH", .desc = "Floating-point instructions retired.", .equiv = "FP_ARITH_INST_RETIRED", .code = 0x00c7, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = 0, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_fp_arith_inst_retired), .umasks = intel_icl_fp_arith_inst_retired, }, { .name = "FRONTEND_RETIRED", .desc = "Precise frontend retired events.", .code = 0x01c6, .modmsk = INTEL_SKL_FE_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_FRONTEND | INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_frontend_retired), .umasks = intel_icl_frontend_retired, }, { .name = "BR_MISP_RETIRED", .desc = "Mispredicted branch instructions retired.", .code = 0x00c5, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_br_misp_retired), .umasks = intel_icl_br_misp_retired, }, { .name = "BR_INST_RETIRED", .desc = "Branch instructions retired.", .code = 0x00c4, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_br_inst_retired), .umasks = intel_icl_br_inst_retired, }, { .name = "MACHINE_CLEARS", .desc = "Machine clear asserted.", .code = 0x00c3, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_machine_clears), .umasks = intel_icl_machine_clears, }, { .name = "UOPS_RETIRED", .desc = "Retired uops.", .code = 0x00c2, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = 0, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_uops_retired), .umasks = intel_icl_uops_retired, }, { .name = "ASSISTS", .desc = "Software assist.", .code = 0x00c1, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_assists), .umasks = intel_icl_assists, }, { .name = "TLB_FLUSH", .desc = "Data TLB flushes.", .code = 0x00bd, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_tlb_flush), .umasks = intel_icl_tlb_flush, }, { .name = "UOPS_EXECUTED", .desc = "Uops executed.", .code = 0x00b1, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_uops_executed), .umasks = intel_icl_uops_executed, }, { .name = "OFFCORE_REQUESTS", .desc = "Requests sent to uncore.", .code = 0x00b0, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_offcore_requests), .umasks = intel_icl_offcore_requests, }, { .name = "DSB2MITE_SWITCHES", .desc = "Number of DSB to MITE switches.", .code = 0x00ab, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_dsb2mite_switches), .umasks = intel_icl_dsb2mite_switches, }, { .name = "LSD", .desc = "LSD (Loop stream detector) operations.", .code = 0x00a8, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_lsd), .umasks = intel_icl_lsd, }, { .name = "EXE_ACTIVITY", .desc = "Execution activity,", .code = 0x00a6, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_exe_activity), .umasks = intel_icl_exe_activity, }, { .name = "CYCLE_ACTIVITY", .desc = "Stalled cycles.", .code = 0x00a3, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_cycle_activity), .umasks = intel_icl_cycle_activity, }, { .name = "RESOURCE_STALLS", .desc = "Cycles where Allocation is stalled due to Resource Related reasons.", .code = 0x00a2, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_resource_stalls), .umasks = intel_icl_resource_stalls, }, { .name = "UOPS_DISPATCHED", .desc = "Uops dispatched to specific ports", .code = 0x00a1, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_uops_dispatched), .umasks = intel_icl_uops_dispatched, }, { .name = "UOPS_DISPATCHED_PORT", .desc = "Uops dispatched to specific ports", .equiv = "UOPS_DISPATCHED", .code = 0x00a1, .cntmsk = 0xff, .ngrp = 1, .modmsk = INTEL_V5_ATTRS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_uops_dispatched), .umasks = intel_icl_uops_dispatched, .flags = INTEL_X86_SPEC, }, { .name = "IDQ_UOPS_NOT_DELIVERED", .desc = "Uops not delivered.", .code = 0x009c, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_idq_uops_not_delivered), .umasks = intel_icl_idq_uops_not_delivered, }, { .name = "ILD_STALL", .desc = "ILD (Instruction Length Decoder) stalls.", .code = 0x0087, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_ild_stall), .umasks = intel_icl_ild_stall, }, { .name = "ITLB_MISSES", .desc = "Instruction TLB misses.", .code = 0x0085, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_itlb_misses), .umasks = intel_icl_itlb_misses, }, { .name = "ICACHE_64B", .desc = "Instruction Cache.", .code = 0x0083, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_icache_64b), .umasks = intel_icl_icache_64b, }, { .name = "ICACHE_16B", .desc = "Instruction Cache.", .code = 0x0080, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_icache_16b), .umasks = intel_icl_icache_16b, }, { .name = "IDQ", .desc = "IDQ (Instruction Decoded Queue) operations", .code = 0x0079, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_idq), .umasks = intel_icl_idq, }, { .name = "OFFCORE_REQUESTS_OUTSTANDING", .desc = "Outstanding offcore requests.", .code = 0x0060, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_offcore_requests_outstanding), .umasks = intel_icl_offcore_requests_outstanding, }, { .name = "RS_EVENTS", .desc = "Reservation Station.", .code = 0x005e, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_rs_events), .umasks = intel_icl_rs_events, }, { .name = "TX_EXEC", .desc = "Transactional execution.", .code = 0x005d, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_tx_exec), .umasks = intel_icl_tx_exec, }, { .name = "TX_MEM", .desc = "Transactional memory.", .code = 0x0054, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_tx_mem), .umasks = intel_icl_tx_mem, }, { .name = "L1D", .desc = "L1D cache.", .code = 0x0051, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_l1d), .umasks = intel_icl_l1d, }, { .name = "LOAD_HIT_PREFETCH", .desc = "Load dispatches.", .code = 0x004c, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_load_hit_prefetch), .umasks = intel_icl_load_hit_prefetch, }, { .name = "LOAD_HIT_PRE", .desc = "Load dispatches.", .equiv = "LOAD_HIT_PREFETCH", .code = 0x004c, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_load_hit_prefetch), .umasks = intel_icl_load_hit_prefetch, }, { .name = "DTLB_STORE_MISSES", .desc = "Data TLB store misses.", .code = 0x0049, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_dtlb_store_misses), .umasks = intel_icl_dtlb_store_misses, }, { .name = "L1D_PEND_MISS", .desc = "L1D pending misses.", .code = 0x0048, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_l1d_pend_miss), .umasks = intel_icl_l1d_pend_miss, }, { .name = "SW_PREFETCH_ACCESS", .desc = "Software prefetches.", .code = 0x0032, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = 0, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_sw_prefetch_access), .umasks = intel_icl_sw_prefetch_access, }, { .name = "SW_PREFETCH", .desc = "Software prefetches.", .equiv = "SW_PREFETCH_ACCESS", .code = 0x0032, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_sw_prefetch_access), .umasks = intel_icl_sw_prefetch_access, }, { .name = "LONGEST_LAT_CACHE", .desc = "L3 cache.", .code = 0x002e, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_longest_lat_cache), .umasks = intel_icl_longest_lat_cache, }, { .name = "CORE_POWER", .desc = "Power power cycles.", .code = 0x0028, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_core_power), .umasks = intel_icl_core_power, }, { .name = "L2_RQSTS", .desc = "L2 requests.", .code = 0x0024, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_l2_rqsts), .umasks = intel_icl_l2_rqsts, }, { .name = "ARITH", .desc = "Arithmetic uops.", .code = 0x0014, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_arith), .umasks = intel_icl_arith, }, { .name = "UOPS_ISSUED", .desc = "Uops issued.", .code = 0x000e, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_uops_issued), .umasks = intel_icl_uops_issued, }, { .name = "INT_MISC", .desc = "Miscellaneous interruptions.", .code = 0x000d, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_int_misc), .umasks = intel_icl_int_misc, }, { .name = "DTLB_LOAD_MISSES", .desc = "Data TLB load misses.", .code = 0x0008, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_dtlb_load_misses), .umasks = intel_icl_dtlb_load_misses, }, { .name = "LD_BLOCKS_PARTIAL", .desc = "Partial load blocks.", .code = 0x0007, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_ld_blocks_partial), .umasks = intel_icl_ld_blocks_partial, }, { .name = "LD_BLOCKS", .desc = "Blocking loads.", .code = 0x0003, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_ld_blocks), .umasks = intel_icl_ld_blocks, }, { .name = "TOPDOWN", .desc = "TMA slots available for an unhalted logical processor.", .code = 0x0000, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0x800000000ull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_topdown), .umasks = intel_icl_topdown, }, { .name = "CPU_CLK_UNHALTED", .desc = "Count core clock cycles whenever the clock signal on the specific core is running (not halted).", .code = 0x003c, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0x200000000ull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_cpu_clk_unhalted), .umasks = intel_icl_cpu_clk_unhalted, }, { .name = "INST_RETIRED", .desc = "Number of instructions retired", .code = 0xc0, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xffull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_inst_retired), .umasks = intel_icl_inst_retired, }, { .name = "UOPS_DECODED", .desc = "Number of instructions decoded", .code = 0x56, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_uops_decoded), .umasks = intel_icl_uops_decoded, }, { .name = "MEM_LOAD_MISC_RETIRED", .desc = "Miscellaneous loads retired", .code = 0xc4, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_PEBS, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_mem_load_misc_retired), .umasks = intel_icl_mem_load_misc_retired, }, { .name = "INST_DECODED", .desc = "Instructions decoders", .code = 0x55, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_inst_decoded), .umasks = intel_icl_inst_decoded, }, { .name = "OFFCORE_RESPONSE_0", .desc = "Offcore response event", .code = 0x01b7, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC | INTEL_X86_NHM_OFFCORE, .numasks= LIBPFM_ARRAY_SIZE(intel_icx_ocr), .umasks = intel_icx_ocr, .model = PFM_PMU_INTEL_ICX, }, { .name = "OFFCORE_RESPONSE_0", .desc = "Offcore response event", .code = 0x01b7, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC | INTEL_X86_NHM_OFFCORE, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_ocr), .umasks = intel_icl_ocr, .model = PFM_PMU_INTEL_ICL, }, { .name = "OFFCORE_RESPONSE_1", .desc = "Offcore response event", .code = 0x01bb, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC | INTEL_X86_NHM_OFFCORE, .numasks= LIBPFM_ARRAY_SIZE(intel_icx_ocr), .umasks = intel_icx_ocr, .model = PFM_PMU_INTEL_ICX, }, { .name = "OFFCORE_RESPONSE_1", .desc = "Offcore response event", .code = 0x01bb, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC | INTEL_X86_NHM_OFFCORE, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_ocr), .umasks = intel_icl_ocr, .model = PFM_PMU_INTEL_ICL, }, { .name = "OCR", .desc = "Offcore response event", .equiv = "OFFCORE_RESPONSE_0", .code = 0x01b7, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC | INTEL_X86_NHM_OFFCORE, .numasks= LIBPFM_ARRAY_SIZE(intel_icx_ocr), .umasks = intel_icx_ocr, .model = PFM_PMU_INTEL_ICX, }, { .name = "OCR", .desc = "Offcore response event", .equiv = "OFFCORE_RESPONSE_0", .code = 0x01b7, .modmsk = INTEL_V5_ATTRS, .cntmsk = 0xfull, .ngrp = 1, .flags = INTEL_X86_SPEC | INTEL_X86_NHM_OFFCORE, .numasks= LIBPFM_ARRAY_SIZE(intel_icl_ocr), .model = PFM_PMU_INTEL_ICL, .umasks = intel_icl_ocr, }, }; /* 56 events available */