/* * Copyright (c) 2014 Google Inc. All rights reserved * 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: ivbep_unc_imc (Intel IvyBridge-EP IMC uncore PMU) */ static const intel_x86_umask_t ivbep_unc_m_cas_count[]={ { .uname = "ALL", .udesc = "Counts total number of DRAM CAS commands issued on this channel", .ucode = 0xf00, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL, }, { .uname = "RD", .udesc = "Counts all DRAM reads on this channel, incl. underfills", .ucode = 0x300, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RD_REG", .udesc = "Counts number of DRAM read CAS commands issued on this channel, incl. regular read CAS and those with implicit precharge", .ucode = 0x100, }, { .uname = "RD_UNDERFILL", .udesc = "Counts number of underfill reads issued by the memory controller", .ucode = 0x200, }, { .uname = "WR", .udesc = "Counts number of DRAM write CAS commands on this channel", .ucode = 0xc00, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WR_RMM", .udesc = "Counts Number of opportunistic DRAM write CAS commands issued on this channel", .ucode = 0x800, }, { .uname = "WR_WMM", .udesc = "Counts number of DRAM write CAS commands issued on this channel while in Write-Major mode", .ucode = 0x400, }, { .uname = "RD_RMM", .udesc = "Counts Number of opportunistic DRAM read CAS commands issued on this channel", .ucode = 0x1000, }, { .uname = "RD_WMM", .udesc = "Counts number of DRAM read CAS commands issued on this channel while in Write-Major mode", .ucode = 0x2000, }, }; static const intel_x86_umask_t ivbep_unc_m_dram_refresh[]={ { .uname = "HIGH", .udesc = "TBD", .ucode = 0x400, }, { .uname = "PANIC", .udesc = "TBD", .ucode = 0x200, }, }; static const intel_x86_umask_t ivbep_unc_m_major_modes[]={ { .uname = "ISOCH", .udesc = "Counts cycles in ISOCH Major mode", .ucode = 0x800, }, { .uname = "PARTIAL", .udesc = "Counts cycles in Partial Major mode", .ucode = 0x400, }, { .uname = "READ", .udesc = "Counts cycles in Read Major mode", .ucode = 0x100, }, { .uname = "WRITE", .udesc = "Counts cycles in Write Major mode", .ucode = 0x200, }, }; static const intel_x86_umask_t ivbep_unc_m_power_cke_cycles[]={ { .uname = "RANK0", .udesc = "Count cycles for rank 0", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RANK1", .udesc = "Count cycles for rank 1", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RANK2", .udesc = "Count cycles for rank 2", .ucode = 0x400, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RANK3", .udesc = "Count cycles for rank 3", .ucode = 0x800, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RANK4", .udesc = "Count cycles for rank 4", .ucode = 0x1000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RANK5", .udesc = "Count cycles for rank 5", .ucode = 0x2000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RANK6", .udesc = "Count cycles for rank 6", .ucode = 0x4000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RANK7", .udesc = "Count cycles for rank 7", .ucode = 0x8000, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t ivbep_unc_m_preemption[]={ { .uname = "RD_PREEMPT_RD", .udesc = "Counts read over read preemptions", .ucode = 0x100, }, { .uname = "RD_PREEMPT_WR", .udesc = "Counts read over write preemptions", .ucode = 0x200, }, }; static const intel_x86_umask_t ivbep_unc_m_pre_count[]={ { .uname = "PAGE_CLOSE", .udesc = "Counts number of DRAM precharge commands sent on this channel as a result of the page close counter expiring", .ucode = 0x200, }, { .uname = "PAGE_MISS", .udesc = "Counts number of DRAM precharge commands sent on this channel as a result of page misses", .ucode = 0x100, }, { .uname = "RD", .udesc = "Precharge due to read", .ucode = 0x400, }, { .uname = "WR", .udesc = "Precharge due to write", .ucode = 0x800, }, { .uname = "BYP", .udesc = "Precharge due to bypass", .ucode = 0x1000, }, }; static const intel_x86_umask_t ivbep_unc_m_act_count[]={ { .uname = "RD", .udesc = "Activate due to read", .ucode = 0x100, }, { .uname = "WR", .udesc = "Activate due to write", .ucode = 0x200, }, { .uname = "BYP", .udesc = "Activate due to bypass", .ucode = 0x800, }, }; static const intel_x86_umask_t ivbep_unc_m_byp_cmds[]={ { .uname = "ACT", .udesc = "ACT command issued by 2 cycle bypass", .ucode = 0x100, }, { .uname = "CAS", .udesc = "CAS command issued by 2 cycle bypass", .ucode = 0x200, }, { .uname = "PRE", .udesc = "PRE command issued by 2 cycle bypass", .ucode = 0x400, }, }; static const intel_x86_umask_t ivbep_unc_m_rd_cas_prio[]={ { .uname = "LOW", .udesc = "Read CAS issued with low priority", .ucode = 0x100, }, { .uname = "MED", .udesc = "Read CAS issued with medium priority", .ucode = 0x200, }, { .uname = "HIGH", .udesc = "Read CAS issued with high priority", .ucode = 0x400, }, { .uname = "PANIC", .udesc = "Read CAS issued with panic non isoch priority (starved)", .ucode = 0x800, }, }; static const intel_x86_umask_t ivbep_unc_m_rd_cas_rank0[]={ { .uname = "BANK0", .udesc = "Bank 0", .ucode = 0x100, }, { .uname = "BANK1", .udesc = "Bank 1", .ucode = 0x200, }, { .uname = "BANK2", .udesc = "Bank 2", .ucode = 0x400, }, { .uname = "BANK3", .udesc = "Bank 3", .ucode = 0x800, }, { .uname = "BANK4", .udesc = "Bank 4", .ucode = 0x1000, }, { .uname = "BANK5", .udesc = "Bank 5", .ucode = 0x2000, }, { .uname = "BANK6", .udesc = "Bank 6", .ucode = 0x4000, }, { .uname = "BANK7", .udesc = "Bank 7", .ucode = 0x8000, } }; static const intel_x86_umask_t ivbep_unc_m_vmse_wr_push[]={ { .uname = "WMM", .udesc = "VMSE write push issued in WMM", .ucode = 0x100, }, { .uname = "RMM", .udesc = "VMSE write push issued in RMM", .ucode = 0x200, } }; static const intel_x86_umask_t ivbep_unc_m_wmm_to_rmm[]={ { .uname = "LOW_THRES", .udesc = "Transition from WMM to RMM because of starve counter", .ucode = 0x100, }, { .uname = "STARVE", .udesc = "TBD", .ucode = 0x200, }, { .uname = "VMSE_RETRY", .udesc = "TBD", .ucode = 0x400, } }; static const intel_x86_entry_t intel_ivbep_unc_m_pe[]={ { .name = "UNC_M_CLOCKTICKS", .desc = "IMC Uncore clockticks (fixed counter)", .modmsk = 0x0, .cntmsk = 0x100000000ull, .code = 0xff, /* perf pseudo encoding for fixed counter */ .flags = INTEL_X86_FIXED, }, { .name = "UNC_M_DCLOCKTICKS", .desc = "IMC Uncore clockticks (generic counters)", .modmsk = IVBEP_UNC_IMC_ATTRS, .cntmsk = 0xf, .code = 0x00, /*encoding for generic counters */ }, { .name = "UNC_M_ACT_COUNT", .desc = "DRAM Activate Count", .code = 0x1, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_act_count), .umasks = ivbep_unc_m_act_count }, { .name = "UNC_M_CAS_COUNT", .desc = "DRAM RD_CAS and WR_CAS Commands.", .code = 0x4, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_cas_count), .umasks = ivbep_unc_m_cas_count }, { .name = "UNC_M_DRAM_PRE_ALL", .desc = "DRAM Precharge All Commands", .code = 0x6, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_DRAM_REFRESH", .desc = "Number of DRAM Refreshes Issued", .code = 0x5, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_dram_refresh), .umasks = ivbep_unc_m_dram_refresh }, { .name = "UNC_M_ECC_CORRECTABLE_ERRORS", .desc = "ECC Correctable Errors", .code = 0x9, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_MAJOR_MODES", .desc = "Cycles in a Major Mode", .code = 0x7, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_major_modes), .umasks = ivbep_unc_m_major_modes }, { .name = "UNC_M_POWER_CHANNEL_DLLOFF", .desc = "Channel DLLOFF Cycles", .code = 0x84, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_POWER_CHANNEL_PPD", .desc = "Channel PPD Cycles", .code = 0x85, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_POWER_CKE_CYCLES", .desc = "CKE_ON_CYCLES by Rank", .code = 0x83, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_power_cke_cycles), .umasks = ivbep_unc_m_power_cke_cycles }, { .name = "UNC_M_POWER_CRITICAL_THROTTLE_CYCLES", .desc = "Critical Throttle Cycles", .code = 0x86, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_POWER_SELF_REFRESH", .desc = "Clock-Enabled Self-Refresh", .code = 0x43, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_POWER_THROTTLE_CYCLES", .desc = "Throttle Cycles", .code = 0x41, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_power_cke_cycles), .umasks = ivbep_unc_m_power_cke_cycles /* identical to snbep_unc_m_power_cke_cycles */ }, { .name = "UNC_M_PREEMPTION", .desc = "Read Preemption Count", .code = 0x8, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_preemption), .umasks = ivbep_unc_m_preemption }, { .name = "UNC_M_PRE_COUNT", .desc = "DRAM Precharge commands.", .code = 0x2, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_pre_count), .umasks = ivbep_unc_m_pre_count }, { .name = "UNC_M_RPQ_CYCLES_NE", .desc = "Read Pending Queue Not Empty", .code = 0x11, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_RPQ_INSERTS", .desc = "Read Pending Queue Allocations", .code = 0x10, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_WPQ_CYCLES_FULL", .desc = "Write Pending Queue Full Cycles", .code = 0x22, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_WPQ_CYCLES_NE", .desc = "Write Pending Queue Not Empty", .code = 0x21, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_WPQ_INSERTS", .desc = "Write Pending Queue Allocations", .code = 0x20, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_WPQ_READ_HIT", .desc = "Write Pending Queue CAM Match", .code = 0x23, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_WPQ_WRITE_HIT", .desc = "Write Pending Queue CAM Match", .code = 0x24, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_BYP_CMDS", .desc = "Bypass command event", .code = 0xa1, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_byp_cmds), .umasks = ivbep_unc_m_byp_cmds }, { .name = "UNC_M_RD_CAS_PRIO", .desc = "Read CAS priority", .code = 0xa0, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_prio), .umasks = ivbep_unc_m_rd_cas_prio }, { .name = "UNC_M_RD_CAS_RANK0", .desc = "Read CAS access to Rank 0", .code = 0xb0, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_RD_CAS_RANK1", .desc = "Read CAS access to Rank 1", .code = 0xb1, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_RD_CAS_RANK2", .desc = "Read CAS access to Rank 2", .code = 0xb2, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_RD_CAS_RANK3", .desc = "Read CAS access to Rank 3", .code = 0xb3, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_RD_CAS_RANK4", .desc = "Read CAS access to Rank 4", .code = 0xb4, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_RD_CAS_RANK5", .desc = "Read CAS access to Rank 5", .code = 0xb5, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_RD_CAS_RANK6", .desc = "Read CAS access to Rank 6", .code = 0xb6, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_RD_CAS_RANK7", .desc = "Read CAS access to Rank 7", .code = 0xb7, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_VMSE_MXB_WR_OCCUPANCY", .desc = "VMSE MXB write buffer occupancy", .code = 0x91, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_VMSE_WR_PUSH", .desc = "VMSE WR push issued", .code = 0x90, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_vmse_wr_push), .umasks = ivbep_unc_m_vmse_wr_push }, { .name = "UNC_M_WMM_TO_RMM", .desc = "Transitions from WMM to RMM because of low threshold", .code = 0xc0, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_wmm_to_rmm), .umasks = ivbep_unc_m_wmm_to_rmm }, { .name = "UNC_M_WRONG_MM", .desc = "Not getting the requested major mode", .code = 0xc1, .cntmsk = 0xf, .modmsk = IVBEP_UNC_IMC_ATTRS, }, { .name = "UNC_M_WR_CAS_RANK0", .desc = "Write CAS access to Rank 0", .code = 0xb8, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_WR_CAS_RANK1", .desc = "Write CAS access to Rank 1", .code = 0xb9, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_WR_CAS_RANK2", .desc = "Write CAS access to Rank 2", .code = 0xba, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_WR_CAS_RANK3", .desc = "Write CAS access to Rank 3", .code = 0xbb, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_WR_CAS_RANK4", .desc = "Write CAS access to Rank 4", .code = 0xbc, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_WR_CAS_RANK5", .desc = "Write CAS access to Rank 5", .code = 0xbd, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_WR_CAS_RANK6", .desc = "Write CAS access to Rank 6", .code = 0xbe, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, { .name = "UNC_M_WR_CAS_RANK7", .desc = "Write CAS access to Rank 7", .code = 0xbf, .cntmsk = 0xf, .ngrp = 1, .modmsk = IVBEP_UNC_IMC_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_m_rd_cas_rank0), /* shared */ .umasks = ivbep_unc_m_rd_cas_rank0 }, };