diff --git a/rocclr/runtime/device/rocm/roccounters.cpp b/rocclr/runtime/device/rocm/roccounters.cpp new file mode 100644 index 0000000000..d13ec3e26e --- /dev/null +++ b/rocclr/runtime/device/rocm/roccounters.cpp @@ -0,0 +1,475 @@ +// +// Copyright (c) 2017 Advanced Micro Devices, Inc. All rights reserved. +// + +#include "device/rocm/roccounters.hpp" +#include "device/rocm/rocvirtual.hpp" +#include + + +hsa_status_t PerfCounterCallback( + hsa_ven_amd_aqlprofile_info_type_t info_type, + hsa_ven_amd_aqlprofile_info_data_t* info_data, + void* callback_data) +{ + typedef std::vector passed_data_t; + + if (info_type == HSA_VEN_AMD_AQLPROFILE_INFO_PMC_DATA) { + reinterpret_cast(callback_data)->push_back(*info_data); + } + + return HSA_STATUS_SUCCESS; +} + + +namespace roc { + +/* + Converting from ORCA cmndefs.h to ROCR hsa_ven_amd_aqlprofile.h + Note that some blocks are not defined in cmndefs.h +*/ + +static const std::array, 97> viBlockIdOrcaToRocr = {{ + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // CB0 - 0 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 1}, // CB1 - 1 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 2}, // CB2 - 2 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 3}, // CB3 - 3 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_CPF, 0}, // CPF - 4 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // DB0 - 5 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 1}, // DB1 - 6 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 2}, // DB2 - 7 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 3}, // DB3 - 8 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_GRBM, 0}, // GRBM - 9 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_GRBMSE, 0}, // GRBMSE - 10 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // PA_SU - 11 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // PA_SC - 12 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SPI, 0}, // SPI - 13 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SQ, 0}, // SQ - 14 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_ES - 15 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_GS - 16 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_VS - 17 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_PS - 18 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_LS - 19 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_HS - 20 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SQCS, 0}, // SQ_CS - 21 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SX, 0}, // SX - 22 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0}, // TA0 - 23 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 1}, // TA1 - 24 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 2}, // TA2 - 25 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 3}, // TA3 - 26 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 4}, // TA4 - 27 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 5}, // TA5 - 28 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 6}, // TA6 - 29 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 7}, // TA7 - 30 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 8}, // TA8 - 31 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 9}, // TA9 - 32 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0a}, // TA10 - 33 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0b}, // TA11 - 34 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0c}, // TA12 - 35 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0d}, // TA13 - 36 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0e}, // TA14 - 37 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0f}, // TA15 - 38 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCA, 0}, // TCA0 - 39 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCA, 1}, // TCA1 - 40 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0}, // TCC0 - 41 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 1}, // TCC1 - 42 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 2}, // TCC2 - 43 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 3}, // TCC3 - 44 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 4}, // TCC4 - 45 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 5}, // TCC5 - 46 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 6}, // TCC6 - 47 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 7}, // TCC7 - 48 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 8}, // TCC8 - 49 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 9}, // TCC9 - 50 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0a}, // TCC10 - 51 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0b}, // TCC11 - 52 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0c}, // TCC12 - 53 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0d}, // TCC13 - 54 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0e}, // TCC14 - 55 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0f}, // TCC15 - 56 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0}, // TD0 - 57 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 1}, // TD1 - 58 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 2}, // TD2 - 59 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 3}, // TD3 - 60 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 4}, // TD4 - 61 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 5}, // TD5 - 62 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 6}, // TD6 - 63 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 7}, // TD7 - 64 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 8}, // TD8 - 65 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 9}, // TD9 - 66 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0a}, // TD10 - 67 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0b}, // TD11 - 68 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0c}, // TD12 - 69 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0d}, // TD13 - 70 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0e}, // TD14 - 71 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0f}, // TD15 - 72 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0}, // TCP0 - 73 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 1}, // TCP1 - 74 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 2}, // TCP2 - 75 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 3}, // TCP3 - 76 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 4}, // TCP4 - 77 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 5}, // TCP5 - 78 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 6}, // TCP6 - 79 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 7}, // TCP7 - 80 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 8}, // TCP8 - 81 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 9}, // TCP9 - 82 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0a}, // TCP10 - 83 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0b}, // TCP11 - 84 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0c}, // TCP12 - 85 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0d}, // TCP13 - 86 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0e}, // TCP14 - 87 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0f}, // TCP15 - 88 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_GDS, 0}, // GDS - 89 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // VGT - 90 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // IA - 91 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_MCSEQ, 0}, // MC - 92 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SRBM, 0}, // SRBM - 93 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // WD - 94 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // CPG - 95 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_CPC, 0}, // CPC - 96 +}}; + +// The number of counters per block has been increased for gfx9 but this table may not reflect all +// of them +// as compute may not use all of them. +static const std::array, 125> gfx9BlockIdOrcaToRocr = {{ + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // CB0 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 1}, // CB1 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 2}, // CB2 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 3}, // CB3 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_CPF, 0}, // CPF + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // DB0 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 1}, // DB1 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 2}, // DB2 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 3}, // DB3 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_GRBM, 0}, // GRBM + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_GRBMSE, 0}, // GRBMSE + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // PA_SU + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // PA_SC + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SPI, 0}, // SPI + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SQ, 0}, // SQ + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_ES + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_GS + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_VS + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_PS + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_LS + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // SQ_HS + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SQCS, 0}, // SQ_CS + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_SX, 0}, // SX + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0}, // TA0 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 1}, // TA1 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 2}, // TA2 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 3}, // TA3 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 4}, // TA4 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 5}, // TA5 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 6}, // TA6 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 7}, // TA7 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 8}, // TA8 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 9}, // TA9 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0a}, // TA10 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0b}, // TA11 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0c}, // TA12 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0d}, // TA13 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0e}, // TA14 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TA, 0x0f}, // TA15 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCA, 0}, // TCA0 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCA, 1}, // TCA1 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0}, // TCC0 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 1}, // TCC1 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 2}, // TCC2 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 3}, // TCC3 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 4}, // TCC4 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 5}, // TCC5 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 6}, // TCC6 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 7}, // TCC7 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 8}, // TCC8 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 9}, // TCC9 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0a}, // TCC10 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0b}, // TCC11 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0c}, // TCC12 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0d}, // TCC13 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0e}, // TCC14 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCC, 0x0f}, // TCC15 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0}, // TD0 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 1}, // TD1 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 2}, // TD2 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 3}, // TD3 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 4}, // TD4 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 5}, // TD5 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 6}, // TD6 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 7}, // TD7 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 8}, // TD8 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 9}, // TD9 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0a}, // TD10 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0b}, // TD11 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0c}, // TD12 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0d}, // TD13 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0e}, // TD14 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TD, 0x0f}, // TD15 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0}, // TCP0 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 1}, // TCP1 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 2}, // TCP2 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 3}, // TCP3 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 4}, // TCP4 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 5}, // TCP5 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 6}, // TCP6 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 7}, // TCP7 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 8}, // TCP8 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 9}, // TCP9 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0a}, // TCP10 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0b}, // TCP11 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0c}, // TCP12 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0d}, // TCP13 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0e}, // TCP14 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_TCP, 0x0f}, // TCP15 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_GDS, 0}, // GDS - 89 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // VGT - 90 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // IA - 91 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // WD - 92 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // CPG - 93 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_CPC, 0}, // CPC - 94 +// blocks that are not defined in GSL + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // UNUSED - 95 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // UNUSED - 96 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // UNUSED - 97 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_ATCL2, 0}, // ATCL2 - 98 + {HSA_VEN_AMD_AQLPROFILE_BLOCK_NAME_MCVML2, 0}, // MCVML2 - 99 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // EA - 100 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 1}, // EA - 101 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 2}, // EA - 102 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 3}, // EA - 103 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 4}, // EA - 104 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 5}, // EA - 105 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 6}, // EA - 106 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 7}, // EA - 107 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 8}, // EA - 108 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 9}, // EA - 109 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0x0a}, // EA - 110 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0x0b}, // EA - 111 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0x0c}, // EA - 112 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0x0d}, // EA - 113 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0x0e}, // EA - 114 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0x0f}, // EA - 115 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // RPB - 116 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 0}, // RMI - 117 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 1}, // RMI - 118 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 2}, // RMI - 119 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 3}, // RMI - 120 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 4}, // RMI - 121 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 5}, // RMI - 122 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 6}, // RMI - 123 + {HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER, 7}, // RMI - 124 +}}; + + + //! Constructor for the ROC PerfCounter object +PerfCounter::PerfCounter(const Device& device, //!< A ROC device object + cl_uint blockIndex, //!< HW block index + cl_uint counterIndex, //!< Counter index (Counter register) within the block + cl_uint eventIndex) //!< Event index (Counter selection) for profiling + : roc_device_(device), + profileRef_(nullptr) { + + info_.blockIndex_ = blockIndex; // Block name + block index + info_.counterIndex_ = counterIndex; // Ignored as not being used in PPT library + info_.eventIndex_ = eventIndex; // Counter Event Selection (counter_id) + + // these block indices are valid for the SI (Gfx8) & Gfx9 devices + switch (roc_device_.deviceInfo().gfxipVersion_ / 100) { + case (8): + gfxVersion_ = ROC_GFX8; + if (blockIndex < viBlockIdOrcaToRocr.size()) { + auto p = viBlockIdOrcaToRocr[blockIndex]; + event_.block_name = std::get<0>(p); + event_.block_index = std::get<1>(p); + } + break; + case (9): + gfxVersion_ = ROC_GFX9; + if (blockIndex < gfx9BlockIdOrcaToRocr.size()) { + auto p = gfx9BlockIdOrcaToRocr[blockIndex]; + event_.block_name = std::get<0>(p); + event_.block_index = std::get<1>(p); + } + break; + default: + gfxVersion_ = ROC_UNSUPPORTED; + event_.block_name = HSA_VEN_AMD_AQLPROFILE_BLOCKS_NUMBER; + event_.block_index = 0; + break; + } + event_.counter_id = eventIndex; +} + +void PerfCounter::setProfile(PerfCounterProfile* profileRef) { + profileRef->perfCounters().push_back(this); + profileRef->addEvent(event_); + + if (profileRef_ != nullptr) { + profileRef_->release(); + } + profileRef_ = profileRef; + profileRef->retain(); +} + +uint64_t PerfCounter::getInfo(uint64_t infoType) const { + switch (infoType) { + case CL_PERFCOUNTER_GPU_BLOCK_INDEX: { + // Return the GPU block index + return info()->blockIndex_; + } + case CL_PERFCOUNTER_GPU_COUNTER_INDEX: { + // Return the GPU counter index + return info()->counterIndex_; + } + case CL_PERFCOUNTER_GPU_EVENT_INDEX: { + // Return the GPU event index + return info()->eventIndex_; + } + case CL_PERFCOUNTER_DATA: { + + const hsa_ven_amd_aqlprofile_profile_t* profile = profileRef_->profile(); + + std::vector data; + profileRef_->api()->hsa_ven_amd_aqlprofile_iterate_data(profile, + PerfCounterCallback, + &data); + + uint64_t result = 0; + std::vector::iterator it; + for (it = data.begin(); it != data.end(); ++it) { + if (it->pmc_data.event.block_name == event_.block_name && + it->pmc_data.event.block_index == event_.block_index && + it->pmc_data.event.counter_id == event_.counter_id) { + result += it->pmc_data.result; + } + } + return result; + } + default: + LogError("Wrong PerfCounter::getInfo parameter"); + } + return 0; +} + +PerfCounter::~PerfCounter() { + + if (profileRef_ != nullptr) { + profileRef_->release(); + profileRef_ = nullptr; + } +} + + +bool PerfCounterProfile::initialize() { + + uint32_t cmd_buf_size; + uint32_t out_buf_size; + + if (api_.hsa_ven_amd_aqlprofile_get_info( + &profile_, + HSA_VEN_AMD_AQLPROFILE_INFO_COMMAND_BUFFER_SIZE, + &cmd_buf_size) != HSA_STATUS_SUCCESS) { + return false; + } + + if (api_.hsa_ven_amd_aqlprofile_get_info( + &profile_, + HSA_VEN_AMD_AQLPROFILE_INFO_PMC_DATA_SIZE, + &out_buf_size) != HSA_STATUS_SUCCESS) { + return false; + } + + const uint32_t alignment = amd::Os::pageSize(); // use page alignment + + hsa_ven_amd_aqlprofile_descriptor_t cmd_buf = profile_.command_buffer; + if (cmd_buf.ptr != nullptr && cmd_buf.size != cmd_buf_size) { + roc_device_.memFree(cmd_buf.ptr, cmd_buf.size); + cmd_buf.ptr = nullptr; + } + + if (cmd_buf.ptr == nullptr) { + void *buf_ptr = roc_device_.hostAlloc(cmd_buf_size, alignment, 1); + if (buf_ptr != nullptr) { + cmd_buf.ptr = buf_ptr; + cmd_buf.size = cmd_buf_size; + profile_.command_buffer = cmd_buf; + } + else { + return false; + } + } + + hsa_ven_amd_aqlprofile_descriptor_t out_buf = profile_.output_buffer; + if (out_buf.ptr != nullptr && out_buf.size != out_buf_size) { + roc_device_.memFree(out_buf.ptr, out_buf.size); + out_buf.ptr = nullptr; + } + + if (out_buf.ptr == nullptr) { + void *buf_ptr = roc_device_.hostAlloc(out_buf_size, alignment, 1); + if (buf_ptr != nullptr) { + out_buf.ptr = buf_ptr; + out_buf.size = out_buf_size; + profile_.output_buffer = out_buf; + } + else { + roc_device_.hostFree(cmd_buf.ptr, cmd_buf.size); + return false; + } + } + + // create the completion signal + if (hsa_signal_create(1, 0, nullptr, &completionSignal_) != HSA_STATUS_SUCCESS) { + return false; + } + + return true; +} + +hsa_ext_amd_aql_pm4_packet_t* PerfCounterProfile::createStartPacket() { + + profile_.events = &events_[0]; + profile_.event_count = events_.size(); + + // set up the profile aql packets for capturing performance counter + if (api_.hsa_ven_amd_aqlprofile_start(&profile_, &prePacket_) != HSA_STATUS_SUCCESS) { + return nullptr; + } + + return &prePacket_; +} + +hsa_ext_amd_aql_pm4_packet_t* PerfCounterProfile::createStopPacket() { + + profile_.events = &events_[0]; + profile_.event_count = events_.size(); + + // set up the profile aql packets for post-capturing performance counter + // and create the completion signal + if (api_.hsa_ven_amd_aqlprofile_stop(&profile_, &postPacket_) != HSA_STATUS_SUCCESS) { + return nullptr; + } + + postPacket_.completion_signal = completionSignal_; + + return &postPacket_; +} + +PerfCounterProfile::~PerfCounterProfile() { + + if (completionSignal_.handle != 0) { + hsa_signal_destroy(completionSignal_); + } + + if (profile_.command_buffer.ptr) { + roc_device_.memFree(profile_.command_buffer.ptr, profile_.command_buffer.size); + } + + if (profile_.output_buffer.ptr) { + roc_device_.memFree(profile_.output_buffer.ptr, profile_.output_buffer.size); + } +} + +} // namespace roc + diff --git a/rocclr/runtime/device/rocm/roccounters.hpp b/rocclr/runtime/device/rocm/roccounters.hpp new file mode 100644 index 0000000000..29a9bf4ef2 --- /dev/null +++ b/rocclr/runtime/device/rocm/roccounters.hpp @@ -0,0 +1,168 @@ +// +// Copyright (c) 2017 Advanced Micro Devices, Inc. All rights reserved. +// +#ifndef ROCCOUNTERS_HPP_ +#define ROCCOUNTERS_HPP_ + +#include "top.hpp" +#include "device/device.hpp" +#include "device/rocm/rocdevice.hpp" +#include "hsa_ven_amd_aqlprofile.h" + +namespace roc { + +class VirtualGPU; +class PerfCounterProfile; + +//! Performance counter implementation on GPU +class PerfCounter : public device::PerfCounter { + public: + enum { + ROC_UNSUPPORTED = 0, + ROC_GFX8, + ROC_GFX9 + }; + + //! The performance counter info + struct Info : public amd::EmbeddedObject { + uint blockIndex_; //!< Index of the block to configure + uint counterIndex_; //!< Index of the hardware counter + uint eventIndex_; //!< Event you wish to count with the counter + }; + + //! Constructor for the ROC PerfCounter object + PerfCounter(const Device& device, //!< A ROC device object + cl_uint blockIndex, //!< HW block index + cl_uint counterIndex, //!< Counter index (Counter register) within the block + cl_uint eventIndex); //!< Event index (Counter selection) for profiling + + //! Destructor for the ROCM PerfCounter object + virtual ~PerfCounter(); + + + //! Returns the specific information about the counter + uint64_t getInfo(uint64_t infoType //!< The type of returned information + ) const; + + //! Returns the GPU device, associated with the current object + const Device& dev() const { return roc_device_; } + + //! Returns the gfx version + const uint32_t gfxVersion() const { return gfxVersion_; } + + //! Returns the profile reference + PerfCounterProfile* profileRef() const { return profileRef_; } + + //! Update the profile associated with the counter + void setProfile(PerfCounterProfile* profileRef); + + private: + + //! Disable default copy constructor + PerfCounter(const PerfCounter&); + + //! Disable default operator= + PerfCounter& operator=(const PerfCounter&); + + //! Returns the ROC performance counter descriptor + const Info* info() const { return &info_; } + + const Device& roc_device_; //!< The backend device + Info info_; //!< The info structure for perfcounter + + hsa_ven_amd_aqlprofile_event_t event_; //!< event information + PerfCounterProfile* profileRef_; //!< perf counter profile object + + uint32_t gfxVersion_; //!< The IP version of the device +}; + +//! Performance counter profile +class PerfCounterProfile : public amd::ReferenceCountedObject { + public: + //! Default constructor + PerfCounterProfile(const Device& device) + : api_({0}), + roc_device_(device) { + + memset(&profile_, 0, sizeof(profile_)); + profile_.agent = roc_device_.getBackendDevice(); + profile_.type = HSA_VEN_AMD_AQLPROFILE_EVENT_TYPE_PMC; + + memset(&prePacket_, 0, sizeof(hsa_ext_amd_aql_pm4_packet_t)); + memset(&postPacket_, 0, sizeof(hsa_ext_amd_aql_pm4_packet_t)); + memset(&completionSignal_, 0, sizeof(hsa_signal_t)); + }; + + //! Destructor for the PerfCounter profile object + virtual ~PerfCounterProfile(); + + //! Get the API tables + bool Create() { + hsa_agent_t agent = roc_device_.getBackendDevice(); + bool system_support, agent_support; + hsa_system_extension_supported(HSA_EXTENSION_AMD_AQLPROFILE, 1, 0, &system_support); + hsa_agent_extension_supported(HSA_EXTENSION_AMD_AQLPROFILE, agent, 1, 0, &agent_support); + if (!system_support || !agent_support) { + return false; + } + + if (hsa_system_get_extension_table(HSA_EXTENSION_AMD_AQLPROFILE, 1, 0, &api_) != HSA_STATUS_SUCCESS) { + return false; + } + + return true; + }; + + //! Returns the performance counter vector + std::vector perfCounters() { return perfCounters_; }; + + //! Add the event of performance counter object to the profile context object + void addEvent(hsa_ven_amd_aqlprofile_event_t event) { events_.push_back(event); }; + + //! Create the start packet for performance counter + hsa_ext_amd_aql_pm4_packet_t* createStartPacket(); + + //! Create the stop packet for performance counter + hsa_ext_amd_aql_pm4_packet_t* createStopPacket(); + + //! Create the profile context object + bool initialize(); //!< HSA profile context object + + //! Return the extension API table + const hsa_ven_amd_aqlprofile_1_00_pfn_t* api() const { return &api_; } + + //! Return the profile context object + const hsa_ven_amd_aqlprofile_profile_t* profile() const { return &profile_; } + + //! Return the start AQL packet + hsa_ext_amd_aql_pm4_packet_t* prePacket() { return &prePacket_; } + + //! Return the stop AQL packet + hsa_ext_amd_aql_pm4_packet_t* postPacket() { return &postPacket_; } + + private: + + //! Disable copy constructor + PerfCounterProfile(const PerfCounterProfile&); + + //! Disable operator= + PerfCounterProfile& operator=(const PerfCounterProfile&); + + hsa_ven_amd_aqlprofile_1_00_pfn_t api_; //!< The extension API table + const Device& roc_device_; //!< The backend device + + std::vector perfCounters_; //!< Perf counters associate with the profile + std::vector events_; //!< Events information + + hsa_ven_amd_aqlprofile_profile_t profile_; //!< HSA profile context object + hsa_ext_amd_aql_pm4_packet_t prePacket_; //!< aql packet for starting perf counter + hsa_ext_amd_aql_pm4_packet_t postPacket_; //!< aql packet for stoping the perf counter + + hsa_signal_t completionSignal_; //!< signal of completion + +}; + +} // namespace roc + +#endif // ROCCOUNTERS_HPP_ + diff --git a/rocclr/runtime/device/rocm/rocvirtual.cpp b/rocclr/runtime/device/rocm/rocvirtual.cpp index 8592f7e08b..57a59cfde6 100644 --- a/rocclr/runtime/device/rocm/rocvirtual.cpp +++ b/rocclr/runtime/device/rocm/rocvirtual.cpp @@ -7,6 +7,7 @@ #include "device/rocm/rockernel.hpp" #include "device/rocm/rocmemory.hpp" #include "device/rocm/rocblit.hpp" +#include "device/rocm/roccounters.hpp" #include "platform/kernel.hpp" #include "platform/context.hpp" #include "platform/command.hpp" @@ -311,7 +312,7 @@ bool VirtualGPU::processMemObjects(const amd::Kernel& kernel, const_address para } template -bool VirtualGPU::dispatchGenericAqlPacket(AqlPacket* packet, bool blocking) { +bool VirtualGPU::dispatchGenericAqlPacket(AqlPacket* packet, bool blocking, size_t size) { const uint32_t queueSize = gpu_queue_->size; const uint32_t queueMask = queueSize - 1; @@ -345,10 +346,14 @@ bool VirtualGPU::dispatchGenericAqlPacket(AqlPacket* packet, bool blocking) { blocking = true; } - // Insert packet - ((AqlPacket*)(gpu_queue_->base_address))[index & queueMask] = *packet; - hsa_queue_store_write_index_release(gpu_queue_, index + 1); - hsa_signal_store_relaxed(gpu_queue_->doorbell_signal, index); + // Insert packet(s) + // NOTE: need multiple packets to dispatch the performance counter + // packet blob of the legacy devices (gfx8) + for (uint i = 0; i < size; i++, index++, packet++) { + ((AqlPacket*)(gpu_queue_->base_address))[index & queueMask] = *packet; + } + hsa_queue_store_write_index_release(gpu_queue_, index); + hsa_signal_store_relaxed(gpu_queue_->doorbell_signal, index-1); // Wait on signal ? if (blocking) { @@ -373,6 +378,33 @@ bool VirtualGPU::dispatchAqlPacket(hsa_barrier_and_packet_t* packet, bool blocki return dispatchGenericAqlPacket(packet, blocking); } +bool VirtualGPU::dispatchCounterAqlPacket(hsa_ext_amd_aql_pm4_packet_t* packet, + const uint32_t gfxVersion, bool blocking, + const hsa_ven_amd_aqlprofile_1_00_pfn_t* extApi) { + + + // PM4 IB packet submission is different between GFX8 and GFX9: + // In GFX8 the PM4 IB packet blob is writing directly to AQL queue + // In GFX9 the PM4 IB is submitting by AQL Vendor Specific packet and + switch (gfxVersion) { + case PerfCounter::ROC_GFX8: + { // Create legacy devices PM4 data + hsa_ext_amd_aql_pm4_packet_t pm4Packet[SLOT_PM4_SIZE_AQLP]; + extApi->hsa_ven_amd_aqlprofile_legacy_get_pm4(packet, static_cast(&pm4Packet[0])); + return dispatchGenericAqlPacket(&pm4Packet[0], blocking, SLOT_PM4_SIZE_AQLP); + } + break; + case PerfCounter::ROC_GFX9: + { + packet->header = HSA_PACKET_TYPE_VENDOR_SPECIFIC << HSA_PACKET_HEADER_TYPE; + return dispatchGenericAqlPacket(packet, blocking); + } + break; + } + + return false; +} + void VirtualGPU::dispatchBarrierPacket(const hsa_barrier_and_packet_t* packet) { assert(packet->completion_signal.handle != 0); const uint32_t queueSize = gpu_queue_->size; @@ -1901,4 +1933,74 @@ void VirtualGPU::submitTransferBufferFromFile(amd::TransferBufferFileCommand& cm } } } + +void VirtualGPU::submitPerfCounter(amd::PerfCounterCommand& vcmd) { + + const amd::PerfCounterCommand::PerfCounterList counters = vcmd.getCounters(); + + if (vcmd.getState() == amd::PerfCounterCommand::Begin) { + // Create a profile for the profiling AQL packet + PerfCounterProfile* profileRef = new PerfCounterProfile(roc_device_); + if (profileRef == nullptr || !profileRef->Create()) { + LogError("Failed to create performance counter profile"); + vcmd.setStatus(CL_INVALID_OPERATION); + return; + } + + // Make sure all performance counter objects to use the same profile + PerfCounter* counter = nullptr; + for (uint i = 0; i < vcmd.getNumCounters(); ++i) { + + amd::PerfCounter* amdCounter = static_cast(counters[i]); + counter = static_cast(amdCounter->getDeviceCounter()); + + if (nullptr == counter) { + amd::PerfCounter::Properties prop = amdCounter->properties(); + PerfCounter* rocCounter = new PerfCounter( + roc_device_, prop[CL_PERFCOUNTER_GPU_BLOCK_INDEX], + prop[CL_PERFCOUNTER_GPU_COUNTER_INDEX], prop[CL_PERFCOUNTER_GPU_EVENT_INDEX]); + + if (nullptr == rocCounter || rocCounter->gfxVersion() == PerfCounter::ROC_UNSUPPORTED) { + LogError("Failed to create the performance counter"); + vcmd.setStatus(CL_INVALID_OPERATION); + delete rocCounter; + return; + } + + amdCounter->setDeviceCounter(rocCounter); + counter = rocCounter; + } + + counter->setProfile(profileRef); + } + + if (!profileRef->initialize()) { + LogError("Failed to initialize performance counter"); + vcmd.setStatus(CL_INVALID_OPERATION); + } + + // create the AQL packet for start profiling + profileRef->createStartPacket(); + dispatchCounterAqlPacket(profileRef->prePacket(), counter->gfxVersion(), false, + profileRef->api()); + + profileRef->release(); + } else if (vcmd.getState() == amd::PerfCounterCommand::End) { + // Since all performance counters should use the same profile, use the 1st + // one to get the profile object + amd::PerfCounter* amdCounter = static_cast(counters[0]); + PerfCounter* counter = static_cast(amdCounter->getDeviceCounter()); + PerfCounterProfile* profileRef = counter->profileRef(); + + // create the AQL packet for stop profiling + profileRef->createStopPacket(); + dispatchCounterAqlPacket(profileRef->postPacket(), counter->gfxVersion(), true, + profileRef->api()); + } else { + LogError("Unsupported performance counter state"); + vcmd.setStatus(CL_INVALID_OPERATION); + } + +} + } // End of roc namespace diff --git a/rocclr/runtime/device/rocm/rocvirtual.hpp b/rocclr/runtime/device/rocm/rocvirtual.hpp index f8faf6b462..d8c64d3f17 100644 --- a/rocclr/runtime/device/rocm/rocvirtual.hpp +++ b/rocclr/runtime/device/rocm/rocvirtual.hpp @@ -10,6 +10,7 @@ #include "hsa_ext_image.h" #include "hsa_ext_amd.h" #include "rocprintf.hpp" +#include "hsa_ven_amd_aqlprofile.h" namespace roc { class Device; @@ -171,7 +172,7 @@ class VirtualGPU : public device::VirtualDevice { void submitAcquireExtObjects(amd::AcquireExtObjectsCommand& cmd); void submitReleaseExtObjects(amd::ReleaseExtObjectsCommand& cmd); - void submitPerfCounter(amd::PerfCounterCommand& cmd){}; + void submitPerfCounter(amd::PerfCounterCommand& cmd); void flush(amd::Command* list = nullptr, bool wait = false); void submitFillMemory(amd::FillMemoryCommand& cmd); @@ -241,8 +242,9 @@ class VirtualGPU : public device::VirtualDevice { private: bool dispatchAqlPacket(hsa_kernel_dispatch_packet_t* packet, bool blocking = true); bool dispatchAqlPacket(hsa_barrier_and_packet_t* packet, bool blocking = true); - template bool dispatchGenericAqlPacket(AqlPacket* packet, bool blocking); + template bool dispatchGenericAqlPacket(AqlPacket* packet, bool blocking, size_t size = 1); void dispatchBarrierPacket(const hsa_barrier_and_packet_t* packet); + bool dispatchCounterAqlPacket(hsa_ext_amd_aql_pm4_packet_t* packet, const uint32_t gfxVersion, bool blocking, const hsa_ven_amd_aqlprofile_1_00_pfn_t* extApi); void initializeDispatchPacket(hsa_kernel_dispatch_packet_t* packet, amd::NDRangeContainer& sizes); bool initPool(size_t kernarg_pool_size, uint signal_pool_count); @@ -287,5 +289,12 @@ class VirtualGPU : public device::VirtualDevice { std::vector signal_pool_; //!< Pool of signals for profiling const uint index_; //!< Virtual gpu unique index friend class Timestamp; + + // PM4 packet for gfx8 performance counter + enum { + SLOT_PM4_SIZE_DW = HSA_VEN_AMD_AQLPROFILE_LEGACY_PM4_PACKET_SIZE/ sizeof(uint32_t), + SLOT_PM4_SIZE_AQLP = HSA_VEN_AMD_AQLPROFILE_LEGACY_PM4_PACKET_SIZE/ 64 + }; + }; } diff --git a/rocclr/runtime/platform/perfctr.hpp b/rocclr/runtime/platform/perfctr.hpp index b7aed5b1ef..5345b31e56 100644 --- a/rocclr/runtime/platform/perfctr.hpp +++ b/rocclr/runtime/platform/perfctr.hpp @@ -42,6 +42,8 @@ class PerfCounter : public RuntimeObject { //! Get the device performance counter const device::PerfCounter* getDeviceCounter() const { return deviceCounter_; } + device::PerfCounter* getDeviceCounter() { return deviceCounter_; } + //! Set the device performance counter void setDeviceCounter(device::PerfCounter* counter) { deviceCounter_ = counter; }