/* * ============================================================================= * The University of Illinois/NCSA * Open Source License (NCSA) * * Copyright (c) 2023, Advanced Micro Devices, Inc. * All rights reserved. * * Developed by: * * AMD Research and AMD ROC Software Development * * Advanced Micro Devices, Inc. * * www.amd.com * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal with 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: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimers. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimers in * the documentation and/or other materials provided with the distribution. * - Neither the names of , * nor the names of its contributors may be used to endorse or promote * products derived from this Software without specific prior written * permission. * * 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 CONTRIBUTORS 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 WITH THE SOFTWARE. * */ #include #include #include #include #include #include #include #include #include #include "amd_smi/amdsmi.h" #define CHK_AMDSMI_RET(RET) \ { \ if (RET != AMDSMI_STATUS_SUCCESS) { \ const char *err_str; \ std::cout << "AMDSMI call returned " << RET << " at line " \ << __LINE__ << std::endl; \ amdsmi_status_code_to_string(RET, &err_str); \ std::cout << err_str << std::endl; \ return RET; \ } \ } int main() { amdsmi_status_t ret; // Init amdsmi for sockets and devices. // Here we are only interested in AMD_GPUS. ret = amdsmi_init(AMDSMI_INIT_AMD_GPUS); CHK_AMDSMI_RET(ret) // Get all sockets uint32_t socket_count = 0; // Get the socket count available for the system. ret = amdsmi_get_socket_handles(&socket_count, nullptr); CHK_AMDSMI_RET(ret) // Allocate the memory for the sockets std::vector sockets(socket_count); // Get the sockets of the system ret = amdsmi_get_socket_handles(&socket_count, &sockets[0]); CHK_AMDSMI_RET(ret) std::cout << "Total Socket: " << socket_count << std::endl; // For each socket, get identifier and devices for (uint32_t i = 0; i < socket_count; i++) { // Get Socket info char socket_info[128]; ret = amdsmi_get_socket_info(sockets[i], 128, socket_info); CHK_AMDSMI_RET(ret) std::cout << "Socket " << socket_info << std::endl; // Get the device count available for the socket. uint32_t device_count = 0; ret = amdsmi_get_processor_handles(sockets[i], &device_count, nullptr); CHK_AMDSMI_RET(ret) // Allocate the memory for the device handlers on the socket std::vector processor_handles(device_count); // Get all devices of the socket ret = amdsmi_get_processor_handles(sockets[i], &device_count, &processor_handles[0]); CHK_AMDSMI_RET(ret) // For each device of the socket, get name and temperature. for (uint32_t j = 0; j < device_count; j++) { // Get device type. Since the amdsmi is initialized with // AMD_SMI_INIT_AMD_GPUS, the processor_type must be AMD_GPU. processor_type_t processor_type = {}; ret = amdsmi_get_processor_type(processor_handles[j], &processor_type); CHK_AMDSMI_RET(ret) if (processor_type != AMD_GPU) { std::cout << "Expect AMD_GPU device type!\n"; return AMDSMI_STATUS_NOT_SUPPORTED; } amdsmi_ras_feature_t ras_feature; ret = amdsmi_get_gpu_ras_feature_info( processor_handles[j] ,&ras_feature); if (ret != AMDSMI_STATUS_NOT_SUPPORTED) { CHK_AMDSMI_RET(ret) printf("\tras_feature: version: %x, schema: %x\n", ras_feature.ras_eeprom_version, ras_feature.ecc_correction_schema_flag); } amdsmi_bdf_t bdf = {}; ret = amdsmi_get_gpu_device_bdf(processor_handles[j], &bdf); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_device_bdf:\n"); printf("\tDevice[%d] BDF %04lx:%02x:%02x.%d\n\n", i, bdf.fields.domain_number, bdf.fields.bus_number, bdf.fields.device_number, bdf.fields.function_number); amdsmi_asic_info_t asic_info = {}; ret = amdsmi_get_gpu_asic_info(processor_handles[j], &asic_info); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_asic_info:\n"); printf("\tMarket Name: %s\n", asic_info.market_name); printf("\tDeviceID: 0x%lx\n", asic_info.device_id); printf("\tVendorID: 0x%x\n", asic_info.vendor_id); printf("\tRevisionID: 0x%x\n", asic_info.rev_id); printf("\tAsic serial: 0x%s\n", asic_info.asic_serial); printf("\tOAM id: 0x%x\n\n", asic_info.oam_id); // Get VBIOS info amdsmi_vbios_info_t vbios_info = {}; ret = amdsmi_get_gpu_vbios_info(processor_handles[j], &vbios_info); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_vbios_info:\n"); printf("\tVBios Name: %s\n", vbios_info.name); printf("\tBuild Date: %s\n", vbios_info.build_date); printf("\tPart Number: %s\n", vbios_info.part_number); printf("\tVBios Version String: %s\n\n", vbios_info.version); // Get engine usage info amdsmi_engine_usage_t engine_usage = {}; ret = amdsmi_get_gpu_activity(processor_handles[j], &engine_usage); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_activity:\n"); printf("\tAverage GFX Activity: %d\n", engine_usage.gfx_activity); printf("\tAverage MM Activity: %d\n", engine_usage.mm_activity); printf("\tAverage UMC Activity: %d\n\n", engine_usage.umc_activity); // Get firmware info amdsmi_fw_info_t fw_information = {}; ret = amdsmi_get_fw_info(processor_handles[j], &fw_information); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_fw_info:\n"); printf("\tFirmware version: %d\n", fw_information.num_fw_info); printf("\tSMU: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_SMU] .fw_version); printf("\tPM: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_PM] .fw_version); printf("\tVCN: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_VCN] .fw_version); printf("\tCP_ME: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_CP_ME] .fw_version); printf("\tCP_PFP: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_CP_PFP] .fw_version); printf("\tCP_CE: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_CP_CE] .fw_version); printf("\tRLC: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_RLC] .fw_version); printf("\tCP_MEC1: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_CP_MEC1] .fw_version); printf("\tCP_MEC2: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_CP_MEC2] .fw_version); printf("\tSDMA0: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_SDMA0] .fw_version); printf("\tMC: %ld\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_MC] .fw_version); printf("\tRLC RESTORE LIST CNTL: %ld\n", fw_information .fw_info_list [amdsmi_fw_block_t::FW_ID_RLC_RESTORE_LIST_CNTL] .fw_version); printf("\tRLC RESTORE LIST GPM MEM: %ld\n", fw_information .fw_info_list [amdsmi_fw_block_t::FW_ID_RLC_RESTORE_LIST_GPM_MEM] .fw_version); printf("\tRLC RESTORE LIST SRM MEM: %ld\n", fw_information .fw_info_list [amdsmi_fw_block_t::FW_ID_RLC_RESTORE_LIST_SRM_MEM] .fw_version); printf( "\tPSP SOSDRV: %ld\n\n", fw_information.fw_info_list[amdsmi_fw_block_t::FW_ID_PSP_SOSDRV] .fw_version); // Get temperature measurements int64_t temp_measurements[TEMPERATURE_TYPE__MAX + 1]; amdsmi_temperature_type_t temp_types[4] = { TEMPERATURE_TYPE_EDGE, TEMPERATURE_TYPE_HOTSPOT, TEMPERATURE_TYPE_VRAM, TEMPERATURE_TYPE_PLX}; for (const auto &temp_type : temp_types) { ret = amdsmi_get_temp_metric( processor_handles[j], temp_type, AMDSMI_TEMP_CURRENT, &temp_measurements[(int)(temp_type)]); CHK_AMDSMI_RET(ret) } printf(" Output of amdsmi_get_temp_metric:\n"); printf("\tGPU Edge temp measurement: %ld\n", temp_measurements[TEMPERATURE_TYPE_EDGE]); printf("\tGPU Hotspot temp measurement: %ld\n", temp_measurements[TEMPERATURE_TYPE_HOTSPOT]); printf("\tGPU VRAM temp measurement: %ld\n", temp_measurements[TEMPERATURE_TYPE_VRAM]); printf("\tGPU PLX temp measurement: %ld\n\n", temp_measurements[TEMPERATURE_TYPE_PLX]); // Get bad pages char bad_page_status_names[3][15] = {"RESERVED", "PENDING", "UNRESERVABLE"}; uint32_t num_pages = 0; ret = amdsmi_get_gpu_bad_page_info(processor_handles[j], &num_pages, nullptr); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_bad_page_info:\n"); if (!num_pages) { printf("\tNo bad pages found.\n"); } else { std::vector bad_page_info(num_pages); ret = amdsmi_get_gpu_bad_page_info(processor_handles[j], &num_pages, bad_page_info.data()); CHK_AMDSMI_RET(ret) for (uint32_t page_it = 0; page_it < num_pages; page_it += 1) { printf(" Page[%d]\n", page_it); printf("\tAddress: %lu\n", bad_page_info[page_it].page_address); printf("\tSize: %lu\n", bad_page_info[page_it].page_size); printf( "\tStatus: %s\n", bad_page_status_names[bad_page_info[page_it].status]); } } printf("\n"); // Get ECC error counts amdsmi_error_count_t err_cnt_info = {}; ret = amdsmi_get_gpu_total_ecc_count(processor_handles[j], &err_cnt_info); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_total_ecc_count:\n"); printf("\tCorrectable errors: %lu\n", err_cnt_info.correctable_count); printf("\tUncorrectable errors: %lu\n\n", err_cnt_info.uncorrectable_count); // Get device name amdsmi_board_info_t board_info = {}; ret = amdsmi_get_gpu_board_info(processor_handles[j], &board_info); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_board_info:\n"); std::cout << "\tdevice [" << j << "]\n\t\tProduct name: " << board_info.product_name << "\n" << "\t\tModel Number: " << board_info.model_number << "\n" << "\t\tBoard Serial: " << board_info.product_serial << "\n" << "\t\tManufacturer Name: " << board_info.manufacturer_name << "\n\n"; // Get temperature int64_t val_i64 = 0; ret = amdsmi_get_temp_metric(processor_handles[j], TEMPERATURE_TYPE_EDGE, AMDSMI_TEMP_CURRENT, &val_i64); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_temp_metric:\n"); std::cout << "\t\tTemperature: " << val_i64 << "C" << "\n\n"; // Get frame buffer amdsmi_vram_usage_t vram_usage = {}; ret = amdsmi_get_gpu_vram_usage(processor_handles[j], &vram_usage); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_gpu_vram_usage:\n"); std::cout << "\t\tFrame buffer usage (MB): " << vram_usage.vram_used << "/" << vram_usage.vram_total << "\n\n"; amdsmi_power_cap_info_t cap_info = {}; ret = amdsmi_get_power_cap_info(processor_handles[j], 0, &cap_info); CHK_AMDSMI_RET(ret) printf(" Output of amdsmi_get_power_cap_info:\n"); std::cout << "\t\t Power Cap: " << cap_info.power_cap / 1000000 << "W\n\n"; } } // Clean up resources allocated at amdsmi_init. It will invalidate sockets // and devices pointers ret = amdsmi_shut_down(); CHK_AMDSMI_RET(ret) return 0; }