API Reference

Contents

API Reference#

struct rdc_device_attributes_t#
#include <rdc.h>

Represents attributes corresponding to a device.

Public Members

char device_name[RDC_MAX_STR_LENGTH]#

Name of the device.

struct rdc_diag_detail_t#
#include <rdc.h>

details of the diagnostic errors

Public Members

char msg[MAX_DIAG_MSG_LENGTH]#

The test result details.

uint32_t code#

The low level error code.

struct rdc_diag_per_gpu_result_t#
#include <rdc.h>

details of the per gpu diagnostic results

Public Members

uint32_t gpu_index#

The GPU index.

rdc_diag_detail_t gpu_result#

The detail results.

struct rdc_diag_response_t#
#include <rdc.h>

The diagnostic responses for test cases.

Public Members

uint32_t results_count#
rdc_diag_test_result_t diag_info[MAX_TEST_CASES]#
struct rdc_diag_test_result_t#
#include <rdc.h>

The diagnostic results for all GPUs.

Public Members

rdc_diag_result_t status#

The diagnostic result.

rdc_diag_detail_t details#

The summary details.

rdc_diag_test_cases_t test_case#

The test case to run.

uint32_t per_gpu_result_count#

Result details.

How many gpu_results

rdc_diag_per_gpu_result_t gpu_results[RDC_MAX_NUM_DEVICES]#
char info[MAX_DIAG_MSG_LENGTH]#

Detail information.

struct rdc_field_group_info_t#
#include <rdc.h>

The structure to store the field group info.

Public Members

uint32_t count#

count of fields in the group

char group_name[RDC_MAX_STR_LENGTH]#

field group name

rdc_field_t field_ids[RDC_MAX_FIELD_IDS_PER_FIELD_GROUP]#

The list of fields in the group

struct rdc_field_value#
#include <rdc.h>

The structure to store the field value.

Public Members

rdc_field_t field_id#

The field id of the value.

int status#

RDC_ST_OK or error status.

uint64_t ts#

Timestamp in usec since 1970.

rdc_field_type_t type#

The field type.

rdc_field_value_data value#

Value of the field. Value type depends on the field type.

union rdc_field_value_data#
#include <rdc.h>

Field value data.

Public Members

int64_t l_int#
double dbl#
char str[RDC_MAX_STR_LENGTH]#
struct rdc_gpu_usage_info_t#
#include <rdc.h>

The structure to hold the GPU usage information.

Public Members

uint32_t gpu_id#

GPU_ID_INVALID for summary information.

uint64_t start_time#

The time to start the watching.

uint64_t end_time#

The time to stop the watching.

uint64_t energy_consumed#

GPU Energy consumed.

uint64_t ecc_correct#

Correctable errors.

uint64_t ecc_uncorrect#

Uncorrectable errors.

rdc_stats_summary_t pcie_tx#

Bytes sent over PCIe stats.

rdc_stats_summary_t pcie_rx#

Bytes received over PCIe stats.

rdc_stats_summary_t power_usage#

GPU Power usage stats.

rdc_stats_summary_t gpu_clock#

GPU Clock speed stats.

rdc_stats_summary_t memory_clock#

Mem. Clock speed stats.

rdc_stats_summary_t gpu_utilization#

GPU Utilization stats.

rdc_stats_summary_t gpu_temperature#

GPU temperature stats.

uint64_t max_gpu_memory_used#

Maximum GPU memory used.

rdc_stats_summary_t memory_utilization#

Memory Utilization statistics.

struct rdc_group_info_t#
#include <rdc.h>

The structure to store the group info.

Public Members

unsigned int count#

count of GPUs in the group

char group_name[RDC_MAX_STR_LENGTH]#

group name

uint32_t entity_ids[RDC_GROUP_MAX_ENTITIES]#

The list of entities in the group

struct rdc_job_group_info_t#
#include <rdc.h>

The structure to store the job info.

Public Members

char job_id[RDC_MAX_STR_LENGTH]#

job id

rdc_gpu_group_t group_id#

group name

uint64_t start_time#

job start time

uint64_t stop_time#

job stop time

struct rdc_job_info_t#
#include <rdc.h>

The structure to hold the job stats.

Public Members

uint32_t num_gpus#

Number of GPUs used by job.

rdc_gpu_usage_info_t summary#

Job usage summary statistics (overall)

rdc_gpu_usage_info_t gpus[16]#

Job usage summary statistics by GPU.

struct rdc_stats_summary_t#
#include <rdc.h>

The structure to store summary of data.

Public Members

uint64_t max_value#

Maximum value measured.

uint64_t min_value#

Minimum value measured.

uint64_t average#

Average value measured.

double standard_deviation#

The standard deviation.

namespace std#

STL namespace.

file rdc.h
#include <stdint.h>

The rocm_rdc library api is new, and therefore subject to change either at the ABI or API level. Instead of marking every function prototype as “unstable”, we are instead saying the API is unstable (i.e., changes are possible) while the major version remains 0. This means that if the API/ABI changes, we will not increment the major version to 1. Once the ABI stabilizes, we will increment the major version to 1, and thereafter increment it on all ABI breaks.

Main header file for the ROCm RDC library. All required function, structure, enum, etc. definitions should be defined in this file.

Defines

GPU_ID_INVALID#

ID used to represent an invalid GPU.

RDC_GROUP_ALL_GPUS#

Used to specify all GPUs.

RDC_JOB_STATS_FIELDS#

Used to specify all stats fields.

RDC_MAX_STR_LENGTH#

The max rdc field string length.

RDC_GROUP_MAX_ENTITIES#

The max entities in a group.

RDC_MAX_NUM_DEVICES#

Max number of GPUs supported by RDC.

RDC_MAX_FIELD_IDS_PER_FIELD_GROUP#

The max fields in a field group.

RDC_MAX_NUM_GROUPS#

The max number of groups.

RDC_MAX_NUM_FIELD_GROUPS#

The max number of the field groups.

RDC_EVNT_IS_NOTIF_FIELD(FIELD)#
MAX_TEST_CASES#

The maximum test cases to run.

MAX_DIAG_MSG_LENGTH#

The maximum length of the diagnostic messages.

Typedefs

typedef void *rdc_handle_t#

handlers used in various rdc calls

Handle used for an RDC session

typedef uint32_t rdc_gpu_group_t#

GPU Group ID type.

typedef uint32_t rdc_field_grp_t#

Field group ID type.

Enums

enum rdc_status_t#

Error codes returned by rocm_rdc_lib functions.

Values:

enumerator RDC_ST_OK#

Success.

enumerator RDC_ST_NOT_SUPPORTED#

Not supported feature.

enumerator RDC_ST_MSI_ERROR#

The MSI library error.

enumerator RDC_ST_FAIL_LOAD_MODULE#

Fail to load the library.

enumerator RDC_ST_INVALID_HANDLER#

Invalid handler.

enumerator RDC_ST_BAD_PARAMETER#

A parameter is invalid.

enumerator RDC_ST_NOT_FOUND#

Cannot find the value.

enumerator RDC_ST_CONFLICT#

Conflict with current state.

enumerator RDC_ST_CLIENT_ERROR#

The RDC client error.

enumerator RDC_ST_ALREADY_EXIST#

The item already exists.

enumerator RDC_ST_MAX_LIMIT#

Max limit recording for the object.

enumerator RDC_ST_INSUFF_RESOURCES#

Not enough resources to complete operation

enumerator RDC_ST_FILE_ERROR#

Failed to access a file.

enumerator RDC_ST_NO_DATA#

Data was requested, but none was found

enumerator RDC_ST_PERM_ERROR#

Insufficient permission to complete operation

enumerator RDC_ST_UNKNOWN_ERROR#

Unknown error.

enum rdc_operation_mode_t#

rdc operation mode rdc can run in auto mode where background threads will collect metrics. When run in manual mode, the user needs to periodically call rdc_field_update_all for data collection.

Values:

enumerator RDC_OPERATION_MODE_AUTO#
enumerator RDC_OPERATION_MODE_MANUAL#
enum rdc_group_type_t#

type of GPU group

Values:

enumerator RDC_GROUP_DEFAULT#

All GPUs on the Node.

enumerator RDC_GROUP_EMPTY#

Empty group.

enum rdc_field_type_t#

the type stored in the filed value

Values:

enumerator INTEGER#
enumerator DOUBLE#
enumerator STRING#
enumerator BLOB#
enum rdc_field_t#

These enums are used to specify a particular field to be retrieved.

Values:

enumerator RDC_FI_INVALID#

Identifier fields.

Invalid field value

enumerator RDC_FI_GPU_COUNT#

GPU count in the system.

enumerator RDC_FI_DEV_NAME#

Name of the device.

enumerator RDC_FI_GPU_CLOCK#

The current clock for the GPU.

enumerator RDC_FI_MEM_CLOCK#

Clock for the memory.

enumerator RDC_FI_MEMORY_TEMP#

Memory temperature for the device.

enumerator RDC_FI_GPU_TEMP#

Current temperature for the device.

enumerator RDC_FI_POWER_USAGE#

Power usage for the device.

enumerator RDC_FI_PCIE_TX#

PCIe Tx utilization information.

enumerator RDC_FI_PCIE_RX#

PCIe Rx utilization information.

enumerator RDC_FI_GPU_UTIL#

GPU Utilization.

enumerator RDC_FI_GPU_MEMORY_USAGE#

Memory usage of the GPU instance.

enumerator RDC_FI_GPU_MEMORY_TOTAL#

Total memory of the GPU instance.

enumerator RDC_FI_ECC_CORRECT_TOTAL#

ECC related fields.

Accumulated correctable ECC errors

enumerator RDC_FI_ECC_UNCORRECT_TOTAL#

Accumulated uncorrectable ECC errors.

enumerator RDC_FI_ECC_SDMA_SEC#

SDMA Single Error Correction.

enumerator RDC_FI_ECC_SDMA_DED#

SDMA Double Error Detection.

enumerator RDC_FI_ECC_GFX_SEC#

GFX Single Error Correction.

enumerator RDC_FI_ECC_GFX_DED#

GFX Double Error Detection.

enumerator RDC_FI_ECC_MMHUB_SEC#

MMHUB Single Error Correction.

enumerator RDC_FI_ECC_MMHUB_DED#

MMHUB Double Error Detection.

enumerator RDC_FI_ECC_ATHUB_SEC#

ATHUB Single Error Correction.

enumerator RDC_FI_ECC_ATHUB_DED#

ATHUB Double Error Detection.

enumerator RDC_FI_ECC_BIF_SEC#

BIF Single Error Correction.

enumerator RDC_FI_ECC_BIF_DED#

BIF Double Error Detection.

enumerator RDC_FI_ECC_HDP_SEC#

HDP Single Error Correction.

enumerator RDC_FI_ECC_HDP_DED#

HDP Double Error Detection.

enumerator RDC_FI_ECC_XGMI_WAFL_SEC#

XGMI WAFL Single Error Correction.

enumerator RDC_FI_ECC_XGMI_WAFL_DED#

XGMI WAFL Double Error Detection.

enumerator RDC_FI_ECC_DF_SEC#

DF Single Error Correction.

enumerator RDC_FI_ECC_DF_DED#

DF Double Error Detection.

enumerator RDC_FI_ECC_SMN_SEC#

SMN Single Error Correction.

enumerator RDC_FI_ECC_SMN_DED#

SMN Double Error Detection.

enumerator RDC_FI_ECC_SEM_SEC#

SEM Single Error Correction.

enumerator RDC_FI_ECC_SEM_DED#

SEM Double Error Detection.

enumerator RDC_FI_ECC_MP0_SEC#

MP0 Single Error Correction.

enumerator RDC_FI_ECC_MP0_DED#

MP0 Double Error Detection.

enumerator RDC_FI_ECC_MP1_SEC#

MP1 Single Error Correction.

enumerator RDC_FI_ECC_MP1_DED#

MP1 Double Error Detection.

enumerator RDC_FI_ECC_FUSE_SEC#

FUSE Single Error Correction.

enumerator RDC_FI_ECC_FUSE_DED#

FUSE Double Error Detection.

enumerator RDC_FI_ECC_UMC_SEC#

UMC Single Error Correction.

enumerator RDC_FI_ECC_UMC_DED#

UMC Double Error Detection.

enumerator RDC_FI_PROF_ELAPSED_CYCLES#

ROC-profiler related fields.

Number of elapsed cycles over all SMs

enumerator RDC_FI_PROF_ACTIVE_WAVES#

Number of Active Waves.

enumerator RDC_FI_PROF_ACTIVE_CYCLES#

Number of Active Cycles.

enumerator RDC_FI_PROF_CU_OCCUPANCY#

Active Waves / maximum active Waves supported.

enumerator RDC_FI_PROF_CU_UTILIZATION#

Total active cycles / Total elapsed cycles.

enumerator RDC_FI_PROF_FETCH_SIZE#

Number of kilobytes fetched from video memory.

enumerator RDC_FI_PROF_WRITE_SIZE#

Number of kilobytes written to video memory.

enumerator RDC_FI_PROF_FLOPS_16#

Number of fp16 OPS / second.

enumerator RDC_FI_PROF_FLOPS_32#

Number of fp32 OPS / second.

enumerator RDC_FI_PROF_FLOPS_64#

Number of fp64 OPS / second.

enumerator RDC_FI_PROF_GFLOPS_16#

Number of fp16 GOPS / second.

enumerator RDC_FI_PROF_GFLOPS_32#

Number of fp32 GOPS / second.

enumerator RDC_FI_PROF_GFLOPS_64#

Number of fp64 GOPS / second.

enumerator RDC_FI_PROF_MEMR_BW_KBPNS#

HBM Read Bandwidth in kilobytes / nanosecond.

enumerator RDC_FI_PROF_MEMW_BW_KBPNS#

HBM Write Bandwidth in kilobytes / nanosecond.

enumerator RDC_EVNT_XGMI_0_NOP_TX#

NOPs sent to neighbor 0.

enumerator RDC_EVNT_XGMI_0_REQ_TX#

Outgoing requests to neighbor 0

enumerator RDC_EVNT_XGMI_0_RESP_TX#

Outgoing responses to neighbor 0

enumerator RDC_EVNT_XGMI_0_BEATS_TX#

Data beats sent to neighbor 0; Each beat represents 32 bytes.

XGMI throughput can be calculated by multiplying a BEATs event such as ::RSMI_EVNT_XGMI_0_BEATS_TX by 32 and dividing by the time for which event collection occurred, ::rsmi_counter_value_t.time_running (which is in nanoseconds). To get bytes per second, multiply this value by 109

.

Throughput = BEATS/time_running * 10

9 (bytes/second)

enumerator RDC_EVNT_XGMI_1_NOP_TX#

NOPs sent to neighbor 1.

enumerator RDC_EVNT_XGMI_1_REQ_TX#

Outgoing requests to neighbor 1

enumerator RDC_EVNT_XGMI_1_RESP_TX#

Outgoing responses to neighbor 1

enumerator RDC_EVNT_XGMI_1_BEATS_TX#

Data beats sent to neighbor 1; Each beat represents 32 bytes

enumerator RDC_EVNT_XGMI_0_THRPUT#

Transmit throughput to XGMI neighbor 0 in byes/sec

enumerator RDC_EVNT_XGMI_1_THRPUT#

Transmit throughput to XGMI neighbor 1 in byes/sec

enumerator RDC_EVNT_XGMI_2_THRPUT#

Transmit throughput to XGMI neighbor 2 in byes/sec

enumerator RDC_EVNT_XGMI_3_THRPUT#

Transmit throughput to XGMI neighbor 3 in byes/sec

enumerator RDC_EVNT_XGMI_4_THRPUT#

Transmit throughput to XGMI neighbor 4 in byes/sec

enumerator RDC_EVNT_XGMI_5_THRPUT#

Transmit throughput to XGMI neighbor 5 in byes/sec

enumerator RDC_EVNT_NOTIF_VMFAULT#

VM page fault.

enumerator RDC_EVNT_NOTIF_FIRST#
enumerator RDC_EVNT_NOTIF_THERMAL_THROTTLE#

Clock frequency has decreased due to temperature rise

enumerator RDC_EVNT_NOTIF_PRE_RESET#

GPU reset is about to occur.

enumerator RDC_EVNT_NOTIF_POST_RESET#

GPU reset just occurred.

enumerator RDC_EVNT_NOTIF_LAST#
enum rdc_diag_level_t#

type of diagnostic level

Values:

enumerator RDC_DIAG_LVL_INVALID#

invalid level

enumerator RDC_DIAG_LVL_SHORT#

take a few seconds to run

enumerator RDC_DIAG_LVL_MED#

take less than 2 minutes to run

enumerator RDC_DIAG_LVL_LONG#

take up to 15 minutes to run

enum rdc_diag_result_t#

type of diagnostic result

Values:

enumerator RDC_DIAG_RESULT_PASS#

The diagnostic test pass.

enumerator RDC_DIAG_RESULT_SKIP#

The diagnostic test skipped.

enumerator RDC_DIAG_RESULT_WARN#

The diagnostic test has warnings.

enumerator RDC_DIAG_RESULT_FAIL#

The diagnostic test fail.

enum rdc_diag_test_cases_t#

The test cases to run.

Values:

enumerator RDC_DIAG_TEST_FIRST#

The diagnostic test pass.

enumerator RDC_DIAG_COMPUTE_PROCESS#
enumerator RDC_DIAG_COMPUTE_QUEUE#

The Compute Queue is ready.

enumerator RDC_DIAG_SYS_MEM_CHECK#

Check System memory.

enumerator RDC_DIAG_NODE_TOPOLOGY#

Report node topology.

enumerator RDC_DIAG_GPU_PARAMETERS#

GPU parameters in range.

enumerator RDC_DIAG_TEST_LAST#

Functions

rdc_status_t rdc_init(uint64_t init_flags)#

Initialize ROCm RDC.

When called, this initializes internal data structures, including those corresponding to sources of information that RDC provides. This must be called before rdc_start_embedded() or rdc_connect()

Parameters:

init_flags[in] init_flags Bit flags that tell RDC how to initialize.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_shutdown()#

Shutdown ROCm RDC.

Do any necessary clean up.

rdc_status_t rdc_start_embedded(rdc_operation_mode_t op_mode, rdc_handle_t *p_rdc_handle)#

Start embedded RDC agent within this process.

The RDC is loaded as library so that it does not require rdcd daemon. In this mode, the user has to periodically call rdc_field_update_all() when op_mode is RDC_OPERATION_MODE_MANUAL, which tells RDC to collect the stats.

Parameters:
  • op_mode[in] Operation modes. When RDC_OPERATION_MODE_AUTO, RDC schedules background task to collect the stats. When RDC_OPERATION_MODE_MANUAL, the user needs to call rdc_field_update_all() periodically.

  • p_rdc_handle[inout] Caller provided pointer to rdc_handle_t. Upon successful call, the value will contain the handler for following API calls.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_stop_embedded(rdc_handle_t p_rdc_handle)#

Stop embedded RDC agent.

Stop the embedded RDC agent, and p_rdc_handle becomes invalid after this call.

Parameters:

p_rdc_handle[in] The RDC handler that come from rdc_start_embedded().

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_connect(const char *ipAndPort, rdc_handle_t *p_rdc_handle, const char *root_ca, const char *client_cert, const char *client_key)#

Connect to rdcd daemon.

This method is used to connect to a remote stand-alone rdcd daemon.

Parameters:
  • ipAndPort[in] The IP and port of the remote rdcd. The ipAndPort can be specified in this x.x.x.x:yyyy format, where x.x.x.x is the IP address and yyyy is the port.

  • p_rdc_handle[inout] Caller provided pointer to rdc_handle_t. Upon successful call, the value will contain the handler for following API calls.

  • root_ca[in] The root CA stored in the string in pem format. Set it as nullptr if the communication is not encrypted.

  • client_cert[in] The client certificate stored in the string in pem format. Set it as nullptr if the communication is not encrypted.

  • client_key[in] The client key stored in the string in pem format. Set it as nullptr if the communication is not encrypted.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_disconnect(rdc_handle_t p_rdc_handle)#

Disconnect from rdcd daemon.

Disconnect from rdcd daemon, and p_rdc_handle becomes invalid after this call.

Parameters:

p_rdc_handle[in] The RDC handler that come from rdc_connect().

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_job_start_stats(rdc_handle_t p_rdc_handle, rdc_gpu_group_t group_id, const char job_id[64], uint64_t update_freq)#

Request the RDC to watch the job stats.

This should be executed as part of job prologue. The summary job stats can be retrieved using rdc_job_get_stats(). In RDC_OPERATION_MODE_MANUAL, user must call rdc_field_update_all(1) at least once, before call rdc_job_get_stats()

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • group_id[in] The group of GPUs to be watched.

  • job_id[in] The name of the job.

  • update_freq[in] How often to update this field in usec.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_job_get_stats(rdc_handle_t p_rdc_handle, const char job_id[64], rdc_job_info_t *p_job_info)#

Get the stats of the job using the job id.

The stats can be retrieved at any point when the job is in process.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • job_id[in] The name of the job.

  • p_job_info[inout] Caller provided pointer to rdc_job_info_t. Upon successful call, the value will contain the stats of the job.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_job_stop_stats(rdc_handle_t p_rdc_handle, const char job_id[64])#

Request RDC to stop watching the stats of the job.

This should be execute as part of job epilogue. The job Id remains available to view the stats at any point. You must call rdc_watch_job_fields() before this call.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • job_id[in] The name of the job.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_job_remove(rdc_handle_t p_rdc_handle, const char job_id[64])#

Request RDC to stop tracking the job given by job_id.

After this call, you will no longer be able to call rdc_job_get_stats() on this job_id. But you will be able to reuse the job_id after this call.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • job_id[in] The name of the job.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_job_remove_all(rdc_handle_t p_rdc_handle)#

Request RDC to stop tracking all the jobs.

After this call, you will no longer be able to call rdc_job_get_stats() on any job id. But you will be able to reuse the any previous used job id after this call.

Parameters:

p_rdc_handle[in] The RDC handler.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_field_update_all(rdc_handle_t p_rdc_handle, uint32_t wait_for_update)#

Request RDC to update all fields to be watched.

In RDC_OPERATION_MODE_MANUAL, the user must call this method periodically.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • wait_for_update[in] Whether or not to wait for the update loop to complete before returning to the caller 1=wait. 0=do not wait.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_device_get_all(rdc_handle_t p_rdc_handle, uint32_t gpu_index_list[RDC_MAX_NUM_DEVICES], uint32_t *count)#

Get indexes corresponding to all the devices on the system.

Indexes represents RDC GPU Id corresponding to each GPU on the system and is immutable during the lifespan of the engine. The list should be queried again if the engine is restarted.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • gpu_index_list[out] Array reference to fill GPU indexes present on the system.

  • count[out] Number of GPUs returned in gpu_index_list.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_device_get_attributes(rdc_handle_t p_rdc_handle, uint32_t gpu_index, rdc_device_attributes_t *p_rdc_attr)#

Gets device attributes corresponding to the gpu_index.

Fetch the attributes, such as device name, of a GPU.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • gpu_index[in] GPU index corresponding to which the attributes should be fetched

  • p_rdc_attr[out] GPU attribute corresponding to the gpu_index.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_gpu_create(rdc_handle_t p_rdc_handle, rdc_group_type_t type, const char *group_name, rdc_gpu_group_t *p_rdc_group_id)#

Create a group contains multiple GPUs.

This method can create a group contains multiple GPUs. Instead of executing an operation separately for each GPU, the RDC group enables the user to execute same operation on all the GPUs present in the group as a single API call.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • type[in] The type of the group. RDC_GROUP_DEFAULT includes all the GPUs on the node, and RDC_GROUP_EMPTY creates an empty group.

  • group_name[in] The group name specified as NULL terminated C String

  • p_rdc_group_id[inout] Caller provided pointer to rdc_gpu_group_t. Upon successful call, the value will contain the group id for following group API calls.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_gpu_add(rdc_handle_t p_rdc_handle, rdc_gpu_group_t group_id, uint32_t gpu_index)#

Add a GPU to the group.

This method can add a GPU to the group

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • group_id[in] The group id to which the GPU will be added.

  • gpu_index[in] The GPU index to be added to the group.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_gpu_get_info(rdc_handle_t p_rdc_handle, rdc_gpu_group_t p_rdc_group_id, rdc_group_info_t *p_rdc_group_info)#

Get information about a GPU group.

Get detail information about a GPU group created by rdc_group_gpu_create

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • p_rdc_group_id[in] The GPU group handler created by rdc_group_gpu_create

  • p_rdc_group_info[out] The information of the GPU group p_rdc_group_id.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_get_all_ids(rdc_handle_t p_rdc_handle, rdc_gpu_group_t group_id_list[], uint32_t *count)#

Used to get information about all GPU groups in the system.

Get the list of GPU group ids in the system.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • group_id_list[out] Array reference to fill GPU group ids in the system.

  • count[out] Number of GPU group returned in group_id_list.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_gpu_destroy(rdc_handle_t p_rdc_handle, rdc_gpu_group_t p_rdc_group_id)#

Destroy GPU group represented by p_rdc_group_id.

Delete the logic group represented by p_rdc_group_id

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • p_rdc_group_id[in] The group id

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_field_create(rdc_handle_t p_rdc_handle, uint32_t num_field_ids, rdc_field_t *field_ids, const char *field_group_name, rdc_field_grp_t *rdc_field_group_id)#

create a group of fields

The user can create a group of fields and perform an operation on a group of fields at once.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • num_field_ids[in] Number of field IDs that are being provided in field_ids.

  • field_ids[in] Field IDs to be added to the newly-created field group.

  • field_group_name[in] Unique name for this group of fields.

  • rdc_field_group_id[out] Handle to the newly-created field group

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_field_get_info(rdc_handle_t p_rdc_handle, rdc_field_grp_t rdc_field_group_id, rdc_field_group_info_t *field_group_info)#

Get information about a field group.

Get detail information about a field group created by rdc_group_field_create

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • rdc_field_group_id[in] The field group handler created by rdc_group_field_create

  • field_group_info[out] The information of the field group rdc_field_group_id.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_field_get_all_ids(rdc_handle_t p_rdc_handle, rdc_field_grp_t field_group_id_list[], uint32_t *count)#

Used to get information about all field groups in the system.

Get the list of field group ids in the system.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • field_group_id_list[out] Array reference to fill field group ids in the system.

  • count[out] Number of field group returned in field_group_id_list.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_group_field_destroy(rdc_handle_t p_rdc_handle, rdc_field_grp_t rdc_field_group_id)#

Destroy field group represented by rdc_field_group_id.

Delete the logic group represented by rdc_field_group_id

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • rdc_field_group_id[in] The field group id

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_field_watch(rdc_handle_t p_rdc_handle, rdc_gpu_group_t group_id, rdc_field_grp_t field_group_id, uint64_t update_freq, double max_keep_age, uint32_t max_keep_samples)#

Request the RDC start recording updates for a given field collection.

Note that the first update of the field will not occur until the next field update cycle. To force a field update cycle, user must call rdc_field_update_all(1)

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • group_id[in] The group of GPUs to be watched.

  • field_group_id[in] The collection of fields to record

  • update_freq[in] How often to update fields in usec.

  • max_keep_age[in] How long to keep data for fields in seconds.

  • max_keep_samples[in] Maximum number of samples to keep. 0=no limit.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_field_get_latest_value(rdc_handle_t p_rdc_handle, uint32_t gpu_index, rdc_field_t field, rdc_field_value *value)#

Request a latest cached field of a GPU.

Note that the field can be cached after called rdc_field_watch

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • gpu_index[in] The GPU index.

  • field[in] The field id

  • value[out] The field value got from cache.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_field_get_value_since(rdc_handle_t p_rdc_handle, uint32_t gpu_index, rdc_field_t field, uint64_t since_time_stamp, uint64_t *next_since_time_stamp, rdc_field_value *value)#

Request a history cached field of a GPU.

Note that the field can be cached after called rdc_field_watch

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • gpu_index[in] The GPU index.

  • field[in] The field id

  • since_time_stamp[in] Timestamp to request values since in usec since 1970.

  • next_since_time_stamp[out] Timestamp to use for sinceTimestamp on next call to this function

  • value[out] The field value got from cache.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_field_unwatch(rdc_handle_t p_rdc_handle, rdc_gpu_group_t group_id, rdc_field_grp_t field_group_id)#

Stop record updates for a given field collection.

The cache of those fields will not be updated after this call

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • group_id[in] The GPU group id.

  • field_group_id[in] The field group id.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_diagnostic_run(rdc_handle_t p_rdc_handle, rdc_gpu_group_t group_id, rdc_diag_level_t level, rdc_diag_response_t *response)#

Run the diagnostic test cases.

Run the diagnostic test cases at different levels.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • group_id[in] The GPU group id.

  • level[in] The level decides how long the test will run. The RDC_DIAG_LVL_SHORT only take a few seconds, and the the RDC_DIAG_LVL_LONG may take up to 15 minutes.

  • response[inout] The detail results of the tests run.

Return values:

RDC_ST_OK – is returned upon successful call.

rdc_status_t rdc_test_case_run(rdc_handle_t p_rdc_handle, rdc_gpu_group_t group_id, rdc_diag_test_cases_t test_case, rdc_diag_test_result_t *result)#

Run one diagnostic test case.

Run a specific diagnostic test case.

Parameters:
  • p_rdc_handle[in] The RDC handler.

  • group_id[in] The GPU group id.

  • test_case[in] The test case to run.

  • result[inout] The results of the test.

Return values:

RDC_ST_OK – is returned upon successful call.

const char *rdc_status_string(rdc_status_t status)#

Get a description of a provided RDC error status.

return the string in human readable format.

Parameters:

status[in] The RDC status.

Return values:

The – string to describe the RDC status.

const char *field_id_string(rdc_field_t field_id)#

Get the name of a field.

return the string in human readable format.

Parameters:

field_id[in] The field id.

Return values:

The – string to describe the field.

rdc_field_t get_field_id_from_name(const char *name)#

Get the field id from name.

return the field id from field name.

Parameters:

name[in] The field name.

Return values:

return – RDC_FI_INVALID if the field name is invalid.

const char *rdc_diagnostic_result_string(rdc_diag_result_t result)#

Get a description of a diagnostic result.

return the string in human readable format.

Parameters:

result[in] The RDC diagnostic result.

Return values:

The – string to describe the RDC diagnostic result.

dir /home/docs/checkouts/readthedocs.org/user_builds/advanced-micro-devices-rdc/checkouts/docs-5.6.0/include
dir /home/docs/checkouts/readthedocs.org/user_builds/advanced-micro-devices-rdc/checkouts/docs-5.6.0/include/rdc