Files
rocm-systems/src/include/nvmlwrap.h
T
Sylvain Jeaugey 6aae379278 2.24.3-1
Network user buffer support for collectives
 * Leverage user buffer registration to achieve zero-copy
   inter-node communications for Ring, NVLS and Collnet

Add RAS subsystem
 * Create a RAS thread keeping track of all NCCL communicators.
 * Add a ncclras tool contacting the RAS thread and getting a
   report.

Add fp8 support
 * Add support for e5m2 and e4m3 8-bit floating point operations.
 * Use Tree/PAT algorithms when possible for better numerical
   stability.

Add NIC fusion
 * Add a NET API to ask the network plugin to fuse a set of
   interfaces together.
 * Fuse multiple NICs under the same PCI switch as a single,
   larger NIC.

Socket connection failure retry
 * Retry in case of socket connection failure (unreachable host)
 * Avoid "Software caused connection abort" errors on retries

QP connection failure retry
 * Retry in case of IB QP connection failure during ibv_modify_qp.

NET API improvements
 * Allow plugins to force a flush in case data and completion
   ordering is not guaranteed.
 * Indicate when completion is not needed (e.g. for the LL128
   protocol), allowing plugins to skip generating a completion.
 * Allow for full offload of allgather operations when using one
   GPU per node.

NCCL_ALGO/NCCL_PROTO strict enforcement
 * Extend NCCL_ALGO/NCCL_PROTO syntax to be able to specify
   ALGO/PROTO filters for each collective operation.
 * Strictly enforce the ALGO/PROTO filters, no longer fall back
   on the ring algorithm when the filtering leaves no option and
   error out instead.

Enable CUMEM host allocations
 * Use cumem functions for host memory allocation by default.

Improved profiler plugin API
 * Avoid dependencies with NCCL includes.
 * Add information on whether the buffer is registered or not

Adjust PAT tuning
 * Improve transition between PAT and ring at scale.

Fix hangs when running with different CPU architectures
 * Detect when we use a mix of GPU architectures
 * Ensure Algo/Proto decisions are made based on that unified
   state.

Fix FD leak in UDS
 * Fix a leak when mapping buffers intra-node with cumem IPCs.

Fix crash when mixing buffer registration and graph buffer registration.
 * Separate local and graph registration to avoid crashes when we free
   buffers.

Fix user buffer registration with dmabuf
 * Make ncclSend/ncclRecv communication with buffer registration functional
   on network plugins relying on dmabuf for buffer registration.

Fix crash in IB code caused by uninitialized fields.

Fix non-blocking ncclSend/ncclRecv
 * Fix case where ncclSend/ncclRecv would return ncclSuccess in non-blocking
   mode even though the operation was not enqueued onto the stream.
 * Issue #1495

Various compiler tweaks and fixes
 * PR #758

Fix typo in ncclTopoPrintGraph
 * Issue #1468
2025-01-07 02:01:15 -08:00

326 строки
14 KiB
C++

/*************************************************************************
* Copyright (c) 2015-2022, NVIDIA CORPORATION. All rights reserved.
*
* See LICENSE.txt for license information
************************************************************************/
#ifndef NCCL_NVMLWRAP_H_
#define NCCL_NVMLWRAP_H_
#include "nccl.h"
//#define NCCL_NVML_DIRECT 1
#ifndef NCCL_NVML_DIRECT
#define NCCL_NVML_DIRECT 0
#endif
#if NCCL_NVML_DIRECT
#include "nvml.h"
#else
// Dynamically handle dependencies on NVML
/* Extracted from nvml.h */
#define NVML_API_VERSION 12
#define NVML_STRUCT_VERSION(data, ver) (unsigned int)(sizeof(nvml ## data ## _v ## ver ## _t) | \
(ver << 24U))
typedef struct nvmlDevice_st* nvmlDevice_t;
#define NVML_DEVICE_PCI_BUS_ID_BUFFER_SIZE 16
typedef enum nvmlEnableState_enum
{
NVML_FEATURE_DISABLED = 0, //!< Feature disabled
NVML_FEATURE_ENABLED = 1 //!< Feature enabled
} nvmlEnableState_t;
typedef enum nvmlNvLinkCapability_enum
{
NVML_NVLINK_CAP_P2P_SUPPORTED = 0, // P2P over NVLink is supported
NVML_NVLINK_CAP_SYSMEM_ACCESS = 1, // Access to system memory is supported
NVML_NVLINK_CAP_P2P_ATOMICS = 2, // P2P atomics are supported
NVML_NVLINK_CAP_SYSMEM_ATOMICS= 3, // System memory atomics are supported
NVML_NVLINK_CAP_SLI_BRIDGE = 4, // SLI is supported over this link
NVML_NVLINK_CAP_VALID = 5, // Link is supported on this device
// should be last
NVML_NVLINK_CAP_COUNT
} nvmlNvLinkCapability_t;
typedef enum nvmlReturn_enum
{
NVML_SUCCESS = 0, //!< The operation was successful
NVML_ERROR_UNINITIALIZED = 1, //!< NVML was not first initialized with nvmlInit()
NVML_ERROR_INVALID_ARGUMENT = 2, //!< A supplied argument is invalid
NVML_ERROR_NOT_SUPPORTED = 3, //!< The requested operation is not available on target device
NVML_ERROR_NO_PERMISSION = 4, //!< The current user does not have permission for operation
NVML_ERROR_ALREADY_INITIALIZED = 5, //!< Deprecated: Multiple initializations are now allowed through ref counting
NVML_ERROR_NOT_FOUND = 6, //!< A query to find an object was unsuccessful
NVML_ERROR_INSUFFICIENT_SIZE = 7, //!< An input argument is not large enough
NVML_ERROR_INSUFFICIENT_POWER = 8, //!< A device's external power cables are not properly attached
NVML_ERROR_DRIVER_NOT_LOADED = 9, //!< NVIDIA driver is not loaded
NVML_ERROR_TIMEOUT = 10, //!< User provided timeout passed
NVML_ERROR_IRQ_ISSUE = 11, //!< NVIDIA Kernel detected an interrupt issue with a GPU
NVML_ERROR_LIBRARY_NOT_FOUND = 12, //!< NVML Shared Library couldn't be found or loaded
NVML_ERROR_FUNCTION_NOT_FOUND = 13, //!< Local version of NVML doesn't implement this function
NVML_ERROR_CORRUPTED_INFOROM = 14, //!< infoROM is corrupted
NVML_ERROR_GPU_IS_LOST = 15, //!< The GPU has fallen off the bus or has otherwise become inaccessible
NVML_ERROR_RESET_REQUIRED = 16, //!< The GPU requires a reset before it can be used again
NVML_ERROR_OPERATING_SYSTEM = 17, //!< The GPU control device has been blocked by the operating system/cgroups
NVML_ERROR_LIB_RM_VERSION_MISMATCH = 18, //!< RM detects a driver/library version mismatch
NVML_ERROR_IN_USE = 19, //!< An operation cannot be performed because the GPU is currently in use
NVML_ERROR_UNKNOWN = 999 //!< An internal driver error occurred
} nvmlReturn_t;
typedef struct nvmlPciInfo_st
{
char busId[NVML_DEVICE_PCI_BUS_ID_BUFFER_SIZE]; //!< The tuple domain:bus:device.function PCI identifier (&amp; NULL terminator)
unsigned int domain; //!< The PCI domain on which the device's bus resides, 0 to 0xffff
unsigned int bus; //!< The bus on which the device resides, 0 to 0xff
unsigned int device; //!< The device's id on the bus, 0 to 31
unsigned int pciDeviceId; //!< The combined 16-bit device id and 16-bit vendor id
// Added in NVML 2.285 API
unsigned int pciSubSystemId; //!< The 32-bit Sub System Device ID
// NVIDIA reserved for internal use only
unsigned int reserved0;
unsigned int reserved1;
unsigned int reserved2;
unsigned int reserved3;
} nvmlPciInfo_t;
/* P2P Capability Index Status*/
typedef enum nvmlGpuP2PStatus_enum
{
NVML_P2P_STATUS_OK = 0,
NVML_P2P_STATUS_CHIPSET_NOT_SUPPORED,
NVML_P2P_STATUS_GPU_NOT_SUPPORTED,
NVML_P2P_STATUS_IOH_TOPOLOGY_NOT_SUPPORTED,
NVML_P2P_STATUS_DISABLED_BY_REGKEY,
NVML_P2P_STATUS_NOT_SUPPORTED,
NVML_P2P_STATUS_UNKNOWN
} nvmlGpuP2PStatus_t;
/* P2P Capability Index*/
typedef enum nvmlGpuP2PCapsIndex_enum
{
NVML_P2P_CAPS_INDEX_READ = 0,
NVML_P2P_CAPS_INDEX_WRITE,
NVML_P2P_CAPS_INDEX_NVLINK,
NVML_P2P_CAPS_INDEX_ATOMICS,
NVML_P2P_CAPS_INDEX_PROP,
NVML_P2P_CAPS_INDEX_UNKNOWN
} nvmlGpuP2PCapsIndex_t;
/**
* Represents the type for sample value returned
*/
typedef enum nvmlValueType_enum
{
NVML_VALUE_TYPE_DOUBLE = 0,
NVML_VALUE_TYPE_UNSIGNED_INT = 1,
NVML_VALUE_TYPE_UNSIGNED_LONG = 2,
NVML_VALUE_TYPE_UNSIGNED_LONG_LONG = 3,
NVML_VALUE_TYPE_SIGNED_LONG_LONG = 4,
// Keep this last
NVML_VALUE_TYPE_COUNT
}nvmlValueType_t;
/**
* Union to represent different types of Value
*/
typedef union nvmlValue_st
{
double dVal; //!< If the value is double
unsigned int uiVal; //!< If the value is unsigned int
unsigned long ulVal; //!< If the value is unsigned long
unsigned long long ullVal; //!< If the value is unsigned long long
signed long long sllVal; //!< If the value is signed long long
}nvmlValue_t;
/**
* Field Identifiers.
*
* All Identifiers pertain to a device. Each ID is only used once and is guaranteed never to change.
*/
/* NVLink Speed */
#define NVML_FI_DEV_NVLINK_SPEED_MBPS_COMMON 90 //!< Common NVLink Speed in MBps for active links
#define NVML_FI_DEV_NVLINK_LINK_COUNT 91 //!< Number of NVLinks present on the device
/**
* Remote device NVLink ID
*
* Link ID needs to be specified in the scopeId field in nvmlFieldValue_t.
*/
#define NVML_FI_DEV_NVLINK_REMOTE_NVLINK_ID 146 //!< Remote device NVLink ID
/**
* NVSwitch: connected NVLink count
*/
#define NVML_FI_DEV_NVSWITCH_CONNECTED_LINK_COUNT 147 //!< Number of NVLinks connected to NVSwitch
#define NVML_FI_DEV_NVLINK_GET_SPEED 164
#define NVML_FI_DEV_NVLINK_GET_STATE 165
#define NVML_FI_DEV_NVLINK_GET_VERSION 166
#define NVML_FI_DEV_C2C_LINK_COUNT 170 //!< Number of C2C Links present on the device
#define NVML_FI_DEV_C2C_LINK_GET_STATUS 171 //!< C2C Link Status 0=INACTIVE 1=ACTIVE
#define NVML_FI_DEV_C2C_LINK_GET_MAX_BW 172 //!< C2C Link Speed in MBps for active links
#define NVML_FI_MAX 173 //!< One greater than the largest field ID defined above
/**
* Information for a Field Value Sample
*/
typedef struct nvmlFieldValue_st
{
unsigned int fieldId; //!< ID of the NVML field to retrieve. This must be set before any call that uses this struct. See the constants starting with NVML_FI_ above.
unsigned int scopeId; //!< Scope ID can represent data used by NVML depending on fieldId's context. For example, for NVLink throughput counter data, scopeId can represent linkId.
long long timestamp; //!< CPU Timestamp of this value in microseconds since 1970
long long latencyUsec; //!< How long this field value took to update (in usec) within NVML. This may be averaged across several fields that are serviced by the same driver call.
nvmlValueType_t valueType; //!< Type of the value stored in value
nvmlReturn_t nvmlReturn; //!< Return code for retrieving this value. This must be checked before looking at value, as value is undefined if nvmlReturn != NVML_SUCCESS
nvmlValue_t value; //!< Value for this field. This is only valid if nvmlReturn == NVML_SUCCESS
} nvmlFieldValue_t;
#define NVML_GPU_FABRIC_UUID_LEN 16
#define NVML_GPU_FABRIC_STATE_NOT_SUPPORTED 0
#define NVML_GPU_FABRIC_STATE_NOT_STARTED 1
#define NVML_GPU_FABRIC_STATE_IN_PROGRESS 2
#define NVML_GPU_FABRIC_STATE_COMPLETED 3
typedef unsigned char nvmlGpuFabricState_t;
typedef struct {
unsigned char clusterUuid[NVML_GPU_FABRIC_UUID_LEN]; //!< Uuid of the cluster to which this GPU belongs
nvmlReturn_t status; //!< Error status, if any. Must be checked only if state returns "complete".
unsigned int cliqueId; //!< ID of the fabric clique to which this GPU belongs
nvmlGpuFabricState_t state; //!< Current state of GPU registration process
} nvmlGpuFabricInfo_t;
#define NVML_GPU_FABRIC_HEALTH_MASK_DEGRADED_BW_NOT_SUPPORTED 0
#define NVML_GPU_FABRIC_HEALTH_MASK_DEGRADED_BW_TRUE 1
#define NVML_GPU_FABRIC_HEALTH_MASK_DEGRADED_BW_FALSE 2
#define NVML_GPU_FABRIC_HEALTH_MASK_SHIFT_DEGRADED_BW 0
#define NVML_GPU_FABRIC_HEALTH_MASK_WIDTH_DEGRADED_BW 0x11
/**
* GPU Fabric Health Status Mask for various fields can be obtained
* using the below macro.
* Ex - NVML_GPU_FABRIC_HEALTH_GET(var, _DEGRADED_BW)
*/
#define NVML_GPU_FABRIC_HEALTH_GET(var, type) \
(((var) >> NVML_GPU_FABRIC_HEALTH_MASK_SHIFT##type) & \
(NVML_GPU_FABRIC_HEALTH_MASK_WIDTH##type))
/**
* GPU Fabric Health Status Mask for various fields can be tested
* using the below macro.
* Ex - NVML_GPU_FABRIC_HEALTH_TEST(var, _DEGRADED_BW, _TRUE)
*/
#define NVML_GPU_FABRIC_HEALTH_TEST(var, type, val) \
(NVML_GPU_FABRIC_HEALTH_GET(var, type) == \
NVML_GPU_FABRIC_HEALTH_MASK##type##val)
/**
* GPU Fabric information (v2).
*
* Version 2 adds the \ref nvmlGpuFabricInfo_v2_t.version field
* to the start of the structure, and the \ref nvmlGpuFabricInfo_v2_t.healthMask
* field to the end. This structure is not backwards-compatible with
* \ref nvmlGpuFabricInfo_t.
*/
typedef struct {
unsigned int version; //!< Structure version identifier (set to \ref nvmlGpuFabricInfo_v2)
unsigned char clusterUuid[NVML_GPU_FABRIC_UUID_LEN]; //!< Uuid of the cluster to which this GPU belongs
nvmlReturn_t status; //!< Error status, if any. Must be checked only if state returns "complete".
unsigned int cliqueId; //!< ID of the fabric clique to which this GPU belongs
nvmlGpuFabricState_t state; //!< Current state of GPU registration process
unsigned int healthMask; //!< GPU Fabric health Status Mask
} nvmlGpuFabricInfo_v2_t;
typedef nvmlGpuFabricInfo_v2_t nvmlGpuFabricInfoV_t;
/**
* Version identifier value for \ref nvmlGpuFabricInfo_v2_t.version.
*/
#define nvmlGpuFabricInfo_v2 NVML_STRUCT_VERSION(GpuFabricInfo, 2)
/**
* Confidential Compute Feature Status values
*/
#define NVML_CC_SYSTEM_FEATURE_DISABLED 0
#define NVML_CC_SYSTEM_FEATURE_ENABLED 1
typedef struct nvmlConfComputeSystemState_st {
unsigned int environment;
unsigned int ccFeature;
unsigned int devToolsMode;
} nvmlConfComputeSystemState_t;
/**
* Confidential Compute Multigpu mode values
*/
#define NVML_CC_SYSTEM_MULTIGPU_NONE 0
#define NVML_CC_SYSTEM_MULTIGPU_PROTECTED_PCIE 1
/**
* Confidential Compute System settings
*/
typedef struct {
unsigned int version;
unsigned int environment;
unsigned int ccFeature;
unsigned int devToolsMode;
unsigned int multiGpuMode;
} nvmlSystemConfComputeSettings_v1_t;
typedef nvmlSystemConfComputeSettings_v1_t nvmlSystemConfComputeSettings_t;
#define nvmlSystemConfComputeSettings_v1 NVML_STRUCT_VERSION(SystemConfComputeSettings, 1)
/* End of nvml.h */
#endif // NCCL_NVML_DIRECT
constexpr int ncclNvmlMaxDevices = 32;
struct ncclNvmlDeviceInfo {
nvmlDevice_t handle;
int computeCapabilityMajor, computeCapabilityMinor;
};
struct ncclNvmlDevicePairInfo {
nvmlGpuP2PStatus_t p2pStatusRead, p2pStatusWrite;
};
extern int ncclNvmlDeviceCount;
extern ncclNvmlDeviceInfo ncclNvmlDevices[ncclNvmlMaxDevices];
extern ncclNvmlDevicePairInfo ncclNvmlDevicePairs[ncclNvmlMaxDevices][ncclNvmlMaxDevices];
struct ncclNvmlCCStatus {
bool CCEnabled;
bool multiGpuProtectedPCIE;
};
// All ncclNvmlFoo() functions call ncclNvmlEnsureInitialized() implicitly.
// Outsiders need only call it if they want to inspect the ncclNvml global
// tables above.
ncclResult_t ncclNvmlEnsureInitialized();
ncclResult_t ncclNvmlDeviceGetHandleByPciBusId(const char* pciBusId, nvmlDevice_t* device);
ncclResult_t ncclNvmlDeviceGetIndex(nvmlDevice_t device, unsigned* index);
ncclResult_t ncclNvmlDeviceGetHandleByIndex(unsigned int index, nvmlDevice_t *device);
ncclResult_t ncclNvmlDeviceGetNvLinkState(nvmlDevice_t device, unsigned int link, nvmlEnableState_t *isActive);
ncclResult_t ncclNvmlDeviceGetNvLinkRemotePciInfo(nvmlDevice_t device, unsigned int link, nvmlPciInfo_t *pci);
ncclResult_t ncclNvmlDeviceGetNvLinkCapability(nvmlDevice_t device, unsigned int link, nvmlNvLinkCapability_t capability, unsigned int *capResult);
ncclResult_t ncclNvmlDeviceGetCudaComputeCapability(nvmlDevice_t device, int* major, int* minor);
ncclResult_t ncclNvmlDeviceGetP2PStatus(nvmlDevice_t device1, nvmlDevice_t device2, nvmlGpuP2PCapsIndex_t p2pIndex, nvmlGpuP2PStatus_t* p2pStatus);
ncclResult_t ncclNvmlDeviceGetFieldValues(nvmlDevice_t device, int valuesCount, nvmlFieldValue_t *values);
ncclResult_t ncclNvmlDeviceGetGpuFabricInfoV(nvmlDevice_t device, nvmlGpuFabricInfoV_t *gpuFabricInfo);
ncclResult_t ncclNvmlGetCCStatus(struct ncclNvmlCCStatus *status);
#endif // End include guard