b1a65afd58
* Fix build on additional architectures Instead of directly wrapping a platform-specific operation with a preprocessor check against a gfx macro, it can be more flexible to check a macro that can be overriden by the user. The gfx macro can then just provide the default value for the macro, resulting in the same default behaviour as if the gfx macro was checked directly but with more control at build-time. For example, to build rccl without using buffer_wbinvl1_vol on gfx902, but still use the default on other archs, a user could export CXXFLAGS='-Xarch_gfx902 -DRCCL_USE_WBINVL1_VOL=1' before configuring the build. This flexibility isn't always necessary, but it's nicer to have it and not need it than to need it and not have it. * Define WARP_SIZE using warpSize builtin
473 行
14 KiB
C++
473 行
14 KiB
C++
/*************************************************************************
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* Copyright (c) 2015-2022, NVIDIA CORPORATION. All rights reserved.
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* Modifications Copyright (c) 2019-2022 Advanced Micro Devices, Inc. All rights reserved.
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*
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* See LICENSE.txt for license information
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************************************************************************/
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#ifndef NCCL_DEVICE_H_
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#define NCCL_DEVICE_H_
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#include "nccl.h"
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#include "rccl_bfloat16.h"
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#include "align.h"
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#if defined(ENABLE_NPKIT)
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#include "npkit/npkit_struct.h"
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#endif
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#include <stdint.h>
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#define NCCL_NUM_FUNCTIONS 5 // SendRecv and AllToAllPivot not included for now
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typedef enum { ncclFuncBroadcast, ncclFuncReduce, ncclFuncAllGather, ncclFuncReduceScatter, ncclFuncAllReduce, ncclFuncSendRecv, ncclFuncSend, ncclFuncRecv, ncclFuncAllToAllPivot, ncclNumFuncs} ncclFunc_t;
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extern const char* ncclFuncStr[NCCL_NUM_FUNCTIONS+2];
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#define NCCL_NUM_ALGORITHMS 5 // Tree/Ring/CollNet*
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#define NCCL_ALGO_TREE 0
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#define NCCL_ALGO_RING 1
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#define NCCL_ALGO_COLLNET_DIRECT 2
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#define NCCL_ALGO_COLLNET_CHAIN 3
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#define NCCL_ALGO_NVLS 4
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extern const char* ncclAlgoStr[NCCL_NUM_ALGORITHMS];
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#define NCCL_NUM_PROTOCOLS 3 // Simple/LL/LL128
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#define NCCL_PROTO_LL 0
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#define NCCL_PROTO_LL128 1
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#define NCCL_PROTO_SIMPLE 2
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extern const char* ncclProtoStr[NCCL_NUM_PROTOCOLS];
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#define NCCL_MAX_OPS 2048
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#define NCCL_STEPS 8
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union ncclLLFifoLine {
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/* Flags have to be *after* data, because otherwise, an incomplete receive
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from the network may receive the flag but not the data.
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Note this is assuming that either we receive contiguous chunks of data
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(sockets) or data is written with an atomicity of 8 bytes (IB/RDMA). */
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struct {
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uint32_t data1;
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uint32_t flag1;
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uint32_t data2;
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uint32_t flag2;
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};
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uint64_t v[2];
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int4 i4;
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};
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#define WARP_SIZE warpSize
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#define MAXCHANNELS 32
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#define NCCL_MAX_NTHREADS 256
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#define NCCL_SIMPLE_MAX_NTHREADS NCCL_MAX_NTHREADS
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#define NCCL_LL_MAX_NTHREADS NCCL_MAX_NTHREADS
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#define NCCL_LL_LINES_PER_THREAD 8
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#ifdef TEST_LL_CLEANUP
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#define NCCL_LL_CLEAN_MASK 0x078 // Set to 0x100 to disable cleanup
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#define NCCL_LL_FLAG_MAX 0x100
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#define NCCL_LL_FLAG(a) ((uint32_t)((a) % NCCL_LL_FLAG_MAX))
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#else
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#define NCCL_LL_CLEAN_MASK 0x7ffffff8
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#define NCCL_LL_FLAG(a) ((uint32_t)(a))
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#endif
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// Make sure the clean mask will last for at least NCCL_NSTEPS
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static_assert(NCCL_LL_CLEAN_MASK % NCCL_STEPS == 0, "Invalid NCCL_LL_CLEAN_MASK value");
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#define NCCL_LL128_LINESIZE 64
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#define NCCL_LL128_LINEELEMS (NCCL_LL128_LINESIZE/sizeof(uint64_t))
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#define NCCL_LL128_DATAELEMS (NCCL_LL128_LINEELEMS-1)
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#define NCCL_LL128_MAX_NTHREADS 256
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#define NCCL_LL128_ELEMS_PER_THREAD 28
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#define NCCL_LL128_SHMEM_ELEMS_PER_THREAD 4
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#define NCCL_LL128_SHMEM_SIZE (NCCL_LL128_SHMEM_ELEMS_PER_THREAD*NCCL_LL128_MAX_NTHREADS)
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#define NCCL_DIRECT_WRITE 0x01
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#define NCCL_DIRECT_READ 0x02
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#define NCCL_DIRECT_NIC 0x04
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#define NCCL_IPC_WRITE 0x08
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#define NCCL_IPC_READ 0x10
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#define NCCL_NVLS_MIN_POLL 0x20
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struct ncclConnInfo {
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// Regular comm mechanism
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char *buffs[NCCL_NUM_PROTOCOLS]; // Local for recv, remote for send
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uint64_t *tail; // Local for recv, remote for send
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uint64_t *head; // Local for send, remote for recv
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int flags; // Direct communication / other flags
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int shared; // Buffers are shared
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void **ptrExchange; // Pointer exchange for direct communication
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uint64_t* redOpArgExchange; // PreOp scaler exchange for direct pull case
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int *sizesFifo; // Sizes fifo from GPU to proxy
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int *offsFifo; // Buffer fifo from proxy to GPU
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uint64_t step; // Keep where we are
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uint64_t llLastCleaning;
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// GPU's HDP_MEM_FLUSH_ADDR: HDP Memory Coherency Flush Control. This register
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// allows software to explicitly initiate a flush read to HDP memory. See more
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// descriptions in primitives.h.
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uint32_t* next_hdp_reg; // Next GPU in ring (for p2p transport use only)
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uint32_t* curr_hdp_reg; // Current GPU's HDP register
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};
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struct ncclProxyConnector {
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int rank;
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int localRank;
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struct ncclProxyConnection* connection;
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struct ncclComm* comm;
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};
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struct ncclConnector {
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int connected;
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struct ncclProxyConnector proxyConn;
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struct ncclTransportComm* transportComm;
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void* transportResources;
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struct ncclConnInfo conn;
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struct ncclComm *comm;
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};
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struct ncclRing {
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// Shortcuts for userRanks[1] and userRanks[n-1]
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int prev;
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int next;
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// Maps an internal nccl index to user-specified rank order. This is necessary
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// since we need to know how the user expects data to be ordered across
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// devices. Ordered from current device.
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int* userRanks;
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int index; // This rank's index in the ring
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};
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#define NCCL_MAX_TREE_ARITY 3
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struct ncclTree {
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int depth;
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int up;
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int down[NCCL_MAX_TREE_ARITY];
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};
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#define NCCL_MAX_DIRECT_ARITY 7
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struct ncclDirect {
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int depth;
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int out;
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int nHeads; // Number of parallel N<->1<->net operations we'll do in parallel; size of up/down
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int headRank; // Index in 0..nHeads-1 I am the head rank of. -1 if I'm not a head rank (no local NIC)
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int shift; // Shuffling of send/recv for scatter/gather operations, basically localRank%nHeads
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int up[NCCL_MAX_DIRECT_ARITY];
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int down[NCCL_MAX_DIRECT_ARITY];
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};
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#define NCCL_CONN_IDX_P2P_NET 2
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#define NCCL_MAX_NVLS_ARITY 8
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struct ncclNvls {
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int out;
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int nHeads; // Number of parallel N<->1<->net operations we'll do in parallel; size of up/down
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int headRank; // Index in 0..nHeads-1 I am the head rank of. -1 if I'm not a head rank (no local NIC)
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int up[NCCL_MAX_NVLS_ARITY];
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int down;
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};
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#define NCCL_MAX_CONNS 3
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struct ncclChannelPeer {
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struct ncclConnector send[NCCL_MAX_CONNS];
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struct ncclConnector recv[NCCL_MAX_CONNS];
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};
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struct ncclDevComm;
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#pragma pack(push) /* push current alignment to stack */
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#pragma pack(8) /* set alignment to 8 bytes boundary */
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/* ncclWork is to be a power of two, currently 8x64 bytes, */
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/* to make sure reads to host from the CUDA kernel are aligned. */
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/* Make sure to adjust padding at the end of ncclWorkElem. */
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#define NCCL_WORK_SIZE 256
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enum ncclWorkType : uint8_t {
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ncclWorkTypeUnused=0,
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ncclWorkTypeColl=1,
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ncclWorkTypeP2p=2,
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ncclWorkTypeRegColl=3
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};
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enum ncclWorkP2PType : uint8_t {
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ncclWorkP2pTypeUnused=0,
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ncclWorkP2pTypeSend,
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ncclWorkP2pTypeRecv
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};
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struct ncclWorkHeader {
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union {
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int32_t workNext; // when isLast=0: Offset from kernel argument workHead
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uint32_t doneAcks; // when isLast=1: Monotonic (mod 1<<32) ack value to send back.
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};
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uint16_t funcIndex;
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uint8_t isLast:1; // last work for this kernel
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uint8_t inFifo:1; // is this work in the fifo
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enum ncclWorkType type;
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};
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struct ncclWorkElem {
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union {
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uint8_t flagBits;
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struct {
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uint8_t isUsed:1, redOpArgIsPtr:1, regUsed:1, nWarps:5;
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};
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};
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uint8_t direct;
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uint8_t bid;
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uint8_t nChannels;
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struct {
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uint32_t root:28;
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uint32_t pad_0:2;
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uint32_t connIndex:2;
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};
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const void * sendbuff;
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void * recvbuff;
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size_t count;
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union {
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size_t lastChunkSize;
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// Pivot A2A kernel computes chunk size itself.
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// Instead, it needs the number of bidirectional rings.
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size_t pivotA2ANumBiRings;
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};
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uint64_t redOpArg;
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uint64_t opCount;
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};
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static_assert((NCCL_WORK_SIZE - alignUp(sizeof(ncclWorkHeader), alignof(ncclWorkElem)))/sizeof(ncclWorkElem) == 4, "Sanity check: NCCL_MAX_WORK_ELEMENTS == 4");
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#define NCCL_MAX_WORK_ELEMENTS 1
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struct ncclWorkElemP2p {
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struct {
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int32_t peer:28;
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uint32_t connIndex:2;
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int32_t proto:2;
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};
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union {
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uint16_t flagBits;
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struct {
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enum ncclWorkP2PType p2pType:4;
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uint16_t nWarps:4;
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uint16_t warpStart:4;
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uint16_t ngroups:4;
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};
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};
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uint16_t opCount;
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// Important not to use any fields with greater than 4-byte alignment since
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// we need sizeof(ncclWorkElemP2p)==28, but that would be padded up to 32 if
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// there were 8-byte fields.
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//void* buff;
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uint32_t buffHi32, buffLo32; // buff = buffHi32<<32 | buffLo32;
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//size_t count;
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uint32_t countHi32, countLo32; // count = countHi32<<32 | countLo32;
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int chunkSize;
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};
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static_assert(((NCCL_WORK_SIZE - alignUp(sizeof(ncclWorkHeader), alignof(ncclWorkElemP2p)))/sizeof(ncclWorkElemP2p)) == 8, "Sanity check: NCCL_MAX_WORK_ELEMENTS_P2P == 8");
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#define NCCL_MAX_WORK_ELEMENTS_P2P 2
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struct ncclWorkElemReg {
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struct ncclWorkElem elem;
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void* dnInputs[NCCL_MAX_DIRECT_ARITY+1];
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void* dnOutputs[NCCL_MAX_DIRECT_ARITY+1];
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void* upOutputs[NCCL_MAX_DIRECT_ARITY+1];
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};
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#define NCCL_MAX_WORK_ELEMENTS_REG ((NCCL_WORK_SIZE - alignUp(sizeof(ncclWorkHeader), alignof(ncclWorkElemReg)))/sizeof(ncclWorkElemReg))
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static_assert(NCCL_MAX_WORK_ELEMENTS_REG == 1, "Sanity check: NCCL_MAX_WORK_ELEMENTS_REG == 1");
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// Number of named barriers supported by CUDA
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#define NCCL_MAX_GROUPS (NCCL_MAX_NTHREADS/WARP_SIZE)
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struct ncclWork {
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struct ncclWorkHeader header;
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union {
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char pad[NCCL_WORK_SIZE - sizeof(struct ncclWorkHeader)];
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struct ncclWorkElem elems[NCCL_MAX_WORK_ELEMENTS];
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struct ncclWorkElemP2p p2pElems[NCCL_MAX_WORK_ELEMENTS_P2P];
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struct ncclWorkElemReg regElems[NCCL_MAX_WORK_ELEMENTS_REG];
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};
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};
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static_assert(sizeof(struct ncclWork) == NCCL_WORK_SIZE, "Sanity check: sizeof(struct ncclWork) == NCCL_WORK_SIZE");
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static_assert(sizeof(struct ncclWork)%16 == 0, "Sanity check: sizeof(struct ncclWork)%16 == 0");
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struct ncclDevChannelPeer {
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// Stripped version of ncclChannelPeer where we only keep the ncclConnInfo
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// instead of the full ncclConnector.
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struct ncclConnInfo send[NCCL_MAX_CONNS];
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struct ncclConnInfo recv[NCCL_MAX_CONNS];
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};
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#pragma pack(pop) /* restore original alignment from stack */
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#ifdef ENABLE_PROFILING
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#define PROFILE_NUM_ITEMS 31
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#define PROFILE_NUM_LAUNCHES 1024
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struct ncclProf {
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uint32_t count;
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uint32_t seq; // only entry from first launch is used
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struct {
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uint64_t line:16;
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uint64_t timeStamp:48;
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} elem[PROFILE_NUM_ITEMS];
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};
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static_assert(sizeof(struct ncclProf) == 256, "ncclProf must have size of 256");
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#endif
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#ifdef ENABLE_COLLTRACE
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typedef enum {
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ncclCollTraceNotReady = 0,
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ncclCollTraceKernelLaunchType = 1,
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ncclCollTraceKernelEndType = 2,
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ncclCollTraceCollLaunchType = 3,
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ncclCollTraceAbortType = 4,
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ncclCollTraceDataType = 5,
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ncclCollTraceCollElemType = (1<<4),
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ncclCollTraceP2pElemType = (1<<5),
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} ncclCollTraceDataType_t;
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struct ncclCollTrace {
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uint8_t type;
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uint8_t bid;
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int16_t funcIndex;
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uint32_t data_0;
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uint64_t timeStamp;
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union {
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uint64_t opCount;
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uint32_t p2pOpCount[2];
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};
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union {
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uint64_t data_1;
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struct {
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uint8_t nWarps;
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uint8_t bid;
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uint8_t nChannels;
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} coll;
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struct {
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int16_t peer;
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uint8_t ngroups:4;
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uint8_t connIndex:4;
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uint8_t warpStart:4;
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uint8_t nWarps:4;
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} p2p[2];
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};
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};
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static_assert(sizeof(struct ncclCollTrace) == 8*sizeof(int), "ncclCollTrace must have a pow2 size");
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#define COLLTRACE_NUM_ITEMS 8192
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#endif
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struct alignas(16) ncclDevChannel {
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struct ncclDevChannelPeer *peers;
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struct ncclRing ring;
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struct ncclTree tree;
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struct ncclTree collnetChain;
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struct ncclDirect collnetDirect;
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struct ncclTree binTree;
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struct ncclNvls nvls;
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uint32_t* workFifoDone; // Location of done counter, device writes index+1 of last work processed
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};
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struct ncclDevComm {
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int rank;
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int nRanks;
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int buffSizes[NCCL_NUM_PROTOCOLS];
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// Operation list for aggregation
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int workFifoDepth;
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struct ncclWork* workFifoHeap; // may be cudaHost or GDR memory
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// Flag to ask NCCL kernels to abort
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volatile uint32_t* abortFlag;
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// Channels, device side
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struct ncclDevChannel* channels/*[MAXCHANNELS]*/;
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#if defined(ENABLE_NPKIT)
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NpKitEventCollectContext* npKitEventCollectContexts;
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uint64_t* cpuTimestamp;
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#endif
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#ifdef ENABLE_COLLTRACE
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struct ncclCollTrace* collTrace;
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volatile uint32_t *collTraceTail;
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pthread_t collTraceThread;
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#endif
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#ifdef ENABLE_PROFILING
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struct ncclProf* devProf;
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#endif
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};
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struct alignas(16) ncclDevCommAndChannels {
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struct ncclDevComm comm;
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struct ncclDevChannel channels[MAXCHANNELS];
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};
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#ifdef __CUDA_ARCH__
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#define NCCL_CUDA_ARCH __CUDA_ARCH__
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#else
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#define NCCL_CUDA_ARCH 0
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#endif
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template<typename T>
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__host__ __device__ constexpr T min_constexpr(T a) { return a; }
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template<typename T, typename ...Ts>
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__host__ __device__ constexpr T min_constexpr(T a, T b, Ts ...c) {
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return min_constexpr<T>((a < b ? a : b), c...);
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}
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template<typename T>
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__host__ __device__ constexpr T max_constexpr(T a) { return a; }
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template<typename T, typename ...Ts>
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__host__ __device__ constexpr T max_constexpr(T a, T b, Ts ...c) {
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return max_constexpr<T>((a > b ? a : b), c...);
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}
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// Calculate the unroll factor given:
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// * bytePerPack: number of bytes accessed per instruction
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// * insns: max permissible unroll value
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// * bytes: desired number of in-flight bytes per iteration ( = unroll*bytePerPack)
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__host__ __device__ constexpr int ncclCalcUnroll(int bytePerPack, int insns, int bytes) {
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return min_constexpr(insns, (bytes + bytePerPack-1)/bytePerPack);
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}
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// Note that all unroll value logic should depend on a given cudaArch argument
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// and not __CUDA_ARCH__ since these need to be host-side executable where the
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// arch value is strictly runtime only. By defaulting to NCCL_CUDA_ARCH, device
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// side code can elide passing the arch for brevity.
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__host__ __device__ constexpr int ncclCollUnroll(int cudaArch = NCCL_CUDA_ARCH) {
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// Our collective unroll should move to the same bytes&insns model as NVLS.
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return cudaArch >= 800 ? 8 : 4;
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}
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__host__ __device__ constexpr int ncclNvlsUnrollBytes(int cudaArch = NCCL_CUDA_ARCH) { return 4*16; }
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__host__ __device__ constexpr int ncclNvlsUnrollInsns(int cudaArch = NCCL_CUDA_ARCH) { return 16; }
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__host__ __device__ constexpr int ncclNvlsUnroll(int bytePerPack, int cudaArch = NCCL_CUDA_ARCH) {
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return ncclCalcUnroll(bytePerPack, ncclNvlsUnrollInsns(cudaArch), ncclNvlsUnrollBytes(cudaArch));
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}
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// The amount of dynamic shmem per warp
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__host__ __device__ constexpr int ncclShmemScratchWarpSize(int cudaArch = NCCL_CUDA_ARCH) {
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return (max_constexpr<int>(
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/*LL */0,
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/*LL128 */(NCCL_LL128_SHMEM_ELEMS_PER_THREAD*WARP_SIZE)*sizeof(uint64_t),
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/*SIMPLE*/(ncclCollUnroll(cudaArch)*WARP_SIZE + 1)*16,
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// NVLS needs an extra 16B to read unaligned data.
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/*NVLS */WARP_SIZE*(cudaArch >= 900 ? ncclNvlsUnrollBytes(cudaArch) : 0) + 16
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) + 15) & -16; // pad to 16 bytes
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}
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// The amount of dynamic shmem per block
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__host__ __device__ constexpr int ncclShmemDynamicSize(int cudaArch = NCCL_CUDA_ARCH) {
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return cudaArch < 700 ? 0 : ncclShmemScratchWarpSize(cudaArch)*(NCCL_MAX_NTHREADS/WARP_SIZE);
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}
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#endif
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