NousResearch/nccl-tests

NousResearch/nccl-tests

Description: NCCL Tests

License: BSD-3-Clause

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Created: 2026-02-10T19:16:23Z

Pushed: 2026-02-09T18:59:03Z

Default branch: master

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Parent repository: NVIDIA/nccl-tests

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README:

NCCL Tests

These tests check both the performance and the correctness of NCCL operations.

Build

To build the tests, just type make or make -j

If CUDA is not installed in /usr/local/cuda, you may specify CUDA_HOME. Similarly, if NCCL is not installed in /usr, you may specify NCCL_HOME.

$ make CUDA_HOME=/path/to/cuda NCCL_HOME=/path/to/nccl

NCCL tests rely on MPI to work on multiple processes, hence multiple nodes. If you want to compile the tests with MPI support, you need to set MPI=1 and set MPI_HOME to the path where MPI is installed.

$ make MPI=1 MPI_HOME=/path/to/mpi CUDA_HOME=/path/to/cuda NCCL_HOME=/path/to/nccl

You can also add a suffix to the name of the generated binaries with NAME_SUFFIX. For example when compiling with the MPI versions you could use:

$ make MPI=1 NAME_SUFFIX=_mpi MPI_HOME=/path/to/mpi CUDA_HOME=/path/to/cuda NCCL_HOME=/path/to/nccl

This will generate test binaries with names such as all_reduce_perf_mpi.

Usage

NCCL tests can run on multiple processes, multiple threads, and multiple CUDA devices per thread. The number of process is managed by MPI and is therefore not passed to the tests as argument. The total number of ranks (=CUDA devices) will be equal to (number of processes)*(number of threads)*(number of GPUs per thread).

Quick examples

Run on single node with 8 GPUs (-g 8), scanning from 8 Bytes to 128MiB (Mebibytes), doubling between each test (-f 2) :

$ ./build/all_reduce_perf -b 8 -e 128M -f 2 -g 8

Run 64 MPI processes on nodes with 8 GPUs each, for a total of 64 GPUs spread across 8 nodes. Scanning from 8 Bytes to 32GiB (Gibibytes), doubling between each test (-f 2). (NB: The nccl-tests binaries must be compiled with MPI=1 for this case)

$ mpirun -np 64 -N 8 ./build/all_reduce_perf -b 8 -e 8G -f 2 -g 1

Performance

See the [Performance](doc/PERFORMANCE.md) page for explanation about numbers, and in particular the "busbw" column.

Arguments

All tests support the same set of arguments :

• Number of GPUs
• -t,--nthreads number of threads per process. Default : 1.
• -g,--ngpus number of gpus per thread. Default : 1.
• Sizes to scan
• -b,--minbytes minimum size to start with. Default : 32M (Mebibytes).
• -e,--maxbytes maximum size to end at. Default : 32M (Mebibytes).
• Increments can be either fixed or a multiplication factor. Only one of those should be used.
• -i,--stepbytes fixed increment between sizes. Default : 1M (Mebibytes).
• -f,--stepfactor multiplication factor between sizes. Default : disabled.
• NCCL operations arguments
• -o,--op Specify which reduction operation to perform. Only relevant for reduction operations like Allreduce, Reduce or ReduceScatter. Default : Sum.
• -d,--datatype Specify which datatype to use. Default : Float.
• -r,--root Specify which root to use. Only for operations with a root like broadcast or reduce. Default : 0.
• Performance
• -n,--iters number of iterations. Default : 20.
• -w,--warmup_iters number of warmup iterations (not timed). Default : 1.
• -m,--agg_iters number of operations to aggregate together in each iteration. Default : 1.
• -N,--run_cycles run & print each cycle. Default : 1; 0=infinite.
• -a,--average Report performance as an average across all ranks (MPI=1 only). . Default : 1.
• Test operation
• -p,--parallel_init use threads to initialize NCCL in parallel. Default : 0.
• -c,--check perform count iterations, checking correctness of results on each iteration. This can be quite slow on large numbers of GPUs. Default : 1.
• -z,--blocking Make NCCL collective blocking, i.e. have CPUs wait and sync after each collective. Default : 0.
• -G,--cudagraph Capture iterations as a CUDA graph and then replay specified number of times. Default : 0.
• -C,--report_cputime Report CPU time instead of latency. Default : 0.
• -R,--local_register enable local (1) or symmetric (2) buffer registration on send/recv buffers. Default : 0.
• -S,--report_timestamps Add timestamp ("%Y-%m-%d %H:%M:%S") to each performance report line. Default : 0.
• -J,--output_file Write [JSON] output to filepath. Infer type from suffix (only json supported presently).
• -T,--timeout timeout each test after specified number of seconds. Default : disabled.
• -M,--memory_report enable memory usage report. Default : 0

Running multiple operations in parallel

NCCL tests allow to partition the set of GPUs into smaller sets, each executing the same operation in parallel. To split the GPUs, NCCL will compute a "color" for each rank, based on the NCCL_TESTS_SPLIT environment variable, then all ranks with the same color will end up in the same group. The resulting group is printed next to each GPU at the beginning of the test.

NCCL_TESTS_SPLIT takes the following syntax: `. Operation can be AND, OR, MOD or DIV. The &, |, %, and / symbols are also supported. The value can be either decimal, hexadecimal (prefixed by 0x) or binary (prefixed by 0b`).

NCCL_TESTS_SPLIT_MASK="" is equivalent to NCCL_TESTS_SPLIT="&".

Here are a few examples:

• NCCL_TESTS_SPLIT="AND 0x7" or NCCL_TESTS_SPLIT="MOD 8": On systems with 8 GPUs, run 8 parallel operations, each with 1 GPU per node (purely communicating over the inter-node network)

• NCCL_TESTS_SPLIT="OR 0x7" or NCCL_TESTS_SPLIT="DIV 8": On systems with 8 GPUs, run one operation per node, purely intra-node.

• NCCL_TESTS_SPLIT="AND 0x1" or NCCL_TESTS_SPLIT="MOD 2": Run two operations, each operation using every other rank.

Note that the reported bandwidth is per group, hence to get the total bandwidth used by all groups, one must multiply by the number of groups.

Copyright

NCCL tests are provided under the BSD license. All source code and accompanying documentation is copyright (c) 2016-2025, NVIDIA CORPORATION. All rights reserved.