Files
nvbench/python
Oleksandr Pavlyk 5e609dab78 Respect custom bulk readers in materiality checks
Move Float32BinarySource material-payload detection into the source object.
Default file-backed sources still use resolved file size so missing or empty
sidecars remain unavailable, but positive-count sources with custom readers are
treated as material and proceed through the lazy read path.

Add regression coverage for virtual bulk sources whose custom reader provides
data without a local sidecar file.
2026-06-30 06:40:45 -05:00
..
2025-07-28 15:37:04 -05:00
2026-02-02 16:03:15 -06:00
2026-01-30 09:32:44 -06:00

CUDA Kernel Benchmarking Package

This package provides a Python API to the CUDA Kernel Benchmarking Library NVBench.

Installation

Install from PyPi

pip install cuda-bench[cu13]  # For CUDA 13.x
pip install cuda-bench[cu12]  # For CUDA 12.x

Building from source

Ensure recent version of CMake

Since nvbench requires a rather new version of CMake (>=3.30.4), either build CMake from sources, or create a conda environment with a recent version of CMake, using

conda create -n build_env --yes  cmake ninja
conda activate build_env

Ensure CUDA compiler

Since building NVBench library requires CUDA compiler, ensure that appropriate environment variables are set. For example, assuming CUDA toolkit is installed system-wide, and assuming Ampere GPU architecture:

export CUDACXX=/usr/local/cuda/bin/nvcc
export CUDAARCHS=86

Build Python project

Now switch to python folder, configure and install NVBench library, and install the package in editable mode:

cd nvbench/python
pip install -e .

Verify that package works

python test/run_1.py

Run examples

# Example benchmarking numba.cuda kernel
python examples/throughput.py
# Example benchmarking kernels authored using cuda.core
python examples/axes.py
# Example benchmarking algorithms from cuda.cccl.parallel
python examples/cccl_parallel_segmented_reduce.py
# Example benchmarking CuPy function
python examples/cupy_extract.py