nvbench/python/examples/auto_throughput.py

# Copyright 2025 NVIDIA Corporation
#
#  Licensed under the Apache License, Version 2.0 with the LLVM exception
#  (the "License"); you may not use this file except in compliance with
#  the License.
#
#  You may obtain a copy of the License at
#
#      http://llvm.org/foundation/relicensing/LICENSE.txt
#
#  Unless required by applicable law or agreed to in writing, software
#  distributed under the License is distributed on an "AS IS" BASIS,
#  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#  See the License for the specific language governing permissions and
#  limitations under the License.

import sys

import cuda.nvbench as nvbench
import numpy as np
from numba import cuda


def make_kernel(items_per_thread: int):
    @cuda.jit
    def kernel(stride: np.uintp, elements: np.uintp, in_arr, out_arr):
        tid = cuda.grid(1)
        step = cuda.gridDim.x * cuda.blockDim.x
        for i in range(stride * tid, stride * elements, stride * step):
            for j in range(items_per_thread):
                read_id = (items_per_thread * i + j) % elements
                write_id = tid + j * elements
                out_arr[write_id] = in_arr[read_id]

    return kernel


def throughput_bench(state: nvbench.State):
    stride = state.getInt64("Stride")
    ipt = state.getInt64("ItemsPerThread")

    nbytes = 128 * 1024 * 1024
    elements = nbytes // np.dtype(np.int32).itemsize

    alloc_stream = cuda.external_stream(state.getStream().addressof())
    inp_arr = cuda.device_array(elements, dtype=np.int32, stream=alloc_stream)
    out_arr = cuda.device_array(elements * ipt, dtype=np.int32, stream=alloc_stream)

    state.addElementCount(elements, "Elements")
    state.collectCUPTIMetrics()

    threads_per_block = 256
    blocks_in_grid = (elements + threads_per_block - 1) // threads_per_block

    krn = make_kernel(ipt)

    def launcher(launch: nvbench.Launch):
        exec_stream = cuda.external_stream(launch.getStream().addressof())
        krn[blocks_in_grid, threads_per_block, exec_stream, 0](
            stride, elements, inp_arr, out_arr
        )

    state.exec(launcher)


(
    nvbench.register(throughput_bench)
    .addInt64Axis("Stride", [1, 4])
    .addInt64Axis("ItemsPerThread", [1, 2, 3, 4])
)


if __name__ == "__main__":
    print(nvbench.__version__)
    nvbench.run_all_benchmarks(sys.argv)