mlx/benchmarks/python/fft_bench.py

# Copyright © 2024 Apple Inc.

import matplotlib
import mlx.core as mx
import numpy as np
import sympy
import torch
from time_utils import measure_runtime

matplotlib.use("Agg")
import matplotlib.pyplot as plt


def bandwidth_gb(runtime_ms, system_size):
    bytes_per_fft = np.dtype(np.complex64).itemsize * 2
    bytes_per_gb = 1e9
    ms_per_s = 1e3
    return system_size * bytes_per_fft / runtime_ms * ms_per_s / bytes_per_gb


def run_bench(system_size, fft_sizes, backend="mlx", dim=1):
    def fft_mlx(x):
        if dim == 1:
            out = mx.fft.fft(x)
        elif dim == 2:
            out = mx.fft.fft2(x)
        mx.eval(out)
        return out

    def fft_mps(x):
        if dim == 1:
            out = torch.fft.fft(x)
        elif dim == 2:
            out = torch.fft.fft2(x)
        torch.mps.synchronize()
        return out

    bandwidths = []
    for n in fft_sizes:
        batch_size = system_size // n**dim
        shape = [batch_size] + [n for _ in range(dim)]
        if backend == "mlx":
            x_np = np.random.uniform(size=(system_size // n, n)).astype(np.complex64)
            x = mx.array(x_np)
            mx.eval(x)
            fft = fft_mlx
        elif backend == "mps":
            x_np = np.random.uniform(size=(system_size // n, n)).astype(np.complex64)
            x = torch.tensor(x_np, device="mps")
            torch.mps.synchronize()
            fft = fft_mps
        else:
            raise NotImplementedError()
        runtime_ms = measure_runtime(fft, x=x)
        bandwidth = bandwidth_gb(runtime_ms, np.prod(shape))
        print(n, bandwidth)
        bandwidths.append(bandwidth)

    return np.array(bandwidths)


def time_fft():
    x = np.array(range(2, 512))
    system_size = int(2**26)

    print("MLX GPU")
    with mx.stream(mx.gpu):
        gpu_bandwidths = run_bench(system_size=system_size, fft_sizes=x)

    print("MPS GPU")
    mps_bandwidths = run_bench(system_size=system_size, fft_sizes=x, backend="mps")

    print("CPU")
    system_size = int(2**20)
    with mx.stream(mx.cpu):
        cpu_bandwidths = run_bench(system_size=system_size, fft_sizes=x)

    x = np.array(x)

    all_indices = x - x[0]
    radix_2to13 = (
        np.array([i for i in x if all(p <= 13 for p in sympy.primefactors(i))]) - x[0]
    )
    bluesteins = (
        np.array([i for i in x if any(p > 13 for p in sympy.primefactors(i))]) - x[0]
    )

    for indices, name in [
        (all_indices, "All"),
        (radix_2to13, "Radix 2-13"),
        (bluesteins, "Bluestein's"),
    ]:
        # plot bandwidths
        print(name)
        plt.scatter(x[indices], gpu_bandwidths[indices], color="green", label="GPU")
        plt.scatter(x[indices], mps_bandwidths[indices], color="blue", label="MPS")
        plt.scatter(x[indices], cpu_bandwidths[indices], color="red", label="CPU")
        plt.title(f"MLX FFT Benchmark -- {name}")
        plt.xlabel("N")
        plt.ylabel("Bandwidth (GB/s)")
        plt.legend()
        plt.savefig(f"{name}.png")
        plt.clf()

    av_gpu_bandwidth = np.mean(gpu_bandwidths)
    av_mps_bandwidth = np.mean(mps_bandwidths)
    av_cpu_bandwidth = np.mean(cpu_bandwidths)
    print("Average bandwidths:")
    print("GPU:", av_gpu_bandwidth)
    print("MPS:", av_mps_bandwidth)
    print("CPU:", av_cpu_bandwidth)

    portion_faster = len(np.where(gpu_bandwidths > mps_bandwidths)[0]) / len(x)
    print("Percent MLX faster than MPS: ", portion_faster * 100)


if __name__ == "__main__":
    time_fft()
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00			`# Copyright © 2024 Apple Inc.`

			`import matplotlib`
			`import mlx.core as mx`
			`import numpy as np`
Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`import sympy`
			`import torch`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00			`from time_utils import measure_runtime`

			`matplotlib.use("Agg")`
			`import matplotlib.pyplot as plt`


			`def bandwidth_gb(runtime_ms, system_size):`
			`bytes_per_fft = np.dtype(np.complex64).itemsize * 2`
			`bytes_per_gb = 1e9`
			`ms_per_s = 1e3`
			`return system_size * bytes_per_fft / runtime_ms * ms_per_s / bytes_per_gb`


Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`def run_bench(system_size, fft_sizes, backend="mlx", dim=1):`
			`def fft_mlx(x):`
			`if dim == 1:`
			`out = mx.fft.fft(x)`
			`elif dim == 2:`
			`out = mx.fft.fft2(x)`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00			`mx.eval(out)`
			`return out`

Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`def fft_mps(x):`
			`if dim == 1:`
			`out = torch.fft.fft(x)`
			`elif dim == 2:`
			`out = torch.fft.fft2(x)`
			`torch.mps.synchronize()`
			`return out`

Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00			`bandwidths = []`
Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`for n in fft_sizes:`
			`batch_size = system_size // n**dim`
			`shape = [batch_size] + [n for _ in range(dim)]`
			`if backend == "mlx":`
			`x_np = np.random.uniform(size=(system_size // n, n)).astype(np.complex64)`
			`x = mx.array(x_np)`
			`mx.eval(x)`
			`fft = fft_mlx`
			`elif backend == "mps":`
			`x_np = np.random.uniform(size=(system_size // n, n)).astype(np.complex64)`
			`x = torch.tensor(x_np, device="mps")`
			`torch.mps.synchronize()`
			`fft = fft_mps`
			`else:`
			`raise NotImplementedError()`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00			`runtime_ms = measure_runtime(fft, x=x)`
Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`bandwidth = bandwidth_gb(runtime_ms, np.prod(shape))`
			`print(n, bandwidth)`
			`bandwidths.append(bandwidth)`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00
Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`return np.array(bandwidths)`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00

			`def time_fft():`
Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`x = np.array(range(2, 512))`
			`system_size = int(2**26)`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00
Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`print("MLX GPU")`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00			`with mx.stream(mx.gpu):`
Feature complete Metal FFT (#1102) * feature complete metal fft * fix contiguity bug * jit fft * simplify rader/bluestein constant computation * remove kernel/utils.h dep * remove bf16.h dep * format --------- Co-authored-by: Alex Barron <abarron22@apple.com> 2024-06-07 03:57:25 +08:00			`gpu_bandwidths = run_bench(system_size=system_size, fft_sizes=x)`

			`print("MPS GPU")`
			`mps_bandwidths = run_bench(system_size=system_size, fft_sizes=x, backend="mps")`

			`print("CPU")`
			`system_size = int(2**20)`
			`with mx.stream(mx.cpu):`
			`cpu_bandwidths = run_bench(system_size=system_size, fft_sizes=x)`

			`x = np.array(x)`

			`all_indices = x - x[0]`
			`radix_2to13 = (`
			`np.array([i for i in x if all(p <= 13 for p in sympy.primefactors(i))]) - x[0]`
			`)`
			`bluesteins = (`
			`np.array([i for i in x if any(p > 13 for p in sympy.primefactors(i))]) - x[0]`
			`)`

			`for indices, name in [`
			`(all_indices, "All"),`
			`(radix_2to13, "Radix 2-13"),`
			`(bluesteins, "Bluestein's"),`
			`]:`
			`# plot bandwidths`
			`print(name)`
			`plt.scatter(x[indices], gpu_bandwidths[indices], color="green", label="GPU")`
			`plt.scatter(x[indices], mps_bandwidths[indices], color="blue", label="MPS")`
			`plt.scatter(x[indices], cpu_bandwidths[indices], color="red", label="CPU")`
			`plt.title(f"MLX FFT Benchmark -- {name}")`
			`plt.xlabel("N")`
			`plt.ylabel("Bandwidth (GB/s)")`
			`plt.legend()`
			`plt.savefig(f"{name}.png")`
			`plt.clf()`

			`av_gpu_bandwidth = np.mean(gpu_bandwidths)`
			`av_mps_bandwidth = np.mean(mps_bandwidths)`
			`av_cpu_bandwidth = np.mean(cpu_bandwidths)`
			`print("Average bandwidths:")`
			`print("GPU:", av_gpu_bandwidth)`
			`print("MPS:", av_mps_bandwidth)`
			`print("CPU:", av_cpu_bandwidth)`

			`portion_faster = len(np.where(gpu_bandwidths > mps_bandwidths)[0]) / len(x)`
			`print("Percent MLX faster than MPS: ", portion_faster * 100)`
Metal FFT for powers of 2 up to 2048 (#915) * add Metal FFT for powers of 2 * skip GPU test on linux * fix contiguity bug * address comments * Update mlx/backend/metal/fft.cpp * Update mlx/backend/metal/fft.cpp * fix bug in synch --------- Co-authored-by: Alex Barron <abarron22@apple.com> Co-authored-by: Awni Hannun <awni.hannun@gmail.com> Co-authored-by: Awni Hannun <awni@apple.com> 2024-04-12 12:40:06 +08:00

			`if __name__ == "__main__":`
			`time_fft()`