mlx/benchmarks/python/hadamard_bench.py

import argparse

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

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


def had(x):
    y = mx.hadamard_transform(x)
    mx.eval(y)


def copy(x):
    y = x + 1.0
    mx.eval(y)


def run(dtype):
    system_size = 2**26
    outputs = {}
    for test_fn in (had, copy):
        for m in [1, 12, 20, 28]:
            if test_fn == copy:
                key = "copy"
            elif m == 1:
                key = "had_2^k"
            else:
                key = "had_m*2^k"
            outputs.setdefault(key, {})
            for k in range(7, 14):
                n = m * 2**k
                if n > 2**15:
                    continue
                x_np = np.random.normal(size=(system_size // n, n)).astype(dtype)
                x = mx.array(x_np)
                runtime_ms = measure_runtime(test_fn, x=x)
                bytes_per_gb = 1e9
                ms_per_s = 1e3
                bytes_per_had = np.dtype(x_np.dtype).itemsize * 2
                bandwidth_gb = (
                    system_size * bytes_per_had / runtime_ms * ms_per_s / bytes_per_gb
                )
                print(n, bandwidth_gb)
                outputs[key][n] = bandwidth_gb

    colors = {
        "copy": "black",
        "had_2^k": "steelblue",
        "had_m*2^k": "skyblue",
    }
    for key, output in outputs.items():
        plt.scatter(output.keys(), output.values(), color=colors[key], label=key)
    plt.title(f"MLX Hadamard Benchmark -- {dtype.__name__}")
    plt.xlabel("N")
    plt.ylabel("Bandwidth (GB/s)")
    plt.legend()
    plt.savefig(f"bench_{dtype.__name__}.png")
    plt.clf()


if __name__ == "__main__":
    parser = argparse.ArgumentParser()
    parser.add_argument("--fp16", action="store_true")
    args = parser.parse_args()
    dtype = np.float16 if args.fp16 else np.float32
    run(dtype)
Fast Hadamard Transform (#1249) * Working hadamard for powers of 2 * working for m2^k add scale and check contiguity * add size check * clean up * fix test * add grads + vmap * gpu only * skip on linux * test typo * add cpu impl * remove gpu only tests * fix linux build + add is_equivalent 2024-07-10 11:39:01 +08:00			`import argparse`

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

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


			`def had(x):`
			`y = mx.hadamard_transform(x)`
			`mx.eval(y)`


			`def copy(x):`
			`y = x + 1.0`
			`mx.eval(y)`


			`def run(dtype):`
			`system_size = 2**26`
			`outputs = {}`
			`for test_fn in (had, copy):`
			`for m in [1, 12, 20, 28]:`
			`if test_fn == copy:`
			`key = "copy"`
			`elif m == 1:`
			`key = "had_2^k"`
			`else:`
			`key = "had_m*2^k"`
			`outputs.setdefault(key, {})`
			`for k in range(7, 14):`
			`n = m * 2**k`
			`if n > 2**15:`
			`continue`
			`x_np = np.random.normal(size=(system_size // n, n)).astype(dtype)`
			`x = mx.array(x_np)`
			`runtime_ms = measure_runtime(test_fn, x=x)`
			`bytes_per_gb = 1e9`
			`ms_per_s = 1e3`
			`bytes_per_had = np.dtype(x_np.dtype).itemsize * 2`
			`bandwidth_gb = (`
			`system_size * bytes_per_had / runtime_ms * ms_per_s / bytes_per_gb`
			`)`
			`print(n, bandwidth_gb)`
			`outputs[key][n] = bandwidth_gb`

			`colors = {`
			`"copy": "black",`
			`"had_2^k": "steelblue",`
			`"had_m*2^k": "skyblue",`
			`}`
			`for key, output in outputs.items():`
			`plt.scatter(output.keys(), output.values(), color=colors[key], label=key)`
			`plt.title(f"MLX Hadamard Benchmark -- {dtype.__name__}")`
			`plt.xlabel("N")`
			`plt.ylabel("Bandwidth (GB/s)")`
			`plt.legend()`
			`plt.savefig(f"bench_{dtype.__name__}.png")`
			`plt.clf()`


			`if __name__ == "__main__":`
			`parser = argparse.ArgumentParser()`
			`parser.add_argument("--fp16", action="store_true")`
			`args = parser.parse_args()`
			`dtype = np.float16 if args.fp16 else np.float32`
			`run(dtype)`