zeropybench 1.0.0

A multidimensional benchmarking library with minimal overhead

Zero-overhead Python and JAX Reliable Benchmarking

ZeroPyBench is a Python benchmarking library with zero overhead, designed for multidimensional performance analysis.

Features

• Context manager API: Benchmark any code block with with bench(...): ...
• Multidimensional: Tag benchmarks with arbitrary keyword arguments
• Zero overhead: Code is passed directly to timeit.Timer, no wrapper function
• Auto-scaling: Automatically determines the number of iterations for reliable measurements
• Multiple exports: CSV, Parquet, Markdown
• Plotting: Built-in visualization with matplotlib

Quick Example

from zeropybench import Benchmark

bench = Benchmark()

for n in [100, 1000, 10000]:
    data = list(range(n))
    with bench(method='sum', n=n):
        sum(data)
    with bench(method='len', n=n):
        len(data)

Output:

method=sum, n=100: 575.124 ns ± 3.35% (median of 7 runs, 500000 loops each)
method=len, n=100: 19.037 ns ± 0.85% (median of 7 runs, 20000000 loops each)
method=sum, n=1000: 2.961 µs ± 36.70% (median of 7 runs, 50000 loops each)
method=len, n=1000: 19.844 ns ± 38.63% (median of 7 runs, 10000000 loops each)
method=sum, n=10000: 50.208 µs ± 9.89% (median of 7 runs, 5000 loops each)
method=len, n=10000: 28.686 ns ± 1.22% (median of 7 runs, 20000000 loops each)

print(bench)

┌────────┬────────┬────────────────────────────┬───────────┐
│ method ┆ n      ┆ median_execution_time (ns) ┆ ± (%)     │
╞════════╪════════╪════════════════════════════╪═══════════╡
│ sum    ┆ 100    ┆ 575.124442                 ┆ 3.353129  │
│ len    ┆ 100    ┆ 19.036998                  ┆ 0.854601  │
│ sum    ┆ 1_000  ┆ 2_961.25732                ┆ 36.698258 │
│ len    ┆ 1_000  ┆ 19.844193                  ┆ 38.63371  │
│ sum    ┆ 10_000 ┆ 50_207.584997              ┆ 9.894165  │
│ len    ┆ 10_000 ┆ 28.686439                  ┆ 1.22376   │
└────────┴────────┴────────────────────────────┴───────────┘

JAX Support

ZeroPyBench automatically detects JAX arrays and optimizes benchmarking accordingly:

import jax.numpy as jnp
from zeropybench import Benchmark

bench = Benchmark(repeat=20, verbose=True)
x = jnp.ones(1_000_000)
y = jnp.ones(1_000_000)

with bench():
    x + y

Setup code:
    @jax.jit
    def __bench_func(x, y):
        return x + y
Benchmarked code:
    __bench_func(x, y).block_until_ready()
943.426 µs ± 3.98% (median of 20 runs, 500 loops each)

When JAX code is detected, ZeroPyBench:

1. Wraps the code in a JIT-compiled function to measure optimized execution
2. Separates compilation from execution by reporting compilation_time separately
3. Captures the StableHLO representation of the compiled function in the hlo field
4. Uses block_until_ready to ensure accurate timing of asynchronous operations

The benchmark report includes additional fields for JAX:

• first_execution_time: Time of the initial (possibly uncompiled) execution
• compilation_time: Time to lower and compile the function
• hlo: The StableHLO text representation of the compiled computation

report = bench.to_dicts()[0]
print(report['compilation_time'])  # e.g., 12345.67 ns
print(report['hlo'][:100])         # HLO module "jit___bench_func" ...

Installation

pip install zeropybench

Export and Visualization

# Export results
bench.write_csv('results.csv')
bench.write_parquet('results.parquet')
bench.write_markdown('results.md')

# Plot results
bench.plot()
bench.write_plot('results.pdf')

Configuration

Benchmark(
    repeat=7,                     # Number of measurement repetitions
    min_duration_per_repeat=0.2,  # Minimum duration per repeat (seconds)
    verbose=True,                 # Print the setup and benchmarked code
)

License

MIT