Eine aufbereitete Darstellung der Quelle

 
     
 
 
Anforderungen  |   Konzepte  |   Entwurf  |   Entwicklung  |   Qualitätssicherung  |   Lebenszyklus  |   Steuerung
 
 
 
 

Benutzer

Quelle  convert.rs

  Sprache: Rust
 

use criterion::{criterion_group, criterion_main, Bencher, BenchmarkId, Criterion};
use half::prelude::*;
use std::{f32, f64, iter};

const SIMD_LARGE_BENCH_SLICE_LEN: usize = 1024;

fn bench_f32_to_f16(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert f16 From f32");
    for val in &[
        0.,
        -0.,
        1.,
        f32::MIN,
        f32::MAX,
        f32::MIN_POSITIVE,
        f32::NEG_INFINITY,
        f32::INFINITY,
        f32::NAN,
        f32::consts::E,
        f32::consts::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("f16::from_f32", val), val, |b, i| {
            b.iter(|| f16::from_f32(*i))
        });
    }
}

fn bench_f64_to_f16(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert f16 From f64");
    for val in &[
        0.,
        -0.,
        1.,
        f64::MIN,
        f64::MAX,
        f64::MIN_POSITIVE,
        f64::NEG_INFINITY,
        f64::INFINITY,
        f64::NAN,
        f64::consts::E,
        f64::consts::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("f16::from_f64", val), val, |b, i| {
            b.iter(|| f16::from_f64(*i))
        });
    }
}

fn bench_f16_to_f32(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert f16 to f32");
    for val in &[
        f16::ZERO,
        f16::NEG_ZERO,
        f16::ONE,
        f16::MIN,
        f16::MAX,
        f16::MIN_POSITIVE,
        f16::NEG_INFINITY,
        f16::INFINITY,
        f16::NAN,
        f16::E,
        f16::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("f16::to_f32", val), val, |b, i| {
            b.iter(|| i.to_f32())
        });
    }
}

fn bench_f16_to_f64(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert f16 to f64");
    for val in &[
        f16::ZERO,
        f16::NEG_ZERO,
        f16::ONE,
        f16::MIN,
        f16::MAX,
        f16::MIN_POSITIVE,
        f16::NEG_INFINITY,
        f16::INFINITY,
        f16::NAN,
        f16::E,
        f16::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("f16::to_f64", val), val, |b, i| {
            b.iter(|| i.to_f64())
        });
    }
}

criterion_group!(
    f16_sisd,
    bench_f32_to_f16,
    bench_f64_to_f16,
    bench_f16_to_f32,
    bench_f16_to_f64
);

fn bench_slice_f32_to_f16(c: &mut Criterion) {
    let mut constant_buffer = [f16::ZERO; 11];
    let constants = [
        0.,
        -0.,
        1.,
        f32::MIN,
        f32::MAX,
        f32::MIN_POSITIVE,
        f32::NEG_INFINITY,
        f32::INFINITY,
        f32::NAN,
        f32::consts::E,
        f32::consts::PI,
    ];
    c.bench_function(
        "HalfFloatSliceExt::convert_from_f32_slice/constants",
        |b: &mut Bencher<'_>| b.iter(|| constant_buffer.convert_from_f32_slice(&constants)),
    );

    let large: Vec<_> = iter::repeat(0)
        .enumerate()
        .map(|(i, _)| i as f32)
        .take(SIMD_LARGE_BENCH_SLICE_LEN)
        .collect();
    let mut large_buffer = [f16::ZERO; SIMD_LARGE_BENCH_SLICE_LEN];
    c.bench_function(
        "HalfFloatSliceExt::convert_from_f32_slice/large",
        |b: &mut Bencher<'_>| b.iter(|| large_buffer.convert_from_f32_slice(&large)),
    );
}

fn bench_slice_f64_to_f16(c: &mut Criterion) {
    let mut constant_buffer = [f16::ZERO; 11];
    let constants = [
        0.,
        -0.,
        1.,
        f64::MIN,
        f64::MAX,
        f64::MIN_POSITIVE,
        f64::NEG_INFINITY,
        f64::INFINITY,
        f64::NAN,
        f64::consts::E,
        f64::consts::PI,
    ];
    c.bench_function(
        "HalfFloatSliceExt::convert_from_f64_slice/constants",
        |b: &mut Bencher<'_>| b.iter(|| constant_buffer.convert_from_f64_slice(&constants)),
    );

    let large: Vec<_> = iter::repeat(0)
        .enumerate()
        .map(|(i, _)| i as f64)
        .take(SIMD_LARGE_BENCH_SLICE_LEN)
        .collect();
    let mut large_buffer = [f16::ZERO; SIMD_LARGE_BENCH_SLICE_LEN];
    c.bench_function(
        "HalfFloatSliceExt::convert_from_f64_slice/large",
        |b: &mut Bencher<'_>| b.iter(|| large_buffer.convert_from_f64_slice(&large)),
    );
}

fn bench_slice_f16_to_f32(c: &mut Criterion) {
    let mut constant_buffer = [0f32; 11];
    let constants = [
        f16::ZERO,
        f16::NEG_ZERO,
        f16::ONE,
        f16::MIN,
        f16::MAX,
        f16::MIN_POSITIVE,
        f16::NEG_INFINITY,
        f16::INFINITY,
        f16::NAN,
        f16::E,
        f16::PI,
    ];
    c.bench_function(
        "HalfFloatSliceExt::convert_to_f32_slice/constants",
        |b: &mut Bencher<'_>| b.iter(|| constants.convert_to_f32_slice(&mut&nbsp;constant_buffer)),
    );

    let large: Vec<_> = iter::repeat(0)
        .enumerate()
        .map(|(i, _)| f16::from_f32(i as f32))
        .take(SIMD_LARGE_BENCH_SLICE_LEN)
        .collect();
    let mut large_buffer = [0f32; SIMD_LARGE_BENCH_SLICE_LEN];
    c.bench_function(
        "HalfFloatSliceExt::convert_to_f32_slice/large",
        |b: &mut Bencher<'_>| b.iter(|| large.convert_to_f32_slice(&mut large_buffer)),
    );
}

fn bench_slice_f16_to_f64(c: &mut Criterion) {
    let mut constant_buffer = [0f64; 11];
    let constants = [
        f16::ZERO,
        f16::NEG_ZERO,
        f16::ONE,
        f16::MIN,
        f16::MAX,
        f16::MIN_POSITIVE,
        f16::NEG_INFINITY,
        f16::INFINITY,
        f16::NAN,
        f16::E,
        f16::PI,
    ];
    c.bench_function(
        "HalfFloatSliceExt::convert_to_f64_slice/constants",
        |b: &mut Bencher<'_>| b.iter(|| constants.convert_to_f64_slice(&mut&nbsp;constant_buffer)),
    );

    let large: Vec<_> = iter::repeat(0)
        .enumerate()
        .map(|(i, _)| f16::from_f64(i as f64))
        .take(SIMD_LARGE_BENCH_SLICE_LEN)
        .collect();
    let mut large_buffer = [0f64; SIMD_LARGE_BENCH_SLICE_LEN];
    c.bench_function(
        "HalfFloatSliceExt::convert_to_f64_slice/large",
        |b: &mut Bencher<'_>| b.iter(|| large.convert_to_f64_slice(&mut large_buffer)),
    );
}

criterion_group!(
    f16_simd,
    bench_slice_f32_to_f16,
    bench_slice_f64_to_f16,
    bench_slice_f16_to_f32,
    bench_slice_f16_to_f64
);

fn bench_f32_to_bf16(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert bf16 From f32");
    for val in &[
        0.,
        -0.,
        1.,
        f32::MIN,
        f32::MAX,
        f32::MIN_POSITIVE,
        f32::NEG_INFINITY,
        f32::INFINITY,
        f32::NAN,
        f32::consts::E,
        f32::consts::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("bf16::from_f32", val), val, |b, i| {
            b.iter(|| bf16::from_f32(*i))
        });
    }
}

fn bench_f64_to_bf16(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert bf16 From f64");
    for val in &[
        0.,
        -0.,
        1.,
        f64::MIN,
        f64::MAX,
        f64::MIN_POSITIVE,
        f64::NEG_INFINITY,
        f64::INFINITY,
        f64::NAN,
        f64::consts::E,
        f64::consts::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("bf16::from_f64", val), val, |b, i| {
            b.iter(|| bf16::from_f64(*i))
        });
    }
}

fn bench_bf16_to_f32(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert bf16 to f32");
    for val in &[
        bf16::ZERO,
        bf16::NEG_ZERO,
        bf16::ONE,
        bf16::MIN,
        bf16::MAX,
        bf16::MIN_POSITIVE,
        bf16::NEG_INFINITY,
        bf16::INFINITY,
        bf16::NAN,
        bf16::E,
        bf16::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("bf16::to_f32", val), val, |b, i| {
            b.iter(|| i.to_f32())
        });
    }
}

fn bench_bf16_to_f64(c: &mut Criterion) {
    let mut group = c.benchmark_group("Convert bf16 to f64");
    for val in &[
        bf16::ZERO,
        bf16::NEG_ZERO,
        bf16::ONE,
        bf16::MIN,
        bf16::MAX,
        bf16::MIN_POSITIVE,
        bf16::NEG_INFINITY,
        bf16::INFINITY,
        bf16::NAN,
        bf16::E,
        bf16::PI,
    ] {
        group.bench_with_input(BenchmarkId::new("bf16::to_f64", val), val, |b, i| {
            b.iter(|| i.to_f64())
        });
    }
}

criterion_group!(
    bf16_sisd,
    bench_f32_to_bf16,
    bench_f64_to_bf16,
    bench_bf16_to_f32,
    bench_bf16_to_f64
);

criterion_main!(f16_sisd, bf16_sisd, f16_simd);

Messung V0.5 in Prozent
C=100 H=100 G=100

¤ Dauer der Verarbeitung: 0.11 Sekunden  (vorverarbeitet am  2026-06-18) ¤

*© Formatika GbR, Deutschland






Wurzel

Suchen

PVS Prover

Isabelle Prover

NIST Cobol Testsuite

Cephes Mathematical Library

Vienna Development Method

Haftungshinweis

Die Informationen auf dieser Webseite wurden nach bestem Wissen sorgfältig zusammengestellt. Es wird jedoch weder Vollständigkeit, noch Richtigkeit, noch Qualität der bereit gestellten Informationen zugesichert.

Bemerkung:

Die farbliche Syntaxdarstellung und die Messung sind noch experimentell.






                                                                                                                                                                                                                                                                                                                                                                                                     


Neuigkeiten

     Aktuelles
     Motto des Tages

Software

     Quellcodebibliothek
     Eigene Quellcodes
     Fremde Quellcodes
     Suchen

Aktivitäten

     Artikel über Sicherheit
     Anleitung zur Aktivierung von SSL

Muße

     Gedichte
     Musik
     Bilder

Jenseits des Üblichen ....

Besucherstatistik

Besucherstatistik