ai-content-maker/.venv/Lib/site-packages/numba/cuda/tests/cudapy/test_random.py

105 lines
3.4 KiB
Python
Raw Permalink Normal View History

2024-05-03 04:18:51 +03:00
import math
import numpy as np
from numba import cuda
from numba.cuda.testing import unittest
from numba.cuda.testing import skip_on_cudasim, CUDATestCase
from numba.cuda.random import \
xoroshiro128p_uniform_float32, xoroshiro128p_normal_float32, \
xoroshiro128p_uniform_float64, xoroshiro128p_normal_float64
# Distributions
UNIFORM = 1
NORMAL = 2
@cuda.jit
def rng_kernel_float32(states, out, count, distribution):
thread_id = cuda.grid(1)
for i in range(count):
idx = thread_id * count + i
if distribution == UNIFORM:
out[idx] = xoroshiro128p_uniform_float32(states, thread_id)
elif distribution == NORMAL:
out[idx] = xoroshiro128p_normal_float32(states, thread_id)
@cuda.jit
def rng_kernel_float64(states, out, count, distribution):
thread_id = cuda.grid(1)
for i in range(count):
idx = thread_id * count + i
if distribution == UNIFORM:
out[idx] = xoroshiro128p_uniform_float64(states, thread_id)
elif distribution == NORMAL:
out[idx] = xoroshiro128p_normal_float64(states, thread_id)
class TestCudaRandomXoroshiro128p(CUDATestCase):
def test_create(self):
states = cuda.random.create_xoroshiro128p_states(10, seed=1)
s = states.copy_to_host()
self.assertEqual(len(np.unique(s)), 10)
def test_create_subsequence_start(self):
states = cuda.random.create_xoroshiro128p_states(10, seed=1)
s1 = states.copy_to_host()
states = cuda.random.create_xoroshiro128p_states(10, seed=1,
subsequence_start=3)
s2 = states.copy_to_host()
# Starting seeds should match up with offset of 3
np.testing.assert_array_equal(s1[3:], s2[:-3])
def test_create_stream(self):
stream = cuda.stream()
states = cuda.random.create_xoroshiro128p_states(10, seed=1,
stream=stream)
s = states.copy_to_host()
self.assertEqual(len(np.unique(s)), 10)
def check_uniform(self, kernel_func, dtype):
states = cuda.random.create_xoroshiro128p_states(32 * 2, seed=1)
out = np.zeros(2 * 32 * 32, dtype=np.float32)
kernel_func[2, 32](states, out, 32, UNIFORM)
self.assertAlmostEqual(out.min(), 0.0, delta=1e-3)
self.assertAlmostEqual(out.max(), 1.0, delta=1e-3)
self.assertAlmostEqual(out.mean(), 0.5, delta=1.5e-2)
self.assertAlmostEqual(out.std(), 1.0 / (2 * math.sqrt(3)), delta=6e-3)
def test_uniform_float32(self):
self.check_uniform(rng_kernel_float32, np.float32)
@skip_on_cudasim('skip test for speed under cudasim')
def test_uniform_float64(self):
self.check_uniform(rng_kernel_float64, np.float64)
def check_normal(self, kernel_func, dtype):
states = cuda.random.create_xoroshiro128p_states(32 * 2, seed=1)
out = np.zeros(2 * 32 * 32, dtype=dtype)
kernel_func[2, 32](states, out, 32, NORMAL)
self.assertAlmostEqual(out.mean(), 0.0, delta=4e-3)
self.assertAlmostEqual(out.std(), 1.0, delta=2e-3)
def test_normal_float32(self):
self.check_normal(rng_kernel_float32, np.float32)
@skip_on_cudasim('skip test for speed under cudasim')
def test_normal_float64(self):
self.check_normal(rng_kernel_float64, np.float64)
if __name__ == '__main__':
unittest.main()