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rng_philox.hpp
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rng_philox.hpp
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#ifndef __RNG_PHILOX_H__
#define __RNG_PHILOX_H__
#include <cmath>
#include <vector>
#include "rng.hpp"
// RNG imitiating torch cuda randn on CPU.
// Port from: https://github.com/AUTOMATIC1111/stable-diffusion-webui/blob/5ef669de080814067961f28357256e8fe27544f4/modules/rng_philox.py
class PhiloxRNG : public RNG {
private:
uint64_t seed;
uint32_t offset;
private:
std::vector<uint32_t> philox_m = {0xD2511F53, 0xCD9E8D57};
std::vector<uint32_t> philox_w = {0x9E3779B9, 0xBB67AE85};
float two_pow32_inv = 2.3283064e-10f;
float two_pow32_inv_2pi = 2.3283064e-10f * 6.2831855f;
std::vector<uint32_t> uint32(uint64_t x) {
std::vector<uint32_t> result(2);
result[0] = static_cast<uint32_t>(x & 0xFFFFFFFF);
result[1] = static_cast<uint32_t>(x >> 32);
return result;
}
std::vector<std::vector<uint32_t>> uint32(const std::vector<uint64_t>& x) {
uint32_t N = (uint32_t)x.size();
std::vector<std::vector<uint32_t>> result(2, std::vector<uint32_t>(N));
for (uint32_t i = 0; i < N; ++i) {
result[0][i] = static_cast<uint32_t>(x[i] & 0xFFFFFFFF);
result[1][i] = static_cast<uint32_t>(x[i] >> 32);
}
return result;
}
// A single round of the Philox 4x32 random number generator.
void philox4_round(std::vector<std::vector<uint32_t>>& counter,
const std::vector<std::vector<uint32_t>>& key) {
uint32_t N = (uint32_t)counter[0].size();
for (uint32_t i = 0; i < N; i++) {
std::vector<uint32_t> v1 = uint32(static_cast<uint64_t>(counter[0][i]) * static_cast<uint64_t>(philox_m[0]));
std::vector<uint32_t> v2 = uint32(static_cast<uint64_t>(counter[2][i]) * static_cast<uint64_t>(philox_m[1]));
counter[0][i] = v2[1] ^ counter[1][i] ^ key[0][i];
counter[1][i] = v2[0];
counter[2][i] = v1[1] ^ counter[3][i] ^ key[1][i];
counter[3][i] = v1[0];
}
}
// Generates 32-bit random numbers using the Philox 4x32 random number generator.
// Parameters:
// counter : A 4xN array of 32-bit integers representing the counter values (offset into generation).
// key : A 2xN array of 32-bit integers representing the key values (seed).
// rounds : The number of rounds to perform.
// Returns:
// std::vector<std::vector<uint32_t>>: A 4xN array of 32-bit integers containing the generated random numbers.
std::vector<std::vector<uint32_t>> philox4_32(std::vector<std::vector<uint32_t>>& counter,
std::vector<std::vector<uint32_t>>& key,
int rounds = 10) {
uint32_t N = (uint32_t)counter[0].size();
for (int i = 0; i < rounds - 1; ++i) {
philox4_round(counter, key);
for (uint32_t j = 0; j < N; ++j) {
key[0][j] += philox_w[0];
key[1][j] += philox_w[1];
}
}
philox4_round(counter, key);
return counter;
}
float box_muller(float x, float y) {
float u = x * two_pow32_inv + two_pow32_inv / 2;
float v = y * two_pow32_inv_2pi + two_pow32_inv_2pi / 2;
float s = sqrt(-2.0f * log(u));
float r1 = s * sin(v);
return r1;
}
public:
PhiloxRNG(uint64_t seed = 0) {
this->seed = seed;
this->offset = 0;
}
void manual_seed(uint64_t seed) {
this->seed = seed;
this->offset = 0;
}
std::vector<float> randn(uint32_t n) {
std::vector<std::vector<uint32_t>> counter(4, std::vector<uint32_t>(n, 0));
for (uint32_t i = 0; i < n; i++) {
counter[0][i] = this->offset;
}
for (uint32_t i = 0; i < n; i++) {
counter[2][i] = i;
}
this->offset += 1;
std::vector<uint64_t> key(n, this->seed);
std::vector<std::vector<uint32_t>> key_uint32 = uint32(key);
std::vector<std::vector<uint32_t>> g = philox4_32(counter, key_uint32);
std::vector<float> result;
for (uint32_t i = 0; i < n; ++i) {
result.push_back(box_muller((float)g[0][i], (float)g[1][i]));
}
return result;
}
};
#endif // __RNG_PHILOX_H__