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T4
Running
on
T4
import numpy as np | |
import tqdm | |
import os | |
""" | |
Preprocessing for the SO(2)/torus sampling and score computations, truncated infinite series are computed and then | |
cached to memory, therefore the precomputation is only run the first time the repository is run on a machine | |
""" | |
def p(x, sigma, N=10): | |
p_ = 0 | |
for i in tqdm.trange(-N, N + 1): | |
p_ += np.exp(-(x + 2 * np.pi * i) ** 2 / 2 / sigma ** 2) | |
return p_ | |
def grad(x, sigma, N=10): | |
p_ = 0 | |
for i in tqdm.trange(-N, N + 1): | |
p_ += (x + 2 * np.pi * i) / sigma ** 2 * np.exp(-(x + 2 * np.pi * i) ** 2 / 2 / sigma ** 2) | |
return p_ | |
X_MIN, X_N = 1e-5, 5000 # relative to pi | |
SIGMA_MIN, SIGMA_MAX, SIGMA_N = 3e-3, 2, 5000 # relative to pi | |
x = 10 ** np.linspace(np.log10(X_MIN), 0, X_N + 1) * np.pi | |
sigma = 10 ** np.linspace(np.log10(SIGMA_MIN), np.log10(SIGMA_MAX), SIGMA_N + 1) * np.pi | |
if os.path.exists('.p.npy'): | |
p_ = np.load('.p.npy') | |
score_ = np.load('.score.npy') | |
else: | |
p_ = p(x, sigma[:, None], N=100) | |
np.save('.p.npy', p_) | |
score_ = grad(x, sigma[:, None], N=100) / p_ | |
np.save('.score.npy', score_) | |
def score(x, sigma): | |
x = (x + np.pi) % (2 * np.pi) - np.pi | |
sign = np.sign(x) | |
x = np.log(np.abs(x) / np.pi) | |
x = (x - np.log(X_MIN)) / (0 - np.log(X_MIN)) * X_N | |
x = np.round(np.clip(x, 0, X_N)).astype(int) | |
sigma = np.log(sigma / np.pi) | |
sigma = (sigma - np.log(SIGMA_MIN)) / (np.log(SIGMA_MAX) - np.log(SIGMA_MIN)) * SIGMA_N | |
sigma = np.round(np.clip(sigma, 0, SIGMA_N)).astype(int) | |
return -sign * score_[sigma, x] | |
def p(x, sigma): | |
x = (x + np.pi) % (2 * np.pi) - np.pi | |
x = np.log(np.abs(x) / np.pi) | |
x = (x - np.log(X_MIN)) / (0 - np.log(X_MIN)) * X_N | |
x = np.round(np.clip(x, 0, X_N)).astype(int) | |
sigma = np.log(sigma / np.pi) | |
sigma = (sigma - np.log(SIGMA_MIN)) / (np.log(SIGMA_MAX) - np.log(SIGMA_MIN)) * SIGMA_N | |
sigma = np.round(np.clip(sigma, 0, SIGMA_N)).astype(int) | |
return p_[sigma, x] | |
def sample(sigma): | |
out = sigma * np.random.randn(*sigma.shape) | |
out = (out + np.pi) % (2 * np.pi) - np.pi | |
return out | |
score_norm_ = score( | |
sample(sigma[None].repeat(10000, 0).flatten()), | |
sigma[None].repeat(10000, 0).flatten() | |
).reshape(10000, -1) | |
score_norm_ = (score_norm_ ** 2).mean(0) | |
def score_norm(sigma): | |
sigma = np.log(sigma / np.pi) | |
sigma = (sigma - np.log(SIGMA_MIN)) / (np.log(SIGMA_MAX) - np.log(SIGMA_MIN)) * SIGMA_N | |
sigma = np.round(np.clip(sigma, 0, SIGMA_N)).astype(int) | |
return score_norm_[sigma] | |