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Running
on
Zero
#!/usr/bin/env python | |
# -*- coding:utf-8 -*- | |
# Power by Zongsheng Yue 2021-11-24 20:29:36 | |
import math | |
import torch | |
from pathlib import Path | |
from copy import deepcopy | |
from collections import OrderedDict | |
import torch.nn.functional as F | |
def calculate_parameters(net): | |
out = 0 | |
for param in net.parameters(): | |
out += param.numel() | |
return out | |
def pad_input(x, mod): | |
h, w = x.shape[-2:] | |
bottom = int(math.ceil(h/mod)*mod -h) | |
right = int(math.ceil(w/mod)*mod - w) | |
x_pad = F.pad(x, pad=(0, right, 0, bottom), mode='reflect') | |
return x_pad | |
def forward_chop(net, x, net_kwargs=None, scale=1, shave=10, min_size=160000): | |
n_GPUs = 1 | |
b, c, h, w = x.size() | |
h_half, w_half = h // 2, w // 2 | |
h_size, w_size = h_half + shave, w_half + shave | |
lr_list = [ | |
x[:, :, 0:h_size, 0:w_size], | |
x[:, :, 0:h_size, (w - w_size):w], | |
x[:, :, (h - h_size):h, 0:w_size], | |
x[:, :, (h - h_size):h, (w - w_size):w]] | |
if w_size * h_size < min_size: | |
sr_list = [] | |
for i in range(0, 4, n_GPUs): | |
lr_batch = torch.cat(lr_list[i:(i + n_GPUs)], dim=0) | |
if net_kwargs is None: | |
sr_batch = net(lr_batch) | |
else: | |
sr_batch = net(lr_batch, **net_kwargs) | |
sr_list.extend(sr_batch.chunk(n_GPUs, dim=0)) | |
else: | |
sr_list = [ | |
forward_chop(patch, shave=shave, min_size=min_size) \ | |
for patch in lr_list | |
] | |
h, w = scale * h, scale * w | |
h_half, w_half = scale * h_half, scale * w_half | |
h_size, w_size = scale * h_size, scale * w_size | |
shave *= scale | |
output = x.new(b, c, h, w) | |
output[:, :, 0:h_half, 0:w_half] \ | |
= sr_list[0][:, :, 0:h_half, 0:w_half] | |
output[:, :, 0:h_half, w_half:w] \ | |
= sr_list[1][:, :, 0:h_half, (w_size - w + w_half):w_size] | |
output[:, :, h_half:h, 0:w_half] \ | |
= sr_list[2][:, :, (h_size - h + h_half):h_size, 0:w_half] | |
output[:, :, h_half:h, w_half:w] \ | |
= sr_list[3][:, :, (h_size - h + h_half):h_size, (w_size - w + w_half):w_size] | |
return output | |
def measure_time(net, inputs, num_forward=100): | |
''' | |
Measuring the average runing time (seconds) for pytorch. | |
out = net(*inputs) | |
''' | |
start = torch.cuda.Event(enable_timing=True) | |
end = torch.cuda.Event(enable_timing=True) | |
start.record() | |
with torch.set_grad_enabled(False): | |
for _ in range(num_forward): | |
out = net(*inputs) | |
end.record() | |
torch.cuda.synchronize() | |
return start.elapsed_time(end) / 1000 | |
def reload_model(model, ckpt): | |
module_flag = list(ckpt.keys())[0].startswith('module.') | |
compile_flag = '_orig_mod' in list(ckpt.keys())[0] | |
for source_key, source_value in model.state_dict().items(): | |
target_key = source_key | |
if compile_flag and (not '_orig_mod.' in source_key): | |
target_key = '_orig_mod.' + target_key | |
if module_flag and (not source_key.startswith('module')): | |
target_key = 'module.' + target_key | |
assert target_key in ckpt | |
source_value.copy_(ckpt[target_key]) | |