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import argparse |
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import os |
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from pathlib import Path |
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import numpy as np |
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import time |
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import datetime |
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import sys |
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import tempfile |
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from torchvision.transforms import Compose, Resize, ToTensor, Normalize, RandomVerticalFlip |
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from torchvision.utils import save_image |
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from PIL import Image |
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from torch.utils.data import DataLoader |
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from modeling_pix2pix import GeneratorUNet, Discriminator |
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from datasets import load_dataset |
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from accelerate import Accelerator |
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import torch.nn as nn |
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import torch |
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from huggan.utils.hub import get_full_repo_name |
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from huggingface_hub import create_repo |
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def parse_args(args=None): |
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parser = argparse.ArgumentParser() |
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parser.add_argument("--dataset", type=str, default="huggan/facades", help="Dataset to use") |
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parser.add_argument("--epoch", type=int, default=0, help="epoch to start training from") |
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parser.add_argument("--n_epochs", type=int, default=200, help="number of epochs of training") |
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parser.add_argument("--batch_size", type=int, default=1, help="size of the batches") |
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parser.add_argument("--lr", type=float, default=0.0002, help="adam: learning rate") |
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parser.add_argument("--b1", type=float, default=0.5, help="adam: decay of first order momentum of gradient") |
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parser.add_argument("--b2", type=float, default=0.999, help="adam: decay of first order momentum of gradient") |
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parser.add_argument("--decay_epoch", type=int, default=100, help="epoch from which to start lr decay") |
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parser.add_argument("--n_cpu", type=int, default=8, help="number of cpu threads to use during batch generation") |
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parser.add_argument("--image_size", type=int, default=256, help="size of images for training") |
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parser.add_argument("--channels", type=int, default=3, help="number of image channels") |
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parser.add_argument( |
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"--sample_interval", type=int, default=500, help="interval between sampling of images from generators" |
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) |
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parser.add_argument("--checkpoint_interval", type=int, default=-1, help="interval between model checkpoints") |
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parser.add_argument("--fp16", action="store_true", help="If passed, will use FP16 training.") |
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parser.add_argument( |
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"--mixed_precision", |
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type=str, |
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default="no", |
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choices=["no", "fp16", "bf16"], |
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help="Whether to use mixed precision. Choose" |
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"between fp16 and bf16 (bfloat16). Bf16 requires PyTorch >= 1.10." |
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"and an Nvidia Ampere GPU.", |
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) |
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parser.add_argument("--cpu", action="store_true", help="If passed, will train on the CPU.") |
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parser.add_argument( |
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"--push_to_hub", |
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action="store_true", |
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help="Whether to push the model to the HuggingFace hub after training.", |
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) |
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parser.add_argument( |
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"--model_name", |
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required="--push_to_hub" in sys.argv, |
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type=str, |
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help="Name of the model on the hub.", |
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) |
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parser.add_argument( |
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"--organization_name", |
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required=False, |
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default="huggan", |
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type=str, |
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help="Organization name to push to, in case args.push_to_hub is specified.", |
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) |
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return parser.parse_args(args=args) |
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def weights_init_normal(m): |
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classname = m.__class__.__name__ |
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if classname.find("Conv") != -1: |
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torch.nn.init.normal_(m.weight.data, 0.0, 0.02) |
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elif classname.find("BatchNorm2d") != -1: |
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torch.nn.init.normal_(m.weight.data, 1.0, 0.02) |
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torch.nn.init.constant_(m.bias.data, 0.0) |
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def training_function(config, args): |
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accelerator = Accelerator(fp16=args.fp16, cpu=args.cpu, mixed_precision=args.mixed_precision) |
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os.makedirs("images/%s" % args.dataset, exist_ok=True) |
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os.makedirs("saved_models/%s" % args.dataset, exist_ok=True) |
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repo_name = get_full_repo_name(args.model_name, args.organization_name) |
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if args.push_to_hub: |
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if accelerator.is_main_process: |
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repo_url = create_repo(repo_name, exist_ok=True) |
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criterion_GAN = torch.nn.MSELoss() |
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criterion_pixelwise = torch.nn.L1Loss() |
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lambda_pixel = 100 |
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patch = (1, args.image_size // 2 ** 4, args.image_size // 2 ** 4) |
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generator = GeneratorUNet() |
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discriminator = Discriminator() |
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if args.epoch != 0: |
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generator.load_state_dict(torch.load("saved_models/%s/generator_%d.pth" % (args.dataset, args.epoch))) |
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discriminator.load_state_dict(torch.load("saved_models/%s/discriminator_%d.pth" % (args.dataset, args.epoch))) |
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else: |
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generator.apply(weights_init_normal) |
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discriminator.apply(weights_init_normal) |
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optimizer_G = torch.optim.Adam(generator.parameters(), lr=args.lr, betas=(args.b1, args.b2)) |
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optimizer_D = torch.optim.Adam(discriminator.parameters(), lr=args.lr, betas=(args.b1, args.b2)) |
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transform = Compose( |
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[ |
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Resize((args.image_size, args.image_size), Image.BICUBIC), |
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ToTensor(), |
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Normalize((0.5, 0.5, 0.5), (0.5, 0.5, 0.5)), |
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] |
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) |
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def transforms(examples): |
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imagesA = [] |
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imagesB = [] |
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for imageA, imageB in zip(examples['imageA'], examples['imageB']): |
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if np.random.random() < 0.5: |
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imageA = Image.fromarray(np.array(imageA)[:, ::-1, :], "RGB") |
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imageB = Image.fromarray(np.array(imageB)[:, ::-1, :], "RGB") |
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imagesA.append(imageA) |
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imagesB.append(imageB) |
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examples["A"] = [transform(image.convert("RGB")) for image in imagesA] |
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examples["B"] = [transform(image.convert("RGB")) for image in imagesB] |
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del examples["imageA"] |
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del examples["imageB"] |
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return examples |
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dataset = load_dataset(args.dataset) |
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transformed_dataset = dataset.with_transform(transforms) |
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splits = transformed_dataset['train'].train_test_split(test_size=0.1) |
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train_ds = splits['train'] |
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val_ds = splits['test'] |
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dataloader = DataLoader(train_ds, shuffle=True, batch_size=args.batch_size, num_workers=args.n_cpu) |
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val_dataloader = DataLoader(val_ds, batch_size=10, shuffle=True, num_workers=1) |
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def sample_images(batches_done, accelerator): |
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"""Saves a generated sample from the validation set""" |
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batch = next(iter(val_dataloader)) |
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real_A = batch["A"] |
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real_B = batch["B"] |
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fake_B = generator(real_A) |
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img_sample = torch.cat((real_A.data, fake_B.data, real_B.data), -2) |
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if accelerator.is_main_process: |
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save_image(img_sample, "images/%s/%s.png" % (args.dataset, batches_done), nrow=5, normalize=True) |
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generator, discriminator, optimizer_G, optimizer_D, dataloader, val_dataloader = accelerator.prepare(generator, discriminator, optimizer_G, optimizer_D, dataloader, val_dataloader) |
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prev_time = time.time() |
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for epoch in range(args.epoch, args.n_epochs): |
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print("Epoch:", epoch) |
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for i, batch in enumerate(dataloader): |
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real_A = batch["A"] |
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real_B = batch["B"] |
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valid = torch.ones((real_A.size(0), *patch), device=accelerator.device) |
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fake = torch.zeros((real_A.size(0), *patch), device=accelerator.device) |
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optimizer_G.zero_grad() |
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fake_B = generator(real_A) |
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pred_fake = discriminator(fake_B, real_A) |
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loss_GAN = criterion_GAN(pred_fake, valid) |
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loss_pixel = criterion_pixelwise(fake_B, real_B) |
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loss_G = loss_GAN + lambda_pixel * loss_pixel |
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accelerator.backward(loss_G) |
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optimizer_G.step() |
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optimizer_D.zero_grad() |
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pred_real = discriminator(real_B, real_A) |
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loss_real = criterion_GAN(pred_real, valid) |
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pred_fake = discriminator(fake_B.detach(), real_A) |
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loss_fake = criterion_GAN(pred_fake, fake) |
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loss_D = 0.5 * (loss_real + loss_fake) |
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accelerator.backward(loss_D) |
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optimizer_D.step() |
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batches_done = epoch * len(dataloader) + i |
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batches_left = args.n_epochs * len(dataloader) - batches_done |
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time_left = datetime.timedelta(seconds=batches_left * (time.time() - prev_time)) |
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prev_time = time.time() |
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sys.stdout.write( |
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"\r[Epoch %d/%d] [Batch %d/%d] [D loss: %f] [G loss: %f, pixel: %f, adv: %f] ETA: %s" |
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% ( |
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epoch, |
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args.n_epochs, |
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i, |
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len(dataloader), |
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loss_D.item(), |
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loss_G.item(), |
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loss_pixel.item(), |
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loss_GAN.item(), |
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time_left, |
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) |
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) |
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if batches_done % args.sample_interval == 0: |
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sample_images(batches_done, accelerator) |
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if args.checkpoint_interval != -1 and epoch % args.checkpoint_interval == 0: |
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if accelerator.is_main_process: |
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unwrapped_generator = accelerator.unwrap_model(generator) |
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unwrapped_discriminator = accelerator.unwrap_model(discriminator) |
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torch.save(unwrapped_generator.state_dict(), "saved_models/%s/generator_%d.pth" % (args.dataset, epoch)) |
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torch.save(unwrapped_discriminator.state_dict(), "saved_models/%s/discriminator_%d.pth" % (args.dataset, epoch)) |
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if args.push_to_hub: |
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if accelerator.is_main_process: |
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with tempfile.TemporaryDirectory() as temp_dir: |
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unwrapped_generator = accelerator.unwrap_model(generator) |
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unwrapped_generator.push_to_hub( |
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repo_path_or_name=temp_dir, |
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repo_url=repo_url, |
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commit_message=f"Training in progress, epoch {epoch}", |
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skip_lfs_files=True |
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) |
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def main(): |
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args = parse_args() |
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print(args) |
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training_function({}, args) |
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if __name__ == "__main__": |
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main() |
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