EveryDream2trainer/train.py

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"""
Copyright [2022] Victor C Hall
Licensed under the GNU Affero General Public License;
You may not use this code except in compliance with the License.
You may obtain a copy of the License at
https://www.gnu.org/licenses/agpl-3.0.en.html
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
"""
import os
import sys
import math
import signal
import argparse
import logging
import time
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import gc
import random
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import torch.nn.functional as torch_functional
from torch.cuda.amp import autocast
import torchvision.transforms as transforms
from colorama import Fore, Style, Cursor
import numpy as np
import itertools
import torch
import datetime
import json
from PIL import Image, ImageDraw, ImageFont
from diffusers import StableDiffusionPipeline, AutoencoderKL, UNet2DConditionModel, DDIMScheduler, DiffusionPipeline, DDPMScheduler, PNDMScheduler, EulerAncestralDiscreteScheduler
#from diffusers.models import AttentionBlock
from diffusers.optimization import get_scheduler
from diffusers.utils.import_utils import is_xformers_available
from transformers import CLIPTextModel, CLIPTokenizer
#from accelerate import Accelerator
from accelerate.utils import set_seed
import wandb
from torch.utils.tensorboard import SummaryWriter
from tqdm.auto import tqdm
from data.every_dream import EveryDreamBatch
from utils.convert_diffusers_to_stable_diffusion import convert as converter
from utils.gpu import GPU
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_SIGTERM_EXIT_CODE = 130
_VERY_LARGE_NUMBER = 1e9
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# def is_notebook() -> bool:
# try:
# from IPython import get_ipython
# shell = get_ipython().__class__.__name__
# if shell == 'ZMQInteractiveShell':
# return True # Jupyter notebook or qtconsole
# elif shell == 'TerminalInteractiveShell':
# return False # Terminal running IPython
# else:
# return False # Other type (?)
# except NameError:
# return False # Probably standard Python interpreter
def clean_filename(filename):
"""
removes all non-alphanumeric characters from a string so it is safe to use as a filename
"""
return "".join([c for c in filename if c.isalpha() or c.isdigit() or c==' ']).rstrip()
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def convert_to_hf(ckpt_path):
hf_cache = os.path.join("ckpt_cache", os.path.basename(ckpt_path))
from utils.patch_unet import patch_unet
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if os.path.isfile(ckpt_path):
if not os.path.exists(hf_cache):
os.makedirs(hf_cache)
logging.info(f"Converting {ckpt_path} to Diffusers format")
try:
import utils.convert_original_stable_diffusion_to_diffusers as convert
convert.convert(ckpt_path, f"ckpt_cache/{ckpt_path}")
except:
logging.info("Please manually convert the checkpoint to Diffusers format, see readme.")
exit()
else:
logging.info(f"Found cached checkpoint at {hf_cache}")
patch_unet(hf_cache)
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return hf_cache
elif os.path.isdir(hf_cache):
patch_unet(hf_cache)
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return hf_cache
else:
return ckpt_path
def setup_local_logger(args):
"""
configures logger with file and console logging, logs args, and returns the datestamp
"""
log_path = args.logdir
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if not os.path.exists(log_path):
os.makedirs(log_path)
json_config = json.dumps(vars(args), indent=2)
datetimestamp = datetime.datetime.now().strftime("%Y%m%d-%H%M%S")
with open(os.path.join(log_path, f"{args.project_name}-{datetimestamp}.json"), "w") as f:
f.write(f"{json_config}")
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logfilename = os.path.join(log_path, f"{args.project_name}-{datetimestamp}.log")
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logging.basicConfig(filename=logfilename,
level=logging.INFO,
format="%(asctime)s %(message)s",
datefmt="%m/%d/%Y %I:%M:%S %p",
)
logging.getLogger().addHandler(logging.StreamHandler(sys.stdout))
return datetimestamp
def log_optimizer(optimizer: torch.optim.Optimizer, betas, epsilon):
"""
logs the optimizer settings
"""
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logging.info(f"{Fore.CYAN} * Optimizer: {optimizer.__class__.__name__} *{Style.RESET_ALL}")
logging.info(f" betas: {betas}, epsilon: {epsilon} *{Style.RESET_ALL}")
def save_optimizer(optimizer: torch.optim.Optimizer, path: str):
"""
Saves the optimizer state
"""
torch.save(optimizer.state_dict(), path)
def load_optimizer(optimizer, path: str):
"""
Loads the optimizer state
"""
optimizer.load_state_dict(torch.load(path))
def get_gpu_memory(nvsmi):
"""
returns the gpu memory usage
"""
gpu_query = nvsmi.DeviceQuery('memory.used, memory.total')
gpu_used_mem = int(gpu_query['gpu'][0]['fb_memory_usage']['used'])
gpu_total_mem = int(gpu_query['gpu'][0]['fb_memory_usage']['total'])
return gpu_used_mem, gpu_total_mem
def append_epoch_log(global_step: int, epoch_pbar, gpu, log_writer, **logs):
"""
updates the vram usage for the epoch
"""
gpu_used_mem, gpu_total_mem = gpu.get_gpu_memory()
log_writer.add_scalar("performance/vram", gpu_used_mem, global_step)
epoch_mem_color = Style.RESET_ALL
if gpu_used_mem > 0.93 * gpu_total_mem:
epoch_mem_color = Fore.LIGHTRED_EX
elif gpu_used_mem > 0.85 * gpu_total_mem:
epoch_mem_color = Fore.LIGHTYELLOW_EX
elif gpu_used_mem > 0.7 * gpu_total_mem:
epoch_mem_color = Fore.LIGHTGREEN_EX
elif gpu_used_mem < 0.5 * gpu_total_mem:
epoch_mem_color = Fore.LIGHTBLUE_EX
if logs is not None:
epoch_pbar.set_postfix(**logs, vram=f"{epoch_mem_color}{gpu_used_mem}/{gpu_total_mem} MB{Style.RESET_ALL} gs:{global_step}")
def set_args_12gb(args):
logging.info(" Setting args to 12GB mode")
if not args.gradient_checkpointing:
logging.info(" Overiding gradient checkpointing to True")
args.gradient_checkpointing = True
if args.batch_size != 1:
logging.info(" Overiding batch size to 1")
args.batch_size = 1
if args.grad_accum != 1:
logging.info(" Overiding grad accum to 1")
args.grad_accum = 1
if args.resolution != 512:
logging.info(" Overiding resolution to 512")
args.resolution = 512
if not args.useadam8bit:
logging.info(" Overiding adam8bit to True")
args.useadam8bit = True
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def main(args):
"""
Main entry point
"""
log_time = setup_local_logger(args)
if args.lowvram:
set_args_12gb(args)
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seed = args.seed if args.seed != -1 else random.randint(0, 2**30)
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set_seed(seed)
gpu = GPU()
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device = torch.device(f"cuda:{args.gpuid}")
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torch.backends.cudnn.benchmark = False
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args.clip_skip = max(min(4, args.clip_skip), 0)
if args.ckpt_every_n_minutes is None and args.save_every_n_epochs is None:
logging.info(f"{Fore.LIGHTCYAN_EX} No checkpoint saving specified, defaulting to every 20 minutes.{Style.RESET_ALL}")
args.ckpt_every_n_minutes = 20
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if args.ckpt_every_n_minutes is None or args.ckpt_every_n_minutes < 1:
args.ckpt_every_n_minutes = _VERY_LARGE_NUMBER
if args.save_every_n_epochs is None or args.save_every_n_epochs < 1:
args.save_every_n_epochs = _VERY_LARGE_NUMBER
if args.save_every_n_epochs < _VERY_LARGE_NUMBER and args.ckpt_every_n_minutes < _VERY_LARGE_NUMBER:
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logging.warning(f"{Fore.LIGHTYELLOW_EX}** Both save_every_n_epochs and ckpt_every_n_minutes are set, this will potentially spam a lot of checkpoints{Style.RESET_ALL}")
logging.warning(f"{Fore.LIGHTYELLOW_EX}** save_every_n_epochs: {args.save_every_n_epochs}, ckpt_every_n_minutes: {args.ckpt_every_n_minutes}{Style.RESET_ALL}")
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if args.cond_dropout > 0.26:
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logging.warning(f"{Fore.LIGHTYELLOW_EX}** cond_dropout is set fairly high: {args.cond_dropout}, make sure this was intended{Style.RESET_ALL}")
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total_batch_size = args.batch_size * args.grad_accum
if args.grad_accum > 1:
logging.info(f"{Fore.CYAN} Batch size: {args.batch_size}, grad accum: {args.grad_accum}, 'effective' batch size: {args.batch_size * args.grad_accum}{Style.RESET_ALL}")
if args.scale_lr is not None and args.scale_lr:
tmp_lr = args.lr
args.lr = args.lr * (total_batch_size**0.55)
logging.info(f"{Fore.CYAN} * Scaling learning rate {tmp_lr} by {total_batch_size**0.5}, new value: {args.lr}{Style.RESET_ALL}")
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log_folder = os.path.join(args.logdir, f"{args.project_name}_{log_time}")
logging.info(f"Logging to {log_folder}")
if not os.path.exists(log_folder):
os.makedirs(log_folder)
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@torch.no_grad()
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def __save_model(save_path, unet, text_encoder, tokenizer, scheduler, vae, save_ckpt_dir):
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"""
Save the model to disk
"""
global global_step
if global_step is None or global_step == 0:
logging.warning(" No model to save, something likely blew up on startup, not saving")
return
logging.info(f" * Saving diffusers model to {save_path}")
pipeline = StableDiffusionPipeline(
vae=vae,
text_encoder=text_encoder,
tokenizer=tokenizer,
unet=unet,
scheduler=scheduler,
safety_checker=None, # save vram
requires_safety_checker=None, # avoid nag
feature_extractor=None, # must be none of no safety checker
)
pipeline.save_pretrained(save_path)
sd_ckpt_path = f"{os.path.basename(save_path)}.ckpt"
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if save_ckpt_dir is not None:
sd_ckpt_full = os.path.join(save_ckpt_dir, sd_ckpt_path)
else:
sd_ckpt_full = os.path.join(os.curdir, sd_ckpt_path)
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logging.info(f" * Saving SD model to {sd_ckpt_full}")
converter(model_path=save_path, checkpoint_path=sd_ckpt_full, half=True)
# optimizer_path = os.path.join(save_path, "optimizer.pt")
# if self.save_optimizer_flag:
# logging.info(f" Saving optimizer state to {save_path}")
# self.save_optimizer(self.ctx.optimizer, optimizer_path)
@torch.no_grad()
def __create_inference_pipe(unet, text_encoder, tokenizer, scheduler, vae):
"""
creates a pipeline for SD inference
"""
pipe = StableDiffusionPipeline(
vae=vae,
text_encoder=text_encoder,
tokenizer=tokenizer,
unet=unet,
scheduler=scheduler,
safety_checker=None, # save vram
requires_safety_checker=None, # avoid nag
feature_extractor=None, # must be none of no safety checker
)
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return pipe
def __generate_sample(pipe: StableDiffusionPipeline, prompt : str, cfg: float, resolution: int, gen):
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"""
generates a single sample at a given cfg scale and saves it to disk
"""
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with torch.no_grad(), autocast():
image = pipe(prompt,
num_inference_steps=30,
num_images_per_prompt=1,
guidance_scale=cfg,
generator=gen,
height=resolution,
width=resolution,
).images[0]
draw = ImageDraw.Draw(image)
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try:
font = ImageFont.truetype(font="arial.ttf", size=20)
except:
font = ImageFont.load_default()
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print_msg = f"cfg:{cfg:.1f}"
l, t, r, b = draw.textbbox(xy=(0,0), text=print_msg, font=font)
text_width = r - l
text_height = b - t
x = float(image.width - text_width - 10)
y = float(image.height - text_height - 10)
draw.rectangle((x, y, image.width, image.height), fill="white")
draw.text((x, y), print_msg, fill="black", font=font)
del draw, font
return image
def __generate_test_samples(pipe, prompts, gs, log_writer, log_folder, random_captions=False, resolution=512):
"""
generates samples at different cfg scales and saves them to disk
"""
logging.info(f"Generating samples gs:{gs}, for {prompts}")
seed = args.seed if args.seed != -1 else random.randint(0, 2**30)
gen = torch.Generator(device="cuda").manual_seed(seed)
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i = 0
for prompt in prompts:
if prompt is None or len(prompt) < 2:
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#logging.warning("empty prompt in sample prompts, check your prompts file")
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continue
images = []
for cfg in [7.0, 4.0, 1.01]:
image = __generate_sample(pipe, prompt, cfg, resolution=resolution, gen=gen)
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images.append(image)
width = 0
height = 0
for image in images:
width += image.width
height = max(height, image.height)
result = Image.new('RGB', (width, height))
x_offset = 0
for image in images:
result.paste(image, (x_offset, 0))
x_offset += image.width
clean_prompt = clean_filename(prompt)
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result.save(f"{log_folder}/samples/gs{gs:05}-{clean_prompt[:100]}.jpg", format="JPEG", quality=95, optimize=True, progressive=False)
with open(f"{log_folder}/samples/gs{gs:05}-{clean_prompt[:100]}.txt", "w") as f:
f.write(prompt)
f.write(f"\n seed: {seed}")
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tfimage = transforms.ToTensor()(result)
if random_captions:
log_writer.add_image(tag=f"sample_{i}", img_tensor=tfimage, global_step=gs)
else:
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log_writer.add_image(tag=f"sample_{i}_{clean_prompt[:100]}", img_tensor=tfimage, global_step=gs)
i += 1
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del result
del tfimage
del images
try:
hf_ckpt_path = convert_to_hf(args.resume_ckpt)
text_encoder = CLIPTextModel.from_pretrained(hf_ckpt_path, subfolder="text_encoder")
vae = AutoencoderKL.from_pretrained(hf_ckpt_path, subfolder="vae")
unet = UNet2DConditionModel.from_pretrained(hf_ckpt_path, subfolder="unet")
#unet.upcast_attention(True)
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scheduler = DDIMScheduler.from_pretrained(hf_ckpt_path, subfolder="scheduler")
tokenizer = CLIPTokenizer.from_pretrained(hf_ckpt_path, subfolder="tokenizer", use_fast=False)
except:
logging.ERROR(" * Failed to load checkpoint *")
if args.gradient_checkpointing:
unet.enable_gradient_checkpointing()
text_encoder.gradient_checkpointing_enable()
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if not args.disable_xformers and is_xformers_available():
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try:
unet.enable_xformers_memory_efficient_attention()
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logging.info("Enabled xformers")
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except Exception as ex:
logging.warning("failed to load xformers, continuing without it")
pass
else:
logging.info("xformers not available or disabled")
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default_lr = 3e-6
curr_lr = args.lr if args.lr is not None else default_lr
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vae = vae.to(device, dtype=torch.float32 if not args.amp else torch.float16)
unet = unet.to(device, dtype=torch.float32 if not args.amp else torch.float16)
text_encoder = text_encoder.to(device, dtype=torch.float32 if not args.amp else torch.float16)
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if args.disable_textenc_training:
logging.info(f"{Fore.CYAN} * NOT Training Text Encoder, quality reduced *{Style.RESET_ALL}")
params_to_train = itertools.chain(unet.parameters())
else:
logging.info(f"{Fore.CYAN} * Training Text Encoder *{Style.RESET_ALL}")
params_to_train = itertools.chain(unet.parameters(), text_encoder.parameters())
betas = (0.9, 0.999)
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epsilon = 1e-8 if not args.amp else 1e-8
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weight_decay = 0.01
if args.useadam8bit:
logging.info(f"{Fore.CYAN} * Using AdamW 8-bit Optimizer *{Style.RESET_ALL}")
import bitsandbytes as bnb
optimizer = bnb.optim.AdamW8bit(
itertools.chain(params_to_train),
lr=curr_lr,
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betas=betas,
eps=epsilon,
weight_decay=weight_decay,
)
else:
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logging.info(f"{Fore.CYAN} * Using AdamW standard Optimizer *{Style.RESET_ALL}")
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optimizer = torch.optim.AdamW(
itertools.chain(params_to_train),
lr=curr_lr,
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betas=betas,
eps=epsilon,
weight_decay=weight_decay,
amsgrad=False,
)
train_batch = EveryDreamBatch(
data_root=args.data_root,
flip_p=args.flip_p,
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debug_level=1,
batch_size=args.batch_size,
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conditional_dropout=args.cond_dropout,
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resolution=args.resolution,
tokenizer=tokenizer,
seed = seed,
log_folder=log_folder,
write_schedule=args.write_schedule,
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)
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torch.cuda.benchmark = False
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epoch_len = math.ceil(len(train_batch) / args.batch_size)
if args.lr_decay_steps is None or args.lr_decay_steps < 1:
args.lr_decay_steps = int(epoch_len * args.max_epochs * 1.5)
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lr_warmup_steps = int(args.lr_decay_steps / 50) if args.lr_warmup_steps is None else args.lr_warmup_steps
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lr_scheduler = get_scheduler(
args.lr_scheduler,
optimizer=optimizer,
num_warmup_steps=lr_warmup_steps,
num_training_steps=args.lr_decay_steps,
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)
sample_prompts = []
with open(args.sample_prompts, "r") as f:
for line in f:
sample_prompts.append(line.strip())
if False: #args.wandb is not None and args.wandb: # not yet supported
log_writer = wandb.init(project="EveryDream2FineTunes",
name=args.project_name,
dir=log_folder,
)
else:
log_writer = SummaryWriter(log_dir=log_folder,
flush_secs=5,
comment="EveryDream2FineTunes",
)
def log_args(log_writer, args):
arglog = "args:\n"
for arg, value in sorted(vars(args).items()):
arglog += f"{arg}={value}, "
log_writer.add_text("config", arglog)
log_args(log_writer, args)
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"""
Train the model
"""
print(f" {Fore.LIGHTGREEN_EX}** Welcome to EveryDream trainer 2.0!**{Style.RESET_ALL}")
print(f" (C) 2022 Victor C Hall This program is licensed under AGPL 3.0 https://www.gnu.org/licenses/agpl-3.0.en.html")
print()
print("** Trainer Starting **")
global interrupted
interrupted = False
def sigterm_handler(signum, frame):
"""
handles sigterm
"""
global interrupted
if not interrupted:
interrupted=True
global global_step
#TODO: save model on ctrl-c
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interrupted_checkpoint_path = os.path.join(f"{log_folder}/ckpts/interrupted-gs{global_step}")
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print()
logging.error(f"{Fore.LIGHTRED_EX} ************************************************************************{Style.RESET_ALL}")
logging.error(f"{Fore.LIGHTRED_EX} CTRL-C received, attempting to save model to {interrupted_checkpoint_path}{Style.RESET_ALL}")
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logging.error(f"{Fore.LIGHTRED_EX} ************************************************************************{Style.RESET_ALL}")
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__save_model(interrupted_checkpoint_path, unet, text_encoder, tokenizer, scheduler, vae, args.save_ckpt_dir)
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exit(_SIGTERM_EXIT_CODE)
signal.signal(signal.SIGINT, sigterm_handler)
if not os.path.exists(f"{log_folder}/samples/"):
os.makedirs(f"{log_folder}/samples/")
gpu_used_mem, gpu_total_mem = gpu.get_gpu_memory()
logging.info(f" Pretraining GPU Memory: {gpu_used_mem} / {gpu_total_mem} MB")
logging.info(f" saving ckpts every {args.ckpt_every_n_minutes} minutes")
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logging.info(f" saving ckpts every {args.save_every_n_epochs } epochs")
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# scaler = torch.cuda.amp.GradScaler(
# #enabled=False,
# enabled=True if args.amp else False,
# init_scale=2**1,
# growth_factor=1.000001,
# backoff_factor=0.9999999,
# growth_interval=50,
# )
#logging.info(f" Grad scaler enabled: {scaler.is_enabled()}")
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def collate_fn(batch):
"""
Collates batches
"""
images = [example["image"] for example in batch]
captions = [example["caption"] for example in batch]
tokens = [example["tokens"] for example in batch]
runt_size = batch[0]["runt_size"]
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images = torch.stack(images)
images = images.to(memory_format=torch.contiguous_format).float()
ret = {
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"tokens": torch.stack(tuple(tokens)),
"image": images,
"captions": captions,
"runt_size": runt_size,
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}
del batch
return ret
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train_dataloader = torch.utils.data.DataLoader(
train_batch,
batch_size=args.batch_size,
shuffle=False,
num_workers=0,
collate_fn=collate_fn
)
unet.train()
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text_encoder.train() if not args.disable_textenc_training else text_encoder.eval()
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logging.info(f" unet device: {unet.device}, precision: {unet.dtype}, training: {unet.training}")
logging.info(f" text_encoder device: {text_encoder.device}, precision: {text_encoder.dtype}, training: {text_encoder.training}")
logging.info(f" vae device: {vae.device}, precision: {vae.dtype}, training: {vae.training}")
logging.info(f" scheduler: {scheduler.__class__}")
logging.info(f" {Fore.GREEN}Project name: {Style.RESET_ALL}{Fore.LIGHTGREEN_EX}{args.project_name}{Style.RESET_ALL}")
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logging.info(f" {Fore.GREEN}grad_accum: {Style.RESET_ALL}{Fore.LIGHTGREEN_EX}{args.grad_accum}{Style.RESET_ALL}"),
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logging.info(f" {Fore.GREEN}batch_size: {Style.RESET_ALL}{Fore.LIGHTGREEN_EX}{args.batch_size}{Style.RESET_ALL}")
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#logging.info(f" {Fore.GREEN}total_batch_size: {Style.RESET_ALL}{Fore.LIGHTGREEN_EX}{total_batch_size}")
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logging.info(f" {Fore.GREEN}epoch_len: {Fore.LIGHTGREEN_EX}{epoch_len}{Style.RESET_ALL}")
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epoch_pbar = tqdm(range(args.max_epochs), position=0, leave=True)
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epoch_pbar.set_description(f"{Fore.LIGHTCYAN_EX}Epochs{Style.RESET_ALL}")
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steps_pbar = tqdm(range(epoch_len), position=1, leave=True)
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steps_pbar.set_description(f"{Fore.LIGHTCYAN_EX}Steps{Style.RESET_ALL}")
epoch_times = []
global global_step
global_step = 0
training_start_time = time.time()
last_epoch_saved_time = training_start_time
append_epoch_log(global_step=global_step, epoch_pbar=epoch_pbar, gpu=gpu, log_writer=log_writer)
#loss = torch.tensor(0.0, device=device, dtype=torch.float32)
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try:
for epoch in range(args.max_epochs):
epoch_start_time = time.time()
steps_pbar.reset()
images_per_sec_epoch = []
for step, batch in enumerate(train_dataloader):
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step_start_time = time.time()
with torch.no_grad():
#with autocast():
pixel_values = batch["image"].to(memory_format=torch.contiguous_format).to(unet.device)
with autocast(enabled=args.amp):
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latents = vae.encode(pixel_values, return_dict=False)
del pixel_values
latents = latents[0].sample() * 0.18215
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noise = torch.randn_like(latents)
bsz = latents.shape[0]
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timesteps = torch.randint(0, scheduler.config.num_train_timesteps, (bsz,), device=latents.device)
timesteps = timesteps.long()
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cuda_caption = batch["tokens"].to(text_encoder.device)
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#with autocast(enabled=args.amp):
encoder_hidden_states = text_encoder(cuda_caption, output_hidden_states=True)
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if args.clip_skip > 0:
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encoder_hidden_states = encoder_hidden_states.hidden_states[-args.clip_skip]
else:
encoder_hidden_states = encoder_hidden_states.last_hidden_state
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noisy_latents = scheduler.add_noise(latents, noise, timesteps)
if scheduler.config.prediction_type == "epsilon":
target = noise
elif scheduler.config.prediction_type in ["v_prediction", "v-prediction"]:
target = scheduler.get_velocity(latents, noise, timesteps)
else:
raise ValueError(f"Unknown prediction type {scheduler.config.prediction_type}")
del noise, latents, cuda_caption
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with autocast(enabled=args.amp):
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model_pred = unet(noisy_latents, timesteps, encoder_hidden_states).sample
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del timesteps, encoder_hidden_states, noisy_latents
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#with autocast(enabled=args.amp):
loss = torch_functional.mse_loss(model_pred.float(), target.float(), reduction="mean")
if batch["runt_size"] > 0:
grad_scale = batch["runt_size"] / args.batch_size
with torch.no_grad(): # not required? just in case for now, needs more testing
for param in unet.parameters():
if param.grad is not None:
param.grad *= grad_scale
if text_encoder.training:
for param in text_encoder.parameters():
if param.grad is not None:
param.grad *= grad_scale
del target, model_pred
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if args.clip_grad_norm is not None:
torch.nn.utils.clip_grad_norm_(parameters=unet.parameters(), max_norm=args.clip_grad_norm)
torch.nn.utils.clip_grad_norm_(parameters=text_encoder.parameters(), max_norm=args.clip_grad_norm)
loss.backward()
if ((global_step + 1) % args.grad_accum == 0) or (step == epoch_len - 1):
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optimizer.step()
optimizer.zero_grad(set_to_none=True)
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lr_scheduler.step()
steps_pbar.update(1)
global_step += 1
images_per_sec = args.batch_size / (time.time() - step_start_time)
images_per_sec_epoch.append(images_per_sec)
if (global_step + 1) % args.log_step == 0:
curr_lr = lr_scheduler.get_last_lr()[0]
loss_local = loss.detach().item()
logs = {"loss/step": loss_local, "lr": curr_lr, "img/s": images_per_sec}
log_writer.add_scalar(tag="loss/step", scalar_value=loss_local, global_step=global_step)
log_writer.add_scalar(tag="hyperparamater/lr", scalar_value=curr_lr, global_step=global_step)
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sum_img = sum(images_per_sec_epoch)
avg = sum_img / len(images_per_sec_epoch)
images_per_sec_epoch = []
#log_writer.add_scalar(tag="hyperparamater/grad scale", scalar_value=scaler.get_scale(), global_step=global_step)
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log_writer.add_scalar(tag="performance/images per second", scalar_value=avg, global_step=global_step)
append_epoch_log(global_step=global_step, epoch_pbar=epoch_pbar, gpu=gpu, log_writer=log_writer, **logs)
torch.cuda.empty_cache()
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if (global_step + 1) % args.sample_steps == 0:
pipe = __create_inference_pipe(unet=unet, text_encoder=text_encoder, tokenizer=tokenizer, scheduler=scheduler, vae=vae)
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pipe = pipe.to(device)
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with torch.no_grad():
if sample_prompts is not None and len(sample_prompts) > 0 and len(sample_prompts[0]) > 1:
__generate_test_samples(pipe=pipe, prompts=sample_prompts, log_writer=log_writer, log_folder=log_folder, gs=global_step, resolution=args.resolution)
else:
max_prompts = min(4,len(batch["captions"]))
prompts=batch["captions"][:max_prompts]
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__generate_test_samples(pipe=pipe, prompts=prompts, log_writer=log_writer, log_folder=log_folder, gs=global_step, random_captions=True, resolution=args.resolution)
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del pipe
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gc.collect()
torch.cuda.empty_cache()
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min_since_last_ckpt = (time.time() - last_epoch_saved_time) / 60
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if args.ckpt_every_n_minutes is not None and (min_since_last_ckpt > args.ckpt_every_n_minutes):
last_epoch_saved_time = time.time()
logging.info(f"Saving model, {args.ckpt_every_n_minutes} mins at step {global_step}")
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save_path = os.path.join(f"{log_folder}/ckpts/{args.project_name}-ep{epoch:02}-gs{global_step:05}")
__save_model(save_path, unet, text_encoder, tokenizer, scheduler, vae, args.save_ckpt_dir)
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if epoch > 0 and epoch % args.save_every_n_epochs == 0 and step == 1 and epoch < args.max_epochs - 1:
logging.info(f" Saving model, {args.save_every_n_epochs} epochs at step {global_step}")
save_path = os.path.join(f"{log_folder}/ckpts/{args.project_name}-ep{epoch:02}-gs{global_step:05}")
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__save_model(save_path, unet, text_encoder, tokenizer, scheduler, vae, args.save_ckpt_dir)
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del loss, batch
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# end of step
elapsed_epoch_time = (time.time() - epoch_start_time) / 60
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epoch_times.append(dict(epoch=epoch, time=elapsed_epoch_time))
log_writer.add_scalar("performance/minutes per epoch", elapsed_epoch_time, global_step)
epoch_pbar.update(1)
if epoch < args.max_epochs - 1:
train_batch.shuffle(epoch_n=epoch+1)
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# end of epoch
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# end of training
save_path = os.path.join(f"{log_folder}/ckpts/last-{args.project_name}-ep{epoch:02}-gs{global_step:05}")
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__save_model(save_path, unet, text_encoder, tokenizer, scheduler, vae, args.save_ckpt_dir)
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total_elapsed_time = time.time() - training_start_time
logging.info(f"{Fore.CYAN}Training complete{Style.RESET_ALL}")
logging.info(f"Total training time took {total_elapsed_time/60:.2f} minutes, total steps: {global_step}")
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logging.info(f"Average epoch time: {np.mean([t['time'] for t in epoch_times]):.2f} minutes")
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except Exception as ex:
logging.error(f"{Fore.LIGHTYELLOW_EX}Something went wrong, attempting to save model{Style.RESET_ALL}")
save_path = os.path.join(f"{log_folder}/ckpts/errored-{args.project_name}-ep{epoch:02}-gs{global_step:05}")
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__save_model(save_path, unet, text_encoder, tokenizer, scheduler, vae, args.save_ckpt_dir)
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raise ex
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logging.info(f"{Fore.LIGHTWHITE_EX} ***************************{Style.RESET_ALL}")
logging.info(f"{Fore.LIGHTWHITE_EX} **** Finished training ****{Style.RESET_ALL}")
logging.info(f"{Fore.LIGHTWHITE_EX} ***************************{Style.RESET_ALL}")
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if __name__ == "__main__":
supported_resolutions = [448, 512, 576, 640, 704, 768, 832, 896, 960, 1024, 1088, 1152]
argparser = argparse.ArgumentParser(description="EveryDream2 Training options")
argparser.add_argument("--config", type=str, required=False, default=None, help="JSON config file to load options from")
args, _ = argparser.parse_known_args()
if args.config is not None:
print(f"Loading training config from {args.config}, all other command options will be ignored!")
with open(args.config, 'rt') as f:
t_args = argparse.Namespace()
t_args.__dict__.update(json.load(f))
args = argparser.parse_args(namespace=t_args)
else:
print("No config file specified, using command line args")
argparser = argparse.ArgumentParser(description="EveryDream2 Training options")
argparser.add_argument("--amp", action="store_true", default=False, help="use floating point 16 bit training, experimental, reduces quality")
argparser.add_argument("--batch_size", type=int, default=2, help="Batch size (def: 2)")
argparser.add_argument("--ckpt_every_n_minutes", type=int, default=None, help="Save checkpoint every n minutes, def: 20")
argparser.add_argument("--clip_grad_norm", type=float, default=None, help="Clip gradient norm (def: disabled) (ex: 1.5), useful if loss=nan?")
argparser.add_argument("--clip_skip", type=int, default=0, help="Train using penultimate layer (def: 0) (2 is 'penultimate')", choices=[0, 1, 2, 3, 4])
argparser.add_argument("--cond_dropout", type=float, default=0.04, help="Conditional drop out as decimal 0.0-1.0, see docs for more info (def: 0.04)")
argparser.add_argument("--data_root", type=str, default="input", help="folder where your training images are")
argparser.add_argument("--disable_textenc_training", action="store_true", default=False, help="disables training of text encoder (def: False) NOT RECOMMENDED")
argparser.add_argument("--disable_xformers", action="store_true", default=False, help="disable xformers, may reduce performance (def: False)")
argparser.add_argument("--flip_p", type=float, default=0.0, help="probability of flipping image horizontally (def: 0.0) use 0.0 to 1.0, ex 0.5, not good for specific faces!")
argparser.add_argument("--gpuid", type=int, default=0, help="id of gpu to use for training, (def: 0) (ex: 1 to use GPU_ID 1)")
argparser.add_argument("--gradient_checkpointing", action="store_true", default=False, help="enable gradient checkpointing to reduce VRAM use, may reduce performance (def: False)")
argparser.add_argument("--grad_accum", type=int, default=1, help="Gradient accumulation factor (def: 1), (ex, 2)")
argparser.add_argument("--logdir", type=str, default="logs", help="folder to save logs to (def: logs)")
argparser.add_argument("--log_step", type=int, default=25, help="How often to log training stats, def: 25, recommend default!")
argparser.add_argument("--lowvram", action="store_true", default=False, help="automatically overrides various args to support 12GB gpu")
argparser.add_argument("--lr", type=float, default=None, help="Learning rate, if using scheduler is maximum LR at top of curve")
argparser.add_argument("--lr_decay_steps", type=int, default=0, help="Steps to reach minimum LR, default: automatically set")
argparser.add_argument("--lr_scheduler", type=str, default="constant", help="LR scheduler, (default: constant)", choices=["constant", "linear", "cosine", "polynomial"])
argparser.add_argument("--lr_warmup_steps", type=int, default=None, help="Steps to reach max LR during warmup (def: 0.02 of lr_decay_steps), non-functional for constant")
argparser.add_argument("--max_epochs", type=int, default=300, help="Maximum number of epochs to train for")
argparser.add_argument("--project_name", type=str, default="myproj", help="Project name for logs and checkpoints, ex. 'tedbennett', 'superduperV1'")
argparser.add_argument("--resolution", type=int, default=512, help="resolution to train", choices=supported_resolutions)
argparser.add_argument("--resume_ckpt", type=str, required=True, default="sd_v1-5_vae.ckpt")
argparser.add_argument("--sample_prompts", type=str, default="sample_prompts.txt", help="File with prompts to generate test samples from (def: sample_prompts.txt)")
argparser.add_argument("--sample_steps", type=int, default=250, help="Number of steps between samples (def: 250)")
argparser.add_argument("--save_ckpt_dir", type=str, default=None, help="folder to save checkpoints to (def: root training folder)")
argparser.add_argument("--save_every_n_epochs", type=int, default=None, help="Save checkpoint every n epochs, def: 0 (disabled)")
argparser.add_argument("--save_optimizer", action="store_true", default=False, help="saves optimizer state with ckpt, useful for resuming training later")
argparser.add_argument("--scale_lr", action="store_true", default=False, help="automatically scale up learning rate based on batch size and grad accumulation (def: False)")
argparser.add_argument("--seed", type=int, default=555, help="seed used for samples and shuffling, use -1 for random")
argparser.add_argument("--useadam8bit", action="store_true", default=False, help="Use AdamW 8-Bit optimizer, recommended!")
argparser.add_argument("--wandb", action="store_true", default=False, help="enable wandb logging instead of tensorboard, requires env var WANDB_API_KEY")
argparser.add_argument("--write_schedule", action="store_true", default=False, help="write schedule of images and their batches to file (def: False)")
args = argparser.parse_args()
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main(args)