""" Copyright [2022-2023] 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 pprint import sys import math import signal import argparse import logging import threading import time import gc import random import traceback import shutil import torch.nn.functional as F from torch.cuda.amp import autocast from colorama import Fore, Style import numpy as np import itertools import torch import datetime import json from tqdm.auto import tqdm from diffusers import StableDiffusionPipeline, AutoencoderKL, UNet2DConditionModel, DDIMScheduler, DDPMScheduler, \ DPMSolverMultistepScheduler #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 import webbrowser from torch.utils.tensorboard import SummaryWriter from data.data_loader import DataLoaderMultiAspect from data.every_dream import EveryDreamBatch, build_torch_dataloader from data.every_dream_validation import EveryDreamValidator from data.image_train_item import ImageTrainItem, DEFAULT_BATCH_ID from utils.huggingface_downloader import try_download_model_from_hf from utils.convert_diff_to_ckpt import convert as converter from utils.isolate_rng import isolate_rng from utils.check_git import check_git from optimizer.optimizers import EveryDreamOptimizer if torch.cuda.is_available(): from utils.gpu import GPU import data.aspects as aspects import data.resolver as resolver from utils.sample_generator import SampleGenerator _SIGTERM_EXIT_CODE = 130 _VERY_LARGE_NUMBER = 1e9 def get_hf_ckpt_cache_path(ckpt_path): return os.path.join("ckpt_cache", os.path.basename(ckpt_path)) def convert_to_hf(ckpt_path): hf_cache = get_hf_ckpt_cache_path(ckpt_path) from utils.unet_utils import get_attn_yaml 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 (one time setup), see readme.") exit() else: logging.info(f"Found cached checkpoint at {hf_cache}") is_sd1attn, yaml = get_attn_yaml(hf_cache) return hf_cache, is_sd1attn, yaml elif os.path.isdir(hf_cache): is_sd1attn, yaml = get_attn_yaml(hf_cache) return hf_cache, is_sd1attn, yaml else: is_sd1attn, yaml = get_attn_yaml(ckpt_path) return ckpt_path, is_sd1attn, yaml def setup_local_logger(args): """ configures logger with file and console logging, logs args, and returns the datestamp """ log_path = args.logdir 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}_cfg.json"), "w") as f: f.write(f"{json_config}") logfilename = os.path.join(log_path, f"{args.project_name}-{datetimestamp}.log") print(f" logging to {logfilename}") logging.basicConfig(filename=logfilename, level=logging.INFO, format="%(asctime)s %(message)s", datefmt="%m/%d/%Y %I:%M:%S %p", ) console_handler = logging.StreamHandler(sys.stdout) console_handler.addFilter(lambda msg: "Palette images with Transparency expressed in bytes" not in msg.getMessage()) logging.getLogger().addHandler(console_handler) import warnings warnings.filterwarnings("ignore", message="UserWarning: Palette images with Transparency expressed in bytes should be converted to RGBA images") #from PIL import Image return datetimestamp # def save_optimizer(optimizer: torch.optim.Optimizer, path: str): # """ # Saves the optimizer state # """ # torch.save(optimizer.state_dict(), path) # def load_optimizer(optimizer: torch.optim.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 """ if gpu is not None: 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 > 2: logging.info(" - Overiding batch size to max 2") args.batch_size = 2 args.grad_accum = 1 if args.resolution > 512: logging.info(" - Overiding resolution to max 512") args.resolution = 512 def find_last_checkpoint(logdir): """ Finds the last checkpoint in the logdir, recursively """ last_ckpt = None last_date = None for root, dirs, files in os.walk(logdir): for file in files: if os.path.basename(file) == "model_index.json": curr_date = os.path.getmtime(os.path.join(root,file)) if last_date is None or curr_date > last_date: last_date = curr_date last_ckpt = root assert last_ckpt, f"Could not find last checkpoint in logdir: {logdir}" assert "errored" not in last_ckpt, f"Found last checkpoint: {last_ckpt}, but it was errored, cancelling" print(f" {Fore.LIGHTCYAN_EX}Found last checkpoint: {last_ckpt}, resuming{Style.RESET_ALL}") return last_ckpt def setup_args(args): """ Sets defaults for missing args (possible if missing from json config) Forces some args to be set based on others for compatibility reasons """ if args.disable_amp: logging.warning(f"{Fore.LIGHTYELLOW_EX} Disabling AMP, not recommended.{Style.RESET_ALL}") args.amp = False else: args.amp = True if args.disable_unet_training and args.disable_textenc_training: raise ValueError("Both unet and textenc are disabled, nothing to train") if args.resume_ckpt == "findlast": logging.info(f"{Fore.LIGHTCYAN_EX} Finding last checkpoint in logdir: {args.logdir}{Style.RESET_ALL}") # find the last checkpoint in the logdir args.resume_ckpt = find_last_checkpoint(args.logdir) if args.lowvram: set_args_12gb(args) if not args.shuffle_tags: args.shuffle_tags = False args.clip_skip = max(min(4, args.clip_skip), 0) if args.useadam8bit: logging.warning(f"{Fore.LIGHTYELLOW_EX} Useadam8bit arg is deprecated, use optimizer.json instead, which defaults to useadam8bit anyway{Style.RESET_ALL}") 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 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: 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}") if args.cond_dropout > 0.26: logging.warning(f"{Fore.LIGHTYELLOW_EX}** cond_dropout is set fairly high: {args.cond_dropout}, make sure this was intended{Style.RESET_ALL}") 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}") total_batch_size = args.batch_size * args.grad_accum if args.save_ckpt_dir is not None and not os.path.exists(args.save_ckpt_dir): os.makedirs(args.save_ckpt_dir) if args.rated_dataset: args.rated_dataset_target_dropout_percent = min(max(args.rated_dataset_target_dropout_percent, 0), 100) logging.info(logging.info(f"{Fore.CYAN} * Activating rated images learning with a target rate of {args.rated_dataset_target_dropout_percent}% {Style.RESET_ALL}")) args.aspects = aspects.get_aspect_buckets(args.resolution) return args def report_image_train_item_problems(log_folder: str, items: list[ImageTrainItem], batch_size) -> None: undersized_items = [item for item in items if item.is_undersized] if len(undersized_items) > 0: underized_log_path = os.path.join(log_folder, "undersized_images.txt") logging.warning(f"{Fore.LIGHTRED_EX} ** Some images are smaller than the target size, consider using larger images{Style.RESET_ALL}") logging.warning(f"{Fore.LIGHTRED_EX} ** Check {underized_log_path} for more information.{Style.RESET_ALL}") with open(underized_log_path, "w", encoding='utf-8') as undersized_images_file: undersized_images_file.write(f" The following images are smaller than the target size, consider removing or sourcing a larger copy:") for undersized_item in undersized_items: message = f" *** {undersized_item.pathname} with size: {undersized_item.image_size} is smaller than target size: {undersized_item.target_wh}\n" undersized_images_file.write(message) # warn on underfilled aspect ratio buckets # Intuition: if there are too few images to fill a batch, duplicates will be appended. # this is not a problem for large image counts but can seriously distort training if there # are just a handful of images for a given aspect ratio. # at a dupe ratio of 0.5, all images in this bucket have effective multiplier 1.5, # at a dupe ratio 1.0, all images in this bucket have effective multiplier 2.0 warn_bucket_dupe_ratio = 0.5 def make_bucket_key(item): return (item.batch_id, int(item.target_wh[0]), int(item.target_wh[1])) ar_buckets = set(make_bucket_key(i) for i in items) for ar_bucket in ar_buckets: count = len([i for i in items if make_bucket_key(i) == ar_bucket]) runt_size = batch_size - (count % batch_size) bucket_dupe_ratio = runt_size / count if bucket_dupe_ratio > warn_bucket_dupe_ratio: aspect_ratio_rational = aspects.get_rational_aspect_ratio((ar_bucket[1], ar_bucket[2])) aspect_ratio_description = f"{aspect_ratio_rational[0]}:{aspect_ratio_rational[1]}" batch_id_description = "" if ar_bucket[0] == DEFAULT_BATCH_ID else f" for batch id '{ar_bucket[0]}'" effective_multiplier = round(1 + bucket_dupe_ratio, 1) logging.warning(f" * {Fore.LIGHTRED_EX}Aspect ratio bucket {ar_bucket} has only {count} " f"images{Style.RESET_ALL}. At batch size {batch_size} this makes for an effective multiplier " f"of {effective_multiplier}, which may cause problems. Consider adding {runt_size} or " f"more images with aspect ratio {aspect_ratio_description}{batch_id_description}, or reducing your batch_size.") def resolve_image_train_items(args: argparse.Namespace) -> list[ImageTrainItem]: logging.info(f"* DLMA resolution {args.resolution}, buckets: {args.aspects}") logging.info(" Preloading images...") resolved_items = resolver.resolve(args.data_root, args) image_paths = set(map(lambda item: item.pathname, resolved_items)) # Remove erroneous items for item in resolved_items: if item.error is not None: logging.error(f"{Fore.LIGHTRED_EX} *** Error opening {Fore.LIGHTYELLOW_EX}{item.pathname}{Fore.LIGHTRED_EX} to get metadata. File may be corrupt and will be skipped.{Style.RESET_ALL}") logging.error(f" *** exception: {item.error}") image_train_items = [item for item in resolved_items if item.error is None] print (f" * Found {len(image_paths)} files in '{args.data_root}'") return image_train_items def write_batch_schedule(args: argparse.Namespace, log_folder: str, train_batch: EveryDreamBatch, epoch: int): if args.write_schedule: with open(f"{log_folder}/ep{epoch}_batch_schedule.txt", "w", encoding='utf-8') as f: for i in range(len(train_batch.image_train_items)): try: item = train_batch.image_train_items[i] f.write(f"step:{int(i / train_batch.batch_size):05}, wh:{item.target_wh}, r:{item.runt_size}, path:{item.pathname}\n") except Exception as e: logging.error(f" * Error writing to batch schedule for file path: {item.pathname}") def read_sample_prompts(sample_prompts_file_path: str): sample_prompts = [] with open(sample_prompts_file_path, "r") as f: for line in f: sample_prompts.append(line.strip()) return sample_prompts 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) def main(args): """ Main entry point """ if os.name == 'nt': print(" * Windows detected, disabling Triton") os.environ['XFORMERS_FORCE_DISABLE_TRITON'] = "1" log_time = setup_local_logger(args) args = setup_args(args) print(f" Args:") pprint.pprint(vars(args)) if args.seed == -1: args.seed = random.randint(0, 2**30) seed = args.seed logging.info(f" Seed: {seed}") set_seed(seed) if torch.cuda.is_available(): device = torch.device(f"cuda:{args.gpuid}") gpu = GPU(device) torch.backends.cudnn.benchmark = True else: logging.warning("*** Running on CPU. This is for testing loading/config parsing code only.") device = 'cpu' gpu = None log_folder = os.path.join(args.logdir, f"{args.project_name}_{log_time}") if not os.path.exists(log_folder): os.makedirs(log_folder) @torch.no_grad() def __save_model(save_path, unet, text_encoder, tokenizer, scheduler, vae, ed_optimizer, save_ckpt_dir, yaml_name, save_full_precision=False, save_optimizer_flag=False, save_ckpt=True): """ 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" if save_ckpt: 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) save_ckpt_dir = os.curdir half = not save_full_precision logging.info(f" * Saving SD model to {sd_ckpt_full}") converter(model_path=save_path, checkpoint_path=sd_ckpt_full, half=half) if yaml_name and yaml_name != "v1-inference.yaml": yaml_save_path = f"{os.path.join(save_ckpt_dir, os.path.basename(save_path))}.yaml" logging.info(f" * Saving yaml to {yaml_save_path}") shutil.copyfile(yaml_name, yaml_save_path) if save_optimizer_flag: logging.info(f" Saving optimizer state to {save_path}") ed_optimizer.save(save_path) optimizer_state_path = None try: # check for a local file hf_cache_path = get_hf_ckpt_cache_path(args.resume_ckpt) if os.path.exists(hf_cache_path) or os.path.exists(args.resume_ckpt): model_root_folder, is_sd1attn, yaml = convert_to_hf(args.resume_ckpt) text_encoder = CLIPTextModel.from_pretrained(model_root_folder, subfolder="text_encoder") vae = AutoencoderKL.from_pretrained(model_root_folder, subfolder="vae") unet = UNet2DConditionModel.from_pretrained(model_root_folder, subfolder="unet") optimizer_state_path = os.path.join(args.resume_ckpt, "optimizer.pt") if not os.path.exists(optimizer_state_path): optimizer_state_path = None else: # try to download from HF using resume_ckpt as a repo id downloaded = try_download_model_from_hf(repo_id=args.resume_ckpt) if downloaded is None: raise ValueError(f"No local file/folder for {args.resume_ckpt}, and no matching huggingface.co repo could be downloaded") pipe, model_root_folder, is_sd1attn, yaml = downloaded text_encoder = pipe.text_encoder vae = pipe.vae unet = pipe.unet del pipe # leave the inference scheduler alone inference_scheduler = DDIMScheduler.from_pretrained(model_root_folder, subfolder="scheduler") if args.zero_frequency_noise_ratio == -1.0: # use zero terminal SNR, currently backdoor way to enable it by setting ZFN to -1, still in testing from utils.unet_utils import enforce_zero_terminal_snr temp_scheduler = DDIMScheduler.from_pretrained(model_root_folder, subfolder="scheduler") trained_betas = enforce_zero_terminal_snr(temp_scheduler.betas).numpy().tolist() noise_scheduler = DDPMScheduler.from_pretrained(model_root_folder, subfolder="scheduler", trained_betas=trained_betas) else: noise_scheduler = DDPMScheduler.from_pretrained(model_root_folder, subfolder="scheduler") tokenizer = CLIPTokenizer.from_pretrained(model_root_folder, subfolder="tokenizer", use_fast=False) except Exception as e: traceback.print_exc() logging.error(" * Failed to load checkpoint *") raise if args.gradient_checkpointing: unet.enable_gradient_checkpointing() text_encoder.gradient_checkpointing_enable() if not args.disable_xformers: if (args.amp and is_sd1attn) or (not is_sd1attn): try: unet.enable_xformers_memory_efficient_attention() logging.info("Enabled xformers") except Exception as ex: logging.warning("failed to load xformers, using attention slicing instead") unet.set_attention_slice("auto") pass elif (not args.amp and is_sd1attn): logging.info("AMP is disabled but model is SD1.X, using attention slicing instead of xformers") unet.set_attention_slice("auto") else: logging.info("xformers disabled via arg, using attention slicing instead") unet.set_attention_slice("auto") vae = vae.to(device, dtype=torch.float16 if args.amp else torch.float32) unet = unet.to(device, dtype=torch.float32) if args.disable_textenc_training and args.amp: text_encoder = text_encoder.to(device, dtype=torch.float16) else: text_encoder = text_encoder.to(device, dtype=torch.float32) try: #unet = torch.compile(unet) #text_encoder = torch.compile(text_encoder) #vae = torch.compile(vae) torch.set_float32_matmul_precision('high') torch.backends.cudnn.allow_tf32 = True #logging.info("Successfully compiled models") except Exception as ex: logging.warning(f"Failed to compile model, continuing anyway, ex: {ex}") pass optimizer_config = None optimizer_config_path = args.optimizer_config if args.optimizer_config else "optimizer.json" if os.path.exists(os.path.join(os.curdir, optimizer_config_path)): with open(os.path.join(os.curdir, optimizer_config_path), "r") as f: optimizer_config = json.load(f) if args.wandb: wandb.tensorboard.patch(root_logdir=log_folder, pytorch=False, tensorboard_x=False, save=False) wandb_run = wandb.init( project=args.project_name, config={"main_cfg": vars(args), "optimizer_cfg": optimizer_config}, name=args.run_name, ) try: if webbrowser.get(): webbrowser.open(wandb_run.url, new=2) except Exception: pass log_writer = SummaryWriter(log_dir=log_folder, flush_secs=20, comment=args.run_name if args.run_name is not None else log_time, ) image_train_items = resolve_image_train_items(args) validator = None if args.validation_config is not None: validator = EveryDreamValidator(args.validation_config, default_batch_size=args.batch_size, resolution=args.resolution, log_writer=log_writer, ) # the validation dataset may need to steal some items from image_train_items image_train_items = validator.prepare_validation_splits(image_train_items, tokenizer=tokenizer) report_image_train_item_problems(log_folder, image_train_items, batch_size=args.batch_size) data_loader = DataLoaderMultiAspect( image_train_items=image_train_items, seed=seed, batch_size=args.batch_size, grad_accum=args.grad_accum ) train_batch = EveryDreamBatch( data_loader=data_loader, debug_level=1, conditional_dropout=args.cond_dropout, tokenizer=tokenizer, seed = seed, shuffle_tags=args.shuffle_tags, rated_dataset=args.rated_dataset, rated_dataset_dropout_target=(1.0 - (args.rated_dataset_target_dropout_percent / 100.0)) ) torch.cuda.benchmark = False epoch_len = math.ceil(len(train_batch) / args.batch_size) ed_optimizer = EveryDreamOptimizer(args, optimizer_config, text_encoder, unet, epoch_len) log_args(log_writer, args) sample_generator = SampleGenerator(log_folder=log_folder, log_writer=log_writer, default_resolution=args.resolution, default_seed=args.seed, config_file_path=args.sample_prompts, batch_size=max(1,args.batch_size//2), default_sample_steps=args.sample_steps, use_xformers=is_xformers_available() and not args.disable_xformers, use_penultimate_clip_layer=(args.clip_skip >= 2), guidance_rescale = 0.7 if args.zero_frequency_noise_ratio == -1 else 0 ) """ Train the model """ print(f" {Fore.LIGHTGREEN_EX}** Welcome to EveryDream trainer 2.0!**{Style.RESET_ALL}") print(f" (C) 2022-2023 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 """ is_main_thread = (torch.utils.data.get_worker_info() == None) if is_main_thread: global interrupted if not interrupted: interrupted=True global global_step #TODO: save model on ctrl-c interrupted_checkpoint_path = os.path.join(f"{log_folder}/ckpts/interrupted-gs{global_step}") 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}") logging.error(f"{Fore.LIGHTRED_EX} ************************************************************************{Style.RESET_ALL}") time.sleep(2) # give opportunity to ctrl-C again to cancel save __save_model(interrupted_checkpoint_path, unet, text_encoder, tokenizer, noise_scheduler, vae, ed_optimizer, args.save_ckpt_dir, args.save_full_precision, args.save_optimizer, save_ckpt=not args.no_save_ckpt) exit(_SIGTERM_EXIT_CODE) else: # non-main threads (i.e. dataloader workers) should exit cleanly exit(0) signal.signal(signal.SIGINT, sigterm_handler) if not os.path.exists(f"{log_folder}/samples/"): os.makedirs(f"{log_folder}/samples/") if gpu is not None: 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") logging.info(f" saving ckpts every {args.save_every_n_epochs } epochs") train_dataloader = build_torch_dataloader(train_batch, batch_size=args.batch_size) unet.train() if not args.disable_unet_training else unet.eval() text_encoder.train() if not args.disable_textenc_training else text_encoder.eval() 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: {noise_scheduler.__class__}") logging.info(f" {Fore.GREEN}Project name: {Style.RESET_ALL}{Fore.LIGHTGREEN_EX}{args.project_name}{Style.RESET_ALL}") logging.info(f" {Fore.GREEN}grad_accum: {Style.RESET_ALL}{Fore.LIGHTGREEN_EX}{args.grad_accum}{Style.RESET_ALL}"), logging.info(f" {Fore.GREEN}batch_size: {Style.RESET_ALL}{Fore.LIGHTGREEN_EX}{args.batch_size}{Style.RESET_ALL}") logging.info(f" {Fore.GREEN}epoch_len: {Fore.LIGHTGREEN_EX}{epoch_len}{Style.RESET_ALL}") epoch_pbar = tqdm(range(args.max_epochs), position=0, leave=True, dynamic_ncols=True) epoch_pbar.set_description(f"{Fore.LIGHTCYAN_EX}Epochs{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_log_step = [] assert len(train_batch) > 0, "train_batch is empty, check that your data_root is correct" # actual prediction function - shared between train and validate def get_model_prediction_and_target(image, tokens, zero_frequency_noise_ratio=0.0): with torch.no_grad(): with autocast(enabled=args.amp): pixel_values = image.to(memory_format=torch.contiguous_format).to(unet.device) latents = vae.encode(pixel_values, return_dict=False) del pixel_values latents = latents[0].sample() * 0.18215 if zero_frequency_noise_ratio > 0.0: # see https://www.crosslabs.org//blog/diffusion-with-offset-noise zero_frequency_noise = zero_frequency_noise_ratio * torch.randn(latents.shape[0], latents.shape[1], 1, 1, device=latents.device) noise = torch.randn_like(latents) + zero_frequency_noise else: noise = torch.randn_like(latents) bsz = latents.shape[0] timesteps = torch.randint(0, noise_scheduler.config.num_train_timesteps, (bsz,), device=latents.device) timesteps = timesteps.long() cuda_caption = tokens.to(text_encoder.device) encoder_hidden_states = text_encoder(cuda_caption, output_hidden_states=True) if args.clip_skip > 0: encoder_hidden_states = text_encoder.text_model.final_layer_norm( encoder_hidden_states.hidden_states[-args.clip_skip]) else: encoder_hidden_states = encoder_hidden_states.last_hidden_state noisy_latents = noise_scheduler.add_noise(latents, noise, timesteps) if noise_scheduler.config.prediction_type == "epsilon": target = noise elif noise_scheduler.config.prediction_type in ["v_prediction", "v-prediction"]: target = noise_scheduler.get_velocity(latents, noise, timesteps) else: raise ValueError(f"Unknown prediction type {noise_scheduler.config.prediction_type}") del noise, latents, cuda_caption with autocast(enabled=args.amp): #print(f"types: {type(noisy_latents)} {type(timesteps)} {type(encoder_hidden_states)}") model_pred = unet(noisy_latents, timesteps, encoder_hidden_states).sample return model_pred, target def generate_samples(global_step: int, batch): with isolate_rng(): prev_sample_steps = sample_generator.sample_steps sample_generator.reload_config() if prev_sample_steps != sample_generator.sample_steps: next_sample_step = math.ceil((global_step + 1) / sample_generator.sample_steps) * sample_generator.sample_steps print(f" * SampleGenerator config changed, now generating images samples every " + f"{sample_generator.sample_steps} training steps (next={next_sample_step})") sample_generator.update_random_captions(batch["captions"]) inference_pipe = sample_generator.create_inference_pipe(unet=unet, text_encoder=text_encoder, tokenizer=tokenizer, vae=vae, diffusers_scheduler_config=inference_scheduler.config, ).to(device) sample_generator.generate_samples(inference_pipe, global_step) del inference_pipe gc.collect() def make_save_path(epoch, global_step, prepend=""): return os.path.join(f"{log_folder}/ckpts/{prepend}{args.project_name}-ep{epoch:02}-gs{global_step:05}") # Pre-train validation to establish a starting point on the loss graph if validator: validator.do_validation(global_step=0, get_model_prediction_and_target_callable=get_model_prediction_and_target) # the sample generator might be configured to generate samples before step 0 if sample_generator.generate_pretrain_samples: _, batch = next(enumerate(train_dataloader)) generate_samples(global_step=0, batch=batch) from plugins.plugins import load_plugin if args.plugins is not None: plugins = [load_plugin(name) for name in args.plugins] else: logging.info("No plugins specified") plugins = [] from plugins.plugins import PluginRunner plugin_runner = PluginRunner(plugins=plugins) try: write_batch_schedule(args, log_folder, train_batch, epoch = 0) for epoch in range(args.max_epochs): plugin_runner.run_on_epoch_start(epoch=epoch, global_step=global_step, project_name=args.project_name, log_folder=log_folder, data_root=args.data_root) loss_epoch = [] epoch_start_time = time.time() images_per_sec_log_step = [] epoch_len = math.ceil(len(train_batch) / args.batch_size) steps_pbar = tqdm(range(epoch_len), position=1, leave=False, dynamic_ncols=True) steps_pbar.set_description(f"{Fore.LIGHTCYAN_EX}Steps{Style.RESET_ALL}") validation_steps = ( [] if validator is None else validator.get_validation_step_indices(epoch, len(train_dataloader)) ) for step, batch in enumerate(train_dataloader): step_start_time = time.time() plugin_runner.run_on_step_start(epoch=epoch, global_step=global_step, project_name=args.project_name, log_folder=log_folder, batch=batch) model_pred, target = get_model_prediction_and_target(batch["image"], batch["tokens"], args.zero_frequency_noise_ratio) loss = F.mse_loss(model_pred.float(), target.float(), reduction="mean") del target, model_pred if batch["runt_size"] > 0: loss_scale = (batch["runt_size"] / args.batch_size)**1.5 # further discount runts by **1.5 loss = loss * loss_scale ed_optimizer.step(loss, step, global_step) loss_step = loss.detach().item() steps_pbar.set_postfix({"loss/step": loss_step}, {"gs": global_step}) steps_pbar.update(1) images_per_sec = args.batch_size / (time.time() - step_start_time) images_per_sec_log_step.append(images_per_sec) loss_log_step.append(loss_step) loss_epoch.append(loss_step) if (global_step + 1) % args.log_step == 0: loss_step = sum(loss_log_step) / len(loss_log_step) lr_unet = ed_optimizer.get_unet_lr() lr_textenc = ed_optimizer.get_textenc_lr() loss_log_step = [] log_writer.add_scalar(tag="hyperparameter/lr unet", scalar_value=lr_unet, global_step=global_step) log_writer.add_scalar(tag="hyperparameter/lr text encoder", scalar_value=lr_textenc, global_step=global_step) log_writer.add_scalar(tag="loss/log_step", scalar_value=loss_step, global_step=global_step) sum_img = sum(images_per_sec_log_step) avg = sum_img / len(images_per_sec_log_step) images_per_sec_log_step = [] if args.amp: log_writer.add_scalar(tag="hyperparameter/grad scale", scalar_value=ed_optimizer.get_scale(), global_step=global_step) log_writer.add_scalar(tag="performance/images per second", scalar_value=avg, global_step=global_step) logs = {"loss/log_step": loss_step, "lr_unet": lr_unet, "lr_te": lr_textenc, "img/s": images_per_sec} append_epoch_log(global_step=global_step, epoch_pbar=epoch_pbar, gpu=gpu, log_writer=log_writer, **logs) torch.cuda.empty_cache() if validator and step in validation_steps: validator.do_validation(global_step, get_model_prediction_and_target) if (global_step + 1) % sample_generator.sample_steps == 0: generate_samples(global_step=global_step, batch=batch) min_since_last_ckpt = (time.time() - last_epoch_saved_time) / 60 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}") save_path = make_save_path(epoch, global_step) __save_model(save_path, unet, text_encoder, tokenizer, inference_scheduler, vae, ed_optimizer, args.save_ckpt_dir, yaml, args.save_full_precision, args.save_optimizer, save_ckpt=not args.no_save_ckpt) if epoch > 0 and epoch % args.save_every_n_epochs == 0 and step == 0 and epoch < args.max_epochs - 1 and epoch >= args.save_ckpts_from_n_epochs: logging.info(f" Saving model, {args.save_every_n_epochs} epochs at step {global_step}") save_path = make_save_path(epoch, global_step) __save_model(save_path, unet, text_encoder, tokenizer, inference_scheduler, vae, ed_optimizer, args.save_ckpt_dir, yaml, args.save_full_precision, args.save_optimizer, save_ckpt=not args.no_save_ckpt) plugin_runner.run_on_step_end(epoch=epoch, global_step=global_step, project_name=args.project_name, log_folder=log_folder, data_root=args.data_root, batch=batch) del batch global_step += 1 # end of step steps_pbar.close() elapsed_epoch_time = (time.time() - epoch_start_time) / 60 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, max_epochs = args.max_epochs) write_batch_schedule(args, log_folder, train_batch, epoch + 1) loss_epoch = sum(loss_epoch) / len(loss_epoch) log_writer.add_scalar(tag="loss/epoch", scalar_value=loss_epoch, global_step=global_step) plugin_runner.run_on_epoch_end(epoch=epoch, global_step=global_step, project_name=args.project_name, log_folder=log_folder, data_root=args.data_root) gc.collect() # end of epoch # end of training epoch = args.max_epochs save_path = make_save_path(epoch, global_step, prepend=("" if args.no_prepend_last else "last-")) __save_model(save_path, unet, text_encoder, tokenizer, inference_scheduler, vae, ed_optimizer, args.save_ckpt_dir, yaml, args.save_full_precision, args.save_optimizer, save_ckpt=not args.no_save_ckpt) 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}") logging.info(f"Average epoch time: {np.mean([t['time'] for t in epoch_times]):.2f} minutes") except Exception as ex: logging.error(f"{Fore.LIGHTYELLOW_EX}Something went wrong, attempting to save model{Style.RESET_ALL}") save_path = make_save_path(epoch, global_step, prepend="errored-") __save_model(save_path, unet, text_encoder, tokenizer, inference_scheduler, vae, ed_optimizer, args.save_ckpt_dir, yaml, args.save_full_precision, args.save_optimizer, save_ckpt=not args.no_save_ckpt) logging.info(f"{Fore.LIGHTYELLOW_EX}Model saved, re-raising exception and exiting. Exception was:{Style.RESET_ALL}{Fore.LIGHTRED_EX} {ex} {Style.RESET_ALL}") raise ex 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}") if __name__ == "__main__": check_git() supported_resolutions = aspects.get_supported_resolutions() 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, argv = argparser.parse_known_args() if args.config is not None: print(f"Loading training config from {args.config}.") with open(args.config, 'rt') as f: args.__dict__.update(json.load(f)) if len(argv) > 0: print(f"Config .json loaded but there are additional CLI arguments -- these will override values in {args.config}.") 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=True, help="deprecated, use --disable_amp if you wish to disable AMP") 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_amp", action="store_true", default=False, help="disables training of text encoder (def: False)") argparser.add_argument("--disable_textenc_training", action="store_true", default=False, help="disables training of text encoder (def: False)") argparser.add_argument("--disable_unet_training", action="store_true", default=False, help="disables training of unet (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("--no_prepend_last", action="store_true", help="Do not prepend 'last-' to the final checkpoint filename") argparser.add_argument("--no_save_ckpt", action="store_true", help="Save only diffusers files, no .ckpts" ) argparser.add_argument("--optimizer_config", default="optimizer.json", help="Path to a JSON configuration file for the optimizer. Default is 'optimizer.json'") argparser.add_argument('--plugins', nargs='+', help='Names of plugins to use') 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=not ('resume_ckpt' in args), default="sd_v1-5_vae.ckpt", help="The checkpoint to resume from, either a local .ckpt file, a converted Diffusers format folder, or a Huggingface.co repo id such as stabilityai/stable-diffusion-2-1 ") argparser.add_argument("--run_name", type=str, required=False, default=None, help="Run name for wandb (child of project name), and comment for tensorboard, (def: None)") argparser.add_argument("--sample_prompts", type=str, default="sample_prompts.txt", help="Text file with prompts to generate test samples from, or JSON file with sample generator settings (default: 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_ckpts_from_n_epochs", type=int, default=0, help="Only saves checkpoints starting an N epochs, def: 0 (disabled)") argparser.add_argument("--save_full_precision", action="store_true", default=False, help="save ckpts at full FP32") argparser.add_argument("--save_optimizer", action="store_true", default=False, help="saves optimizer state with ckpt, useful for resuming training later") argparser.add_argument("--seed", type=int, default=555, help="seed used for samples and shuffling, use -1 for random") argparser.add_argument("--shuffle_tags", action="store_true", default=False, help="randomly shuffles CSV tags in captions, for booru datasets") argparser.add_argument("--useadam8bit", action="store_true", default=False, help="deprecated, use --optimizer_config and optimizer.json instead") 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("--validation_config", default=None, help="Path to a JSON configuration file for the validator. Default is no validation.") argparser.add_argument("--write_schedule", action="store_true", default=False, help="write schedule of images and their batches to file (def: False)") argparser.add_argument("--rated_dataset", action="store_true", default=False, help="enable rated image set training, to less often train on lower rated images through the epochs") argparser.add_argument("--rated_dataset_target_dropout_percent", type=int, default=50, help="how many images (in percent) should be included in the last epoch (Default 50)") argparser.add_argument("--zero_frequency_noise_ratio", type=float, default=0.02, help="adds zero frequency noise, for improving contrast (def: 0.0) use 0.0 to 0.15, set to -1 to use zero terminal SNR noising beta schedule instead") # load CLI args to overwrite existing config args args = argparser.parse_args(args=argv, namespace=args) main(args)