2023-01-21 23:03:47 -07:00
"""
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
import gc
import random
import torch . nn . functional as F
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 , 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
import keyboard
from data . every_dream import EveryDreamBatch
from utils . convert_diff_to_ckpt import convert as converter
from utils . gpu import GPU
forstepTime = time . time ( )
_SIGTERM_EXIT_CODE = 130
_VERY_LARGE_NUMBER = 1e9
# 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 ( )
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
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 } " )
is_sd1attn = patch_unet ( hf_cache )
return hf_cache , is_sd1attn
elif os . path . isdir ( hf_cache ) :
is_sd1attn = patch_unet ( hf_cache )
return hf_cache , is_sd1attn
else :
is_sd1attn = patch_unet ( ckpt_path )
return ckpt_path , is_sd1attn
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 " ,
)
logging . getLogger ( ) . addHandler ( logging . StreamHandler ( sys . stdout ) )
return datetimestamp
def log_optimizer ( optimizer : torch . optim . Optimizer , betas , epsilon ) :
"""
logs the optimizer settings
"""
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 } " )
print ( f " { epoch_mem_color } { gpu_used_mem } / { gpu_total_mem } MB { Style . RESET_ALL } gs: { global_step } | Elapsed : { time . time ( ) - forstepTime } s " )
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
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_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 . 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 . 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 } " )
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 } " ) )
return args
def main ( args ) :
"""
Main entry point
"""
log_time = setup_local_logger ( args )
args = setup_args ( args )
if args . notebook :
from tqdm . notebook import tqdm
else :
from tqdm . auto import tqdm
seed = args . seed if args . seed != - 1 else random . randint ( 0 , 2 * * 30 )
logging . info ( f " Seed: { seed } " )
set_seed ( seed )
gpu = GPU ( )
device = torch . device ( f " cuda: { args . gpuid } " )
torch . backends . cudnn . benchmark = True
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 )
@torch.no_grad ( )
def __save_model ( save_path , unet , text_encoder , tokenizer , scheduler , vae , save_ckpt_dir , save_full_precision = False ) :
"""
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_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 )
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 )
# 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
)
return pipe
def __generate_sample ( pipe : StableDiffusionPipeline , prompt : str , cfg : float , resolution : int , gen ) :
"""
generates a single sample at a given cfg scale and saves it to disk
"""
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 )
try :
font = ImageFont . truetype ( font = " arial.ttf " , size = 20 )
except :
font = ImageFont . load_default ( )
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 = device ) . manual_seed ( seed )
i = 0
for prompt in prompts :
if prompt is None or len ( prompt ) < 2 :
#logging.warning("empty prompt in sample prompts, check your prompts file")
continue
images = [ ]
for cfg in [ 7.0 , 4.0 , 1.01 ] :
image = __generate_sample ( pipe , prompt , cfg , resolution = resolution , gen = gen )
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 )
result . save ( f " { log_folder } /samples/gs { gs : 05 } - { i } - { clean_prompt [ : 100 ] } .jpg " , format = " JPEG " , quality = 95 , optimize = True , progressive = False )
with open ( f " { log_folder } /samples/gs { gs : 05 } - { i } - { clean_prompt [ : 100 ] } .txt " , " w " , encoding = ' utf-8 ' ) as f :
f . write ( prompt )
f . write ( f " \n seed: { seed } " )
tfimage = transforms . ToTensor ( ) ( result )
if random_captions :
log_writer . add_image ( tag = f " sample_ { i } " , img_tensor = tfimage , global_step = gs )
else :
log_writer . add_image ( tag = f " sample_ { i } _ { clean_prompt [ : 100 ] } " , img_tensor = tfimage , global_step = gs )
i + = 1
del result
del tfimage
del images
try :
hf_ckpt_path , is_sd1attn = 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 " , upcast_attention = not is_sd1attn )
sample_scheduler = DDIMScheduler . from_pretrained ( hf_ckpt_path , subfolder = " scheduler " )
noise_scheduler = DDPMScheduler . 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 ( )
if not args . disable_xformers and ( 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, continuing without it " )
pass
else :
logging . info ( " xformers not available or disabled " )
default_lr = 2e-6
curr_lr = args . lr if args . lr is not None else default_lr
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 )
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 ( ) )
elif args . disable_unet_training :
logging . info ( f " { Fore . CYAN } * Training Text Encoder * { Style . RESET_ALL } " )
params_to_train = itertools . chain ( text_encoder . 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 )
epsilon = 1e-8
if args . amp :
2023-01-21 23:09:25 -07:00
epsilon = 2e-8
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weight_decay = 0.01
if args . useadam8bit :
import bitsandbytes as bnb
opt_class = bnb . optim . AdamW8bit
logging . info ( f " { Fore . CYAN } * Using AdamW 8-bit Optimizer * { Style . RESET_ALL } " )
else :
opt_class = torch . optim . AdamW
logging . info ( f " { Fore . CYAN } * Using AdamW standard Optimizer * { Style . RESET_ALL } " )
optimizer = opt_class (
itertools . chain ( params_to_train ) ,
lr = curr_lr ,
betas = betas ,
eps = epsilon ,
weight_decay = weight_decay ,
amsgrad = False ,
)
log_optimizer ( optimizer , betas , epsilon )
train_batch = EveryDreamBatch (
data_root = args . data_root ,
flip_p = args . flip_p ,
debug_level = 1 ,
batch_size = args . batch_size ,
conditional_dropout = args . cond_dropout ,
resolution = args . resolution ,
tokenizer = tokenizer ,
seed = seed ,
log_folder = log_folder ,
write_schedule = args . write_schedule ,
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 )
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 )
lr_warmup_steps = int ( args . lr_decay_steps / 50 ) if args . lr_warmup_steps is None else args . lr_warmup_steps
lr_scheduler = get_scheduler (
args . lr_scheduler ,
optimizer = optimizer ,
num_warmup_steps = lr_warmup_steps ,
num_training_steps = args . lr_decay_steps ,
)
sample_prompts = [ ]
with open ( args . sample_prompts , " r " ) as f :
for line in f :
sample_prompts . append ( line . strip ( ) )
if args . wandb is not None and args . wandb :
wandb . init ( project = args . project_name , sync_tensorboard = True , )
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 )
"""
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
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 , args . save_ckpt_dir , args . save_full_precision )
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 " )
logging . info ( f " saving ckpts every { args . save_every_n_epochs } epochs " )
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 " ]
images = torch . stack ( images )
images = images . to ( memory_format = torch . contiguous_format ) . float ( )
ret = {
" tokens " : torch . stack ( tuple ( tokens ) ) ,
" image " : images ,
" captions " : captions ,
" runt_size " : runt_size ,
}
del batch
return ret
train_dataloader = torch . utils . data . DataLoader (
train_batch ,
batch_size = args . batch_size ,
shuffle = False ,
num_workers = 0 ,
collate_fn = collate_fn
)
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 } " )
#scaler = torch.cuda.amp.GradScaler()
scaler = torch . cuda . amp . GradScaler (
enabled = args . amp ,
#enabled=True,
init_scale = 2 * * 17.5 ,
growth_factor = 1.8 ,
backoff_factor = 1.0 / 1.8 ,
growth_interval = 50 ,
)
logging . info ( f " Grad scaler enabled: { scaler . is_enabled ( ) } (amp mode) " )
epoch_pbar = tqdm ( range ( args . max_epochs ) , position = 0 , leave = True )
epoch_pbar . set_description ( f " { Fore . LIGHTCYAN_EX } Epochs { Style . RESET_ALL } " )
# steps_pbar = tqdm(range(epoch_len), position=1, leave=True)
# 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_log_step = [ ]
try :
for epoch in range ( args . max_epochs ) :
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 )
steps_pbar . set_description ( f " { Fore . LIGHTCYAN_EX } Steps { Style . RESET_ALL } " )
for step , batch in enumerate ( train_dataloader ) :
step_start_time = time . time ( )
with torch . no_grad ( ) :
with autocast ( enabled = args . amp ) :
pixel_values = batch [ " 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
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 = batch [ " tokens " ] . to ( text_encoder . device )
#with autocast(enabled=args.amp):
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 ) :
model_pred = unet ( noisy_latents , timesteps , encoder_hidden_states ) . sample
del timesteps , encoder_hidden_states , noisy_latents
#with autocast(enabled=args.amp):
loss = F . mse_loss ( model_pred . float ( ) , target . float ( ) , reduction = " mean " )
del target , model_pred
#if args.amp:
scaler . scale ( loss ) . backward ( )
#else:
# loss.backward()
if args . clip_grad_norm is not None :
if not args . disable_unet_training :
torch . nn . utils . clip_grad_norm_ ( parameters = unet . parameters ( ) , max_norm = args . clip_grad_norm )
if not args . disable_textenc_training :
torch . nn . utils . clip_grad_norm_ ( parameters = text_encoder . parameters ( ) , max_norm = args . clip_grad_norm )
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
if ( ( global_step + 1 ) % args . grad_accum == 0 ) or ( step == epoch_len - 1 ) :
# if args.amp:
scaler . step ( optimizer )
scaler . update ( )
# else:
# optimizer.step()
optimizer . zero_grad ( set_to_none = True )
lr_scheduler . 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 :
curr_lr = lr_scheduler . get_last_lr ( ) [ 0 ]
loss_local = sum ( loss_log_step ) / len ( loss_log_step )
loss_log_step = [ ]
logs = { " loss/log_step " : loss_local , " lr " : curr_lr , " img/s " : images_per_sec }
log_writer . add_scalar ( tag = " hyperparamater/lr " , scalar_value = curr_lr , global_step = global_step )
log_writer . add_scalar ( tag = " loss/log_step " , scalar_value = loss_local , 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 = " hyperparamater/grad scale " , scalar_value = scaler . get_scale ( ) , global_step = global_step )
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 ( )
if ( not args . notebook and keyboard . is_pressed ( " ctrl+alt+page up " ) ) or ( ( global_step + 1 ) % args . sample_steps == 0 ) :
pipe = __create_inference_pipe ( unet = unet , text_encoder = text_encoder , tokenizer = tokenizer , scheduler = sample_scheduler , vae = vae )
pipe = pipe . to ( device )
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 ]
__generate_test_samples ( pipe = pipe , prompts = prompts , log_writer = log_writer , log_folder = log_folder , gs = global_step , random_captions = True , resolution = args . resolution )
del pipe
gc . collect ( )
torch . cuda . empty_cache ( )
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 = 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 , noise_scheduler , vae , args . save_ckpt_dir , args . save_full_precision )
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 } " )
__save_model ( save_path , unet , text_encoder , tokenizer , noise_scheduler , vae , args . save_ckpt_dir , args . save_full_precision )
del batch
global_step + = 1
if global_step == 500 :
scaler . set_growth_factor ( 1.4 )
scaler . set_backoff_factor ( 1 / 1.4 )
if global_step == 1000 :
scaler . set_growth_factor ( 1.2 )
scaler . set_backoff_factor ( 1 / 1.2 )
scaler . set_growth_interval ( 100 )
# 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 )
loss_local = sum ( loss_epoch ) / len ( loss_epoch )
log_writer . add_scalar ( tag = " loss/epoch " , scalar_value = loss_local , global_step = global_step )
# end of epoch
# end of training
save_path = os . path . join ( f " { log_folder } /ckpts/last- { args . project_name } -ep { epoch : 02 } -gs { global_step : 05 } " )
__save_model ( save_path , unet , text_encoder , tokenizer , noise_scheduler , vae , args . save_ckpt_dir , args . save_full_precision )
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 = os . path . join ( f " { log_folder } /ckpts/errored- { args . project_name } -ep { epoch : 02 } -gs { global_step : 05 } " )
__save_model ( save_path , unet , text_encoder , tokenizer , noise_scheduler , vae , args . save_ckpt_dir , args . save_full_precision )
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 } " )
def update_old_args ( t_args ) :
"""
Update old args to new args to deal with json config loading and missing args for compatibility
"""
if not hasattr ( t_args , " shuffle_tags " ) :
print ( f " Config json is missing ' shuffle_tags ' flag " )
t_args . __dict__ [ " shuffle_tags " ] = False
if not hasattr ( t_args , " save_full_precision " ) :
print ( f " Config json is missing ' save_full_precision ' flag " )
t_args . __dict__ [ " save_full_precision " ] = False
if not hasattr ( t_args , " notebook " ) :
print ( f " Config json is missing ' notebook ' flag " )
t_args . __dict__ [ " notebook " ] = False
if not hasattr ( t_args , " disable_unet_training " ) :
print ( f " Config json is missing ' disable_unet_training ' flag " )
t_args . __dict__ [ " disable_unet_training " ] = False
if not hasattr ( t_args , " rated_dataset " ) :
print ( f " Config json is missing ' rated_dataset ' flag " )
t_args . __dict__ [ " rated_dataset " ] = False
if not hasattr ( t_args , " rated_dataset_target_dropout_percent " ) :
print ( f " Config json is missing ' rated_dataset_target_dropout_percent ' flag " )
t_args . __dict__ [ " rated_dataset_target_dropout_percent " ] = 50
if __name__ == " __main__ " :
supported_resolutions = [ 256 , 384 , 448 , 512 , 576 , 640 , 704 , 768 , 832 , 896 , 960 , 1024 , 1088 , 1152 ]
supported_precisions = [ ' fp16 ' , ' fp32 ' ]
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 ) )
update_old_args ( t_args ) # update args to support older configs
print ( f " args: \n { t_args . __dict__ } " )
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 = " Enables automatic mixed precision compute, recommended on " )
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) " )
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 ( " --notebook " , action = " store_true " , default = False , help = " disable keypresses and uses tqdm.notebook for jupyter notebook (def: False) " )
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_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 ( " --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 ( " --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 = " 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) " )
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) " )
args , _ = argparser . parse_known_args ( )
main ( args )