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train_diffusion_prior.py
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train_diffusion_prior.py
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import click
import torch
from torch import nn
from typing import List
from accelerate import Accelerator
from accelerate.utils import set_seed
from torch.utils.data import DataLoader
from embedding_reader import EmbeddingReader
from accelerate.utils import dataclasses as accelerate_dataclasses
from dalle2_pytorch.utils import Timer
from dalle2_pytorch.trackers import Tracker
from dalle2_pytorch import DiffusionPriorTrainer
from dalle2_pytorch.dataloaders import get_reader, make_splits
from dalle2_pytorch.train_configs import (
DiffusionPriorConfig,
DiffusionPriorTrainConfig,
TrainDiffusionPriorConfig,
)
# helpers
cos = nn.CosineSimilarity(dim=1, eps=1e-6)
def exists(val):
return val is not None
def all_between(values: list, lower_bound, upper_bound):
for value in values:
if value < lower_bound or value > upper_bound:
return False
return True
def make_model(
prior_config: DiffusionPriorConfig,
train_config: DiffusionPriorTrainConfig,
device: str = None,
accelerator: Accelerator = None,
):
# create model from config
diffusion_prior = prior_config.create()
# instantiate the trainer
trainer = DiffusionPriorTrainer(
diffusion_prior=diffusion_prior,
lr=train_config.lr,
wd=train_config.wd,
max_grad_norm=train_config.max_grad_norm,
amp=train_config.amp,
use_ema=train_config.use_ema,
device=device,
accelerator=accelerator,
warmup_steps=train_config.warmup_steps,
)
return trainer
def create_tracker(
accelerator: Accelerator,
config: TrainDiffusionPriorConfig,
config_path: str,
dummy: bool = False,
) -> Tracker:
tracker_config = config.tracker
accelerator_config = {
"Distributed": accelerator.distributed_type
!= accelerate_dataclasses.DistributedType.NO,
"DistributedType": accelerator.distributed_type,
"NumProcesses": accelerator.num_processes,
"MixedPrecision": accelerator.mixed_precision,
}
tracker: Tracker = tracker_config.create(
config, accelerator_config, dummy_mode=dummy
)
tracker.save_config(config_path, config_name="prior_config.json")
return tracker
def pad_gather_reduce(trainer: DiffusionPriorTrainer, x, method="mean"):
"""
pad a value or tensor across all processes and gather
params:
- trainer: a trainer that carries an accelerator object
- x: a number or torch tensor to reduce
- method: "mean", "sum", "max", "min"
return:
- the average tensor after maskin out 0's
- None if the gather resulted in an empty tensor
"""
assert method in [
"mean",
"sum",
"max",
"min",
], "This function has limited capabilities [sum, mean, max, min]"
assert type(x) is not None, "Cannot reduce a None type object"
# wait for everyone to arrive here before gathering
if type(x) is not torch.Tensor:
x = torch.tensor([x])
# verify that the tensor is on the proper device
x = x.to(trainer.device)
# pad across processes
padded_x = trainer.accelerator.pad_across_processes(x, dim=0)
# gather across all procesess
gathered_x = trainer.accelerator.gather(padded_x)
# mask out zeros
masked_x = gathered_x[gathered_x != 0]
# if the tensor is empty, warn and return None
if len(masked_x) == 0:
click.secho(
f"The call to this method resulted in an empty tensor after masking out zeros. The gathered tensor was this: {gathered_x} and the original value passed was: {x}.",
fg="red",
)
return None
if method == "mean":
return torch.mean(masked_x)
elif method == "sum":
return torch.sum(masked_x)
elif method == "max":
return torch.max(masked_x)
elif method == "min":
return torch.min(masked_x)
def save_trainer(
tracker: Tracker,
trainer: DiffusionPriorTrainer,
is_latest: bool,
is_best: bool,
epoch: int,
samples_seen: int,
best_validation_loss: float,
):
"""
Logs the model with an appropriate method depending on the tracker
"""
trainer.accelerator.wait_for_everyone()
if trainer.accelerator.is_main_process:
click.secho(
f"RANK:{trainer.accelerator.process_index} | Saving Model | Best={is_best} | Latest={is_latest}",
fg="magenta",
)
tracker.save(
trainer=trainer,
is_best=is_best,
is_latest=is_latest,
epoch=int(epoch),
samples_seen=int(samples_seen),
best_validation_loss=best_validation_loss,
)
def recall_trainer(tracker: Tracker, trainer: DiffusionPriorTrainer):
"""
Loads the model with an appropriate method depending on the tracker
"""
if trainer.accelerator.is_main_process:
click.secho(f"Loading model from {type(tracker.loader).__name__}", fg="yellow")
state_dict = tracker.recall()
trainer.load(state_dict, strict=True)
return (
int(state_dict.get("epoch", 0)),
state_dict.get("best_validation_loss", 0),
int(state_dict.get("samples_seen", 0)),
)
# eval functions
def report_validation_loss(
trainer: DiffusionPriorTrainer,
dataloader: DataLoader,
text_conditioned: bool,
use_ema: bool,
tracker: Tracker,
split: str,
tracker_folder: str,
loss_type: str,
):
"""
Compute the validation loss on a given subset of data.
"""
if trainer.accelerator.is_main_process:
click.secho(
f"Measuring performance on {use_ema}-{split} split",
fg="green",
blink=True,
)
total_loss = torch.zeros(1, dtype=torch.float, device=trainer.device)
for image_embeddings, text_data in dataloader:
image_embeddings = image_embeddings.to(trainer.device)
text_data = text_data.to(trainer.device)
input_args = dict(image_embed=image_embeddings)
if text_conditioned:
input_args = dict(**input_args, text=text_data)
else:
input_args = dict(**input_args, text_embed=text_data)
if use_ema:
loss = trainer.ema_diffusion_prior(**input_args)
else:
loss = trainer(**input_args)
total_loss += loss
# compute the average loss across all processes
avg_loss = pad_gather_reduce(trainer, total_loss, method="mean")
stats = {f"{tracker_folder}/{loss_type}-loss": avg_loss}
# print and log results on main process
tracker.log(stats, step=trainer.step.item() + 1)
return avg_loss
def report_cosine_sims(
trainer: DiffusionPriorTrainer,
dataloader: DataLoader,
text_conditioned: bool,
tracker: Tracker,
split: str,
timesteps: int,
tracker_folder: str,
):
trainer.eval()
if trainer.accelerator.is_main_process:
click.secho(
f"Measuring Cosine-Similarity on {split} split with {timesteps} timesteps",
fg="green",
blink=True,
)
for test_image_embeddings, text_data in dataloader:
test_image_embeddings = test_image_embeddings.to(trainer.device)
text_data = text_data.to(trainer.device)
# we are text conditioned, we produce an embedding from the tokenized text
if text_conditioned:
text_embedding, text_encodings = trainer.embed_text(text_data)
text_cond = dict(text_embed=text_embedding, text_encodings=text_encodings)
else:
text_embedding = text_data
text_cond = dict(text_embed=text_embedding)
# make a copy of the text embeddings for shuffling
text_embed_shuffled = text_embedding.clone()
# roll the text to simulate "unrelated" captions
rolled_idx = torch.roll(torch.arange(text_embedding.shape[0]), 1)
text_embed_shuffled = text_embed_shuffled[rolled_idx]
text_embed_shuffled = text_embed_shuffled / text_embed_shuffled.norm(
dim=1, keepdim=True
)
if text_conditioned:
text_encodings_shuffled = text_encodings[rolled_idx]
else:
text_encodings_shuffled = None
text_cond_shuffled = dict(
text_embed=text_embed_shuffled, text_encodings=text_encodings_shuffled
)
# prepare the text embedding
text_embed = text_embedding / text_embedding.norm(dim=1, keepdim=True)
# prepare image embeddings
test_image_embeddings = test_image_embeddings / test_image_embeddings.norm(
dim=1, keepdim=True
)
# predict on the unshuffled text embeddings
predicted_image_embeddings = trainer.p_sample_loop(
test_image_embeddings.shape,
text_cond,
timesteps=timesteps,
)
predicted_image_embeddings = (
predicted_image_embeddings
/ predicted_image_embeddings.norm(dim=1, keepdim=True)
)
# predict on the shuffled embeddings
predicted_unrelated_embeddings = trainer.p_sample_loop(
test_image_embeddings.shape,
text_cond_shuffled,
timesteps=timesteps,
)
predicted_unrelated_embeddings = (
predicted_unrelated_embeddings
/ predicted_unrelated_embeddings.norm(dim=1, keepdim=True)
)
# calculate similarities
orig_sim = pad_gather_reduce(
trainer, cos(text_embed, test_image_embeddings), method="mean"
)
pred_sim = pad_gather_reduce(
trainer, cos(text_embed, predicted_image_embeddings), method="mean"
)
unrel_sim = pad_gather_reduce(
trainer, cos(text_embed, predicted_unrelated_embeddings), method="mean"
)
pred_img_sim = pad_gather_reduce(
trainer,
cos(test_image_embeddings, predicted_image_embeddings),
method="mean",
)
stats = {
f"{tracker_folder}/baseline similarity [steps={timesteps}]": orig_sim,
f"{tracker_folder}/similarity with text [steps={timesteps}]": pred_sim,
f"{tracker_folder}/similarity with original image [steps={timesteps}]": pred_img_sim,
f"{tracker_folder}/similarity with unrelated caption [steps={timesteps}]": unrel_sim,
f"{tracker_folder}/difference from baseline similarity [steps={timesteps}]": pred_sim
- orig_sim,
}
tracker.log(stats, step=trainer.step.item() + 1)
def eval_model(
trainer: DiffusionPriorTrainer,
dataloader: DataLoader,
text_conditioned: bool,
split: str,
tracker: Tracker,
use_ema: bool,
report_cosine: bool,
report_loss: bool,
timesteps: List[int],
loss_type: str = None,
):
"""
Run evaluation on a model and track metrics
returns: loss if requested
"""
trainer.eval()
use_ema = "ema" if use_ema else "online"
tracker_folder = f"metrics/{use_ema}-{split}"
# detemine if valid timesteps are passed
min_timesteps = trainer.accelerator.unwrap_model(
trainer.diffusion_prior
).sample_timesteps
max_timesteps = trainer.accelerator.unwrap_model(
trainer.diffusion_prior
).noise_scheduler.num_timesteps
assert all_between(
timesteps, lower_bound=min_timesteps, upper_bound=max_timesteps
), f"all timesteps values must be between {min_timesteps} and {max_timesteps}: got {timesteps}"
# measure cosine metrics across various eta and timesteps
if report_cosine:
for timestep in timesteps:
report_cosine_sims(
trainer,
dataloader=dataloader,
text_conditioned=text_conditioned,
tracker=tracker,
split=split,
timesteps=timestep,
tracker_folder=tracker_folder,
)
# measure loss on a seperate split of data
if report_loss:
loss = report_validation_loss(
trainer=trainer,
dataloader=dataloader,
text_conditioned=text_conditioned,
use_ema=use_ema,
tracker=tracker,
split=split,
tracker_folder=tracker_folder,
loss_type=loss_type,
)
return loss
# training script
def train(
trainer: DiffusionPriorTrainer,
tracker: Tracker,
train_loader: DataLoader,
eval_loader: DataLoader,
test_loader: DataLoader,
config: DiffusionPriorTrainConfig,
):
# init timers
save_timer = Timer() # when to save
samples_timer = Timer() # samples/sec
validation_profiler = Timer() # how long is validation taking
validation_countdown = Timer() # when to perform evalutation
# keep track of best validation loss
best_validation_loss = config.train.best_validation_loss
samples_seen = config.train.num_samples_seen
# do training
start_epoch = config.train.current_epoch
for epoch in range(start_epoch, config.train.epochs):
# if we finished out an old epoch, reset the distribution to be a full epoch
tracker.log({"tracking/epoch": epoch}, step=trainer.step.item())
if train_loader.dataset.get_start() > 0 and epoch == start_epoch+1:
if trainer.accelerator.is_main_process:
click.secho(f"Finished resumed epoch...resetting dataloader.")
train_loader.dataset.set_start(0)
for img, txt in train_loader:
# setup things every step
trainer.train()
current_step = trainer.step.item()
samples_timer.reset()
# place data on device
img = img.to(trainer.device)
txt = txt.to(trainer.device)
# pass to model
loss = trainer(text=txt, image_embed=img)
# perform backprop & apply EMA updates
trainer.update()
# gather info about training step
all_loss = pad_gather_reduce(trainer, loss, method="mean")
num_samples = pad_gather_reduce(trainer, len(txt), method="sum")
samples_per_sec = num_samples / samples_timer.elapsed()
samples_seen += num_samples
ema_decay = trainer.ema_diffusion_prior.get_current_decay()
# log
tracker.log(
{
"tracking/samples-sec": samples_per_sec,
"tracking/samples-seen": samples_seen,
"tracking/ema-decay": ema_decay,
f"tracking/training-{config.prior.loss_type}": all_loss,
},
step=current_step,
)
# Metric Tracking @ Timed Intervals
eval_delta = pad_gather_reduce(
trainer, validation_countdown.elapsed(), method="min"
)
if eval_delta != None and eval_delta > config.data.eval_every_seconds:
# begin timing how long this takes
validation_profiler.reset()
# package kwargs for evaluation
eval_kwargs = {
"trainer": trainer,
"tracker": tracker,
"text_conditioned": config.prior.condition_on_text_encodings,
"timesteps": config.train.eval_timesteps,
}
# ONLINE MODEL : COSINE : LOSS : VALIDATION SPLIT
eval_model(
dataloader=eval_loader,
loss_type=config.prior.loss_type,
split="validation",
use_ema=False,
report_cosine=False,
report_loss=True,
**eval_kwargs,
)
# EMA MODEL : COSINE : LOSS : VALIDATION DATA
ema_val_loss = eval_model(
dataloader=eval_loader,
loss_type=config.prior.loss_type,
split="validation",
use_ema=True,
report_cosine=True,
report_loss=True,
**eval_kwargs,
)
tracker.log(
{
"tracking/validation length (minutes)": validation_profiler.elapsed()
/ 60
}
)
# check if the ema validation is the lowest seen yet
if ema_val_loss < best_validation_loss:
best_validation_loss = ema_val_loss
# go save the model as best
save_trainer(
trainer=trainer,
tracker=tracker,
is_best=True,
is_latest=False,
samples_seen=samples_seen,
epoch=epoch,
best_validation_loss=best_validation_loss,
)
# reset timer for validaiton
validation_countdown.reset()
elif eval_delta is None:
click.secho(
f"Error occured reading the eval time on rank: {trainer.device}",
fg="yellow",
)
# save as latest model on schedule
save_delta = pad_gather_reduce(trainer, save_timer.elapsed(), method="min")
if save_delta != None and save_delta >= config.train.save_every_seconds:
save_trainer(
trainer=trainer,
tracker=tracker,
is_best=False,
is_latest=True,
samples_seen=samples_seen,
epoch=epoch,
best_validation_loss=best_validation_loss,
)
save_timer.reset()
elif save_delta is None:
click.secho(
f"Error occured reading the save time on rank: {trainer.device}",
fg="yellow",
)
# evaluate on test data
if trainer.accelerator.is_main_process:
click.secho(f"Starting Test", fg="red")
# save one last time as latest before beginning validation
save_trainer(
tracker=tracker,
trainer=trainer,
is_best=False,
is_latest=True,
samples_seen=samples_seen,
epoch=epoch,
best_validation_loss=best_validation_loss,
)
test_loss = eval_model(
trainer=trainer,
dataloader=test_loader,
text_conditioned=config.prior.condition_on_text_encodings,
split="test",
tracker=tracker,
use_ema=True,
report_cosine=False,
report_loss=True,
timesteps=config.train.eval_timesteps,
loss_type=config.prior.loss_type,
)
if test_loss < best_validation_loss:
best_validation_loss = test_loss
# go save the model as best
save_trainer(
trainer=trainer,
tracker=tracker,
is_best=True,
is_latest=False,
samples_seen=samples_seen,
epoch=epoch,
best_validation_loss=test_loss,
)
def initialize_training(config_file, accelerator):
"""
Parse the configuration file, and prepare everything necessary for training
"""
# load the configuration file
if accelerator.is_main_process:
click.secho(f"Loading configuration from {config_file}", fg="green")
config = TrainDiffusionPriorConfig.from_json_path(config_file)
# seed
set_seed(config.train.random_seed)
# get a device
device = accelerator.device
# make the trainer (will automatically distribute if possible & configured)
trainer: DiffusionPriorTrainer = make_model(
config.prior, config.train, device, accelerator
).to(device)
# create a tracker
tracker = create_tracker(
accelerator, config, config_file, dummy=accelerator.process_index != 0
)
# reload from chcekpoint
if tracker.can_recall:
current_epoch, best_validation_loss, samples_seen = recall_trainer(
tracker=tracker, trainer=trainer
)
# display best values
if trainer.accelerator.is_main_process:
click.secho(f"Current Epoch: {current_epoch} | Best Val Loss: {best_validation_loss} | Samples Seen: {samples_seen}", fg="yellow")
# update config to reflect recalled values
config.train.num_samples_seen = samples_seen
config.train.current_epoch = current_epoch
config.train.best_validation_loss = best_validation_loss
# fetch and prepare data
if trainer.accelerator.is_main_process:
click.secho("Grabbing data...", fg="blue", blink=True)
trainer.accelerator.wait_for_everyone()
img_reader = get_reader(
text_conditioned=trainer.text_conditioned,
img_url=config.data.image_url,
meta_url=config.data.meta_url,
)
# calculate start point within epoch
trainer.accelerator.wait_for_everyone()
train_loader, eval_loader, test_loader = make_splits(
text_conditioned=trainer.text_conditioned,
batch_size=config.data.batch_size,
num_data_points=config.data.num_data_points,
train_split=config.data.splits.train,
eval_split=config.data.splits.val,
image_reader=img_reader,
rank=accelerator.state.process_index,
world_size=accelerator.state.num_processes,
start=0,
)
# update the start point to finish out the epoch on a resumed run
if tracker.can_recall:
samples_seen = config.train.num_samples_seen
length = (
config.data.num_data_points
if samples_seen <= img_reader.count
else img_reader.count
)
scaled_samples = length * config.train.current_epoch
start_point = (
scaled_samples - samples_seen if scaled_samples > samples_seen else samples_seen
)
if trainer.accelerator.is_main_process:
click.secho(f"Resuming at sample: {start_point}", fg="yellow")
train_loader.dataset.set_start(start_point)
# start training
if trainer.accelerator.is_main_process:
click.secho(
f"Beginning Prior Training : Distributed={accelerator.state.distributed_type != accelerate_dataclasses.DistributedType.NO}",
fg="yellow",
)
train(
trainer=trainer,
tracker=tracker,
train_loader=train_loader,
eval_loader=eval_loader,
test_loader=test_loader,
config=config,
)
@click.command()
@click.option("--config_file", default="configs/train_prior_config.example.json")
def main(config_file):
# start HFA
accelerator = Accelerator()
# setup training
initialize_training(config_file, accelerator)
if __name__ == "__main__":
main()