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train_itm_hard_negatives.py
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train_itm_hard_negatives.py
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"""
Copyright (c) Microsoft Corporation.
Licensed under the MIT license.
UNITER finetuning for Image-Text Retrieval with hard negatives
"""
import argparse
import os
from os.path import exists, join
from time import time
import torch
from torch.nn.utils import clip_grad_norm_
from torch.utils.data import DataLoader, ConcatDataset
from apex import amp
from horovod import torch as hvd
from tqdm import tqdm
from data import (PrefetchLoader, TxtTokLmdb, ImageLmdbGroup,
ItmRankDatasetHardNegFromText,
ItmRankDatasetHardNegFromImage, itm_rank_hn_collate,
ItmValDataset, itm_val_collate,
ItmEvalDataset, itm_eval_collate)
from model.itm import UniterForImageTextRetrievalHardNeg
from optim import get_lr_sched
from optim.misc import build_optimizer
from utils.logger import LOGGER, TB_LOGGER, RunningMeter, add_log_to_file
from utils.distributed import (all_reduce_and_rescale_tensors, all_gather_list,
broadcast_tensors)
from utils.save import ModelSaver, save_training_meta
from utils.misc import NoOp, parse_with_config, set_dropout, set_random_seed
from utils.const import IMG_DIM
from utils.itm_eval import evaluate
def build_dataloader(dataset, collate_fn, is_train, opts):
dataloader = DataLoader(dataset, batch_size=1,
shuffle=is_train, drop_last=is_train,
num_workers=opts.n_workers,
pin_memory=opts.pin_mem, collate_fn=collate_fn)
dataloader = PrefetchLoader(dataloader)
return dataloader
def main(opts):
hvd.init()
n_gpu = hvd.size()
device = torch.device("cuda", hvd.local_rank())
torch.cuda.set_device(hvd.local_rank())
rank = hvd.rank()
opts.rank = rank
LOGGER.info("device: {} n_gpu: {}, rank: {}, "
"16-bits training: {}".format(
device, n_gpu, hvd.rank(), opts.fp16))
set_random_seed(opts.seed)
if hvd.rank() == 0:
save_training_meta(opts)
TB_LOGGER.create(join(opts.output_dir, 'log'))
pbar = tqdm(total=opts.num_train_steps)
model_saver = ModelSaver(join(opts.output_dir, 'ckpt'))
add_log_to_file(join(opts.output_dir, 'log', 'log.txt'))
# store ITM predictions
os.makedirs(join(opts.output_dir, 'results_val'))
os.makedirs(join(opts.output_dir, 'results_test'))
os.makedirs(join(opts.output_dir, 'results_train'))
else:
LOGGER.disabled = True
pbar = NoOp()
model_saver = NoOp()
# train_examples = None
LOGGER.info(f"Loading Train Dataset {opts.train_txt_dbs}, "
f"{opts.train_img_dbs}")
# check multiple DBs
assert len(opts.train_txt_dbs) == len(opts.train_img_dbs), \
"train txt_db and img_db have different length"
# load DBs and image dirs
all_img_dbs = ImageLmdbGroup(opts.conf_th, opts.max_bb, opts.min_bb,
opts.num_bb, opts.compressed_db)
# train
LOGGER.info(f"Loading Train Dataset "
f"{opts.train_txt_dbs}, {opts.train_img_dbs}")
train_datasets_t = []
train_datasets_i = []
for txt_path, img_path in zip(opts.train_txt_dbs, opts.train_img_dbs):
img_db = all_img_dbs[img_path]
txt_db = TxtTokLmdb(txt_path, opts.max_txt_len)
train_datasets_t.append(
ItmRankDatasetHardNegFromText(txt_db, img_db, opts.negative_size))
train_datasets_i.append(
ItmRankDatasetHardNegFromImage(txt_db, img_db, opts.negative_size))
train_dataset_t = ConcatDataset(train_datasets_t)
train_dataset_i = ConcatDataset(train_datasets_i)
train_dataloader_t = build_dataloader(
train_dataset_t, itm_rank_hn_collate, True, opts)
train_dataloader_i = build_dataloader(
train_dataset_i, itm_rank_hn_collate, True, opts)
# val
LOGGER.info(f"Loading Val Dataset {opts.val_txt_db}, {opts.val_img_db}")
val_img_db = all_img_dbs[opts.val_img_db]
val_txt_db = TxtTokLmdb(opts.val_txt_db, -1)
val_dataset = ItmValDataset(val_txt_db, val_img_db,
opts.inf_minibatch_size)
val_dataloader = build_dataloader(val_dataset, itm_val_collate,
False, opts)
# eval
LOGGER.info(f"Loading val, test Dataset for full evaluation: "
f"{opts.val_txt_db}, {opts.val_img_db}"
f"{opts.test_txt_db}, {opts.test_img_db}")
eval_dataset_val = ItmEvalDataset(val_txt_db, val_img_db,
opts.inf_minibatch_size)
eval_loader_val = build_dataloader(eval_dataset_val, itm_eval_collate,
False, opts)
test_img_db = all_img_dbs[opts.test_img_db]
test_txt_db = TxtTokLmdb(opts.test_txt_db, -1)
eval_dataset_test = ItmEvalDataset(test_txt_db, test_img_db,
opts.inf_minibatch_size)
eval_loader_test = build_dataloader(eval_dataset_test, itm_eval_collate,
False, opts)
# Prepare model
if opts.checkpoint:
checkpoint = torch.load(opts.checkpoint)
else:
checkpoint = {}
model = UniterForImageTextRetrievalHardNeg.from_pretrained(
opts.model_config, state_dict=checkpoint,
img_dim=IMG_DIM, margin=opts.margin, hard_size=opts.hard_neg_size)
model.init_output() # pretrain ITM head is different from ranking head
model.to(device)
# make sure every process has same model parameters in the beginning
broadcast_tensors([p.data for p in model.parameters()], 0)
set_dropout(model, opts.dropout)
# Prepare optimizer
optimizer = build_optimizer(model, opts)
model, optimizer = amp.initialize(model, optimizer,
enabled=opts.fp16, opt_level='O2')
LOGGER.info(f"***** Running training on {n_gpu} GPUs *****")
LOGGER.info(" Num examples = %d",
sum(all_gather_list(len(train_dataset_t))))
LOGGER.info(" Batch size = %d", opts.train_batch_size)
LOGGER.info(" Num steps = %d", opts.num_train_steps)
running_loss = RunningMeter('loss')
model.train()
global_step = 0
step = 0
n_examples = 0
n_hard_ex = 0
start = time()
train_iter_i = iter(train_dataloader_i)
# quick hack for amp delay_unscale bug
optimizer.zero_grad()
optimizer.step()
while True:
for batch in train_dataloader_t:
# hard text from image
try:
batch_i = next(train_iter_i)
except StopIteration:
train_iter_i = iter(train_dataloader_i)
batch_i = next(train_iter_i)
n_examples += batch_i['attn_masks'].size(0)
loss = model(batch_i, sample_from='i', compute_loss=True)
n_hard_ex += loss.numel()
loss = loss.mean() / opts.train_batch_size
with amp.scale_loss(loss, optimizer, delay_unscale=True
) as scaled_loss:
scaled_loss.backward()
# hard image from text
n_examples += batch['attn_masks'].size(0)
loss = model(batch, sample_from='t', compute_loss=True)
n_hard_ex += loss.numel()
# NOTE we use gradient accumulation to implemented train_batch_size
loss = loss.mean() / opts.train_batch_size
step += 1
delay_unscale = step % opts.train_batch_size != 0
with amp.scale_loss(loss, optimizer, delay_unscale=delay_unscale
) as scaled_loss:
scaled_loss.backward()
if not delay_unscale:
# gather gradients from every processes
# do this before unscaling to make sure every process uses
# the same gradient scale
grads = [p.grad.data for p in model.parameters()
if p.requires_grad and p.grad is not None]
all_reduce_and_rescale_tensors(grads, float(1))
running_loss(loss.item())
if step % opts.train_batch_size == 0:
global_step += 1
# learning rate scheduling
lr_this_step = get_lr_sched(global_step, opts)
for param_group in optimizer.param_groups:
param_group['lr'] = lr_this_step
TB_LOGGER.add_scalar('lr', lr_this_step, global_step)
# log loss
# NOTE: not gathered across GPUs for efficiency
TB_LOGGER.add_scalar('loss', running_loss.val, global_step)
TB_LOGGER.step()
# update model params
if opts.grad_norm != -1:
grad_norm = clip_grad_norm_(amp.master_params(optimizer),
opts.grad_norm)
TB_LOGGER.add_scalar('grad_norm', grad_norm, global_step)
optimizer.step()
optimizer.zero_grad()
pbar.update(1)
if global_step % 100 == 0:
# monitor training throughput
LOGGER.info(f'------------Step {global_step}-------------')
tot_ex = sum(all_gather_list(n_examples))
ex_per_sec = int(tot_ex / (time()-start))
tot_hn = sum(all_gather_list(n_hard_ex))
hn_per_sec = int(tot_hn / (time()-start))
LOGGER.info(f'{tot_ex} ({tot_hn}) examples (hard) '
f'trained at {ex_per_sec} ({hn_per_sec}) ex/s')
TB_LOGGER.add_scalar('perf/ex_per_s',
ex_per_sec, global_step)
TB_LOGGER.add_scalar('perf/hn_per_s',
hn_per_sec, global_step)
LOGGER.info(f'-------------------------------------------')
if global_step % opts.valid_steps == 0:
if opts.full_val:
LOGGER.info(
f"========================== Step {global_step} "
f"==========================")
val_log = evaluate(model, eval_loader_val)
TB_LOGGER.log_scaler_dict(
{f"valid/{k}": v for k, v in val_log.items()})
LOGGER.info(f"image retrieval R1: "
f"{val_log['img_r1']*100:.2f},\n"
f"image retrieval R5: "
f"{val_log['img_r5']*100:.2f},\n"
f"image retrieval R10: "
f"{val_log['img_r10']*100:.2f}\n"
f"text retrieval R1: "
f"{val_log['txt_r1']*100:.2f},\n"
f"text retrieval R5: "
f"{val_log['txt_r5']*100:.2f},\n"
f"text retrieval R10: "
f"{val_log['txt_r10']*100:.2f}")
LOGGER.info("================================="
"=================================")
else:
val_log = validate(model, val_dataloader)
TB_LOGGER.log_scaler_dict(val_log)
model_saver.save(model, global_step)
if global_step >= opts.num_train_steps:
break
if global_step >= opts.num_train_steps:
break
pbar.close()
# final validation
val_log = validate(model, val_dataloader)
TB_LOGGER.log_scaler_dict(val_log)
model_saver.save(model, f'{global_step}_final')
# evaluation
for split, loader in [('val', eval_loader_val),
('test', eval_loader_test)]:
eval_log = evaluate(model, loader)
TB_LOGGER.log_scaler_dict({f"eval/{split}_{k}": v
for k, v in eval_log.items()})
if hvd.rank() != 0:
continue
LOGGER.info(
f"========================= {split} ===========================\n"
f"image retrieval R1: {eval_log['img_r1']*100:.2f},\n"
f"image retrieval R5: {eval_log['img_r5']*100:.2f},\n"
f"image retrieval R10: {eval_log['img_r10']*100:.2f}\n"
f"text retrieval R1: {eval_log['txt_r1']*100:.2f},\n"
f"text retrieval R5: {eval_log['txt_r5']*100:.2f},\n"
f"text retrieval R10: {eval_log['txt_r10']*100:.2f}")
LOGGER.info("=========================================================")
@torch.no_grad()
def validate(model, val_loader):
if hvd.rank() == 0:
pbar = tqdm(total=len(val_loader))
else:
pbar = NoOp()
LOGGER.info("start running Image Retrieval validation ...")
model.eval()
n_ex = 0
st = time()
recall_at_1, recall_at_5, recall_at_10 = 0, 0, 0
for batch in val_loader:
scores = model(batch, compute_loss=False)
_, indices = scores.squeeze(1).topk(10, dim=0)
rank = (indices == 0).nonzero()
if rank.numel():
rank = rank.item()
if rank < 1:
recall_at_1 += 1
if rank < 5:
recall_at_5 += 1
if rank < 10:
recall_at_10 += 1
n_ex += 1
pbar.update(1)
n_ex = sum(all_gather_list(n_ex))
recall_at_1 = sum(all_gather_list(recall_at_1)) / n_ex
recall_at_5 = sum(all_gather_list(recall_at_5)) / n_ex
recall_at_10 = sum(all_gather_list(recall_at_10)) / n_ex
tot_time = time()-st
val_log = {'valid/ex_per_s': n_ex/tot_time,
'valid/recall_1': recall_at_1,
'valid/recall_5': recall_at_5,
'valid/recall_10': recall_at_10}
model.train()
LOGGER.info(f"validation finished in {int(tot_time)} seconds, "
f"recall_1: {recall_at_1*100:.2f}, "
f"recall_5: {recall_at_5*100:.2f}, "
f"recall_10: {recall_at_10*100:.2f}")
pbar.close()
return val_log
if __name__ == "__main__":
parser = argparse.ArgumentParser()
# Required parameters
parser.add_argument('--compressed_db', action='store_true',
help='use compressed LMDB')
parser.add_argument("--checkpoint",
default=None, type=str,
help="pretrained MLM")
parser.add_argument("--output_dir", default=None, type=str,
help="The output directory where the model "
"checkpoints will be written.")
# Prepro parameters
parser.add_argument('--max_txt_len', type=int, default=60,
help='max number of tokens in text (BERT BPE)')
parser.add_argument('--conf_th', type=float, default=0.2,
help='threshold for dynamic bounding boxes '
'(-1 for fixed)')
parser.add_argument('--max_bb', type=int, default=100,
help='max number of bounding boxes')
parser.add_argument('--min_bb', type=int, default=10,
help='min number of bounding boxes')
parser.add_argument('--num_bb', type=int, default=36,
help='static number of bounding boxes')
# training parameters
parser.add_argument("--train_batch_size", default=32, type=int,
help="batch size (# positive examples) for training. "
"(implemented with gradient accumulation)")
parser.add_argument("--negative_size", default=511, type=int,
help="Number of negative samples per positive sample"
"(forward only)")
parser.add_argument("--hard_neg_size", default=31, type=int,
help="Number of hard negative samples "
"per positive sample (acutally used to train)")
parser.add_argument("--inf_minibatch_size", default=512, type=int,
help="batch size for running inference. "
"(used for validation and evaluation)")
parser.add_argument("--margin", default=0.2, type=float,
help="margin of ranking loss")
parser.add_argument("--learning_rate", default=3e-5, type=float,
help="The initial learning rate for Adam.")
parser.add_argument("--valid_steps", default=1000, type=int,
help="Run validation every X steps")
parser.add_argument("--num_train_steps", default=100000, type=int,
help="Total number of training updates to perform.")
parser.add_argument("--optim", default='adam',
choices=['adam', 'adamax', 'adamw'],
help="optimizer")
parser.add_argument("--betas", default=[0.9, 0.98], nargs='+',
help="beta for adam optimizer")
parser.add_argument("--dropout", default=0.1, type=float,
help="tune dropout regularization")
parser.add_argument("--weight_decay", default=0.01, type=float,
help="weight decay (L2) regularization")
parser.add_argument("--grad_norm", default=0.25, type=float,
help="gradient clipping (-1 for no clipping)")
parser.add_argument("--warmup_steps", default=4000, type=int,
help="Number of training steps to perform linear "
"learning rate warmup for.")
# device parameters
parser.add_argument('--seed', type=int, default=42,
help="random seed for initialization")
parser.add_argument('--full_val', action='store_true',
help="Always run full evaluation during training")
parser.add_argument('--fp16', action='store_true',
help="Whether to use 16-bit float precision instead "
"of 32-bit")
parser.add_argument('--n_workers', type=int, default=4,
help="number of data workers")
parser.add_argument('--pin_mem', action='store_true',
help="pin memory")
# can use config files
parser.add_argument('--config', help='JSON config files')
args = parse_with_config(parser)
if exists(args.output_dir) and os.listdir(args.output_dir):
raise ValueError("Output directory ({}) already exists and is not "
"empty.".format(args.output_dir))
# options safe guard
if args.conf_th == -1:
assert args.max_bb + args.max_txt_len + 2 <= 512
else:
assert args.num_bb + args.max_txt_len + 2 <= 512
# for tensor core
assert (args.negative_size+1) % 8 == (args.hard_neg_size+1) % 8 == 0
main(args)