ColossalAI/examples/tutorial/sequence_parallel/train.py

import colossalai
from colossalai.context.parallel_mode import ParallelMode
from colossalai.core import global_context as gpc
from data import build_train_valid_test_data_iterators
from data.tokenizer import initialize_tokenizer, get_padded_vocab_size
from data.bert_helper import get_batch_for_sequence_parallel, SequenceParallelDataIterator
from colossalai.amp import AMP_TYPE
from colossalai.logging import get_dist_logger
from colossalai.utils import MultiTimer, is_using_pp
from model.bert import BertForPretrain
from lr_scheduler import AnnealingLR
from loss_func.bert_loss import BertLoss
import torch
from colossalai.engine.schedule import PipelineSchedule
from colossalai.amp import AMP_TYPE
from colossalai.nn.optimizer import FusedAdam
from colossalai.kernel import LayerNorm
from model.bert import build_pipeline_bert


def process_batch_data(batch_data):
    tokens, types, sentence_order, loss_mask, lm_labels, padding_mask = batch_data
    if gpc.is_first_rank(ParallelMode.PIPELINE):
        data = dict(input_ids=tokens, attention_masks=padding_mask, tokentype_ids=types, lm_labels=lm_labels)
    else:
        data = dict(attention_masks=padding_mask, tokentype_ids=types, lm_labels=lm_labels)
    label = dict(loss_mask=loss_mask, sentence_order=sentence_order)
    return data, label


def main():
    # initialize
    colossalai.launch_from_torch(config='./config.py', seed=1234, backend='nccl')

    logger = get_dist_logger()

    # build dataloader
    initialize_tokenizer(gpc.config.VOCAB_FILE_PATH, tokenizer_type='BertWordPieceLowerCase')
    VOCAB_SIZE = get_padded_vocab_size()
    trainloader, validloader, testloader = build_train_valid_test_data_iterators(
        train_iters=gpc.config.TRAIN_ITERS,
        global_batch_size=gpc.config.GLOBAL_BATCH_SIZE,
        eval_interval=gpc.config.EVAL_INTERVAL,
        eval_iters=gpc.config.EVAL_ITERS,
        data_prefix=[gpc.config.DATA_PATH],
        data_impl='mmap',
        splits_string='949,50,1',
        max_seq_length=gpc.config.SEQ_LENGTH,
        masked_lm_prob=0.15,
        short_seq_prob=0.1,
        seed=1234,
        skip_warmup=True,
        binary_head=False,
    )

    logger.info("Dataloaders are built", ranks=[0])

    # build model
    if hasattr(gpc.config, 'fp16') and gpc.config.fp16.get('mode') == AMP_TYPE.NAIVE:
        is_naive_fp16 = True
    else:
        is_naive_fp16 = False

    use_pipeline = is_using_pp()
    kwargs = dict(vocab_size=VOCAB_SIZE,
                  hidden_size=gpc.config.HIDDEN_SIZE,
                  max_sequence_length=gpc.config.SEQ_LENGTH,
                  num_attention_heads=gpc.config.NUM_ATTENTION_HEADS,
                  convert_fp16_to_fp32_in_softmax=True,
                  is_naive_fp16=is_naive_fp16,
                  add_binary_head=gpc.config.ADD_BINARY_HEAD)

    if use_pipeline:
        model = build_pipeline_bert(num_layers=gpc.config.DEPTH, num_chunks=1, **kwargs)
    else:
        model = BertForPretrain(num_layers=gpc.config.DEPTH, **kwargs)

    model = model.half()
    model.reset_parameters()
    logger.info(f"Model is built with softmax in fp32 = {is_naive_fp16}", ranks=[0])

    total_numel = 0
    for p in model.parameters():
        total_numel += p.numel()
    logger.info(f"This model has {total_numel} parameters")

    # build criterion
    criterion = BertLoss()
    logger.info("Criterion is built", ranks=[0])

    # layernorm and bias has no weight decay
    weight_decay_params = {'params': []}
    no_weight_decay_params = {'params': [], 'weight_decay': 0.0}
    for module_ in model.modules():
        if isinstance(module_, LayerNorm):
            no_weight_decay_params['params'].extend([p for p in list(module_._parameters.values()) if p is not None])
        else:
            weight_decay_params['params'].extend(
                [p for n, p in list(module_._parameters.items()) if p is not None and n != 'bias'])
            no_weight_decay_params['params'].extend(
                [p for n, p in list(module_._parameters.items()) if p is not None and n == 'bias'])

    logger.info(
        f"without weight decay param: {len(no_weight_decay_params['params'])}, with weight decay param: {len(weight_decay_params['params'])}"
    )
    # optimizer
    optimizer = FusedAdam((weight_decay_params, no_weight_decay_params),
                          lr=gpc.config.LR,
                          weight_decay=gpc.config.WEIGHT_DECAY)
    logger.info("Optimizer is built", ranks=[0])

    # lr scheduler
    # follow Megatron-LM setting
    warmup_steps = int(gpc.config.DECAY_ITERS * gpc.config.WARMUP_FRACTION)
    lr_scheduler = AnnealingLR(optimizer=optimizer,
                               max_lr=gpc.config.LR,
                               min_lr=gpc.config.MIN_LR,
                               warmup_steps=warmup_steps,
                               decay_steps=gpc.config.DECAY_ITERS,
                               decay_style='linear')
    logger.info(f"LR Scheduler is built with {warmup_steps} warmup steps and {gpc.config.DECAY_ITERS} decay steps")

    # # init
    engine, *dummy = colossalai.initialize(
        model,
        optimizer,
        criterion,
    )

    # build timer
    timer = MultiTimer()
    skip_iters = 0

    # build loss tracker
    accumulated_train_loss = torch.zeros(1, dtype=torch.float32).cuda()
    accumulated_eval_loss = torch.zeros(1, dtype=torch.float32).cuda()

    # build data iters for pipeline parallel
    if use_pipeline:
        train_data_iter = SequenceParallelDataIterator(trainloader)
        valid_data_iter = SequenceParallelDataIterator(validloader)

    for step in range(1, gpc.config.TRAIN_ITERS + 1):
        timer.start('train-iterations')
        engine.train()
        if use_pipeline:
            engine.zero_grad()
            _, _, train_loss = engine.execute_schedule(train_data_iter, return_output_label=False)
            engine.step()
        else:
            tokens, types, sentence_order, loss_mask, lm_labels, padding_mask = get_batch_for_sequence_parallel(
                trainloader)
            engine.zero_grad()
            lm_loss, sop_output = engine(tokens, padding_mask, types, lm_labels)
            train_loss = engine.criterion(lm_loss, sop_output, loss_mask, sentence_order)
            engine.backward(train_loss)
            engine.step()
        timer.stop('train-iterations', keep_in_history=True)

        if not gpc.is_initialized(ParallelMode.PIPELINE) or gpc.is_last_rank(ParallelMode.PIPELINE):
            accumulated_train_loss += train_loss

        lr_scheduler.step()

        if step % gpc.config.EVAL_INTERVAL == 0:
            engine.eval()

            for j in range(gpc.config.EVAL_ITERS):
                with torch.no_grad():
                    if use_pipeline:
                        _, _, eval_loss = engine.execute_schedule(valid_data_iter,
                                                                  forward_only=True,
                                                                  return_output_label=False)
                    else:
                        tokens, types, sentence_order, loss_mask, lm_labels, padding_mask = get_batch_for_sequence_parallel(
                            validloader)
                        lm_loss, sop_output = engine(tokens, padding_mask, types, lm_labels)
                        eval_loss = engine.criterion(lm_loss, sop_output, loss_mask, sentence_order)

                    if not gpc.is_initialized(ParallelMode.PIPELINE) or gpc.is_last_rank(ParallelMode.PIPELINE):
                        accumulated_eval_loss += eval_loss

            if not gpc.is_initialized(ParallelMode.PIPELINE) or gpc.is_last_rank(ParallelMode.PIPELINE):
                accumulated_eval_loss /= gpc.config.EVAL_ITERS
                accumulated_train_loss /= gpc.config.EVAL_INTERVAL

            timer_string = []
            for n, t in timer:
                timer_string.append(f"{n}: {t.get_history_mean()*1000:.5f}")
            timer_string = ' | '.join(timer_string)
            lr = list(engine.optimizer.param_groups)[0]['lr']
            loss_scale = engine.optimizer.optim.loss_scale.item()

            if gpc.is_initialized(ParallelMode.PIPELINE):
                ranks = [gpc.get_ranks_in_group(ParallelMode.PIPELINE)[-1]]
            else:
                ranks = [0]
            logger.info(f'Step {step} / {gpc.config.TRAIN_ITERS} | Train Loss: {accumulated_train_loss.item():.5g} ' +
                        f'| Eval Loss: {accumulated_eval_loss.item():.5g} ' + f'| Loss Scale: {loss_scale}' +
                        f"| Learning rate: {lr} | " + timer_string,
                        ranks=ranks)

            for n, t in timer:
                t.reset()
            accumulated_eval_loss.zero_()
            accumulated_train_loss.zero_()


if __name__ == '__main__':
    main()
[tutorial] edited hands-on practices (#1899) * Add handson to ColossalAI. * Change names of handsons and edit sequence parallel example. * Edit wrong folder name * resolve conflict * delete readme 2 years ago			`import colossalai`
			`from colossalai.context.parallel_mode import ParallelMode`
			`from colossalai.core import global_context as gpc`
			`from data import build_train_valid_test_data_iterators`
			`from data.tokenizer import initialize_tokenizer, get_padded_vocab_size`
			`from data.bert_helper import get_batch_for_sequence_parallel, SequenceParallelDataIterator`
			`from colossalai.amp import AMP_TYPE`
			`from colossalai.logging import get_dist_logger`
			`from colossalai.utils import MultiTimer, is_using_pp`
			`from model.bert import BertForPretrain`
			`from lr_scheduler import AnnealingLR`
			`from loss_func.bert_loss import BertLoss`
			`import torch`
			`from colossalai.engine.schedule import PipelineSchedule`
			`from colossalai.amp import AMP_TYPE`
			`from colossalai.nn.optimizer import FusedAdam`
			`from colossalai.kernel import LayerNorm`
			`from model.bert import build_pipeline_bert`


			`def process_batch_data(batch_data):`
			`tokens, types, sentence_order, loss_mask, lm_labels, padding_mask = batch_data`
			`if gpc.is_first_rank(ParallelMode.PIPELINE):`
			`data = dict(input_ids=tokens, attention_masks=padding_mask, tokentype_ids=types, lm_labels=lm_labels)`
			`else:`
			`data = dict(attention_masks=padding_mask, tokentype_ids=types, lm_labels=lm_labels)`
			`label = dict(loss_mask=loss_mask, sentence_order=sentence_order)`
			`return data, label`


			`def main():`
			`# initialize`
			`colossalai.launch_from_torch(config='./config.py', seed=1234, backend='nccl')`

			`logger = get_dist_logger()`

			`# build dataloader`
			`initialize_tokenizer(gpc.config.VOCAB_FILE_PATH, tokenizer_type='BertWordPieceLowerCase')`
			`VOCAB_SIZE = get_padded_vocab_size()`
			`trainloader, validloader, testloader = build_train_valid_test_data_iterators(`
			`train_iters=gpc.config.TRAIN_ITERS,`
			`global_batch_size=gpc.config.GLOBAL_BATCH_SIZE,`
			`eval_interval=gpc.config.EVAL_INTERVAL,`
			`eval_iters=gpc.config.EVAL_ITERS,`
			`data_prefix=[gpc.config.DATA_PATH],`
			`data_impl='mmap',`
			`splits_string='949,50,1',`
			`max_seq_length=gpc.config.SEQ_LENGTH,`
			`masked_lm_prob=0.15,`
			`short_seq_prob=0.1,`
			`seed=1234,`
			`skip_warmup=True,`
			`binary_head=False,`
			`)`

			`logger.info("Dataloaders are built", ranks=[0])`

			`# build model`
			`if hasattr(gpc.config, 'fp16') and gpc.config.fp16.get('mode') == AMP_TYPE.NAIVE:`
			`is_naive_fp16 = True`
			`else:`
			`is_naive_fp16 = False`

			`use_pipeline = is_using_pp()`
			`kwargs = dict(vocab_size=VOCAB_SIZE,`
			`hidden_size=gpc.config.HIDDEN_SIZE,`
			`max_sequence_length=gpc.config.SEQ_LENGTH,`
			`num_attention_heads=gpc.config.NUM_ATTENTION_HEADS,`
			`convert_fp16_to_fp32_in_softmax=True,`
			`is_naive_fp16=is_naive_fp16,`
			`add_binary_head=gpc.config.ADD_BINARY_HEAD)`

			`if use_pipeline:`
			`model = build_pipeline_bert(num_layers=gpc.config.DEPTH, num_chunks=1, **kwargs)`
			`else:`
			`model = BertForPretrain(num_layers=gpc.config.DEPTH, **kwargs)`

			`model = model.half()`
			`model.reset_parameters()`
			`logger.info(f"Model is built with softmax in fp32 = {is_naive_fp16}", ranks=[0])`

			`total_numel = 0`
			`for p in model.parameters():`
			`total_numel += p.numel()`
			`logger.info(f"This model has {total_numel} parameters")`

			`# build criterion`
			`criterion = BertLoss()`
			`logger.info("Criterion is built", ranks=[0])`

			`# layernorm and bias has no weight decay`
			`weight_decay_params = {'params': []}`
			`no_weight_decay_params = {'params': [], 'weight_decay': 0.0}`
			`for module_ in model.modules():`
			`if isinstance(module_, LayerNorm):`
			`no_weight_decay_params['params'].extend([p for p in list(module_._parameters.values()) if p is not None])`
			`else:`
			`weight_decay_params['params'].extend(`
			`[p for n, p in list(module_._parameters.items()) if p is not None and n != 'bias'])`
			`no_weight_decay_params['params'].extend(`
			`[p for n, p in list(module_._parameters.items()) if p is not None and n == 'bias'])`

			`logger.info(`
			`f"without weight decay param: {len(no_weight_decay_params['params'])}, with weight decay param: {len(weight_decay_params['params'])}"`
			`)`
			`# optimizer`
			`optimizer = FusedAdam((weight_decay_params, no_weight_decay_params),`
			`lr=gpc.config.LR,`
			`weight_decay=gpc.config.WEIGHT_DECAY)`
			`logger.info("Optimizer is built", ranks=[0])`

			`# lr scheduler`
			`# follow Megatron-LM setting`
			`warmup_steps = int(gpc.config.DECAY_ITERS * gpc.config.WARMUP_FRACTION)`
			`lr_scheduler = AnnealingLR(optimizer=optimizer,`
			`max_lr=gpc.config.LR,`
			`min_lr=gpc.config.MIN_LR,`
			`warmup_steps=warmup_steps,`
			`decay_steps=gpc.config.DECAY_ITERS,`
			`decay_style='linear')`
			`logger.info(f"LR Scheduler is built with {warmup_steps} warmup steps and {gpc.config.DECAY_ITERS} decay steps")`

			`# # init`
			`engine, *dummy = colossalai.initialize(`
			`model,`
			`optimizer,`
			`criterion,`
			`)`

			`# build timer`
			`timer = MultiTimer()`
			`skip_iters = 0`

			`# build loss tracker`
			`accumulated_train_loss = torch.zeros(1, dtype=torch.float32).cuda()`
			`accumulated_eval_loss = torch.zeros(1, dtype=torch.float32).cuda()`

			`# build data iters for pipeline parallel`
			`if use_pipeline:`
			`train_data_iter = SequenceParallelDataIterator(trainloader)`
			`valid_data_iter = SequenceParallelDataIterator(validloader)`

			`for step in range(1, gpc.config.TRAIN_ITERS + 1):`
			`timer.start('train-iterations')`
			`engine.train()`
			`if use_pipeline:`
			`engine.zero_grad()`
			`_, _, train_loss = engine.execute_schedule(train_data_iter, return_output_label=False)`
			`engine.step()`
			`else:`
			`tokens, types, sentence_order, loss_mask, lm_labels, padding_mask = get_batch_for_sequence_parallel(`
			`trainloader)`
			`engine.zero_grad()`
			`lm_loss, sop_output = engine(tokens, padding_mask, types, lm_labels)`
			`train_loss = engine.criterion(lm_loss, sop_output, loss_mask, sentence_order)`
			`engine.backward(train_loss)`
			`engine.step()`
			`timer.stop('train-iterations', keep_in_history=True)`

			`if not gpc.is_initialized(ParallelMode.PIPELINE) or gpc.is_last_rank(ParallelMode.PIPELINE):`
			`accumulated_train_loss += train_loss`

			`lr_scheduler.step()`

			`if step % gpc.config.EVAL_INTERVAL == 0:`
			`engine.eval()`

			`for j in range(gpc.config.EVAL_ITERS):`
			`with torch.no_grad():`
			`if use_pipeline:`
			`_, _, eval_loss = engine.execute_schedule(valid_data_iter,`
			`forward_only=True,`
			`return_output_label=False)`
			`else:`
			`tokens, types, sentence_order, loss_mask, lm_labels, padding_mask = get_batch_for_sequence_parallel(`
			`validloader)`
			`lm_loss, sop_output = engine(tokens, padding_mask, types, lm_labels)`
			`eval_loss = engine.criterion(lm_loss, sop_output, loss_mask, sentence_order)`

			`if not gpc.is_initialized(ParallelMode.PIPELINE) or gpc.is_last_rank(ParallelMode.PIPELINE):`
			`accumulated_eval_loss += eval_loss`

			`if not gpc.is_initialized(ParallelMode.PIPELINE) or gpc.is_last_rank(ParallelMode.PIPELINE):`
			`accumulated_eval_loss /= gpc.config.EVAL_ITERS`
			`accumulated_train_loss /= gpc.config.EVAL_INTERVAL`

			`timer_string = []`
			`for n, t in timer:`
			`timer_string.append(f"{n}: {t.get_history_mean()*1000:.5f}")`
			`timer_string = ' \| '.join(timer_string)`
			`lr = list(engine.optimizer.param_groups)[0]['lr']`
			`loss_scale = engine.optimizer.optim.loss_scale.item()`

			`if gpc.is_initialized(ParallelMode.PIPELINE):`
			`ranks = [gpc.get_ranks_in_group(ParallelMode.PIPELINE)[-1]]`
			`else:`
			`ranks = [0]`
			`logger.info(f'Step {step} / {gpc.config.TRAIN_ITERS} \| Train Loss: {accumulated_train_loss.item():.5g} ' +`
			`f'\| Eval Loss: {accumulated_eval_loss.item():.5g} ' + f'\| Loss Scale: {loss_scale}' +`
			`f"\| Learning rate: {lr} \| " + timer_string,`
			`ranks=ranks)`

			`for n, t in timer:`
			`t.reset()`
			`accumulated_eval_loss.zero_()`
			`accumulated_train_loss.zero_()`


			`if __name__ == '__main__':`
			`main()`