ColossalAI/colossalai/inference/pipeline/engine.py

from typing import Callable, List, Optional, Set, Union

import torch
import torch.nn as nn

from colossalai.cluster import ProcessGroupMesh
from colossalai.pipeline.schedule.generate import GenerateSchedule
from colossalai.pipeline.stage_manager import PipelineStageManager
from colossalai.shardformer import ShardConfig, ShardFormer
from colossalai.shardformer.policies.base_policy import Policy

from .microbatch_manager import MicroBatchManager


class PPInferEngine:
    '''
    PPInferEngine is a class that handles the pipeline parallel inference.

    Args:
        pp_size (int): the number of pipeline stages.
        pp_model (`nn.Module`): the model already in pipeline parallelism style.
        model (`nn.Module`): the model not in pipeline style, and will be modified with `ShardFormer`.
        model_policy (`colossalai.shardformer.policies.base_policy.Policy`): the policy to shardformer model.
        micro_batch_size (int): the micro batch size.
        micro_batch_buffer_size (int): the buffer size for micro batch. Normally, it should be the same as the number of pipeline stages.
        new_length (int): the new length of the input sequence.
        early_stopping (bool): whether to stop early.

    Example:

    ```python
    from colossalai.ppinference import PPInferEngine
    from transformers import GPT2LMHeadModel, GPT2Tokenizer

    model = transformers.GPT2LMHeadModel.from_pretrained('gpt2')
    # assume the model is infered with 4 pipeline stages
    inferengine = PPInferEngine(pp_size=4, model=model, model_policy={Your own policy for pipeline sharding})

    input = ["Hello, my dog is cute, and I like"]
    tokenized_input = tokenizer(input, return_tensors='pt')
    output = engine.inference([tokenized_input])
    ```

    '''

    def __init__(
        self,
        pp_size: int,
        dtype: str = 'fp16',
        pp_model: nn.Module = None,
        model: nn.Module = None,
        model_policy: Policy = None,
        new_length: int = 32,
        micro_batch_size: int = 1,
        micro_batch_buffer_size: int = None,
        verbose: bool = False,
    # TODO: implement early_stopping, and various gerneration options
        early_stopping: bool = False,
        do_sample: bool = False,
        num_beams: int = 1,
    ) -> None:
        assert pp_model or (model and model_policy), "Either pp_model or model with model_policy should be provided."
        self.pp_size = pp_size
        self.pg_mesh = ProcessGroupMesh(pp_size)
        self.stage_manager = PipelineStageManager(self.pg_mesh, 0, True)
        self.mb_manager = MicroBatchManager(self.stage_manager.stage, new_length, micro_batch_size,
                                            micro_batch_buffer_size or pp_size)
        self.verbose = verbose
        self.schedule = GenerateSchedule(self.stage_manager, self.mb_manager, verbose)

        assert dtype in ['fp16', 'fp32', 'bf16'], "dtype should be one of 'fp16', 'fp32', 'bf16'"
        if dtype == 'fp16':
            model.half()
        elif dtype == 'bf16':
            model.to(torch.bfloat16)
        self.model = pp_model or self._shardformer(model, model_policy)

    def inference(self, input_list):
        out, timestamp = self.schedule.generate_step(self.model, iter(input_list))
        if self.verbose:
            return out, timestamp
        else:
            return out

    def _shardformer(self, model, model_policy):
        shardconfig = ShardConfig(
            tensor_parallel_process_group=None,
            pipeline_stage_manager=self.stage_manager,
            enable_tensor_parallelism=False,
            enable_fused_normalization=False,
            enable_all_optimization=False,
            enable_flash_attention=False,
            enable_jit_fused=False,
            enable_sequence_parallelism=False,
        )
        shardformer = ShardFormer(shard_config=shardconfig)
        shard_model, _ = shardformer.optimize(model, model_policy)
        return shard_model.cuda()
[Pipeline Inference] Sync pipeline inference branch to main (#4820) * [pipeline inference] pipeline inference (#4492) * add pp stage manager as circle stage * fix a bug when create process group * add ppinfer basic framework * add micro batch manager and support kvcache-pp gpt2 fwd * add generate schedule * use mb size to control mb number * support generate with kv cache * add output, remove unused code * add test * reuse shardformer to build model * refactor some code and use the same attribute name of hf * fix review and add test for generation * remove unused file * fix CI * add cache clear * fix code error * fix typo * [Pipeline inference] Modify to tieweight (#4599) * add pp stage manager as circle stage * fix a bug when create process group * add ppinfer basic framework * add micro batch manager and support kvcache-pp gpt2 fwd * add generate schedule * use mb size to control mb number * support generate with kv cache * add output, remove unused code * add test * reuse shardformer to build model * refactor some code and use the same attribute name of hf * fix review and add test for generation * remove unused file * modify the way of saving newtokens * modify to tieweight * modify test * remove unused file * solve review * add docstring * [Pipeline inference] support llama pipeline inference (#4647) * support llama pipeline inference * remove tie weight operation * [pipeline inference] Fix the blocking of communication when ppsize is 2 (#4708) * add benchmark verbose * fix export tokens * fix benchmark verbose * add P2POp style to do p2p communication * modify schedule as p2p type when ppsize is 2 * remove unused code and add docstring * [Pipeline inference] Refactor code, add docsting, fix bug (#4790) * add benchmark script * update argparse * fix fp16 load * refactor code style * add docstring * polish code * fix test bug * [Pipeline inference] Add pipeline inference docs (#4817) * add readme doc * add a ico * Add performance * update table of contents * refactor code (#4873) 2023-10-11 03:40:06 +00:00			`from typing import Callable, List, Optional, Set, Union`

			`import torch`
			`import torch.nn as nn`

			`from colossalai.cluster import ProcessGroupMesh`
			`from colossalai.pipeline.schedule.generate import GenerateSchedule`
			`from colossalai.pipeline.stage_manager import PipelineStageManager`
			`from colossalai.shardformer import ShardConfig, ShardFormer`
			`from colossalai.shardformer.policies.base_policy import Policy`

			`from .microbatch_manager import MicroBatchManager`


			`class PPInferEngine:`
			`'''`
			`PPInferEngine is a class that handles the pipeline parallel inference.`

			`Args:`
			`pp_size (int): the number of pipeline stages.`
			pp_model (`nn.Module`): the model already in pipeline parallelism style.
			model (`nn.Module`): the model not in pipeline style, and will be modified with `ShardFormer`.
			model_policy (`colossalai.shardformer.policies.base_policy.Policy`): the policy to shardformer model.
			`micro_batch_size (int): the micro batch size.`
			`micro_batch_buffer_size (int): the buffer size for micro batch. Normally, it should be the same as the number of pipeline stages.`
			`new_length (int): the new length of the input sequence.`
			`early_stopping (bool): whether to stop early.`

			`Example:`

			```python
			`from colossalai.ppinference import PPInferEngine`
			`from transformers import GPT2LMHeadModel, GPT2Tokenizer`

			`model = transformers.GPT2LMHeadModel.from_pretrained('gpt2')`
			`# assume the model is infered with 4 pipeline stages`
			`inferengine = PPInferEngine(pp_size=4, model=model, model_policy={Your own policy for pipeline sharding})`

			`input = ["Hello, my dog is cute, and I like"]`
			`tokenized_input = tokenizer(input, return_tensors='pt')`
			`output = engine.inference([tokenized_input])`
			```

			`'''`

			`def __init__(`
			`self,`
			`pp_size: int,`
			`dtype: str = 'fp16',`
			`pp_model: nn.Module = None,`
			`model: nn.Module = None,`
			`model_policy: Policy = None,`
			`new_length: int = 32,`
			`micro_batch_size: int = 1,`
			`micro_batch_buffer_size: int = None,`
			`verbose: bool = False,`
			`# TODO: implement early_stopping, and various gerneration options`
			`early_stopping: bool = False,`
			`do_sample: bool = False,`
			`num_beams: int = 1,`
			`) -> None:`
			`assert pp_model or (model and model_policy), "Either pp_model or model with model_policy should be provided."`
			`self.pp_size = pp_size`
			`self.pg_mesh = ProcessGroupMesh(pp_size)`
			`self.stage_manager = PipelineStageManager(self.pg_mesh, 0, True)`
			`self.mb_manager = MicroBatchManager(self.stage_manager.stage, new_length, micro_batch_size,`
			`micro_batch_buffer_size or pp_size)`
			`self.verbose = verbose`
			`self.schedule = GenerateSchedule(self.stage_manager, self.mb_manager, verbose)`

			`assert dtype in ['fp16', 'fp32', 'bf16'], "dtype should be one of 'fp16', 'fp32', 'bf16'"`
			`if dtype == 'fp16':`
			`model.half()`
			`elif dtype == 'bf16':`
			`model.to(torch.bfloat16)`
			`self.model = pp_model or self._shardformer(model, model_policy)`

			`def inference(self, input_list):`
			`out, timestamp = self.schedule.generate_step(self.model, iter(input_list))`
			`if self.verbose:`
			`return out, timestamp`
			`else:`
			`return out`

			`def _shardformer(self, model, model_policy):`
			`shardconfig = ShardConfig(`
			`tensor_parallel_process_group=None,`
			`pipeline_stage_manager=self.stage_manager,`
			`enable_tensor_parallelism=False,`
			`enable_fused_normalization=False,`
			`enable_all_optimization=False,`
			`enable_flash_attention=False,`
			`enable_jit_fused=False,`
			`enable_sequence_parallelism=False,`
			`)`
			`shardformer = ShardFormer(shard_config=shardconfig)`
			`shard_model, _ = shardformer.optimize(model, model_policy)`
			`return shard_model.cuda()`