ColossalAI/applications/Chat/coati/trainer/ppo.py

from typing import Any, Callable, Dict, List, Optional, Union

import torch
import torch.nn as nn
from coati.experience_maker import Experience, NaiveExperienceMaker
from coati.models.base import Actor, Critic
from coati.models.loss import GPTLMLoss, PolicyLoss, ValueLoss
from coati.replay_buffer import NaiveReplayBuffer
from torch import Tensor
from torch.optim import Optimizer
from torch.utils.data import DistributedSampler
from tqdm import tqdm
from transformers.tokenization_utils_base import PreTrainedTokenizerBase

from colossalai.utils import get_current_device

from .base import Trainer
from .callbacks import Callback
from .strategies import Strategy
from .utils import is_rank_0, to_device


class PPOTrainer(Trainer):
    """
        Trainer for PPO algorithm.

    Args:
        strategy (Strategy): the strategy to use for training
        actor (Actor): the actor model in ppo algorithm
        critic (Critic): the critic model in ppo algorithm
        reward_model (nn.Module): the reward model in rlhf algorithm to make reward of sentences
        initial_model (Actor): the initial model in rlhf algorithm to generate reference logics to limit the update of actor
        actor_optim (Optimizer): the optimizer to use for actor model
        critic_optim (Optimizer): the optimizer to use for critic model
        kl_coef (float, defaults to 0.1): the coefficient of kl divergence loss
        train_batch_size (int, defaults to 8): the batch size to use for training
        buffer_limit (int, defaults to 0): the max_size limitation of replay buffer
        buffer_cpu_offload (bool, defaults to True): whether to offload replay buffer to cpu
        eps_clip (float, defaults to 0.2): the clip coefficient of policy loss
        vf_coef (float, defaults to 1.0): the coefficient of value loss
        ptx_coef (float, defaults to 0.9): the coefficient of ptx loss
        value_clip (float, defaults to 0.4): the clip coefficient of value loss
        max_epochs (int, defaults to 1): the number of epochs of training process
        sample_replay_buffer (bool, defaults to False): whether to sample from replay buffer
        dataloader_pin_memory (bool, defaults to True): whether to pin memory for data loader
        offload_inference_models (bool, defaults to True): whether to offload inference models to cpu during training process
        callbacks (List[Callback], defaults to []): the callbacks to call during training process
        generate_kwargs (dict, optional): the kwargs to use while model generating
    """

    def __init__(self,
                 strategy: Strategy,
                 actor: Actor,
                 critic: Critic,
                 reward_model: nn.Module,
                 initial_model: Actor,
                 actor_optim: Optimizer,
                 critic_optim: Optimizer,
                 kl_coef: float = 0.1,
                 ptx_coef: float = 0.9,
                 train_batch_size: int = 8,
                 buffer_limit: int = 0,
                 buffer_cpu_offload: bool = True,
                 eps_clip: float = 0.2,
                 vf_coef: float = 1.0,
                 value_clip: float = 0.4,
                 max_epochs: int = 1,
                 sample_replay_buffer: bool = False,
                 dataloader_pin_memory: bool = True,
                 offload_inference_models: bool = True,
                 callbacks: List[Callback] = [],
                 **generate_kwargs) -> None:
        experience_maker = NaiveExperienceMaker(actor, critic, reward_model, initial_model, kl_coef)
        replay_buffer = NaiveReplayBuffer(train_batch_size, buffer_limit, buffer_cpu_offload)
        generate_kwargs = _set_default_generate_kwargs(strategy, generate_kwargs, actor)
        super().__init__(strategy, max_epochs, dataloader_pin_memory, callbacks, **generate_kwargs)

        self.experience_maker = experience_maker
        self.replay_buffer = replay_buffer
        self.sample_replay_buffer = sample_replay_buffer
        self.offload_inference_models = offload_inference_models

        self.actor = actor
        self.critic = critic

        self.actor_loss_fn = PolicyLoss(eps_clip)
        self.critic_loss_fn = ValueLoss(value_clip)
        self.vf_coef = vf_coef
        self.ptx_loss_fn = GPTLMLoss()
        self.ptx_coef = ptx_coef
        self.actor_optim = actor_optim
        self.critic_optim = critic_optim

        self.device = get_current_device()

    def _make_experience(self, inputs: Union[Tensor, Dict[str, Tensor]]) -> Experience:
        if isinstance(inputs, Tensor):
            return self.experience_maker.make_experience(inputs, **self.generate_kwargs)
        elif isinstance(inputs, dict):
            return self.experience_maker.make_experience(**inputs, **self.generate_kwargs)
        else:
            raise ValueError(f'Unsupported input type "{type(inputs)}"')

    def _learn(self):
        # replay buffer may be empty at first, we should rebuild at each training
        if not self.sample_replay_buffer:
            dataloader = self.strategy.setup_dataloader(self.replay_buffer, self.dataloader_pin_memory)
        if self.sample_replay_buffer:
            pbar = tqdm(range(self.max_epochs), desc='Train epoch', disable=not is_rank_0())
            for _ in pbar:
                experience = self.replay_buffer.sample()
                experience.to_device(self.device)
                metrics = self.training_step(experience)
                pbar.set_postfix(metrics)
        else:
            for epoch in range(self.max_epochs):
                self._on_learn_epoch_start(epoch)
                if isinstance(dataloader.sampler, DistributedSampler):
                    dataloader.sampler.set_epoch(epoch)
                pbar = tqdm(dataloader, desc=f'Train epoch [{epoch+1}/{self.max_epochs}]', disable=not is_rank_0())
                for experience in pbar:
                    self._on_learn_batch_start()
                    experience.to_device(self.device)
                    metrics = self.training_step(experience)
                    self._on_learn_batch_end(metrics, experience)
                    pbar.set_postfix(metrics)
                self._on_learn_epoch_end(epoch)

    def fit(self,
            prompt_dataloader,
            pretrain_dataloader,
            num_episodes: int = 50000,
            max_timesteps: int = 500,
            update_timesteps: int = 5000) -> None:
        time = 0
        self.pretrain_dataloader = pretrain_dataloader
        self.prompt_dataloader = prompt_dataloader
        self._on_fit_start()
        for episode in range(num_episodes):
            self._on_episode_start(episode)
            for timestep in tqdm(range(max_timesteps),
                                 desc=f'Episode [{episode+1}/{num_episodes}]',
                                 disable=not is_rank_0()):
                time += 1
                prompts = next(iter(self.prompt_dataloader))
                self._on_make_experience_start()
                if self.offload_inference_models:
                    # TODO(ver217): this may be controlled by strategy if they are prepared by strategy
                    self.experience_maker.initial_model.to(self.device)
                    self.experience_maker.reward_model.to(self.device)
                experience = self._make_experience(prompts)
                self._on_make_experience_end(experience)
                self.replay_buffer.append(experience)
                if time % update_timesteps == 0:
                    if self.offload_inference_models:
                        self.experience_maker.initial_model.to('cpu')
                        self.experience_maker.reward_model.to('cpu')
                    self._learn()
                    self.replay_buffer.clear()
            self._on_episode_end(episode)
        self._on_fit_end()

    def training_step(self, experience: Experience) -> Dict[str, float]:
        self.actor.train()
        self.critic.train()
        # policy loss
        num_actions = experience.action_mask.size(1)
        action_log_probs = self.actor(experience.sequences, num_actions, attention_mask=experience.attention_mask)
        actor_loss = self.actor_loss_fn(action_log_probs,
                                        experience.action_log_probs,
                                        experience.advantages,
                                        action_mask=experience.action_mask)

        # ptx loss
        if self.ptx_coef != 0:
            batch = next(iter(self.pretrain_dataloader))
            batch = to_device(batch, self.device)
            ptx_log_probs = self.actor.get_base_model()(batch['input_ids'],
                                                        attention_mask=batch['attention_mask'])['logits']
            ptx_loss = self.ptx_loss_fn(ptx_log_probs, batch['labels'])
            actor_loss = ptx_loss * self.ptx_coef + actor_loss * (1 - self.ptx_coef)

        self.strategy.backward(actor_loss, self.actor, self.actor_optim)
        self.strategy.optimizer_step(self.actor_optim)
        self.actor_optim.zero_grad()

        # value loss
        values = self.critic(experience.sequences,
                             action_mask=experience.action_mask,
                             attention_mask=experience.attention_mask)
        critic_loss = self.critic_loss_fn(values,
                                          experience.values,
                                          experience.reward,
                                          action_mask=experience.action_mask)
        critic_loss = critic_loss * self.vf_coef
        self.strategy.backward(critic_loss, self.critic, self.critic_optim)
        self.strategy.optimizer_step(self.critic_optim)
        self.critic_optim.zero_grad()

        return {'reward': experience.reward.mean().item()}


def _set_default_generate_kwargs(strategy: Strategy, generate_kwargs: dict, actor: Actor) -> None:
    origin_model = strategy.unwrap_model(actor)
    new_kwargs = {**generate_kwargs}
    # use huggingface models method directly
    if 'prepare_inputs_fn' not in generate_kwargs and hasattr(origin_model, 'prepare_inputs_for_generation'):
        new_kwargs['prepare_inputs_fn'] = origin_model.prepare_inputs_for_generation

    if 'update_model_kwargs_fn' not in generate_kwargs and hasattr(origin_model, '_update_model_kwargs_for_generation'):
        new_kwargs['update_model_kwargs_fn'] = origin_model._update_model_kwargs_for_generation

    return new_kwargs
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`from typing import Any, Callable, Dict, List, Optional, Union`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00
			`import torch`
			`import torch.nn as nn`
			`from coati.experience_maker import Experience, NaiveExperienceMaker`
			`from coati.models.base import Actor, Critic`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`from coati.models.loss import GPTLMLoss, PolicyLoss, ValueLoss`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`from coati.replay_buffer import NaiveReplayBuffer`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`from torch import Tensor`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`from torch.optim import Optimizer`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`from torch.utils.data import DistributedSampler`
			`from tqdm import tqdm`
[gemini] accelerate inference (#3641) * [gemini] support don't scatter after inference * [chat] update colossalai strategy * [chat] fix opt benchmark * [chat] update opt benchmark * [gemini] optimize inference * [test] add gemini inference test * [chat] fix unit test ci * [chat] fix ci * [chat] fix ci * [chat] skip checkpoint test 2023-04-26 08:32:40 +00:00			`from transformers.tokenization_utils_base import PreTrainedTokenizerBase`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`from colossalai.utils import get_current_device`

[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`from .base import Trainer`
			`from .callbacks import Callback`
			`from .strategies import Strategy`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`from .utils import is_rank_0, to_device`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00

			`class PPOTrainer(Trainer):`
			`"""`
			`Trainer for PPO algorithm.`

			`Args:`
			`strategy (Strategy): the strategy to use for training`
			`actor (Actor): the actor model in ppo algorithm`
			`critic (Critic): the critic model in ppo algorithm`
			`reward_model (nn.Module): the reward model in rlhf algorithm to make reward of sentences`
[chat] polish code note typo (#3612) 2023-04-20 09:22:15 +00:00			`initial_model (Actor): the initial model in rlhf algorithm to generate reference logics to limit the update of actor`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`actor_optim (Optimizer): the optimizer to use for actor model`
			`critic_optim (Optimizer): the optimizer to use for critic model`
			`kl_coef (float, defaults to 0.1): the coefficient of kl divergence loss`
			`train_batch_size (int, defaults to 8): the batch size to use for training`
[chat] polish code note typo (#3612) 2023-04-20 09:22:15 +00:00			`buffer_limit (int, defaults to 0): the max_size limitation of replay buffer`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`buffer_cpu_offload (bool, defaults to True): whether to offload replay buffer to cpu`
			`eps_clip (float, defaults to 0.2): the clip coefficient of policy loss`
[chat]: add vf_coef argument for PPOTrainer (#3318) 2023-04-11 01:54:59 +00:00			`vf_coef (float, defaults to 1.0): the coefficient of value loss`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`ptx_coef (float, defaults to 0.9): the coefficient of ptx loss`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`value_clip (float, defaults to 0.4): the clip coefficient of value loss`
			`max_epochs (int, defaults to 1): the number of epochs of training process`
			`sample_replay_buffer (bool, defaults to False): whether to sample from replay buffer`
			`dataloader_pin_memory (bool, defaults to True): whether to pin memory for data loader`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`offload_inference_models (bool, defaults to True): whether to offload inference models to cpu during training process`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`callbacks (List[Callback], defaults to []): the callbacks to call during training process`
			`generate_kwargs (dict, optional): the kwargs to use while model generating`
			`"""`

			`def __init__(self,`
			`strategy: Strategy,`
			`actor: Actor,`
			`critic: Critic,`
			`reward_model: nn.Module,`
			`initial_model: Actor,`
			`actor_optim: Optimizer,`
			`critic_optim: Optimizer,`
			`kl_coef: float = 0.1,`
			`ptx_coef: float = 0.9,`
			`train_batch_size: int = 8,`
			`buffer_limit: int = 0,`
			`buffer_cpu_offload: bool = True,`
			`eps_clip: float = 0.2,`
[chat]: add vf_coef argument for PPOTrainer (#3318) 2023-04-11 01:54:59 +00:00			`vf_coef: float = 1.0,`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`value_clip: float = 0.4,`
			`max_epochs: int = 1,`
			`sample_replay_buffer: bool = False,`
			`dataloader_pin_memory: bool = True,`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`offload_inference_models: bool = True,`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`callbacks: List[Callback] = [],`
			`**generate_kwargs) -> None:`
			`experience_maker = NaiveExperienceMaker(actor, critic, reward_model, initial_model, kl_coef)`
			`replay_buffer = NaiveReplayBuffer(train_batch_size, buffer_limit, buffer_cpu_offload)`
			`generate_kwargs = _set_default_generate_kwargs(strategy, generate_kwargs, actor)`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`super().__init__(strategy, max_epochs, dataloader_pin_memory, callbacks, **generate_kwargs)`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00
			`self.experience_maker = experience_maker`
			`self.replay_buffer = replay_buffer`
			`self.sample_replay_buffer = sample_replay_buffer`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`self.offload_inference_models = offload_inference_models`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`self.actor = actor`
			`self.critic = critic`

			`self.actor_loss_fn = PolicyLoss(eps_clip)`
			`self.critic_loss_fn = ValueLoss(value_clip)`
[chat]: add vf_coef argument for PPOTrainer (#3318) 2023-04-11 01:54:59 +00:00			`self.vf_coef = vf_coef`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`self.ptx_loss_fn = GPTLMLoss()`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`self.ptx_coef = ptx_coef`
			`self.actor_optim = actor_optim`
			`self.critic_optim = critic_optim`

[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`self.device = get_current_device()`

reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`def _make_experience(self, inputs: Union[Tensor, Dict[str, Tensor]]) -> Experience:`
			`if isinstance(inputs, Tensor):`
			`return self.experience_maker.make_experience(inputs, **self.generate_kwargs)`
			`elif isinstance(inputs, dict):`
			`return self.experience_maker.make_experience(inputs, self.generate_kwargs)`
			`else:`
			`raise ValueError(f'Unsupported input type "{type(inputs)}"')`

			`def _learn(self):`
			`# replay buffer may be empty at first, we should rebuild at each training`
			`if not self.sample_replay_buffer:`
[gemini] accelerate inference (#3641) * [gemini] support don't scatter after inference * [chat] update colossalai strategy * [chat] fix opt benchmark * [chat] update opt benchmark * [gemini] optimize inference * [test] add gemini inference test * [chat] fix unit test ci * [chat] fix ci * [chat] fix ci * [chat] skip checkpoint test 2023-04-26 08:32:40 +00:00			`dataloader = self.strategy.setup_dataloader(self.replay_buffer, self.dataloader_pin_memory)`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`if self.sample_replay_buffer:`
[gemini] accelerate inference (#3641) * [gemini] support don't scatter after inference * [chat] update colossalai strategy * [chat] fix opt benchmark * [chat] update opt benchmark * [gemini] optimize inference * [test] add gemini inference test * [chat] fix unit test ci * [chat] fix ci * [chat] fix ci * [chat] skip checkpoint test 2023-04-26 08:32:40 +00:00			`pbar = tqdm(range(self.max_epochs), desc='Train epoch', disable=not is_rank_0())`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`for _ in pbar:`
			`experience = self.replay_buffer.sample()`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`experience.to_device(self.device)`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`metrics = self.training_step(experience)`
			`pbar.set_postfix(metrics)`
			`else:`
			`for epoch in range(self.max_epochs):`
			`self._on_learn_epoch_start(epoch)`
			`if isinstance(dataloader.sampler, DistributedSampler):`
			`dataloader.sampler.set_epoch(epoch)`
[gemini] accelerate inference (#3641) * [gemini] support don't scatter after inference * [chat] update colossalai strategy * [chat] fix opt benchmark * [chat] update opt benchmark * [gemini] optimize inference * [test] add gemini inference test * [chat] fix unit test ci * [chat] fix ci * [chat] fix ci * [chat] skip checkpoint test 2023-04-26 08:32:40 +00:00			`pbar = tqdm(dataloader, desc=f'Train epoch [{epoch+1}/{self.max_epochs}]', disable=not is_rank_0())`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`for experience in pbar:`
			`self._on_learn_batch_start()`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`experience.to_device(self.device)`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`metrics = self.training_step(experience)`
			`self._on_learn_batch_end(metrics, experience)`
			`pbar.set_postfix(metrics)`
			`self._on_learn_epoch_end(epoch)`

			`def fit(self,`
			`prompt_dataloader,`
			`pretrain_dataloader,`
			`num_episodes: int = 50000,`
			`max_timesteps: int = 500,`
			`update_timesteps: int = 5000) -> None:`
			`time = 0`
			`self.pretrain_dataloader = pretrain_dataloader`
			`self.prompt_dataloader = prompt_dataloader`
			`self._on_fit_start()`
			`for episode in range(num_episodes):`
			`self._on_episode_start(episode)`
			`for timestep in tqdm(range(max_timesteps),`
			`desc=f'Episode [{episode+1}/{num_episodes}]',`
			`disable=not is_rank_0()):`
			`time += 1`
			`prompts = next(iter(self.prompt_dataloader))`
			`self._on_make_experience_start()`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`if self.offload_inference_models:`
			`# TODO(ver217): this may be controlled by strategy if they are prepared by strategy`
			`self.experience_maker.initial_model.to(self.device)`
			`self.experience_maker.reward_model.to(self.device)`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`experience = self._make_experience(prompts)`
			`self._on_make_experience_end(experience)`
			`self.replay_buffer.append(experience)`
			`if time % update_timesteps == 0:`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`if self.offload_inference_models:`
			`self.experience_maker.initial_model.to('cpu')`
			`self.experience_maker.reward_model.to('cpu')`
reconstruct chat trainer and fix training script (#3588) Co-authored-by: Yuanchen Xu <yuanchen.xu00@gmail.com> 2023-04-18 08:44:03 +00:00			`self._learn()`
			`self.replay_buffer.clear()`
			`self._on_episode_end(episode)`
			`self._on_fit_end()`

[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`def training_step(self, experience: Experience) -> Dict[str, float]:`
			`self.actor.train()`
			`self.critic.train()`
			`# policy loss`
			`num_actions = experience.action_mask.size(1)`
			`action_log_probs = self.actor(experience.sequences, num_actions, attention_mask=experience.attention_mask)`
			`actor_loss = self.actor_loss_fn(action_log_probs,`
			`experience.action_log_probs,`
			`experience.advantages,`
			`action_mask=experience.action_mask)`

			`# ptx loss`
			`if self.ptx_coef != 0:`
[Chat]Add Peft support & fix the ptx bug (#3433) * Update ppo.py Fix the bug of fetching wrong batch data * Add peft model support in SFT and Prompts training In stage-1 and stage-3, the peft model supports are added. So the trained artifacts will be only a small lora additions instead of the whole bunch of files. * Delete test_prompts.txt * Delete test_pretrained.txt * Move the peft stuffs to a community folder. * Move the demo sft to community * delete dirty files * Add instructions to install peft using source * Remove Chinese comments * remove the Chinese comments 2023-04-06 03:54:52 +00:00			`batch = next(iter(self.pretrain_dataloader))`
[chat] refactor trainer (#3648) * [chat] ppo trainer remove useless args * [chat] update examples * [chat] update benchmark * [chat] update examples * [chat] fix sft training with wandb * [chat] polish docstr 2023-04-26 10:11:49 +00:00			`batch = to_device(batch, self.device)`
			`ptx_log_probs = self.actor.get_base_model()(batch['input_ids'],`
			`attention_mask=batch['attention_mask'])['logits']`
			`ptx_loss = self.ptx_loss_fn(ptx_log_probs, batch['labels'])`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`actor_loss = ptx_loss * self.ptx_coef + actor_loss * (1 - self.ptx_coef)`

			`self.strategy.backward(actor_loss, self.actor, self.actor_optim)`
			`self.strategy.optimizer_step(self.actor_optim)`
			`self.actor_optim.zero_grad()`

			`# value loss`
			`values = self.critic(experience.sequences,`
			`action_mask=experience.action_mask,`
			`attention_mask=experience.attention_mask)`
			`critic_loss = self.critic_loss_fn(values,`
			`experience.values,`
			`experience.reward,`
			`action_mask=experience.action_mask)`
[chat]: add vf_coef argument for PPOTrainer (#3318) 2023-04-11 01:54:59 +00:00			`critic_loss = critic_loss * self.vf_coef`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`self.strategy.backward(critic_loss, self.critic, self.critic_optim)`
			`self.strategy.optimizer_step(self.critic_optim)`
			`self.critic_optim.zero_grad()`

			`return {'reward': experience.reward.mean().item()}`
[gemini] accelerate inference (#3641) * [gemini] support don't scatter after inference * [chat] update colossalai strategy * [chat] fix opt benchmark * [chat] update opt benchmark * [gemini] optimize inference * [test] add gemini inference test * [chat] fix unit test ci * [chat] fix ci * [chat] fix ci * [chat] skip checkpoint test 2023-04-26 08:32:40 +00:00
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00
			`def _set_default_generate_kwargs(strategy: Strategy, generate_kwargs: dict, actor: Actor) -> None:`
[chat] refactor model save/load logic (#3654) * [chat] strategy refactor unwrap model * [chat] strategy refactor save model * [chat] add docstr * [chat] refactor trainer save model * [chat] fix strategy typing * [chat] refactor trainer save model * [chat] update readme * [chat] fix unit test 2023-04-27 10:41:49 +00:00			`origin_model = strategy.unwrap_model(actor)`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00			`new_kwargs = {**generate_kwargs}`
			`# use huggingface models method directly`
			`if 'prepare_inputs_fn' not in generate_kwargs and hasattr(origin_model, 'prepare_inputs_for_generation'):`
			`new_kwargs['prepare_inputs_fn'] = origin_model.prepare_inputs_for_generation`

[gemini] accelerate inference (#3641) * [gemini] support don't scatter after inference * [chat] update colossalai strategy * [chat] fix opt benchmark * [chat] update opt benchmark * [gemini] optimize inference * [test] add gemini inference test * [chat] fix unit test ci * [chat] fix ci * [chat] fix ci * [chat] skip checkpoint test 2023-04-26 08:32:40 +00:00			`if 'update_model_kwargs_fn' not in generate_kwargs and hasattr(origin_model, '_update_model_kwargs_for_generation'):`
			`new_kwargs['update_model_kwargs_fn'] = origin_model._update_model_kwargs_for_generation`
[Coati] first commit (#3283) 2023-03-28 12:25:36 +00:00
			`return new_kwargs`