ColossalAI/applications/Chat/examples/README.md

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# Examples
## Table of Contents
- [Examples](#examples)
- [Table of Contents](#table-of-contents)
- [Install requirements](#install-requirements)
- [Supervised datasets collection](#supervised-datasets-collection)
- [Conversation dataset generation](#conversation-dataset-generation)
- [Stage1 - Supervised instructs tuning](#stage1---supervised-instructs-tuning)
- [Arg List](#arg-list)
- [Stage2 - Training reward model](#stage2---training-reward-model)
- [Features and tricks in RM training](#features-and-tricks-in-rm-training)
- [Experiment result](#experiment-result)
- [Arg List](#arg-list-1)
- [Stage3 - Training model using prompts with RL](#stage3---training-model-using-prompts-with-rl)
- [Arg List](#arg-list-2)
- [Inference example - After Stage3](#inference-example---after-stage3)
- [Attention](#attention)
- [data](#data)
- [Support Model](#support-model)
- [GPT](#gpt)
- [BLOOM](#bloom)
- [OPT](#opt)
- [LLaMA](#llama)
- [Add your own models](#add-your-own-models)
- [Actor model](#actor-model)
- [Reward model](#reward-model)
- [Critic model](#critic-model)
---
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## Install requirements
```shell
pip install -r requirements.txt
```
## Supervised datasets collection
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We collected 104K bilingual dataset of Chinese and English, and you can find the datasets in this repo
[InstructionWild](https://github.com/XueFuzhao/InstructionWild).
The following pic shows how we collected the data.
<p align="center">
<img src="https://raw.githubusercontent.com/hpcaitech/public_assets/main/applications/chat/data-collect.png" width=500/>
</p>
### Conversation dataset generation
In order to further improve the model's ability to handle multi-turn conversations, we need to include samples with multi-turn conversations in the dataset. However, the samples in InstructWild and Alpaca datasets currently consist of only single-turn conversations, and their dataset organization is not suitable for storing multi-turn conversations. Additionally, after converting the aforementioned datasets, we also need to include multi-turn conversation datasets like ShareGPT, and we should transform them into the training format supported by ColossalChat.
A sample of conversation dataset should have the following fields:
* `type` (str, optional): The type of the data sample.
* `language` (str, optional): The language of the data sample.
* `dataset` (str, optional): The dataset the data sample originates from.
* `conversations` (str, compulsory): Conversation content of the data sample.
* `id` (int, optional): The ID of the data sample.
A simple example:
```json
{
"type": "instruction",
"language": "English",
"dataset": "Alpaca",
"conversations": [
{
"from": "human",
"value": "Give three tips for staying healthy."
},
{
"from": "gpt",
"value": "1.Eat a balanced diet and make sure to include plenty of fruits and vegetables. \n2. Exercise regularly to keep your body active and strong. \n3. Get enough sleep and maintain a consistent sleep schedule."
}
],
"id": 1
}
```
> **NOTE:** Only key `conversations` is compulsary for training and other keys serve as metadata. The length of `conversations` varies.
You can run the `examples/generate_conversation_dataset.py` to generate a conversation dataset supported by ColossalChat.
You can use the following cmd to generate conversation dataset.
```
python generate_conversation_dataset.py \
--dataset "All"
--save_path "/path/to/dataset"
```
## Stage1 - Supervised instructs tuning
Stage1 is supervised instructs fine-tuning, which uses the datasets mentioned earlier to fine-tune the model.
[[Stage1 tutorial video]](https://www.youtube.com/watch?v=-qFBZFmOJfg)
You can run the `examples/train_sft.sh` to start a supervised instructs fine-tuning.
You can also use the following cmd to start a supervised instructs fine-tuning with your own settings.
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```
torchrun --standalone --nproc_per_node=4 train_sft.py \
--pretrain "/path/to/LLaMa-7B/" \
--model 'llama' \
--strategy colossalai_zero2 \
--log_interval 10 \
--save_path /path/to/Coati-7B \
--dataset /path/to/data.json \
--batch_size 4 \
--accumulation_steps 8 \
--lr 2e-5 \
--max_datasets_size 512 \
--max_epochs 1 \
--grad_checkpoint
```
### Arg List
- --strategy: the strategy using for training, choices=['ddp', 'colossalai_gemini', 'colossalai_zero2'], default='colossalai_zero2'
- --model: model type, choices=['gpt2', 'bloom', 'opt', 'llama'], default='bloom'
- --pretrain: pretrain model, type=str, default=None
- --max_datasets_size: the max size of dataset, type=int, default=None
- --save_path: path to save the model, type=str, default='output'
- --need_optim_ckpt: whether to save optim ckpt, type=bool, default=False
- --max_epochs: max epochs for training, type=int, default=3
- --batch_size: batch size while training, type=int, default=4
- --lora_rank: low-rank adaptation matrices rank, type=int, default=0
- --log_interval: how many steps to log, type=int, default=100
- --grad_checkpoint: enable gradient checkpointing, type=bool, default=False
## Stage2 - Training reward model
We train a reward model in stage 2, which obtains corresponding scores by manually ranking different outputs for the same prompt and supervises the training of the reward model.
[[Stage2 tutorial video]](https://www.youtube.com/watch?v=gMx2CApKhuo)
You can run the `examples/train_rm.sh` to start a reward model training.
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You can also use the following cmd to start training a reward model.
```
torchrun --standalone --nproc_per_node=4 train_reward_model.py \
--pretrain "/path/to/LLaMa-7B/" \
--model 'llama' \
--strategy colossalai_zero2 \
--loss_fn 'log_exp'\
--save_path 'rmstatic.pt' \
```
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### Features and tricks in RM training
- We support [Anthropic/hh-rlhf](https://huggingface.co/datasets/Anthropic/hh-rlhf)and[rm-static](https://huggingface.co/datasets/Dahoas/rm-static) datasets.
- We support 2 kinds of loss_function named 'log_sig'(used by OpenAI) and 'log_exp'(used by Anthropic).
- We change the loss to valid_acc and pair_dist to monitor progress during training.
- We add special token to the end of the sequence to get better result.
- We use cosine-reducing lr-scheduler for RM training.
- We set value_head as 1 liner layer and initialize the weight of value_head using N(01/(d_model + 1)) distribution.
- We train a Bloom-560m reward model for 1 epoch and find the test acc of the model achieve the performance mentions in [Anthropics paper](https://arxiv.org/abs/2204.05862).
### Experiment result
Model performance in [Anthropics paper](https://arxiv.org/abs/2204.05862):
<div align=middle> <img width="512" alt="image" src="https://user-images.githubusercontent.com/70618399/225263321-8d64c3a8-6877-4cc8-9b61-0e1c52d3d94f.png">
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<div align=left>Our training & test result of bloom-560m for 1 epoch:
<div align=middle> <img width="512" alt="image" src="https://user-images.githubusercontent.com/70618399/225262950-a7f0a686-25de-44ec-98f2-11b83ea86674.png">
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<div align=left>We also train the reward model based on LLaMA-7B, which reaches the ACC of 72.06% after 1 epoch, performing almost the same as Anthropic's best RM.
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### Arg List
- --strategy: the strategy using for training, choices=['ddp', 'colossalai_gemini', 'colossalai_zero2'], default='colossalai_zero2'
- --model: model type, choices=['gpt2', 'bloom', 'opt', 'llama'], default='bloom'
- --pretrain: pretrain model, type=str, default=None
- --model_path: the path of rm model(if continue to train), type=str, default=None
- --save_path: path to save the model, type=str, default='output'
- --need_optim_ckpt: whether to save optim ckpt, type=bool, default=False
- --max_epochs: max epochs for training, type=int, default=3
- --dataset: dataset name, type=str, choices=['Anthropic/hh-rlhf', 'Dahoas/rm-static']
- --subset: subset of the dataset, type=str, default=None
- --batch_size: batch size while training, type=int, default=4
- --lora_rank: low-rank adaptation matrices rank, type=int, default=0
- --loss_func: which kind of loss function, choices=['log_sig', 'log_exp']
- --max_len: max sentence length for generation, type=int, default=512
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- --test: whether is only testing, if it's true, the dataset will be small
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## Stage3 - Training model using prompts with RL
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Stage3 uses reinforcement learning algorithm, which is the most complex part of the training process, as shown below:
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<p align="center">
<img src="https://raw.githubusercontent.com/hpcaitech/public_assets/main/applications/chat/stage-3.jpeg" width=800/>
</p>
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You can run the `examples/train_prompts.sh` to start PPO training.
You can also use the cmd following to start PPO training.
[[Stage3 tutorial video]](https://www.youtube.com/watch?v=Z8wwSHxPL9g)
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```
torchrun --standalone --nproc_per_node=4 train_prompts.py \
--pretrain "/path/to/LLaMa-7B/" \
--model 'llama' \
--strategy colossalai_zero2 \
--prompt_dataset /path/to/your/prompt_dataset \
--pretrain_dataset /path/to/your/pretrain_dataset \
--rm_pretrain /your/pretrain/rm/definition \
--rm_path /your/rm/model/path
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```
Prompt dataset: the instruction dataset mentioned in the above figure which includes the instructions, e.g. you can use the [script](https://github.com/hpcaitech/ColossalAI/tree/main/applications/Chat/examples/generate_prompt_dataset.py) which samples `instinwild_en.json` or `instinwild_ch.json` in [InstructionWild](https://github.com/XueFuzhao/InstructionWild/tree/main/data#instructwild-data) to generate the prompt dataset.
Pretrain dataset: the pretrain dataset including the instruction and corresponding response, e.g. you can use the [InstructWild Data](https://github.com/XueFuzhao/InstructionWild/tree/main/data) in stage 1 supervised instructs tuning.
### Arg List
- --strategy: the strategy using for training, choices=['ddp', 'colossalai_gemini', 'colossalai_zero2'], default='colossalai_zero2'
- --model: model type of actor, choices=['gpt2', 'bloom', 'opt', 'llama'], default='bloom'
- --pretrain: pretrain model, type=str, default=None
- --rm_model: reward model type, type=str, choices=['gpt2', 'bloom', 'opt', 'llama'], default=None
- --rm_pretrain: pretrain model for reward model, type=str, default=None
- --rm_path: the path of rm model, type=str, default=None
- --save_path: path to save the model, type=str, default='output'
- --prompt_dataset: path of the prompt dataset, type=str, default=None
- --pretrain_dataset: path of the ptx dataset, type=str, default=None
- --need_optim_ckpt: whether to save optim ckpt, type=bool, default=False
- --num_episodes: num of episodes for training, type=int, default=10
- --num_update_steps: number of steps to update policy per episode, type=int
- --num_collect_steps: number of steps to collect experience per episode, type=int
- --train_batch_size: batch size while training, type=int, default=8
- --ptx_batch_size: batch size to compute ptx loss, type=int, default=1
- --experience_batch_size: batch size to make experience, type=int, default=8
- --lora_rank: low-rank adaptation matrices rank, type=int, default=0
- --kl_coef: kl_coef using for computing reward, type=float, default=0.1
- --ptx_coef: ptx_coef using for computing policy loss, type=float, default=0.9
## Inference example - After Stage3
We support different inference options, including int8 and int4 quantization.
For details, see [`inference/`](https://github.com/hpcaitech/ColossalAI/tree/main/applications/Chat/inference).
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## Attention
The examples are demos for the whole training process.You need to change the hyper-parameters to reach great performance.
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#### data
- [x] [rm-static](https://huggingface.co/datasets/Dahoas/rm-static)
- [x] [hh-rlhf](https://huggingface.co/datasets/Anthropic/hh-rlhf)
- [ ] [openai/summarize_from_feedback](https://huggingface.co/datasets/openai/summarize_from_feedback)
- [ ] [openai/webgpt_comparisons](https://huggingface.co/datasets/openai/webgpt_comparisons)
- [ ] [Dahoas/instruct-synthetic-prompt-responses](https://huggingface.co/datasets/Dahoas/instruct-synthetic-prompt-responses)
## Support Model
### GPT
- [x] GPT2-S (s)
- [x] GPT2-M (m)
- [x] GPT2-L (l)
- [x] GPT2-XL (xl)
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- [x] GPT2-4B (4b)
- [ ] GPT2-6B (6b)
### BLOOM
- [x] [BLOOM-560m](https://huggingface.co/bigscience/bloom-560m)
- [x] [BLOOM-1b1](https://huggingface.co/bigscience/bloom-1b1)
- [x] [BLOOM-3b](https://huggingface.co/bigscience/bloom-3b)
- [x] [BLOOM-7b](https://huggingface.co/bigscience/bloom-7b1)
- [ ] [BLOOM-175b](https://huggingface.co/bigscience/bloom)
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### OPT
- [x] [OPT-125M](https://huggingface.co/facebook/opt-125m)
- [x] [OPT-350M](https://huggingface.co/facebook/opt-350m)
- [x] [OPT-1.3B](https://huggingface.co/facebook/opt-1.3b)
- [x] [OPT-2.7B](https://huggingface.co/facebook/opt-2.7b)
- [x] [OPT-6.7B](https://huggingface.co/facebook/opt-6.7b)
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- [ ] [OPT-13B](https://huggingface.co/facebook/opt-13b)
- [ ] [OPT-30B](https://huggingface.co/facebook/opt-30b)
### [LLaMA](https://github.com/facebookresearch/llama/blob/main/MODEL_CARD.md)
- [x] LLaMA-7B
- [x] LLaMA-13B
- [ ] LLaMA-33B
- [ ] LLaMA-65B
## Add your own models
If you want to support your own model in Coati, please refer the pull request for RoBERTa support as an example --[[chatgpt] add pre-trained model RoBERTa for RLHF stage 2 & 3](https://github.com/hpcaitech/ColossalAI/pull/3223), and submit a PR to us.
You should complete the implementation of four model classes, including Reward model, Critic model, LM model, Actor model
here are some example code for a NewModel named `Coati`.
if it is supported in huggingface [transformers](https://github.com/huggingface/transformers), you can load it by `from_pretrained`, o
r you can build your own model by yourself.
### Actor model
```
from ..base import Actor
from transformers.models.coati import CoatiModel
class CoatiActor(Actor):
def __init__(self,
pretrained: Optional[str] = None,
checkpoint: bool = False,
lora_rank: int = 0,
lora_train_bias: str = 'none') -> None:
if pretrained is not None:
model = CoatiModel.from_pretrained(pretrained)
else:
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model = build_model() # load your own model if it is not support in transformers
super().__init__(model, lora_rank, lora_train_bias)
```
### Reward model
```
from ..base import RewardModel
from transformers.models.coati import CoatiModel
class CoatiRM(RewardModel):
def __init__(self,
pretrained: Optional[str] = None,
checkpoint: bool = False,
lora_rank: int = 0,
lora_train_bias: str = 'none') -> None:
if pretrained is not None:
model = CoatiModel.from_pretrained(pretrained)
else:
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model = build_model() # load your own model if it is not support in transformers
value_head = nn.Linear(model.config.n_embd, 1)
value_head.weight.data.normal_(mean=0.0, std=1 / (model.config.n_embd + 1))
super().__init__(model, value_head, lora_rank, lora_train_bias)
```
### Critic model
```
from ..base import Critic
from transformers.models.coati import CoatiModel
class CoatiCritic(Critic):
def __init__(self,
pretrained: Optional[str] = None,
checkpoint: bool = False,
lora_rank: int = 0,
lora_train_bias: str = 'none') -> None:
if pretrained is not None:
model = CoatiModel.from_pretrained(pretrained)
else:
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model = build_model() # load your own model if it is not support in transformers
value_head = nn.Linear(model.config.n_embd, 1)
value_head.weight.data.normal_(mean=0.0, std=1 / (model.config.n_embd + 1))
super().__init__(model, value_head, lora_rank, lora_train_bias)
```