Pendulum-v1-TD3 / README.md
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metadata
language: en
license: apache-2.0
library_name: pytorch
tags:
  - deep-reinforcement-learning
  - reinforcement-learning
  - DI-engine
  - Pendulum-v1
benchmark_name: OpenAI/Gym/ClassicControl
task_name: Pendulum-v1
pipeline_tag: reinforcement-learning
model-index:
  - name: TD3
    results:
      - task:
          type: reinforcement-learning
          name: reinforcement-learning
        dataset:
          name: OpenAI/Gym/ClassicControl-Pendulum-v1
          type: OpenAI/Gym/ClassicControl-Pendulum-v1
        metrics:
          - type: mean_reward
            value: '-200.85 +/- 155.78'
            name: mean_reward

Play Pendulum-v1 with TD3 Policy

Model Description

This is a simple TD3 implementation to OpenAI/Gym/ClassicControl Pendulum-v1 using the DI-engine library and the DI-zoo.

DI-engine is a python library for solving general decision intelligence problems, which is based on implementations of reinforcement learning framework using PyTorch or JAX. This library aims to standardize the reinforcement learning framework across different algorithms, benchmarks, environments, and to support both academic researches and prototype applications. Besides, self-customized training pipelines and applications are supported by reusing different abstraction levels of DI-engine reinforcement learning framework.

Model Usage

Install the Dependencies

(Click for Details)
# install huggingface_ding
git clone https://github.com/opendilab/huggingface_ding.git
pip3 install -e ./huggingface_ding/
# install environment dependencies if needed
pip3 install DI-engine[common_env]

Git Clone from Huggingface and Run the Model

(Click for Details)
# running with trained model
python3 -u run.py

run.py

from ding.bonus import TD3Agent
from ding.config import Config
from easydict import EasyDict
import torch

# Pull model from files which are git cloned from huggingface
policy_state_dict = torch.load("pytorch_model.bin", map_location=torch.device("cpu"))
cfg = EasyDict(Config.file_to_dict("policy_config.py"))
# Instantiate the agent
agent = TD3Agent(
    env="pendulum", exp_name="Pendulum-v1-TD3", cfg=cfg.exp_config, policy_state_dict=policy_state_dict
)
# Continue training
agent.train(step=5000)
# Render the new agent performance
agent.deploy(enable_save_replay=True)

Run Model by Using Huggingface_ding

(Click for Details)
# running with trained model
python3 -u run.py

run.py

from ding.bonus import TD3Agent
from huggingface_ding import pull_model_from_hub

# Pull model from Hugggingface hub
policy_state_dict, cfg = pull_model_from_hub(repo_id="OpenDILabCommunity/Pendulum-v1-TD3")
# Instantiate the agent
agent = TD3Agent(
    env="pendulum",
    exp_name="Pendulum-v1-TD3",
    cfg=cfg.exp_config,
    policy_state_dict=policy_state_dict
)
# Continue training
agent.train(step=5000)
# Render the new agent performance
agent.deploy(enable_save_replay=True)

Model Training

Train the Model and Push to Huggingface_hub

(Click for Details)
#Training Your Own Agent
python3 -u train.py

train.py

from ding.bonus import TD3Agent
from huggingface_ding import push_model_to_hub

# Instantiate the agent
agent = TD3Agent("pendulum", exp_name="Pendulum-v1-TD3")
# Train the agent
return_ = agent.train(step=int(4000000))
# Push model to huggingface hub
push_model_to_hub(
    agent=agent.best,
    env_name="OpenAI/Gym/ClassicControl",
    task_name="Pendulum-v1",
    algo_name="TD3",
    wandb_url=return_.wandb_url,
    github_repo_url="https://github.com/opendilab/DI-engine",
    github_doc_model_url="https://di-engine-docs.readthedocs.io/en/latest/12_policies/td3.html",
    github_doc_env_url="https://di-engine-docs.readthedocs.io/en/latest/13_envs/pendulum.html",
    installation_guide="pip3 install DI-engine[common_env]",
    usage_file_by_git_clone="./td3/pendulum_td3_deploy.py",
    usage_file_by_huggingface_ding="./td3/pendulum_td3_download.py",
    train_file="./td3/pendulum_td3.py",
    repo_id="OpenDILabCommunity/Pendulum-v1-TD3"
)

Configuration

(Click for Details)
exp_config = {
    'env': {
        'manager': {
            'episode_num': float("inf"),
            'max_retry': 1,
            'retry_type': 'reset',
            'auto_reset': True,
            'step_timeout': None,
            'reset_timeout': None,
            'retry_waiting_time': 0.1,
            'cfg_type': 'BaseEnvManagerDict'
        },
        'stop_value': -250,
        'collector_env_num': 8,
        'evaluator_env_num': 5,
        'act_scale': True,
        'n_evaluator_episode': 5
    },
    'policy': {
        'model': {
            'twin_critic': True,
            'obs_shape': 3,
            'action_shape': 1,
            'action_space': 'regression'
        },
        'learn': {
            'learner': {
                'train_iterations': 1000000000,
                'dataloader': {
                    'num_workers': 0
                },
                'log_policy': True,
                'hook': {
                    'load_ckpt_before_run': '',
                    'log_show_after_iter': 100,
                    'save_ckpt_after_iter': 10000,
                    'save_ckpt_after_run': True
                },
                'cfg_type': 'BaseLearnerDict'
            },
            'update_per_collect': 2,
            'batch_size': 128,
            'learning_rate_actor': 0.001,
            'learning_rate_critic': 0.001,
            'ignore_done': True,
            'target_theta': 0.005,
            'discount_factor': 0.99,
            'actor_update_freq': 2,
            'noise': True,
            'noise_sigma': 0.1,
            'noise_range': {
                'min': -0.5,
                'max': 0.5
            }
        },
        'collect': {
            'collector': {
                'collect_print_freq': 1000
            },
            'unroll_len': 1,
            'noise_sigma': 0.1,
            'n_sample': 48
        },
        'eval': {
            'evaluator': {
                'eval_freq': 100,
                'render': {
                    'render_freq': -1,
                    'mode': 'train_iter'
                },
                'cfg_type': 'InteractionSerialEvaluatorDict',
                'n_episode': 5,
                'stop_value': -250
            }
        },
        'other': {
            'replay_buffer': {
                'replay_buffer_size': 20000
            }
        },
        'on_policy': False,
        'cuda': False,
        'multi_gpu': False,
        'bp_update_sync': True,
        'traj_len_inf': False,
        'type': 'td3',
        'priority': False,
        'priority_IS_weight': False,
        'random_collect_size': 800,
        'transition_with_policy_data': False,
        'action_space': 'continuous',
        'reward_batch_norm': False,
        'multi_agent': False,
        'cfg_type': 'TD3PolicyDict'
    },
    'exp_name': 'Pendulum-v1-TD3',
    'seed': 0,
    'wandb_logger': {
        'gradient_logger': True,
        'video_logger': True,
        'plot_logger': True,
        'action_logger': True,
        'return_logger': False
    }
}

Training Procedure

Model Information

Environments

  • Benchmark: OpenAI/Gym/ClassicControl
  • Task: Pendulum-v1
  • Gym version: 0.25.1
  • DI-engine version: v0.4.7
  • PyTorch version: 1.7.1
  • Doc: DI-engine-docs Environments link