Pinned Repositories
cleanrl
High-quality single file implementation of Deep Reinforcement Learning algorithms with research-friendly features (PPO, DQN, C51, DDPG, TD3, SAC, PPG)
Cylinder2DFlowControlDRLParallel
Parallelizing DRL for Active Flow control
DeepLearning
deeplearning-models
A collection of various deep learning architectures, models, and tips
examples
A set of examples around pytorch in Vision, Text, Reinforcement Learning, etc.
FlightDynamics
GitLearning
Git learning command
Inverted_Pendulum
一阶倒立摆的仿真及远程网络控制
maskrcnn-benchmark
Fast, modular reference implementation of Instance Segmentation and Object Detection algorithms in PyTorch.
StreamChatByStreamlit
Stream Chat with Openai API by Streamlit
Qoo95's Repositories
Qoo95/StreamChatByStreamlit
Stream Chat with Openai API by Streamlit
Qoo95/cleanrl
High-quality single file implementation of Deep Reinforcement Learning algorithms with research-friendly features (PPO, DQN, C51, DDPG, TD3, SAC, PPG)
Qoo95/Cylinder2DFlowControlDRLParallel
Parallelizing DRL for Active Flow control
Qoo95/DeepLearning
Qoo95/deeplearning-models
A collection of various deep learning architectures, models, and tips
Qoo95/examples
A set of examples around pytorch in Vision, Text, Reinforcement Learning, etc.
Qoo95/FlightDynamics
Qoo95/GitLearning
Git learning command
Qoo95/Inverted_Pendulum
一阶倒立摆的仿真及远程网络控制
Qoo95/maskrcnn-benchmark
Fast, modular reference implementation of Instance Segmentation and Object Detection algorithms in PyTorch.
Qoo95/PrognosticsModelLibrary
Qoo95/pytorch
Tensors and Dynamic neural networks in Python with strong GPU acceleration
Qoo95/pytorch-tutorial
PyTorch Tutorial for Deep Learning Researchers
Qoo95/Structural-Model-Updating
This GitHub package provides example MATLAB code for finite element model updating. The code offers selection of different updating formulations and optimization algorithms.
Qoo95/VDNet
Variational Denoising Network: Toward Blind Noise Modeling and Removal (NeurIPS, 2019) (Pytorch)
Qoo95/vision
Datasets, Transforms and Models specific to Computer Vision