Skip to content
View Axect's full-sized avatar
🎯
Applying PostDoc...
🎯
Applying PostDoc...

Sponsors

@utilForever

Organizations

@SYTEARK @Yonsei-HEP-COSMO

Block or report Axect

Block user

Prevent this user from interacting with your repositories and sending you notifications. Learn more about blocking users.

You must be logged in to block users.

Please don't include any personal information such as legal names or email addresses. Maximum 100 characters, markdown supported. This note will be visible to only you.
Report abuse

Contact GitHub support about this user’s behavior. Learn more about reporting abuse.

Report abuse
Axect/README.md

Hello, I'm Tae-Geun Kim πŸ‘‹

Hits

πŸ™‹β€β€β™‚οΈ Introduce myself

πŸ‘¨β€β€πŸ« Graduate Students at Physics

❀️ Interests

  • High energy astrophysics, dark matter and cosmology
  • Scientific computation
  • Machine Learning / Deep Learning / Statistics
  • Quantum Computing

▢️ Status

Axect's github stats

πŸ’Ό Portfolio

  • Rust numeric library for linear algebra, numerical analysis, statistics, and machine learning
  • Provides customizable features for pure Rust, BLAS/LAPACK integration, plotting, and data handling
  • Offers user-friendly syntax similar to R, NumPy, and MATLAB
  • Supports functional programming, automatic differentiation, and various numerical algorithms
  • Includes statistics, special functions, plotting, and DataFrame capabilities
  • Compatible with mathematical structures and leverages Rust's performance and package management
  • Novel learning rate schedulers (HyperbolicLR and ExpHyperbolicLR) for deep learning optimization
  • Addresses the learning curve decoupling problem observed in conventional schedulers
  • Demonstrates consistent performance improvements and stability across increasing epoch numbers
  • Shows superior performance in maintaining stable learning curves as training duration increases
  • Exhibits versatility across various deep learning tasks and model architectures
  • Offers potential for more efficient hyperparameter tuning in long-duration training tasks
  • Provides a promising approach to improving the training of deep neural networks
  • Implemented and evaluated using PyTorch, with experiments on image classification, time series prediction, and operator learning tasks
  • Pure Rust library for special functions with no dependencies
  • Implements gamma, beta, and error functions
  • Provides regularized and inverse versions of the functions
  • Lightweight and efficient implementation
  • Ideal for mathematical and scientific computing applications
  • Based on algorithms from "Numerical Recipes" by Press and Vetterling
  • Reinforcement Learning (RL) library in Rust
  • Modular design with components for agents, environments, policies, and utilities
  • Efficient and safe implementation leveraging Rust's performance and safety features
  • Provides a framework for creating and managing diverse RL environments
  • Supports customizable agent strategies and learning algorithms
  • Includes implementations of Epsilon Greedy Policy, Value Iteration, and Q-Learning
More projects

Radient

  • Rust library for automatic differentiation using computational graphs
  • Implements forward and backward propagation for gradient computation
  • Supports various mathematical operations, including exponential, logarithmic, power, and trigonometric functions
  • Provides two options for gradient calculation:
    • gradient: Concise but relatively slower
    • gradient_cached: Fast but slightly more verbose
  • Includes examples demonstrating basic operations with symbols, gradient calculation, and a single-layer perceptron implementation

DeeLeMa

  • Deep learning network for estimating mass and momenta in particle collisions at high-energy colliders
  • Generates robust mass distributions with peaks at physical masses, even with combinatoric uncertainties and detector smearing effects
  • Adaptable to different event topologies, particularly effective when corresponding kinematic symmetries are adopted
  • Current version (v1.0.0) is constructed on the $t\bar{t}$-like antler event topology
  • Provides clear instructions for installation, training, and monitoring using Pip or Huak (recommended)
  • Encourages citation of the associated research paper if DeeLeMa benefits users' research

πŸ“š Publications

  • Tae-Geun Kim, Seong Chan Park, Neural Hamilton: Can A.I. Understand Hamiltonian Mechanics?, arXiv:2410.20951 (2024)

  • Tae-Geun Kim, HyperbolicLR: Epoch insensitive learning rate scheduler, arXiv:2407.15200 (2024)

  • Chang Min Hyun, Tae-Geun Kim, and Kyounghun Lee, Unsupervised sequence-to-sequence learning for automatic signal quality assessment in multi-channel electrical impedance-based hemodynamic monitoring, CMPB 108079, arXiv:2305.09368 (2023)

  • Kayoung Ban, Dong Woo Kang, Tae-Geun Kim, Seong Chan Park and Yeji Park, DeeLeMa : Missing information search with Deep Learning for Mass estimation, Phys. Rev. Research 5, 043186, arXiv:2212.12836 (2022)

  • Yongsoo Jho, Tae-Geun Kim, Jong-Chul Park, Seong Chan Park and Yeji Park, Axions from Primordial Black Holes, arXiv:2212.11977 (2022)

πŸ‘¨β€β€πŸ’» Tech Skills

Coders rank

:octocat: Github contributions

πŸ† Trophies

trophy

More specific

πŸ”– Skills

πŸ”’ Mathematics

  • Functional Analysis
  • Differential Geometry
  • Numerical Analysis

🍎 Physics

  • Quantum Field Theory
  • General Relativity
  • Mathematical Physics

πŸ’» Programming

  • Main Languague : Rust
  • Sub Languages : C++, Julia, R, Python
  • Frameworks or Libraries
    • Numerical: peroxide, BLAS, LAPACK, numpy, scipy
    • Visualization: matplotlib, vegas, ggplot2, plotly
    • Web: Django, Vue, Firebase, Surge, Hugo
    • Machine Learning: Scikit-Learn
    • Deep Learning: PyTorch, Flux

Pinned Loading

  1. Peroxide Peroxide Public

    Rust numeric library with high performance and friendly syntax

    Rust 551 32

  2. pytorch_template pytorch_template Public template

    A flexible PyTorch template for ML experiments with configuration management, logging, and hyperparameter optimization.

    Python 7

  3. puruspe puruspe Public

    PURe RUSt SPEcial library

    Rust 16 6

  4. Neural_Hamilton Neural_Hamilton Public

    Official implementation of the paper "Neural Hamilton: Can A.I. Understand Hamiltonian Mechanics?"

    Python 7

  5. Zellaygen Zellaygen Public

    Zellij Layout Generator

    Rust 24 2

  6. HyperbolicLR HyperbolicLR Public

    Hyperbolic Learning Rate Scheduler

    Python 3 1