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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 561 32

  2. pytorch_template pytorch_template Public template

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

    Python 8 1

  3. puruspe puruspe Public

    PURe RUSt SPEcial library

    Rust 17 6

  4. Neural_Hamilton Neural_Hamilton Public

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

    Python 8

  5. Zellaygen Zellaygen Public

    Zellij Layout Generator

    Rust 24 2

  6. HyperbolicLR HyperbolicLR Public

    Hyperbolic Learning Rate Scheduler

    Python 3 1