5 مستودعات
Code implementations of theoretical mathematical and statistical formulas for data mapping.
Distinct from Mathematical Function Extenders: None of the candidates cover the general translation of statistical formulas into Python functions; they are too specific to runtime mapping or library extenders.
Explore 5 awesome GitHub repositories matching scientific & mathematical computing · Mathematical Function Implementations. Refine with filters or upvote what's useful.
PRML is a Python machine learning library and statistical learning toolkit. It provides code implementations of supervised and unsupervised learning concepts, including regression, classification, and neural network algorithms for statistical data modeling. The project functions as a pattern recognition toolkit used to identify theoretical structures within numerical datasets. It includes a neural network framework for solving nonlinear data mappings and a linear algebra toolkit that utilizes vectorized operations and matrix calculations. The library covers a broad range of capabilities, inc
Translates theoretical probability and regression formulas into executable Python functions.
Boost is a collection of portable, high-performance source libraries that extend the C++ standard library. It provides a wide range of reusable components, data structures, and algorithms designed to add capabilities to the base language across different platforms. The project is distinguished by its extensive focus on compile-time template metaprogramming and generic programming. It implements advanced architectural patterns such as policy-based design, concept-based type validation, and the use of SFINAE for conditional template resolution to minimize runtime overhead. The library covers a
Provides a comprehensive set of high-level mathematical functions and constants to extend numerical capabilities.
Performs high-performance mathematical and statistical computations for advanced modeling.
This project is a community-driven standard library for the Fortran programming language, providing a comprehensive collection of algorithms, data structures, and system utilities. It is designed to extend the language's native capabilities, offering a unified toolkit for scientific computing, numerical analysis, and general-purpose programming. The library distinguishes itself through a modular architecture that utilizes generic interface dispatch and compile-time specialization to ensure high performance across various data types. It provides standardized abstractions for external numerical
Calculates general purpose mathematical values and complex functions to support numerical analysis and scientific modeling tasks.
Machine-Learning-From-Scratch is an educational repository that provides implementations of fundamental machine learning models built using standard Python programming logic. It serves as a resource for understanding the internal mechanics of common statistical and predictive algorithms by constructing them from the ground up rather than relying on high-level machine learning frameworks. The project distinguishes itself by prioritizing transparency in algorithmic design, utilizing mathematical primitives and vectorized array computations to expose the underlying calculus and statistical logic
Provides standalone function implementations of core statistical and calculus-based logic for model training.