Experimental library on discrete logarithm in finite fields.
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Updated
Oct 4, 2017 - TeX
Julia is a high-level dynamic programming language designed to address the needs of high-performance numerical analysis and computational science. It provides a sophisticated compiler, distributed parallel execution, numerical accuracy, and an extensive mathematical function library.
Experimental library on discrete logarithm in finite fields.
Literate programming approach for LAR in Julia, source of https://github.com/cvdlab/LARLIB.jl
A tex configuration file for inserting formatted code, including Julia language.
Tasks for "scientific computing" ("obliczenia naukowe") course at the Faculty of Fundamental Problems of Technology (WPPT), Wrocław University of Science and Technology (PWr). All tasks were done using Julia language.
Team project for the 2019 COMAP Mathematical Contest in Modeling (MCM).
A repository with some thoughts about the Fibonacci sequence
Exploring Halo Orbit solvers with Julia!
Solving Cauchy problems and stiff systems of differential equations, finding eigenvalues in symmetric matrices
Geometric Constraints in Algorithmic Design — M.Sc. Thesis in Computer Science and Engineering
Solving integral equations of the first kind, parabolic and elliptical partial differential equations
Presentations on some of the computer methods considered in the course
Graduate Econometrics course notes with code in Julia
Short introduction to Julia language I've written for the Programing Languages Paradigms class
Materials developed during the laboratory work at the astrophysical workshop
Created by Jeff Bezanson, Stefan Karpinski, Viral B. Shah, Alan Edelman
Released February 14, 2012