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julia-numerical

@kongdd/Skills_for_Your_AI_Student
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Execute numerical calculations and mathematical computations using Julia. Use this skill for matrix operations, linear algebra, numerical integration, optimization, statistics, and scientific computing tasks.

Install Skill

1Download skill
2Enable skills in Claude

Open claude.ai/settings/capabilities and find the "Skills" section

3Upload to Claude

Click "Upload skill" and select the downloaded ZIP file

Note: Please verify skill by going through its instructions before using it.

SKILL.md

name julia-numerical
description Execute numerical calculations and mathematical computations using Julia. Use this skill for matrix operations, linear algebra, numerical integration, optimization, statistics, and scientific computing tasks.

Julia Numerical Calculation Skill

This skill enables you to execute numerical calculations using Julia, a high-performance programming language designed for numerical and scientific computing.

When to Use

Use this skill when you need to:

  • Perform matrix operations and linear algebra
  • Solve differential equations
  • Execute numerical integration or optimization
  • Calculate statistical measures
  • Handle large-scale numerical computations
  • Work with complex mathematical operations

Setup

Before using this skill, ensure Julia is installed on your system:

# On macOS (using Homebrew)
brew install julia

# On Linux (Ubuntu/Debian)
sudo apt-get install julia

# On Windows (using Chocolatey)
choco install julia

# Or download from https://julialang.org/downloads/

Basic Examples

Linear Algebra

using LinearAlgebra

# Create matrices
A = [1 2; 3 4]
B = [5 6; 7 8]

# Matrix multiplication
C = A * B

# Eigenvalues and eigenvectors
eigenvals, eigenvecs = eigen(A)

# Matrix inverse
A_inv = inv(A)

Numerical Integration

using QuadGK

# Define a function
f(x) = sin(x) * exp(-x)

# Integrate from 0 to ∞
result, error = quadgk(f, 0, Inf)

Optimization

using Optim

# Define objective function
f(x) = (x[1] - 2)^2 + (x[2] - 3)^2

# Minimize
result = optimize(f, [0.0, 0.0])

Statistics

using Statistics

data = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]

# Statistical measures
mean_val = mean(data)
std_val = std(data)
var_val = var(data)
median_val = median(data)

How to Use This Skill

When you ask me to perform a numerical calculation:

  1. I'll identify the appropriate Julia packages needed
  2. Write Julia code to solve the problem
  3. Execute the code
  4. Return results and explanations

Common Julia Packages

  • LinearAlgebra: Matrix operations and linear algebra
  • Statistics: Statistical functions
  • QuadGK: Numerical integration
  • Optim: Optimization algorithms
  • DifferentialEquations: Solving differential equations
  • Plots: Visualization
  • Distributions: Probability distributions
  • Random: Random number generation

Notes

  • Julia is JIT-compiled, so first runs may include compilation time
  • Use .jl files for organizing longer scripts
  • Install packages with using Pkg; Pkg.add("PackageName")
  • Results are returned as Julia objects that are converted to readable format