Agent-Skills.md

Agent Skills: Monte Carlo Financial Simulator

Stochastic simulation skill for financial modeling with probability distributions and risk quantification

financial-modelingID: a5c-ai/babysitter/monte-carlo-financial-simulator

Repository

a5c-ai/babysitter
a5c-aiLicense: MIT
244

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plugins/babysitter/skills/babysit/process/specializations/domains/business/finance-accounting/skills/monte-carlo-financial-simulator/SKILL.md

Skill Metadata

Name
monte-carlo-financial-simulator
Description
Stochastic simulation skill for financial modeling with probability distributions and risk quantification

Monte Carlo Financial Simulator

Overview

The Monte Carlo Financial Simulator skill enables probabilistic financial modeling through stochastic simulation. It generates thousands of scenarios based on probability distributions to quantify risk and uncertainty in financial forecasts and valuations.

Capabilities

Probability Distribution Fitting

  • Normal distribution fitting
  • Lognormal distribution for positive values
  • Triangular distribution for expert estimates
  • PERT distribution modeling
  • Custom distribution creation
  • Historical data-based fitting

Correlation Matrix Handling

  • Variable correlation specification
  • Cholesky decomposition for correlated sampling
  • Copula implementation
  • Rank correlation (Spearman)
  • Correlation stability testing
  • Partial correlation analysis

Convergence Analysis

  • Sample size determination
  • Convergence testing
  • Precision metrics calculation
  • Stopping criteria implementation
  • Result stability verification
  • Computational efficiency optimization

Value at Risk (VaR) Calculation

  • Parametric VaR
  • Historical simulation VaR
  • Monte Carlo VaR
  • Expected shortfall (CVaR)
  • Marginal VaR
  • Incremental VaR

Confidence Interval Generation

  • Percentile-based intervals
  • Bootstrap confidence intervals
  • Prediction intervals
  • Tolerance intervals
  • One-sided bounds
  • Joint confidence regions

Crystal Ball/ModelRisk Integration

  • @RISK compatibility
  • Crystal Ball formula support
  • Model export capabilities
  • Simulation result import
  • Assumption synchronization
  • Report generation

Usage

Risk Quantification

Input: Key uncertain variables, probability distributions, correlations
Process: Run simulations, aggregate results, calculate risk metrics
Output: Probability distributions of outcomes, VaR, confidence intervals

Scenario Probability

Input: Model structure, variable ranges, target outcomes
Process: Simulate scenarios, identify conditions for targets
Output: Probability of achieving targets, key driver sensitivity

Integration

Used By Processes

  • Financial Modeling and Scenario Planning
  • Cash Flow Forecasting and Liquidity Management
  • Foreign Exchange Risk Management

Tools and Libraries

  • numpy
  • scipy.stats
  • Monte Carlo libraries
  • Crystal Ball
  • @RISK

Cross-Specialization Use

  • Data Science/ML: Risk analysis
  • Insurance: Actuarial modeling
  • Engineering: Project risk assessment

Best Practices

  1. Validate distribution assumptions against historical data
  2. Test correlation stability across market conditions
  3. Ensure sufficient iterations for convergence
  4. Document distribution selection rationale
  5. Perform sensitivity analysis on distribution parameters
  6. Compare results with analytical solutions where possible