Normal distribution. Box-Muller procedure.

Quantitative Analysis

Parallel Processing

Numerical Analysis

C++ Multithreading

Python for Excel

Python Utilities

Printable PDF file

I.

II.

Pricing and Hedging.

III.

Explicit techniques.

IV.

V.

Implementation tools.

1.

Finite differences.

2.

Gauss-Hermite Integration.

3.

Asymptotic expansions.

4.

A.

Generation of random samples.

a.

Uniform [0,1] random variable.

b.

Inverting cumulative distribution.

c.

Accept/reject procedure.

d.

Normal distribution. Box-Muller procedure.

e.

B.

Acceleration of convergence.

C.

Longstaff-Schwartz technique.

D.

Calculation of sensitivities.

5.

Convex Analysis.

VI.

VII.

Implementation tools II.

VIII.

Normal distribution. Box-Muller procedure.

laim

Generate independent $\eta_{1}$ and $\eta_{2}$ and compute MATH MATH then the random variables MATH MATH are iid

Proof

Indeed, let $D\subset R^{2}$ be a sector MATH We compute the probability MATH MATH MATH MATH and the claim follows.

Copyright 2007