Introduction to Numerical Methods

A Newton fractal showing the basins of attraction for Newton iterations for 6^th-roots of unity from different starting points in the complex plane. (Image by Prof. Steven G. Johnson.)

Instructor(s)

Prof. Steven G. Johnson

MIT Course Number

18.335J / 6.337J

As Taught In

Spring 2019

Level

Graduate

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Selected lecture notes
Assignments: problem sets with solutions
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Course Description

This course offers an advanced introduction to numerical analysis, with a focus on accuracy and efficiency of numerical algorithms. Topics include sparse-matrix/iterative and dense-matrix algorithms in numerical linear algebra (for linear systems and eigenproblems), floating-point arithmetic, backwards error analysis, conditioning, and stability. Other computational topics (e.g., numerical integration or nonlinear optimization) are also surveyed.

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Archived versions:

18.335J Introduction to Numerical Methods (Fall 2010)
18.335J Introduction to Numerical Methods (Fall 2006)
18.335J Numerical Methods of Applied Mathematics I (Fall 2001)
18.335J Introduction to Numerical Methods (Fall 2004)

Some Description
Instructor(s)	Prof.
As Taught In	Spring 2002
Course Number	2.24
Level	Undergraduate/Graduate
Features	Lecture Notes, Student Work

Instructor(s)

MIT Course Number

As Taught In

Level

Course Description

Course Features

Course Description

Other Versions

Other OCW Versions

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