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MATLAB
Numerical computing environment and programming language

MATLAB (short for "MATrix LABoratory") is a proprietary, multi-paradigm programming language and numeric computing environment developed by MathWorks. It supports matrix manipulation, plotting of functions, algorithm implementation, and creating user interfaces. MATLAB can interface with other programming languages and has an optional MuPAD-based symbolic engine for symbolic computing. Its add-on, Simulink, enables graphical multi-domain simulation and model-based design for dynamic and embedded systems. Widely used in engineering, science, and economics, MATLAB had over four million users globally by 2020 and is taught in more than 5000 universities.

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History

Origins

MATLAB was invented by mathematician and computer programmer Cleve Moler.4 The idea for MATLAB was based on his 1960s PhD thesis.5 Moler became a math professor at the University of New Mexico and started developing MATLAB for his students6 as a hobby.7 He developed MATLAB's initial linear algebra programming in 1967 with his one-time thesis advisor, George Forsythe.8 This was followed by Fortran code for linear equations in 1971.9

Before version 1.0, MATLAB "was not a programming language; it was a simple interactive matrix calculator. There were no programs, no toolboxes, no graphics. And no ODEs or FFTs."10

The first early version of MATLAB was completed in the late 1970s.11 The software was disclosed to the public for the first time in February 1979 at the Naval Postgraduate School in California.12 Early versions of MATLAB were simple matrix calculators with 71 pre-built functions.13 At the time, MATLAB was distributed for free1415 to universities.16 Moler would leave copies at universities he visited and the software developed a strong following in the math departments of university campuses.17: 5 

In the 1980s, Cleve Moler met John N. Little. They decided to reprogram MATLAB in C and market it for the IBM desktops that were replacing mainframe computers at the time.18 John Little and programmer Steve Bangert re-programmed MATLAB in C, created the MATLAB programming language, and developed features for toolboxes.19

Commercial development

MATLAB was first released as a commercial product in 1984 at the Automatic Control Conference in Las Vegas.2021 MathWorks, Inc. was founded to develop the software22 and the MATLAB programming language was released.23 The first MATLAB sale was the following year, when Nick Trefethen from the Massachusetts Institute of Technology bought ten copies.2425

By the end of the 1980s, several hundred copies of MATLAB had been sold to universities for student use.26 The software was popularized largely thanks to toolboxes created by experts in various fields for performing specialized mathematical tasks.27 Many of the toolboxes were developed as a result of Stanford students that used MATLAB in academia, then brought the software with them to the private sector.28

Over time, MATLAB was re-written for early operating systems created by Digital Equipment Corporation, VAX, Sun Microsystems, and for Unix PCs.2930 Version 3 was released in 1987.31 The first MATLAB compiler was developed by Stephen C. Johnson in the 1990s.32

In 2000, MathWorks added a Fortran-based library for linear algebra in MATLAB 6, replacing the software's original LINPACK and EISPACK subroutines that were in C.33 MATLAB's Parallel Computing Toolbox was released at the 2004 Supercomputing Conference and support for graphics processing units (GPUs) was added to it in 2010.34

Recent history

Some especially large changes to the software were made with version 8 in 2012.35 The user interface was reworked and Simulink's functionality was expanded.36

By 2016, MATLAB had introduced several technical and user interface improvements, including the MATLAB Live Editor notebook, and other features.37

Release history

For a complete list of changes of both MATLAB an official toolboxes, check MATLAB previous releases.38

Versions of the MATLAB product family
Name of releaseMATLABSimulink, Stateflow (MATLAB attachments)Year
Volume 85.01996
Volume 95.11997
R9.15.1.11997
R105.21998
R10.15.2.11998
R115.31999
R11.15.3.11999
R126.02000
R12.16.12001
R136.52002
R13SP16.5.12003
R13SP26.5.2
R1476.02004
R14SP17.0.16.1
R14SP27.0.46.22005
R14SP37.16.3
R2006a7.26.42006
R2006b7.36.5
R2007a7.46.62007
R2007b7.57.0
R2008a7.67.12008
R2008b7.77.2
R2009a7.87.32009
R2009b7.97.4
R2010a7.107.52010
R2010b7.117.6
R2011a7.127.72011
R2011b7.137.8
R2012a7.147.92012
R2012b8.08.0
R2013a8.18.12013
R2013b8.28.2
R2014a8.38.32014
R2014b8.48.4
R2015a8.58.52015
R2015b8.68.6
R2016a9.08.72016
R2016b9.18.8
R2017a9.28.92017
R2017b9.39.0
R2018a9.49.12018
R2018b9.59.2
R2019a9.69.32019
R2019b9.710.0
R2020a9.810.12020
R2020b9.910.2
R2021a9.1010.32021
R2021b9.1110.4
R2022a9.1210.52022
R2022b9.1310.6
R2023a9.1410.72023
R2023b23.223.2
R2024a24.124.12024
R2024b24.224.2

Syntax

The MATLAB application is built around the MATLAB programming language.

Common usage of the MATLAB application involves using the "Command Window" as an interactive mathematical shell or executing text files containing MATLAB code.39

"Hello, world!" example

An example of a "Hello, world!" program exists in MATLAB.

disp('Hello, world!')

It displays like so:

Hello, world!

Variables

Variables are defined using the assignment operator, =.

MATLAB is a weakly typed programming language because types are implicitly converted.40 It is an inferred typed language because variables can be assigned without declaring their type, except if they are to be treated as symbolic objects,41 and that their type can change.

Values can come from constants, from computation involving values of other variables, or from the output of a function.

For example:

>> x = 17 x = 17 >> x = 'hat' x = hat >> x = [3*4, pi/2] x = 12.0000 1.5708 >> y = 3*sin(x) y = -1.6097 3.0000

Vectors and matrices

A simple array is defined using the colon syntax: initial:increment:terminator. For instance:

>> array = 1:2:9 array = 1 3 5 7 9

defines a variable named array (or assigns a new value to an existing variable with the name array) which is an array consisting of the values 1, 3, 5, 7, and 9. That is, the array starts at 1 (the initial value), increments with each step from the previous value by 2 (the increment value), and stops once it reaches (or is about to exceed) 9 (the terminator value).

The increment value can actually be left out of this syntax (along with one of the colons), to use a default value of 1.

>> ari = 1:5 ari = 1 2 3 4 5

assigns to the variable named ari an array with the values 1, 2, 3, 4, and 5, since the default value of 1 is used as the increment.

Indexing is one-based,42 which is the usual convention for matrices in mathematics, unlike zero-based indexing commonly used in other programming languages such as C, C++, and Java.

Matrices can be defined by separating the elements of a row with blank space or comma and using a semicolon to separate the rows. The list of elements should be surrounded by square brackets []. Parentheses () are used to access elements and subarrays (they are also used to denote a function argument list).

>> A = [16, 3, 2, 13 ; 5, 10, 11, 8 ; 9, 6, 7, 12 ; 4, 15, 14, 1] A = 16 3 2 13 5 10 11 8 9 6 7 12 4 15 14 1 >> A(2,3) ans = 11

Sets of indices can be specified by expressions such as 2:4, which evaluates to [2, 3, 4]. For example, a submatrix taken from rows 2 through 4 and columns 3 through 4 can be written as:

>> A(2:4,3:4) ans = 11 8 7 12 14 1

A square identity matrix of size n can be generated using the function eye, and matrices of any size with zeros or ones can be generated with the functions zeros and ones, respectively.

>> eye(3,3) ans = 1 0 0 0 1 0 0 0 1 >> zeros(2,3) ans = 0 0 0 0 0 0 >> ones(2,3) ans = 1 1 1 1 1 1

Transposing a vector or a matrix is done either by the function transpose or by adding dot-prime after the matrix (without the dot, prime will perform conjugate transpose for complex arrays):

>> A = [1 ; 2], B = A.', C = transpose(A) A = 1 2 B = 1 2 C = 1 2 >> D = [0, 3 ; 1, 5], D.' D = 0 3 1 5 ans = 0 1 3 5

Most functions accept arrays as input and operate element-wise on each element. For example, mod(2*J,n) will multiply every element in J by 2, and then reduce each element modulo n. MATLAB does include standard for and while loops, but (as in other similar applications such as APL and R), using the vectorized notation is encouraged and is often faster to execute. The following code, excerpted from the function magic.m, creates a magic square M for odd values of n (MATLAB function meshgrid is used here to generate square matrices I and J containing ⁠ 1 : n 1:n ⁠):

[J,I] = meshgrid(1:n); A = mod(I + J - (n + 3) / 2, n); B = mod(I + 2 * J - 2, n); M = n * A + B + 1;

Structures

MATLAB supports structure data types.43 Since all variables in MATLAB are arrays, a more adequate name is "structure array", where each element of the array has the same field names. In addition, MATLAB supports dynamic field names44 (field look-ups by name, field manipulations, etc.).

Functions

When creating a MATLAB function, the name of the file should match the name of the first function in the file. Valid function names begin with an alphabetic character, and can contain letters, numbers, or underscores. Variables and functions are case sensitive.45

rgbImage = imread('ecg.png'); grayImage = rgb2gray(rgbImage); % for non-indexed images level = graythresh(grayImage); % threshold for converting image to binary, binaryImage = im2bw(grayImage, level); % Extract the individual red, green, and blue color channels. redChannel = rgbImage(:, :, 1); greenChannel = rgbImage(:, :, 2); blueChannel = rgbImage(:, :, 3); % Make the black parts pure red. redChannel(~binaryImage) = 255; greenChannel(~binaryImage) = 0; blueChannel(~binaryImage) = 0; % Now recombine to form the output image. rgbImageOut = cat(3, redChannel, greenChannel, blueChannel); imshow(rgbImageOut);

Function handles

MATLAB supports elements of lambda calculus by introducing function handles,46 or function references, which are implemented either in .m files or anonymous47/nested functions.48

Classes and object-oriented programming

MATLAB supports object-oriented programming including classes, inheritance, virtual dispatch, packages, pass-by-value semantics, and pass-by-reference semantics.49 However, the syntax and calling conventions are significantly different from other languages. MATLAB has value classes and reference classes, depending on whether the class has handle as a super-class (for reference classes) or not (for value classes).50

Method call behavior is different between value and reference classes. For example, a call to a method:

object.method();

can alter any member of object only if object is an instance of a reference class, otherwise value class methods must return a new instance if it needs to modify the object.

An example of a simple class is provided below:

classdef Hello methods function greet(obj) disp('Hello!') end end end

When put into a file named hello.m, this can be executed with the following commands:

>> x = Hello(); >> x.greet(); Hello!

Graphics and graphical user interface programming

MATLAB has tightly integrated graph-plotting features. For example, the function plot can be used to produce a graph from two vectors x and y. The code:

x = 0:pi/100:2*pi; y = sin(x); plot(x,y)

produces the following figure of the sine function:

MATLAB supports three-dimensional graphics as well:

[X,Y] = meshgrid(-10:0.25:10,-10:0.25:10);f = sinc(sqrt((X/pi).^2+(Y/pi).^2));mesh(X,Y,f);axis([-10 10 -10 10 -0.3 1])xlabel('{\bfx}')ylabel('{\bfy}')zlabel('{\bfsinc} ({\bfR})')hidden off   [X,Y] = meshgrid(-10:0.25:10,-10:0.25:10);f = sinc(sqrt((X/pi).^2+(Y/pi).^2));surf(X,Y,f);axis([-10 10 -10 10 -0.3 1])xlabel('{\bfx}')ylabel('{\bfy}')zlabel('{\bfsinc} ({\bfR})')
This code produces a wireframe 3D plot of the two-dimensional unnormalized sinc function:   This code produces a surface 3D plot of the two-dimensional unnormalized sinc function:
   

MATLAB supports developing graphical user interface (GUI) applications.51 UIs can be generated either programmatically or using visual design environments such as GUIDE and App Designer.5253

MATLAB and other languages

MATLAB can call functions and subroutines written in the programming languages C or Fortran.54 A wrapper function is created allowing MATLAB data types to be passed and returned. MEX files (MATLAB executables) are the dynamically loadable object files created by compiling such functions.5556 Since 2014 increasing two-way interfacing with Python was being added.5758

Libraries written in Perl, Java, ActiveX or .NET can be directly called from MATLAB,5960 and many MATLAB libraries (for example XML or SQL support) are implemented as wrappers around Java or ActiveX libraries. Calling MATLAB from Java is more complicated, but can be done with a MATLAB toolbox61 which is sold separately by MathWorks, or using an undocumented mechanism called JMI (Java-to-MATLAB Interface),6263 (which should not be confused with the unrelated Java Metadata Interface that is also called JMI). Official MATLAB API for Java was added in 2016.64

As alternatives to the MuPAD based Symbolic Math Toolbox available from MathWorks, MATLAB can be connected to Maple or Mathematica.6566

Libraries also exist to import and export MathML.67

Relations to US sanctions

In 2020, MATLAB withdrew services from two Chinese universities as a result of US sanctions. The universities said this will be responded to by increased use of open-source alternatives and by developing domestic alternatives.68

See also

Notes

  • Sargiotis, Dimitrios (2025). MATLAB for Civil Engineers. From Basics to Advanced Applications. Springer Cham. ISBN 978-3-031-84672-4.

Further reading

  • Sargiotis, Dimitrios (2025). MATLAB for Civil Engineers. From Basics to Advanced Applications. Springer Cham. ISBN 978-3-031-84672-4.
  • Gilat, Amos (2004). MATLAB: An Introduction with Applications 2nd Edition. John Wiley & Sons. ISBN 978-0-471-69420-5.
  • Quarteroni, Alfio; Saleri, Fausto (2006). Scientific Computing with MATLAB and Octave. Springer. ISBN 978-3-540-32612-0.
  • Ferreira, A.J.M. (2009). MATLAB Codes for Finite Element Analysis. Springer. ISBN 978-1-4020-9199-5.
  • Lynch, Stephen (2004). Dynamical Systems with Applications using MATLAB. Birkhäuser. ISBN 978-0-8176-4321-8.

References

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