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I have a system of equations of grade 1 to resolve in PHP. There are more equations than variables but there aren't less equations than variables.

The system would look like bellow. n equations, m variables, variables are x[i] where 'i' takes values from 1 to m. The system may have a solution or not. m may be maximum 100 and n maximum ~5000 (thousands).

I will have to resolve like a few thousands of these systems of equations. Speed may be a problem but I'm looking for an algorithm written in PHP for now.

a[1][1] * x[1] + a[1][2] * x[2] + ... + a[1][m] * x[m] = number 1
a[2][1] * x[1] + a[2][2] * x[2] + ... + a[2][m] * x[m] = number 2
...
a[n][1] * x[1] + a[n][2] * x[2] + ... + a[n][m] * x[m] = number n

There is Cramer Rule which may do it. I could make 1 square matrix of coefficients, resolve the system with Cramer Rule (by calculating matrices' determinants) and than I should check the values in the unused equations. I believe I could try Cramer by myself but I'm looking for a better solution.

This is a problem of Computational Science, http://en.wikipedia.org/wiki/Computational_science#Numerical_simulations I know there are some complex algorithms to solve my problem but I can't tell which one would do it and which is the best for my case. An algorithm would use me better than just the theory with the demonstration.

My question is, does anybody know a class, script, code of some sort written in PHP to resolve a system of linear equations of grade 1 ? Alternatively I could try an API or a Web Service, best to be free, a paid one would do it too.

Thank you

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2 Answers 2

There is a truly excellent package based on JAMA here: http://www.phpmath.com/build02/JAMA/docs/index.php

I've used it for simple linear right the way to highly complex Multiple Linear Regression (writing my own Backwards Stepwise MLR functions on top of that). Very comprehensive and will hopefully do what you need.

Speed could be considered an issue, for sure. But works a treat and matched SPSS when I cross referenced results on the BSMLR calculations.

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Wikipedia should have pseudocode for reducing the matrix representing your equations to reduced row echelon form. Once the matrix is in that form, you can walk through the rows to find a solution.

There's an unmaintained PEAR package which may save you the effort of writing the code.

Another question is whether you are looking mostly at "wide" systems (more variables than equations, which usually have many possible solutions) or "narrow" systems (more equations than variables, which usually have no solutions), since the best strategy depends on which case you are in — and narrow systems may benefit from using a linear regression technique such as least squares instead.

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