69 views (last 30 days)

I've stumbled upon the weird way (in my view) that Matlab is dealing with empty matrices. For example, if two empty matrices are multiplied the result is:

zeros(3,0)*zeros(0,3)

ans =

0 0 0

0 0 0

0 0 0

Now, this already took me by surprise, however, a quick search got me to the link http://www.mathworks.com/help/matlab/math/empty-matrices-scalars-and-vectors.html , and I got an explanation of the somewhat twisted logic of why this is happening.

However, nothing prepared me for the following observation. I asked myself, how efficient is this type of multiplication vs just using zeros(n) function, say for the purpose of initialization? I've used timeit to answer this:

f=@() zeros(1000)

timeit(f)

ans =

0.0033

vs:

g=@() zeros(1000,0)*zeros(0,1000)

timeit(g)

ans =

9.2048e-06

Both have the same outcome of 1000x1000 matrix of zeros of class `double`, but the empty matrix multiplication one is ~350 times faster! (a similar result happens using `tic` and `toc` and a loop)

How can this be? are `timeit` or `tic,toc` bluffing or have I found a faster way to initialize matrices?

(this was done with matlab 2012a, on a win7-64 machine, intel-i5 650 3.2Ghz...)

I have looked more carefully into this peculiarity, and tested on 2 different computers (same matlab ver though 2012a) a code that examine the run time vs the size of matrix n. This is what I get:

The code to generate this used timeit as before, but a loop with tic and toc will look the same. So, for small sizes, zeros(n) is comparable. However, around n=400 there is a jump in performance for the empty matrix multiplication. The code I've used to generate that plot was:

n=unique(round(logspace(0,4,200)));

for k=1:length(n)

f=@() zeros(n(k));

t1(k)=timeit(f);

g=@() zeros(n(k),0)*zeros(0,n(k));

t2(k)=timeit(g);

end

loglog(n,t1,'b',n,t2,'r');

legend('zeros(n)','zeros(n,0)*zeros(0,n)',2);

xlabel('matrix size (n)'); ylabel('time [sec]');

Are any of you seeing anything similar?

per isakson
on 6 Jan 2013

Edited: per isakson
on 6 Jan 2013

... got me to the link above...

I cannot find the link you refer to.

.

The Windows task manager shows that

Z = zeros(1000,0)*zeros(0,1000);

doesn't allocate memory (R2012a, 64bit, Win7). Or rather the task manager doesn't show any allocation of memory for that assignment.

.

ADDED

I learned two things. There is a small speed advantage of using this way of memory allocation. While experimenting I made it necessary to restart the computer and I lost my desktop configuration.

N = 1e4;

clear z1

tic

z1 = zeros( N );

for cc = 1 : N

z1(:,cc)=cc;

end

toc

clear z0

tic

z0 = zeros(N,0)*zeros(0,N);

for cc = 1 : N

z0(:,cc)=cc;

end

toc

Elapsed time is 0.686084 seconds.

Elapsed time is 0.532437 seconds.

Jan
on 6 Jan 2013

per isakson
on 6 Jan 2013

James Tursa
on 7 Jan 2013

Edited: James Tursa
on 7 Jan 2013

Another (perhaps related) observation is that MATLAB does some pre 0 filling in the background in mex routines. E.g., I have run the following test:

- Allocate a very large block of memory via mxMalloc

- Fill this block with non-0 data

- Remember the block address

- Free the block with mxFree

- Immediately allocate another very large block again with mxMalloc

- Check the address and the contents

I have found that the second mxMalloc call, when returning the same address as the first call, results in the data block being set to 0.

So something is setting this data block to 0 in the background between calls to mxFree and mxMalloc. If one timed the mex routine you may be able to detect the effort to zero out the data block going on in the background. But if something similar is happening at the m-file level (e.g., having a pre-0-filled data block available for allocations) it may be hard to detect in timings at that level. And if the whole thing is in a loop maybe the perceived timing advantage will simply go away (like Matt's example).

EDIT

To complete my mex related comments for this thread, I will mention that there is an undocumented API "fast zeros" function called mxFastZeros that apparently draws memory from a previously allocated and 0'ed out memory block since it is extremely fast, comparable timing to the zeros(m,0)*zeros(0,n) method (for all I know this method may call mxFastZeros in the background). A bare-bones mex routine that implements this is as follows:

// mxFastZeros.c generates a zero 2D double matrix

// Syntax: z = mxFastZeros( ComplexFlag, M, N )

// Where:

// ComplexFlag = 0 (real) or 1 (complex)

// M = row size

// N = column size

// Programmer: James Tursa

#include "mex.h"

mxArray *mxFastZeros(mxComplexity ComplexFlag, mwSize m, mwSize n);

mxArray *mxCreateSharedDataCopy(mxArray *mx);

void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[])

{

mxArray *mx;

mxComplexity ComplexFlag;

mwSize m, n;

if( nrhs != 3 ) {

mexErrMsgTxt("Syntax: mxFastZeros(ComplexFlag,M,N)");

}

if( nlhs > 1 ) {

mexErrMsgTxt("Too many outputs.");

}

ComplexFlag = mxGetScalar(prhs[0]);

m = mxGetScalar(prhs[1]);

n = mxGetScalar(prhs[2]);

mx = mxFastZeros(ComplexFlag,m,n);

plhs[0] = mxCreateSharedDataCopy(mx);

mxDestroyArray(mx);

}

NOTE For Advanced Programmers: The shared data copy stuff is needed because mxFastZeros produces a normal mxArray (NOT on the garbage collection list), rather than a temporary mxArray (ON the garbage collection list) like the documented API functions. Using the mxCreateSharedDataCopy function allows the mex routine to return a temporary mxArray and prevents the memory leak that would occur if the result of mxFastZeros were returned directly in plhs[0].

Amro
on 13 Aug 2013

Matt J
on 6 Jan 2013

Edited: Matt J
on 6 Jan 2013

nothing prepared me for the following observation. I asked myself, how efficient is this type of multiplication vs just using zeros(n) function, say for the purpose of initialization? I've used timeit to answer this:

You can't trust what you're seeing as a more efficient method of intialization (sadly). All that's happening is that the actual creation of the array is being postponed until the array is used. As you can see in the illustration below, the summation of Z1 takes much longer than Z2, because it includes also the actual instantiation of Z1 for some reason.

N=2000;

tic

Z1=zeros(N,0)*zeros(0,N);

toc %Elapsed time is 0.000037 seconds.

tic

sum(Z1);

toc Elapsed time is 0.008581 seconds.

tic;

Z2=zeros(N);

toc%Elapsed time is 0.007404 seconds.

tic

sum(Z2);

toc%Elapsed time is 0.002177 seconds.

Walter Roberson
on 6 Jan 2013

Opportunities for recent engineering grads.

Apply TodayFind the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!
## 5 Comments

## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_120995

⋮## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_120995

## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_121060

⋮## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_121060

## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_121105

⋮## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_121105

## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_121134

⋮## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_121134

## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_735364

⋮## Direct link to this comment

https://de.mathworks.com/matlabcentral/answers/58055-faster-way-to-initilize-arrays-via-empty-matrix-multiplication#comment_735364

Sign in to comment.