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I am trying to write a single multipage tiff file which is 128 pixels x 128 pixels x 122000 frames of 16-bit unsigned integers. ImageJ or a short Python script can do this in less than one minute on a fast machine. On the same machine, MATLAB would likely take days to do so using any method I have tried. Here is what I have tried so far:

Use imwrite to write IMG to test.tif (recommended by MATLAB documentation)

    tic
    numframes=size(IMG,3);
    divider=10^(floor(log10(numframes))-1);
    imwrite(IMG(:,:,1),'test.tif');
    for i=2:numframes;
        imwrite(IMG(:,:,i),'test.tif','WriteMode','append');
        if (round(i/divider)==i/divider)
            fprintf('Frame %d written in %.0f seconds, %2d percent complete, time                 left=%.0f seconds \n', ...
                i, toc, i/numframes*100, (numframes - i)/(i/toc));
        end
    end

which results in the following output:

Frame 10000 written in 104 seconds, 8.196721e+00 percent complete, time left=1163 seconds Frame 20000 written in 296 seconds, 1.639344e+01 percent complete, time left=1509 seconds Frame 30000 written in 590 seconds, 2.459016e+01 percent complete, time left=1809 seconds Frame 40000 written in 1035 seconds, 3.278689e+01 percent complete, time left=2121 seconds Frame 50000 written in 1682 seconds, 4.098361e+01 percent complete, time left=2421 seconds

Notice the exponential increase in time as more frames are written.

Use the Tiff class directly

    if bigtiff
        t = Tiff(fname,'w8');
    else
        t = Tiff(fname,'w');
    end
    tagstruct.ImageLength = size(image,1);
    tagstruct.ImageWidth = size(image,2);
    tagstruct.Photometric = Tiff.Photometric.MinIsBlack;
    if bitspersamp==16
        tagstruct.BitsPerSample = 16;
    end
    if bitspersamp==32
        tagstruct.BitsPerSample = 32;
    end
    tagstruct.SamplesPerPixel = 1;
    tagstruct.RowsPerStrip = 256;
    tagstruct.PlanarConfiguration = Tiff.PlanarConfiguration.Chunky;
    tagstruct.Software = 'MATLAB';
    t.setTag(tagstruct);
    t.write(image(:,:,1));
    numframes = size(image,3);
    divider = 10^(floor(log10(numframes))-1);
    tic
    for i=2:numframes
        t.writeDirectory();
        t.setTag(tagstruct);
        t.write(image(:,:,i));
        if (round(i/divider)==i/divider)
            fprintf('Frame %d written in %.0f seconds, %2d percent complete, time left=%.0f seconds \n', ...
                i, toc, i/numframes*100, (numframes - i)/(i/toc));
        end
    end
    t.close();

which results in the following output:

Frame 10000 written in 66 seconds, 8.196721e+00 percent complete, time left=743 seconds 
Frame 20000 written in 225 seconds, 1.639344e+01 percent complete, time left=1145 seconds 
Frame 30000 written in 481 seconds, 2.459016e+01 percent complete, time left=1474 seconds 
Frame 40000 written in 915 seconds, 3.278689e+01 percent complete, time left=1877 seconds 
Frame 50000 written in 1512 seconds, 4.098361e+01 percent complete, time left=2177 seconds

Attempting to make use of the BigTIFF library does not work

Following the discussion here: http://blogs.mathworks.com/steve/2013/08/07/tiff-bigtiff-and-blockproc/

I attempted to convert the code to work with uint16 data by changing line 73 to:

    obj.TiffObject.setTag('BitsPerSample', 16);

but after writing with

outFileWriter = bigTiffWriter('test.tif', inFileInfo(1).Height, inFileInfo(1).Width, tileSize(1), tileSize(2));
for i=1:122000
    blockproc(IMG(:,:,i),tileSize,@(b) b.data,'Destination',outFileWriter);
    if rem(i,10000)==0
        fprintf('Frame %d done\n',i)
    end
end

I get the following error when trying to read back in:

Unexpected Standard exception from MEX file.
What() is:std::bad_alloc
..

Error in imtifinfo (line 27)
raw_tags = tifftagsread(filename,0,0,0);

Error in imfinfo (line 183)
info = feval(fmt_s.info, filename);

Error in TiffReader (line 11)
InfoImage=imfinfo(fname);

On a related note, preallocating the file with the correct size on the disk makes no difference

I thought there was a slim chance this was a file I/O problem, in which case preallocating the space on disk might be relevant, so I tried what was mentioned here: http://www.mathworks.co.uk/matlabcentral/newsreader/view_thread/241072, namely:

% Create the file
fh = javaObject('java.io.RandomAccessFile', 'test.dat', 'rw');
% Allocate the right amount of space
fh.setLength(1024);
% Close the file
fh.close();

but it made no difference.

Any help would be greatly appreciated.

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1 Answer 1

I ran into the same problem, but it's even worse: even if you write another tiff, the time to write a frame is increasing.

So a solution (which works better on my case with multiple files) is to call the restart matlab session per shell command.

So in your "writeTIFF.m", you should have a variable "startFrame" and put an "exit" at the end of your script. You can adress it with this kind of Batch (or equivalent under linux/unix) with this line :

@echo off
setlocal EnableDelayedExpansion 
:: count to 5 storing the results in a variable
set _tst=0
FOR /l %%G in (100,100,300) Do (
    echo matlab -r "startFrame=%%G;writeTIFF"  -nosplash -nodesktop -wait
    matlab -r "startFrame=%%G;writeTIFF"  -nosplash -nodesktop -wait
)
echo Done

I did not heavily tested, but it should do what's expected : restart matlab 3 times, and initialize the variable "startFrame" with the value 100, 200 and 300, successively.

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