I have several binary files with a known structure (8,12000,real*4). 8 is the number of variables, and 12000 represent the time steps. From these binaries I need to get a final 16x9 matrix defined as followed:

- the first column contains a filename identification.
- on the diagonal are located the extreme values (maxima and minima) of the corresponding variable.
- the simultaneous values of the other variables shall be given in the rows.

At the moment I'm using this code

```
for i = 1:num_files
for j = 1:num_ext
fid = fopen([fullfile(BEGINPATH{1},FILELIST{i}) '.$' VAREXTENSION{j}],'r');
A = fread(fid,[DLC_dimens{i}{3}(1) DLC_dimens{i}{3}(2)],'real*4');
for k = 1:size(A,1)
[max_val(k,i) max_idx(k,i)] = max(A(k,:));
[min_val(k,i) min_idx(k,i)] = min(A(k,:));
end
fclose(fid);
end
end
% Pre-allocate ULS matrices
uloads = cell(2*size(A,1),size(A,1)+1);
uloads_temp = cell(2*size(A,1),size(A,1)+1);
% Generate ULS matrix for the first file
for i = 1:size(uloads,1)
uloads{i,end} = DLC_dimens{1}(1);
end
fid = fopen([fullfile(BEGINPATH{1},FILELIST{1}) '.$' VAREXTENSION{1}],'r');
A = fread(fid,[DLC_dimens{i}{3}(1) DLC_dimens{i}{3}(2)],'real*4');
for j = 1:size(uloads,2)-1
uloads{1,j} = A(j,max_idx(1,1))*DLC_dimens{1}{4};
uloads{2,j} = A(j,min_idx(1,1))*DLC_dimens{1}{4};
uloads{3,j} = A(j,max_idx(2,1))*DLC_dimens{1}{4};
uloads{4,j} = A(j,min_idx(2,1))*DLC_dimens{1}{4};
uloads{5,j} = A(j,max_idx(3,1))*DLC_dimens{1}{4};
uloads{6,j} = A(j,min_idx(3,1))*DLC_dimens{1}{4};
uloads{7,j} = A(j,max_idx(4,1))*DLC_dimens{1}{4};
uloads{8,j} = A(j,min_idx(4,1))*DLC_dimens{1}{4};
uloads{9,j} = A(j,max_idx(5,1))*DLC_dimens{1}{4};
uloads{10,j} = A(j,min_idx(5,1))*DLC_dimens{1}{4};
uloads{11,j} = A(j,max_idx(6,1))*DLC_dimens{1}{4};
uloads{12,j} = A(j,min_idx(6,1))*DLC_dimens{1}{4};
uloads{13,j} = A(j,max_idx(7,1))*DLC_dimens{1}{4};
uloads{14,j} = A(j,min_idx(7,1))*DLC_dimens{1}{4};
uloads{15,j} = A(j,max_idx(8,1))*DLC_dimens{1}{4};
uloads{16,j} = A(j,min_idx(8,1))*DLC_dimens{1}{4};
end
fclose(fid);
% ULS temporary matrix generation
uls = uloads;
for i = 2:num_files
fid = fopen([fullfile(BEGINPATH{1},FILELIST{i}) '.$' VAREXTENSION{1}],'r');
A = fread(fid,[8 12000],'float32');
for j = 1:size(uloads,1)
uloads_temp{j,9} = DLC_dimens{i}(1);
end
for k = 1:size(uloads,2)-1
uloads_temp{1,k} = A(k,max_idx(1,i))*DLC_dimens{i}{4};
uloads_temp{2,k} = A(k,min_idx(1,i))*DLC_dimens{i}{4};
uloads_temp{3,k} = A(k,max_idx(2,i))*DLC_dimens{i}{4};
uloads_temp{4,k} = A(k,min_idx(2,i))*DLC_dimens{i}{4};
uloads_temp{5,k} = A(k,max_idx(3,i))*DLC_dimens{i}{4};
uloads_temp{6,k} = A(k,min_idx(3,i))*DLC_dimens{i}{4};
uloads_temp{7,k} = A(k,max_idx(4,i))*DLC_dimens{i}{4};
uloads_temp{8,k} = A(k,min_idx(4,i))*DLC_dimens{i}{4};
uloads_temp{9,k} = A(k,max_idx(5,i))*DLC_dimens{i}{4};
uloads_temp{10,k} = A(k,min_idx(5,i))*DLC_dimens{i}{4};
uloads_temp{11,k} = A(k,max_idx(6,i))*DLC_dimens{i}{4};
uloads_temp{12,k} = A(k,min_idx(6,i))*DLC_dimens{i}{4};
uloads_temp{13,k} = A(k,max_idx(7,i))*DLC_dimens{i}{4};
uloads_temp{14,k} = A(k,min_idx(7,i))*DLC_dimens{i}{4};
uloads_temp{15,k} = A(k,max_idx(8,i))*DLC_dimens{i}{4};
uloads_temp{16,k} = A(k,min_idx(8,i))*DLC_dimens{i}{4};
end
if uloads_temp{1,1}(:) > uls{1,1}(:)
uls(1,:) = uloads_temp(1,:);
end
if uloads_temp{2,1}(:) < uls{2,1}(:)
uls(2,:) = uloads_temp(2,:);
end
if uloads_temp{3,2}(:) > uls{3,2}(:)
uls(3,:) = uloads_temp(3,:);
end
if uloads_temp{4,2}(:) < uls{4,2}(:)
uls(4,:) = uloads_temp(4,:);
end
if uloads_temp{5,3}(:) > uls{5,3}(:)
uls(5,:) = uloads_temp(5,:);
end
if uloads_temp{6,3}(:) < uls{6,3}(:)
uls(6,:) = uloads_temp(6,:);
end
if uloads_temp{7,4}(:) > uls{7,4}(:)
uls(7,:) = uloads_temp(7,:);
end
if uloads_temp{8,4}(:) < uls{8,4}(:)
uls(8,:) = uloads_temp(8,:);
end
if uloads_temp{9,5}(:) > uls{9,5}(:)
uls(9,:) = uloads_temp(9,:);
end
if uloads_temp{10,5}(:) < uls{10,5}(:)
uls(10,:) = uloads_temp(10,:);
end
if uloads_temp{11,6}(:) > uls{11,6}(:)
uls(11,:) = uloads_temp(11,:);
end
if uloads_temp{12,6}(:) < uls{12,6}(:)
uls(12,:) = uloads_temp(12,:);
end
if uloads_temp{13,7}(:) > uls{13,7}(:)
uls(13,:) = uloads_temp(3,:);
end
if uloads_temp{14,7}(:) < uls{14,7}(:)
uls(14,:) = uloads_temp(14,:);
end
if uloads_temp{15,8}(:) > uls{15,8}(:)
uls(15,:) = uloads_temp(15,:);
end
if uloads_temp{16,8}(:) < uls{16,8}(:)
uls(16,:) = uloads_temp(16,:);
end
fclose(fid);
end
```

Now comes the question: I was thinking of a procedure where

- I generate a temporary uloads_temp matrix just with the first file;
- Calculate the uloads matrix for the i-th file (i = 2:num_files)
- Compare the terms on the diagonal between i-th uloads matrix and temporary uloads_temp: a) if the elements of the i-th ulaods are major (minor) than the respective uloads_temp values b) update uloads_temp rows the condition a) occurs.

I hope I explained everything properly. Could you please give me a hint on how to perform the described loops?

I thank you all in advance.

WKR, Francesco

P.S. : everything could be reproduced by means fo matrices filled of random numbers; I just copied and pasted my code with reference to a file list.

`num2cell(rand(12000,8,100));`

does not consume that much memory. Otherwise your procedure does not sound like a bad idea. – Dennis Jaheruddin Nov 15 '12 at 10:23