In my program I am faced with some matrices that are larger than 10000x10000. I cannot transpose or inverse them, how can this problem be overcome?

```
??? Error using ==> ctranspose
Out of memory. Type HELP MEMORY for your options.
Error in ==> programname1 at 70
B = cell2mat(C(:,:,s))';
Out of memory. Type HELP MEMORY for your options.
Example 1: Run the MEMORY command on a 32-bit Windows system:
>> memory
Maximum possible array: 677 MB (7.101e+008 bytes) *
Memory available for all arrays: 1602 MB (1.680e+009 bytes) **
Memory used by MATLAB: 327 MB (3.425e+008 bytes)
Physical Memory (RAM): 3327 MB (3.489e+009 bytes)
* Limited by contiguous virtual address space available.
** Limited by virtual address space available.
Example 2: Run the MEMORY command on a 64-bit Windows system:
>> memory
Maximum possible array: 4577 MB (4.800e+009 bytes) *
Memory available for all arrays: 4577 MB (4.800e+009 bytes) *
Memory used by MATLAB: 330 MB (3.458e+008 bytes)
Physical Memory (RAM): 3503 MB (3.674e+009 bytes)
```

==============================================================================

```
memory
% Maximum possible array: 1603 MB (1.681e+009 bytes) *
% Memory available for all arrays: 2237 MB (2.346e+009 bytes) **
% Memory used by MATLAB: 469 MB (4.917e+008 bytes)
% Physical Memory (RAM): 3002 MB (3.148e+009 bytes)
I have used sparse for C.
B = cell2mat(C);
clear C %# to reduce the allocated RAM
P=B\b;
Name Size Bytes Class Attributes
B 5697x5697 584165092 double sparse, complex
C 1899x1899 858213576 cell
b 5697x1 91152 double complex
==============================================================================
??? Error using ==> mldivide
Out of memory. Type HELP MEMORY for your options.
Error in ==> programname at 82
P=B\b;
==============================================================================
```

Edit: 27.05.11

```
Name Size Bytes Class Attributes
C 997x997 131209188 cell
B 2991x2991 71568648 single complex
Bdp 2991x2991 143137296 double complex
Bsparse 2991x2991 156948988 double sparse, complex
Bdp=double(B);
Bsparse=sparse(Bdp);
```

I used single precision, witch gave the same accuracy as in double precision

It's better, Am I right?