I have two very large matrices. The problem is that adding them using for
loops is taking time. I came to know that we can add matrices using operator overloading in C++. Will doing so reduce the execution time?
4 Answers
Moving the loops into an overloaded operator will make no difference.
One way to improve performance is by using a specialized library for this, such as BLAS. A quality BLAS implementation (for example, Intel's MKL) will be much faster than anything you are likely to hand-code.
For some pointers regarding C++ wrappers for BLAS, see LAPACK wrappers for C/C++ (the question is about Windows, but the answers are broader than this).
-
-
@LaszloPapp: No experience with eigen, but it looks like something the OP should check out.– NPEOct 23, 2013 at 14:01
Operator is treated just as every other function in C++, so simply changing your adding function to an operator without changing the logic won't help.
You'd probably need to make use of some sort of SIMD calculations.
One way to do this is use the vector operators available at the x86 extension. Check this for an example http://en.wikipedia.org/wiki/Streaming_SIMD_Extensions#Example
If you use gnu or visual studio, they might have builtin intrinsics that you can call as a function instead of coding in assembly.
Put your matrices to valarray or use specialized library for that, eigen for instance. Blas is ugly and if you do not have access to commercial implementations not particularly well performing any more.
It is generally speaking, an up-front design principle in certain projects
: But what is that up-front design principle you claim I miss? Proof for what obvious? Or am I just the wrong addressee of your comment?