I am running a simple C program which performs a lot calculations(CFD) hence takes a lot of time to run. However i still have a lot of unused CPU and RAM. So how will i allocate some of my processing power to one program.??
I'm guessing that CFD means Computational Fluid Dynamics (but CFD has also a lot of other meanings, so I might guess wrong).
You definitely should first profile your code. At the very least, compile it with
I'm not an expert of CFD (even if in the previous century I did work with CFD experts). But such code uses a lot of finite elements analysis and other vector computation.
If you are writing the code, you might perhaps consider using OpenMP (so by carefully adding OpenMP pragmas in your source code, you might speed it up), or even consider using GPGPUs by coding OpenCL kernels that run on the GPU.
You could also learn more about pthreads programming and change your code to use threads.
If you are using important numerical libraries like e.g. BLAS they have a lot of tuning, and even specialized variants (e.g. multi-core, OpenMP-ed, or even in OpenCL).
In all cases, parallelizing your code is a lot of work. You'll spend weeks or months on improving it, if it is possible.
Linux doesn't keep programs waiting and CPU free when they need to do calculations. Either you have a multicore CPU and one single thread running (as suggested by @Pankrates) or you are blocking on some I/O.
You could nice the process with a negative increment, but you need to be superuser for that. See
This would increase the scheduling priority of the process. If it is competing with other processes for CPU time, it would get more CPU time and therefore "run faster".
As for increasing the amount of RAM used by the program: you'd need to rewrite or reconfigure the program to use more RAM. It is difficult to say more given the information available in the question.
To use multiple CPU's at once, you either need to run multiple copies of your program, or run multiple threads within the program. Neither is terribly hard to get started on.
However, it's much easier to do a parallel version of "I've got 10000 large numbers, I want to find out for each of them if they are primes or not" than it is to do "lots of A = A + B" type calculations in parallel - because you need the new A before you can make the next step. CFD calculations tend to do the latter [as far as I understand it], but with large arrays. You may be able to split large vector calculations into a set of smaller vector caclulations [say we have a matrix of 1000 x 1000, you could split that into 4 sets of 250 x 1000 matrixes, or 4 sets of 500 x 500 matrixes, and perform each of those in it's own thread].
If it's your own code, then you hopefully know what it does and how it works. If it's someone elses code, then you need to talk to whoever owns the code.
There is no magical way to "automatically make use of more CPU's". 30% CPU usage on a quad-core processor probably means that your system is basically using one core, and 5% or so is overhead for other things going on in the system - or maybe there is a second thread somewhere in your application that uses a little bit of CPU doing whatever it does. Or the application is multithreaded, but doesn't use the multiple cores to full extent because there is contention between the threads over some shared resource... It's impossible for us to say which of these three [or several other] alternatives.
Asking for more RAM isn't going to help unless you have something useful to put into that memory. If there is free memory, your application get as much memory as it needs.