Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm new to the GPU Programming world, I've tried reading on Wikipedia and Googling, but I still have several questions:

  • I downloaded some GPU Examples, for CUDA, there were some .cu files and some CPP files, but all the code was normal C/C++ Code just some weird functions like cudaMemcpyToSymbol and the rest was pure c code. The question is, is the .cu code compiled with nvcc and then linked with gcc? Or how is it programmed?

  • if I coded something to be run on GPU, will it run on ALL GPUs? or just CUDA? or is there a method to write for CUDA and a Method to write for ATI and a method to write for both?

share|improve this question
up vote 9 down vote accepted

To answer your second question:

OpenCL is the (only) way to go if you want to write platform independent GPGPU code.

ATIs website actually has a lot of resources for OpenCL if you search a little, and their example projects are very easy to modify into what you need, or just to understand the code.

The OpenCL spec and reference pages is also a very good source of knowledge:

There are a lot of talks that explain some of the core concepts, and also that explain how to write fast code that I would recommend (that is applicable to CUDA too).

To almost answer your first question: In OpenCL, the code is compiled at runtime to the specific GPU you're using (to guarantee speed).

share|improve this answer
Compiled at runtime? will my code be like a byte code thats copied to memory during runtime and executed from there? – killercode Sep 13 '11 at 17:23
Your GPGPU code will be a source code string that is compiled att runtime to a code object on the GPU – nulvinge Sep 14 '11 at 14:07

You probably want to do some background reading on CUDA - it's not something you can just pick up by looking at a few code samples. There are about 3 different CUDA books on Amazon now, and there is a lot of reference material at

To answer your questions:

  • yes, .cu files are compiled with nvcc to an intermediate form (PTX) - this is subsequently converted to GPU-specific code at run-time

  • the generated code will run on a subset of nVidia GPUs, the size of the subset depending on what CUDA capabilities you use in your code

share|improve this answer
Addition about linking: yes, you can link .o-files generated by nvcc with gcc or other C(++) compiler. However, in most cases it's easier to do linking with nvcc, since it automatically links your program to all necessary cuda libraries (if you use gcc, you would have to specify them manually). – aland Sep 13 '11 at 5:19

completing the answer given by @nulvinge, I'd say that OpenCL its to GPU Programming like OpenGL is to GPU Rendering. But its not the only option for multi-architecture development, you could also use DirectCompute, but I wouldn't say that its the best option, just if you want your code running on every DirectX11 compatible GPUs, that includes some intel graphics cards chips too right?

But even if you are thinking in doing some GPU programming with OpenCL, do not forget to study the architecture of the platforms that you're using. ATI CPUs, GPUs and NVIDIA GPUs have big differences and your code is needed to be tuned for each platform that you're using if you want to get the most of it...

Fortunately both NVIDIA and AMD have Programming Guides to help you:)

share|improve this answer

In addition to previous answers, for CUDA you would need a NVIDIA card/GPU, unless you have access for a remote one, which I would recommend this course from Coursera:

Heterogeneous Parallel Programming

It not just gives an introduction to CUDA and OpenCL, memory model, tiling, handling boundary conditions and performance considerations, but also directive-based languages such as OpenACC, a high level language for expressing parallelism into your code, leaving mostly of the parallel programming work for the compiler (good to start with). Also, this course has a online platform where you can use their GPU, which is good to start GPU programming without concerning about software/hardware setup.

share|improve this answer

If you want to write a portable code which you can execute on different GPU devices and also on CPUs. You need to use OpenCL.

Actually, to configure your kernel you need to write a host code in C. The configuration file might be shorter if you want to write it for CUDA kernels comparing to OpenCL one.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.