Yes. First, it's best to understand what happens when you use
-gencode. NVCC will compile your input device code multiple times, once for each device target architecture. So in your example, NVCC will run compilation stage 1 once for compute_20 and once for compute_13.
When nvcc compiles a .cu file, it defines two preprocessor macros,
__CUDACC__ does not have a value, it is simply defined if cudacc is the compiler, and not defined if it isn't.
__CUDA_ARCH__ is defined to an integer value representing the SM version being compiled.
- 100 = compute_10
- 110 = compute_11
- 200 = compute_20
etc. To quote the NVCC documentation included with the CUDA Toolkit:
The architecture identification macro
__CUDA_ARCH__ is assigned a three-digit value string
xy0 (ending in a literal 0) during each nvcc compilation stage 1 that compiles for
compute_xy. This macro can be used in the implementation of GPU functions for determining the virtual architecture for which it is currently being compiled. The host code (the non-GPU code) must not depend on it.
So, in your case where you want to use
__ballot(), you can do this:
#if __CUDA_ARCH__ >= 200
int b = __ballot();
int p = popc(b & lanemask);
// do something else for earlier architectures