I have a 2D matrix containing 0,1 and 2. I am writing a cuda kernel where the number of threads is equal to the matrix size and each thread would operate on each element of the matrix. Now, I needed mathematical operations that could keep 0 and 1 as it is, but would convert 2 to 1. That is a mathematical operation, without any if-else, which would do the following conversion : 0 ->0; 1 ->1; 2 ->1. Is there any possible way using mathematical operators which would do the above mentioned conversion. Any help would be extremely appreciated. Thank you.
This is not a cuda question.
or as a macro:
This also seems to work:
I don't know if the use of the boolean AND operator (
As the question was about "mathematical" functions I suggest the following 2nd order polynomial:
But if you want avoid branching in order to maximize speed: There is a min instruction since PTX ISA 1.0. (See Tab. 36 in the PTX ISA 3.1 manual.) So the following CUDA code
compiles to the following PTX assembler in my test (just called nvcc from CUDA 5 without any arch options)
So a min() implementation using a conditional ?: actually compiles to a single IMIN.S32 PTX instruction without any branching. So I'd recommend this for any real-world applications:
But back to the question of using only non-branching operations:
Another form of getting this result in C is by using two not operators:
Or simply compare with zero:
(The results of ! and != are guaranteed to be 0 or 1, compare Sec. 220.127.116.11 Par. 5 and Sec. 6.5.9 Par. 3 of the C99 standard, ISO/IEC 9899:1999. Afair this guarantee also holds in CUDA.)