cudaMallocManaged() is not about speeding up your application (with a few exceptions or corner cases, some are suggested below).
Today's implementation of Unified Memory and
cudaMallocManaged will not be faster than intelligently written code written by a proficient CUDA programmer, to do the same thing. The machine (cuda runtime) is not smarter than you are as a programmer.
cudaMallocManaged does not magically make the PCIE bus or general machine architectural limitations disappear.
Fast prototyping refers to the time it takes you to write the code, not the speed of the code.
cudaMallocManaged may be of interest to a proficient cuda programmer in the following situations:
- You're interested in quickly getting a prototype together -i.e. you don't care about the last ounce of performance.
- You are dealing with a complicated data structure which you use infrequently (e.g. a doubly linked list) which would otherwise be a chore to port to CUDA (since deep copies using ordinary CUDA code tend to be a chore). It's necessary for your application to work, but not part of the performance path.
- You would ordinarily use zero-copy. There may be situations where using
cudaMallocManaged could be faster than a naive or inefficient zero-copy approach.
cudaMallocManaged may be of interest to a non-proficient CUDA programmer in that it allows you to get your feet wet with CUDA along a possibly simpler learning curve.