Personally, I am skeptical that the performance difference is due to the copy.
Perhaps your data structure is being aligned in a way that there are empty gaps.
A second cause could be due to memory page alignment handling. When you get memory using malloc it can be fragmented similar to the layout of the Windows filesystems. The level of fragmentation can very, but it is not unreasonable to say that if you do a single call to malloc you get memory that is continuously aligned, while if you do many calls, you can get memory with gaps.
CUDA's memory copy has to deal with this additional overhead by checking the pages one by one and manually moving them to the GPU.
The real solution to your problem will be using
cudaMallocHost to allocate memory that the CPU doesn't have to worry about. Try doing this and see if it fixes your problem.