Two part question:
I'm working on a school project using the game of life as a vehicle to experiment with gpgpu. I'm using OpenCL and OpenGL for realtime visualizations and the goal is to get this thing as big and fast as possible. Upon profiling I find that the frame time is dominated by CL Acquiring and Releasing the GL buffers, and that the time cost is directly proportional to the actual size of the buffer.
1) Is this normal? Why should this be? To the best of my understanding, the buffer never leaves device memory, and the CL Acquire/Release acts like a mutex. Does OpenCL lock/unlock each byte individually or something?
To get around this I've shrunk from 24-bit RGBA color mode (OpenGL's preferred color mode as I understand it?) to 8-bit RGB color. This has resulted in a major speedup, but after tuning my kernel, the transfer times are dominating again.
In the absence of any ideas on how to eliminate the transfer times entirely (short of porting my kernel from OpenCL to GLSL, which would exceed the original scope of the project), I now figure that my best bet is to write to a bitmap (as opposed to the 8-bit pixmap I'm currently using) and then use that bitmap with a color index to texture a quad.
2) Can I texture a quad directly using a bitmap? I have considered using glBitmap to draw to an auxiliary buffer, and then using this buffer to texture my quad, but I would prefer to use a more direct route if one is available.