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I'm starting doing some development in OpenCL and one of my first objectives concerns the porting of a library with a lot of data to OpenCL.

This particular library consists in its native C form of a large number (about 20MB in memory) of arrays of arrays whose values are strictly constant, as well as a couple of functions that allow the user to extract (and sometimes perform some basic operations on) values from these arrays.

I have all these arrays together in a huge C source code file (about 1M lines) that I compile together with the code of the functions into the library.

My question now is: is it somehow possible to compile this huge file, with the necessary memory qualifiers, into OpenCL kernels that use the datasets and the associated functions? Again, these arrays are constant and will not be changed during execution.

Thanks in advance for all advice!


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1 Answer 1

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OpenCL supports constant memory, which is exactly what you're looking for. It works similarly to global memory, though exact placement can vary depending on implementation, and it lets the compiler optimize things differently since the memory is guaranteed not to be modified during the kernel's execution.

You'd create this buffer, marking it read-only and copying from the host-accessible data. Then you just pass it into the kernels normally:

float[] hugeData = { ... };

void run_kernel() {
   // ...
   cl_mem cl_hugeData;
   hugeDataInOpenCL = clCreateBuffer(context, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR, sizeof(hugeData), hugeData, &error);
   // ...
   clSetKernelArg(kernel, 0, sizeof(cl_hugeData), &cl_hugeData);
   // ...

__kernel void mykernel (__constant float * hugeData, ...) {
   // use hugeData however you want

Presumably you would want to create the buffer once per context and re-use it (like you would with the kernel) to avoid excessive re-work.

Also, your data is large enough that some devices might not have enough constant memory available, in which case you can fall back to using global memory and marking it read-only. (This would mean two versions of your kernel, one with either type of parameter.) Check clGetDeviceInfo for CL_DEVICE_MAX_CONSTANT_BUFFER_SIZE and decide at runtime.

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Thanks for the reply, but this is not what I had in mind. I'm sorry if I didn't make myself clear. The arrays should be compiled within the kernel as global variables. I especially want to avoid sending them to the kernel as arguments. The arrays are in fact arrays of arrays, and there are a lot of them. –  Tom Schoonjans Sep 21 '12 at 14:14
How are the arrays accessed? OpenCL really only gives you two options: 1) parameters, 2) code. If we're talking about megabytes of data, it pretty much has to be parameters. –  willglynn Sep 21 '12 at 14:32
The arrays would be accessed using functions compiled together with the kernel. This would become quite messy if I had to set up these arrays as kernel arguments. –  Tom Schoonjans Sep 21 '12 at 14:45
OpenCL lets you declare globals using the __constant qualifier, and you can access them implicitly from within your kernel, just like you would from C. However, CL_DEVICE_MAX_CONSTANT_BUFFER_SIZE is typically on the order of 64 KB. If you want to pass in lots and lots of data, you need to use parameters, and you need to refactor accordingly. –  willglynn Sep 21 '12 at 15:54
Tom, have you looked at using Images to store your data and passing Samplers into the kernels for accessing the data? –  K. Brafford May 19 at 1:27

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