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I am aware of:

https://github.com/lsegal/barracuda

Which hasn't been updated since 01/11

And

http://rubyforge.org/projects/ruby-opencl/

Which hasn't been updated since 03/10.

Are these projects dead? Or have they simply not changed because their functioning, and OpenCL/Ruby haven't changed since then. Is anybody using these projects? Any luck?

If not, can you recommend another opencl gem for Ruby? Or how is this sort of call done usually? Just call raw C from Ruby?

Thanks!

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This looks even more stale, but yet another option: github.com/QaDeS/ffi-opencl –  Nevir Jan 20 '13 at 21:53
    
So I'm gathering the short answer is "no"... –  Abraham P Jan 25 '13 at 9:40
    
Nothing more here, but the link may be useful anyway –  Jean-Claude Arbaut Jan 25 '13 at 10:57
    
post back when you make your own ... :) –  rogerdpack Jan 27 '13 at 5:13
    
There is also a ruby ffi opencl gem which was automatically generated via swig. github.com/sempervictus/ffi-opencl –  Bjoern Rennhak May 25 '13 at 0:02

2 Answers 2

You may want to package whatever C functionality you would like as a gem. This is pretty straightforward and this way you can wrap all your c logic in a specific namespace that you can reuse in other projects.

http://guides.rubygems.org/c-extensions/

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Gonna go ahead and give you the bounty. Don't want points to go to waste do I.... –  Abraham P Jan 27 '13 at 10:13
2  
Yes!! - I will never forget you Abraham P. –  jmontross Jan 27 '13 at 22:39

You can try opencl_ruby_ffi, it's actively developed (by a colleague of mine) and working well with OpenCL version 1.2. OpenCL 2.0 should also be available soon.

sudo gem install opencl_ruby_ffi

In Khronos forum you can find a quick example that shows how it works:

require 'opencl_ruby_ffi'
platform = OpenCL::platforms.first
device = platform.devices.first

source = <<EOF
__kernel void addition(  float2 alpha, __global const float *x, __global float *y) {\n\
  size_t ig = get_global_id(0);\n\
  y[ig] = (alpha.s0 + alpha.s1 + x[ig])*0.3333333333333333333f;\n\
}
EOF

context = OpenCL::create_context(device)
queue = context.create_command_queue(device, :properties => OpenCL::CommandQueue::PROFILING_ENABLE)
prog = context.create_program_with_source( source )
prog.build
a_in = NArray.sfloat(65536).random(1.0)
a_out = NArray.sfloat(65536)
f = OpenCL::Float2::new(3.0,2.0)
b_in = context.create_buffer(a_in.size * a_in.element_size, :flags => OpenCL::Mem::COPY_HOST_PTR, :host_ptr => a_in)
b_out = context.create_buffer(a_out.size * a_out.element_size)
event = prog.addition(queue, [65536], f, b_in, b_out, :local_work_size => [128])
# #Or if you want to be more OpenCL like:
# k = prog.create_kernel("addition")
# k.set_arg(0, f)
# k.set_arg(1, b_in)
# k.set_arg(2, b_out)
# event = queue.enqueue_NDrange_kernel(k, [65536],:local_work_size => [128])
queue.enqueue_read_buffer(b_out, a_out, :event_wait_list => [event])
queue.finish
diff = (a_in - a_out*3.0)
65536.times { |i|
  raise "Computation error #{i} : #{diff[i]+f.s0+f.s1}" if (diff[i]+f.s0+f.s1).abs > 0.00001
}
puts "Success!"
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