Bolt is a C++ template library optimized for GPUs. Bolt provides high-performance library implementations for common algorithms such as scan, reduce, transform, and sort.
Bolt is a C++ template library optimized for heterogeneous computing. Bolt is designed to provide high-performance library implementations for common algorithms such as scan, reduce, transform, and sort. The Bolt interface was modeled on the C++ Standard Template Library (STL). Developers familiar with the STL will recognize many of the Bolt APIs and customization techniques.
The primary goal of Bolt is to make it easier for developers to utilize the inherent performance and power efficiency benefits of heterogeneous computing. It has interfaces that are easy to use, and has comprehensive documentation for the library routines, memory management, control interfaces, and host/device code sharing.
Compared to writing the equivalent functionality in OpenCL™, you’ll find that Bolt requires significantly fewer lines-of-code and less developer effort. Bolt is designed to provide a standard way to develop an application that can execute on either a regular CPU, or use any available OpenCL™ capable accelerated compute unit, with a single code path.
Here’s a link to our BOLT wiki page.
Note: If the user has installed both Visual Studio 2012 and Visual Studio 2010, the latter should be updated to SP1.
Note: Bolt pre-built binaries for Linux are build with GCC 4.7.3, same version should be used for Application building else user has to build Bolt from source with GCC 4.6.3 or higher.
The latest Catalyst driver contains the most recent OpenCL runtime. Recommended Catalyst package is latest 13.11 Beta Driver.
13.4 and higher is supported.
Note: 13.9 in not supported.
AMD APU Family with AMD Radeon™ HD Graphics
AMD Radeon™ HD Graphics
AMD Radeon™ HD Graphics
AMD Radeon™ Rx 2xx Graphics
AMD FirePro™ Professional Graphics
Compiled binary windows packages (zip packages) for Bolt may be downloaded from the Bolt landing page hosted on AMD’s Developer Central website.
The simple example below shows how to use Bolt to sort a random array of 8192 integers.
#include <bolt/cl/sort.h>
#include <vector>
#include <algorithm>
int main ()
{
// generate random data (on host)
size_t length = 8192
std::vector<int> a (length);
std::generate ( a.begin (), a.end(), rand );
// sort, run on best device in the platform
bolt::cl::sort(a.begin(), a.end());
return 0;
}
The code will be familiar to programmers who have used the C++ Standard Template Library; the difference is the include file (bolt/cl/sort.h) and the bolt::cl namespace before the sort call. Bolt developers do not need to learn a new device-specific programming model to leverage the power and performance advantages of heterogeneous computing.
#include <bolt/cl/device_vector.h>
#include <bolt/cl/scan.h>
#include <vector>
#include <numeric>
int main()
{
size_t length = 1024;
// Create device_vector and initialize it to 1
bolt::cl::device_vector< int > boltInput( length, 1 );
// Calculate the inclusive_scan of the device_vector
bolt::cl::inclusive_scan(boltInput.begin(),boltInput.end(),boltInput.begin( ) );
// Create an std vector and initialize it to 1
std::vector<int> stdInput( length, 1 );
// Calculate the inclusive_scan of the std vector
bolt::cl::inclusive_scan(stdInput.begin( ),stdInput.end( ),stdInput.begin( ) );
return 0;
}
This example shows how Bolt simplifies management of heterogeneous memory. The creation and destruction of device resident memory is abstracted inside of the bolt::cl::device_vector <>
class, which provides an interface familiar to nearly all C++ programmers. All of Bolt’s provided algorithms can take either the normal std::vector or the bolt::cl::device_vector<>
class, which allows the user to control when and where memory is transferred between host and device to optimize performance.
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Licensed under the Apache License, Version 2.0 (the “License”);
you may not use this file except in compliance with the License.
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