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New approach to computing boosts energy efficiency

Date:
August 26, 2016
Source:
Chalmers University of Technology
Summary:
A research project has launched a set of tools that will make computer systems more energy efficient – a critical issue for modern computing. Using the framework of the project programmers has been able to provide large data streaming aggregations 54 times more energy efficient than with standard implementations.
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A European research project led by Chalmers University of Technology has launched a set of tools that will make computer systems more energy efficient -- a critical issue for modern computing. Using the framework of the project programmers has been able to provide large data streaming aggregations 54 times more energy efficient than with standard implementations.

Energy consumption is one of the key challenges of modern computing, whether for wireless embedded client devices or high performance computing centers. The ability to develop energy efficient software is crucial, as the use of data and data processing keeps increasing in all areas of society. The need for power efficient computing is not only due to the environmental impact. Rather, we need energy efficient computing in order to even deliver on the trends predicted.

The EU funded Excess project, which finishes August 31, set out three years ago to take on what the researchers perceived as a lack of holistic, integrated approaches to cover all system layers from hardware to user level software, and the limitations this caused to the exploitation of the existing solutions and their energy efficiency. They initially analyzed where energy-performance is wasted, and based on that knowledge they have developed a framework that should allow for rapid development of energy efficient software production.

"When we started this research program there was a clear lack of tools and mathematical models to help the software engineers to program in an energy efficient way, and also to reason abstractly about the power and energy behavior of her software" says Philippas Tsigas, professor in Computer Engineering at Chalmers University of Technology, and project leader of Excess. "The holistic approach of the project involves both hardware and software components together, enabling the programmer to make power-aware architectural decisions early. This allows for larger energy savings than previous approaches, where software power optimization was often applied as a secondary step, after the initial application was written."

The Excess project has taken major steps towards providing a set of tools and models to software developers and system designers to allow them to program in an energy efficient way. The tool box spans from fundamentally new energy-saving hardware components, such as the Movidius Myriad platform, to sophisticated efficient libraries and algorithms.

Tests run on large data streaming aggregations, a common operation used in real-time data analytics, has shown impressive results. When using the Excess framework, the programmer can provide a 54 times more energy efficient solution compared to a standard implementation on a high-end PC processor. The holistic Excess approach first presents the hardware benefits, using an embedded processor, and then continues to show the best way to split the computations inside the processor, to even further enhance the performance.


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Materials provided by Chalmers University of Technology. Note: Content may be edited for style and length.


Cite This Page:

Chalmers University of Technology. "New approach to computing boosts energy efficiency." ScienceDaily. ScienceDaily, 26 August 2016. <www.sciencedaily.com/releases/2016/08/160826083950.htm>.
Chalmers University of Technology. (2016, August 26). New approach to computing boosts energy efficiency. ScienceDaily. Retrieved May 25, 2017 from www.sciencedaily.com/releases/2016/08/160826083950.htm
Chalmers University of Technology. "New approach to computing boosts energy efficiency." ScienceDaily. www.sciencedaily.com/releases/2016/08/160826083950.htm (accessed May 25, 2017).

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