A many-core processor design for high-performance systems draws from embedded computing's low-power architectures and design processes, providing a radical alternative to cluster solutions
Current, leading-edge high performance computing (HPC) systems are often heterogeneous, comprised of...
In this paper we investigate the energy efficiency of processors based on ARM Cortex-A9 cores for sc...
Power consumption becomes the most important design goal in a wide range of electronic systems. Ther...
Increased transistor integration will soon allow us to build processor chips with over 1,000 cores. ...
Energy consumption is increasingly becoming one of the most relevant issue concerning the computing ...
This paper proposes single-ISA heterogeneous multi-core architectures as a mechanism to reduce proce...
Over the past four decades, the number of transistors on a chip has increased exponentially in acco...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Energy-efficient computing remains a critical challenge across the wide range of future data-process...
An energy harvester is a small part of a larger embedded system. Historically, such systems have typ...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
The authors applied operations management principles on scheduling and allocation to scientific comp...
Abstract—Homogeneous multi-cores, while ubiquitous to-day, cannot provide the desired performance an...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
Proceedings of the First PhD Symposium on Sustainable Ultrascale Computing Systems (NESUS PhD 2016)...
Current, leading-edge high performance computing (HPC) systems are often heterogeneous, comprised of...
In this paper we investigate the energy efficiency of processors based on ARM Cortex-A9 cores for sc...
Power consumption becomes the most important design goal in a wide range of electronic systems. Ther...
Increased transistor integration will soon allow us to build processor chips with over 1,000 cores. ...
Energy consumption is increasingly becoming one of the most relevant issue concerning the computing ...
This paper proposes single-ISA heterogeneous multi-core architectures as a mechanism to reduce proce...
Over the past four decades, the number of transistors on a chip has increased exponentially in acco...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Energy-efficient computing remains a critical challenge across the wide range of future data-process...
An energy harvester is a small part of a larger embedded system. Historically, such systems have typ...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
The authors applied operations management principles on scheduling and allocation to scientific comp...
Abstract—Homogeneous multi-cores, while ubiquitous to-day, cannot provide the desired performance an...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
Proceedings of the First PhD Symposium on Sustainable Ultrascale Computing Systems (NESUS PhD 2016)...
Current, leading-edge high performance computing (HPC) systems are often heterogeneous, comprised of...
In this paper we investigate the energy efficiency of processors based on ARM Cortex-A9 cores for sc...
Power consumption becomes the most important design goal in a wide range of electronic systems. Ther...