The low-power Adapteva Epiphany RISC array processor offers high computational energy-efficiency and parallel scalability. However, extracting performance with a standard parallel programming model remains a great challenge. We present an effective programming model for the Epiphany architecture based on the Message Passing Interface (MPI) standard adapted for coprocessor offload. UsingMPIexploits the similarities between the Epiphany architecture and a networked parallel distributed cluster. Furthermore, our approach enables codes written with MPI to execute on the RISC array processor with little modification. We present experimental results for matrix–matrix multiplication using MPI and highlight the importance of fast inter-core data tr...
In this article we recount the sequence of steps by which MPICH, a high-performance, portable implem...
Parallel processor architectures are a promising solution to provide the required computing performa...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...
The low-power Adapteva Epiphany RISC array processor offers high computational energy-efficiency and...
AbstractThe energy-efficient Adapteva Epiphany architecture exhibits massive many-core scalability i...
Abstract—Data movement in high-performance computing systems accelerated by graphics processing unit...
Click on the DOI link to access the article (may not be free).The advancement of multicore systems d...
The Message Passing Interface (MPI) is a widely used standard for inter-processor communications in ...
With energy efficiency and power consumption being the primary impediment in the path to exascale sy...
AbstractThe energy-efficient Adapteva Epiphany architecture exhibits massive many-core scalability i...
Energy efficiency is the primary impediment in the path to exascale computing. Consequently, the hig...
The Message Passing Interface (MPI) has been extremely successful as a portable way to program high...
Abstract—Modern high-speed interconnection networks are designed with capabilities to support commun...
Many parallel applications from scientific computing use MPI collective communication operations to ...
The Message-Passing Interface (MPI) is a widely-used standard library for programming parallel appli...
In this article we recount the sequence of steps by which MPICH, a high-performance, portable implem...
Parallel processor architectures are a promising solution to provide the required computing performa...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...
The low-power Adapteva Epiphany RISC array processor offers high computational energy-efficiency and...
AbstractThe energy-efficient Adapteva Epiphany architecture exhibits massive many-core scalability i...
Abstract—Data movement in high-performance computing systems accelerated by graphics processing unit...
Click on the DOI link to access the article (may not be free).The advancement of multicore systems d...
The Message Passing Interface (MPI) is a widely used standard for inter-processor communications in ...
With energy efficiency and power consumption being the primary impediment in the path to exascale sy...
AbstractThe energy-efficient Adapteva Epiphany architecture exhibits massive many-core scalability i...
Energy efficiency is the primary impediment in the path to exascale computing. Consequently, the hig...
The Message Passing Interface (MPI) has been extremely successful as a portable way to program high...
Abstract—Modern high-speed interconnection networks are designed with capabilities to support commun...
Many parallel applications from scientific computing use MPI collective communication operations to ...
The Message-Passing Interface (MPI) is a widely-used standard library for programming parallel appli...
In this article we recount the sequence of steps by which MPICH, a high-performance, portable implem...
Parallel processor architectures are a promising solution to provide the required computing performa...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...