AbstractThe energy-efficient Adapteva Epiphany architecture exhibits massive many-core scalability in a physically compact 2D array of RISC cores with a fast network-on-chip (NoC). The architecture presents many features and constraints which contribute to software design challenges for the application developer. Addressing these challenges within the software stack that supports application development is critical to improving productivity and expanding the range of applications for the architecture. We report here on advances that have been made in the COPRTHR-2 software stack targeting the Epiphany architecture that address critical issues identified in previous work. Specifically, we describe improvements that bring greater control and ...
The goal of modern high performance computing platforms is to combine low power consumption and high...
In the last decade, we have seen a transition from single-core to manycore in computer architectures...
A current trend of industrial systems is reducing space, weight and power (SWaP) through the allocat...
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...
With energy efficiency and power consumption being the primary impediment in the path to exascale sy...
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...
This paper reports on a case study in which an at- size application is ported onto a commercially av...
By connecting many simple general-purpose RISC CPUs with a Network-on-Chip memory system, the Epipha...
In the era of big data, advanced sensing, and artificial intelligence, the required computation powe...
Adapteva'\u80\u99s Epiphany platform is a scalable low-power manycore architecture. Even though Adap...
A modern way of processing information is to do it in parallel. This Master Thesis conducts a case s...
Modern high performance systems are becoming increasingly complex and powerful due to advancements i...
Vector Processors (VPs) created the breakthroughs needed for the emergence of computational science ...
The goal of modern high performance computing platforms is to combine low power consumption and high...
In the last decade, we have seen a transition from single-core to manycore in computer architectures...
A current trend of industrial systems is reducing space, weight and power (SWaP) through the allocat...
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...
With energy efficiency and power consumption being the primary impediment in the path to exascale sy...
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...
This paper reports on a case study in which an at- size application is ported onto a commercially av...
By connecting many simple general-purpose RISC CPUs with a Network-on-Chip memory system, the Epipha...
In the era of big data, advanced sensing, and artificial intelligence, the required computation powe...
Adapteva'\u80\u99s Epiphany platform is a scalable low-power manycore architecture. Even though Adap...
A modern way of processing information is to do it in parallel. This Master Thesis conducts a case s...
Modern high performance systems are becoming increasingly complex and powerful due to advancements i...
Vector Processors (VPs) created the breakthroughs needed for the emergence of computational science ...
The goal of modern high performance computing platforms is to combine low power consumption and high...
In the last decade, we have seen a transition from single-core to manycore in computer architectures...
A current trend of industrial systems is reducing space, weight and power (SWaP) through the allocat...