Developing heterogeneous multicore platforms requires choosing the best hardware configuration for mapping the application, and modifying that application so that different parts execute on the most appropriate hardware component. The hArtes toolchain provides the option of automatic or semi-automatic support for this mapping. During test and validation on several computation-intensive applications, hArtes achieved substantial speedups and drastically reduced development times
Hardware accelerators, such as fpga boards or gpu, are an interesting alternative or a valuable comp...
High-performance system architectures are increasingly exploiting heterogeneity. The HipHaC workshop...
Most embedded devices are based on heterogeneous Multiprocessor System on Chips (MPSoCs). These con...
Developing heterogeneous multicore platforms requires choosing the best hardware configuration for m...
This book describes the results and outcome of the FP6 project, known as hArtes, which focuses on th...
This chapter describes the different design steps needed to go from legacy code to a transformed app...
The hArtes -Holistic Approach to Reconfigurable real Time Embedded Systems- design flow addresses th...
International audienceCurrent applications constraints are pushing for higher computation power whil...
The Transparent heterogeneous hardware Architecture deployment for eNergy Gain in Operation (TANGO) ...
In the era of big data, advanced sensing, and artificial intelligence, the required computation powe...
This thesis deals with the problem of finding effective methods for programming and distributing dat...
International audienceEmbedded multiprocessors have always been heterogeneous, driven by the power-e...
Producción CientíficaCurrent HPC clusters are composed by several machines with different computatio...
Embedded systems found their way into all areas of technology and everyday life, from transport syst...
Performance increase, in terms of faster execution and energy efficiency, is a never-ending research...
Hardware accelerators, such as fpga boards or gpu, are an interesting alternative or a valuable comp...
High-performance system architectures are increasingly exploiting heterogeneity. The HipHaC workshop...
Most embedded devices are based on heterogeneous Multiprocessor System on Chips (MPSoCs). These con...
Developing heterogeneous multicore platforms requires choosing the best hardware configuration for m...
This book describes the results and outcome of the FP6 project, known as hArtes, which focuses on th...
This chapter describes the different design steps needed to go from legacy code to a transformed app...
The hArtes -Holistic Approach to Reconfigurable real Time Embedded Systems- design flow addresses th...
International audienceCurrent applications constraints are pushing for higher computation power whil...
The Transparent heterogeneous hardware Architecture deployment for eNergy Gain in Operation (TANGO) ...
In the era of big data, advanced sensing, and artificial intelligence, the required computation powe...
This thesis deals with the problem of finding effective methods for programming and distributing dat...
International audienceEmbedded multiprocessors have always been heterogeneous, driven by the power-e...
Producción CientíficaCurrent HPC clusters are composed by several machines with different computatio...
Embedded systems found their way into all areas of technology and everyday life, from transport syst...
Performance increase, in terms of faster execution and energy efficiency, is a never-ending research...
Hardware accelerators, such as fpga boards or gpu, are an interesting alternative or a valuable comp...
High-performance system architectures are increasingly exploiting heterogeneity. The HipHaC workshop...
Most embedded devices are based on heterogeneous Multiprocessor System on Chips (MPSoCs). These con...