Issues and challenges in development of massively-parallel heterogeneous MPSoCs based on adaptable ASIPs

The recent spectacular progress in modern Nan electronic technology enabled implementation of very complex multiprocessor systems on single chips (MPSoCs) and created a big stimulus towards development of MPSoCs for embedded applications. The increasingly complex MPSoCs are required to perform real-time computations to extremely tight schedules and to satisfy high demands regarding adaptability, as well as energy, area and cost efficiency. This results in serious design and development challenges. The opportunities created can effectively be exploited only through use of more adequate system architectures and more integrated system IP modules, supported by new effective design methods and electronic design automation tools. This paper focuses on mastering the automatic architecture synthesis and application mapping for heterogeneous massively-parallel MPSoCs based on customizable application-specific instruction-set processors (ASIPs). It is related to a European project ASAM being currently executed in the framework of the ARTEMIS program. It presents the results of our analysis of the main problems that have to be solved and challenges to be faced in design of such heterogeneous customizable MPSoCs for modern demanding applications

Issues and challenges in development of massively-parallel heterogeneous MPSoCs based on adaptable ASIPs

The recent spectacular progress in modern Nan electronic technology enabled implementation of very complex multiprocessor systems on single chips (MPSoCs) and created a big stimulus towards development of MPSoCs for embedded applications. The increasingly complex MPSoCs are required to perform real-time computations to extremely tight schedules and to satisfy high demands regarding adaptability, as well as energy, area and cost efficiency. This results in serious design and development challenges. The opportunities created can effectively be exploited only through use of more adequate system architectures and more integrated system IP modules, supported by new effective design methods and electronic design automation tools. This paper focuses on mastering the automatic architecture synthesis and application mapping for heterogeneous massively-parallel MPSoCs based on customizable application-specific instruction-set processors (ASIPs). It is related to a European project ASAM being currently executed in the framework of the ARTEMIS program. It presents the results of our analysis of the main problems that have to be solved and challenges to be faced in design of such heterogeneous customizable MPSoCs for modern demanding applications