ASAM: Automatic Architecture Synthesis and Application Mapping,

Abstract -This paper focuses on mastering the automatic architecture synthesis and application mapping for heterogeneous massively-parallel MPSoCs based on customizable applicationspecific instruction-set processors (ASIPs). It presents an overview of the research being currently performed in the scope of the European project ASAM (Architecture Synthesis and Application Mapping) of the ARTEMIS program. The paper briefly presents the results of our analysis of the main problems to be solved and challenges to be faced in the design of such heterogeneous MPSoCs. It explains which system, design, and electronic design automation (EDA) concepts seem to be adequate to resolve the problems and address the challenges. Finally, it introduces and briefly discusses the design-flow and its main stages proposed by the ASAM project consortium to enable an effective and efficient solution of these problems. Index Terms-embedded systems, heterogeneous multiprocessor system-on-chip (MPSoC), customizable ASIPs, architecture synthesis, MPSoC and ASIP design automation

ASAM : Automatic Architecture Synthesis and Application Mapping; dl. 3.2: Instruction set synthesis

No abstract

ASAM: Automatic Architecture Synthesis and Application Mapping

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 presents an over-view of the research being currently performed in the scope of the European project ASAM of the ARTEMIS program. The paper briefly presents the results of our analysis of the main problems to be solved and challenges to be faced in the design of such heterogeneous MPSoCs. It explains which system, design, and electronic design automation (EDA) concepts seem to be adequate to resolve the problems and address the challenges. Finally, it introduces and briefly discusses the ASAM design-flow and its main stages

Quality-driven model-based architecture synthesis for real-time embedded SoCs

The recent spectacular progress in modern microelectronics created a big stimulus towards development of embedded systems. Unfortunately, it also introduced unusual complexity which results in many serious issues that cannot be resolved without new more adequate development methods and electronic design automation tools for the system-level design. This paper discusses the problem of an efficient model-based multi-objective optimal architecture synthesis for complex hard real-time embedded systems, when using as an example a system-level architecture exploration and synthesis method that we developed