Floorplanning-aware design space exploration for application-specific hierarchical networks on-chip

Abstract

Application-specific network-centric architectures (such as Networks on-Chip, NoCs) have recently become an effective solution to support high bandwidth communication in Multiprocessor Systems-on-Chip (MPSoCs). Moreover, the introduction of the hierarchy concept in the NoC design benefits from the main locality nature of the communication in MPSoC architectures. This paper presents a methodology to design Application Specific Hierarchical NoC (ASHiNoC) architectures considering foorplanning information. The presented approach targets heterogeneous clustered architectures where the intra-cluster communication is managed by a low-latency circuit-switched crossbar, while the inter-cluster communications are managed by a high-bandwidth packet-based NoC, allowing regulars topologies. The proposed design flow faces the problem by starting from the cluster selection down-to the foorplanning-aware estimation of the interconnect performances in terms of latency, power, area within each cluster and for the backbone NoC. Experimental results show that the AHiNoC architecture is able to guarantee an interconnection power and latency reduction of 49% and 33% respectively, at a cost of an area increment of 78% with respect to a flat topology version.