Approches d'optimisation et de personnalisation des réseaux sur puce (NoC : Networks on Chip)

摘要

Systems-on-chip (SoC) have become more and more complex due to the development of integrated circuit technology.Recent studies have shown that in order to improve the performance of a specific SoC application domain, the on-chipinter-connects (OCI) architecture must be customized at design-time or at run-time. Related approaches generallyprovide application-specific SoCs tailored to specific applications. The aim of this thesis is to carry out new approachesfor Network-on-Chip (NoC) and study their performances, especially in terms of latency, throughput, energyconsumption and simplicity of implementation.We have proposed an approach to allow designers to customize a candidate OCI architecture by adding strategiclinks in order to match large application workload. The analytical evaluation focuses on improving the physicalparameters of the NoC topology regardless of the application that should run on. The evaluation by simulationfocuses to evaluate the communication performances of the NoC. Simulations results show the effectiveness ofthis approach to improve the NoC performances. We have also introduced a compartmental Fluid-flow basedmodeling approach to allocate required resource for each buffer based on the application traffic pattern. Simulationsare conducted and results show the efficiency of this modeling method for a buffer space optimized allocation.Finally, we proposed a joint approach based on a system dynamics theory for evaluating the performance of a flowcontrol algorithm in NoCs. This algorithm allows NoC elements to dynamically adjust their inflow by using afeedback control-based mechanism. Analytical and simulation results showed the viability of this mechanism forcongestion avoidance in NoCs.