Undisrupted Quality-of-Service during Reconfiguration of Multiple Applications in Networks on Chip

Networks on chip (NoC) have emerged as the design paradigm for scalable system on chip (SoC) communication infrastructure. Due to convergence, a growing number of applications are integrated on the same chip. When combined, these applications result in use-cases with different communication requirements. The NoC is configured per use-case and traditionally all running applications are disrupted during use-case transitions, even those continuing operation. In this paper we present a model that enables partial reconfiguration of NoCs and a mapping algorithm that uses the model to map multiple applications onto a NoC with undisrupted quality-of-service during reconfiguration. The performance of the methodology is verified by comparison with existing solutions for several SoC designs. We apply the algorithm to a mobile phone SoC with telecom, multimedia and gaming applications, reducing NoC area by more than 17% and power consumption by 50% compared to a state-of-the-art approach