Akash Bagdia scite author profile

Abstract-Reconfigurable parallel computing is required to provide high-performance embedded computing, hide hardware complexity, boost software development, and manage multiple workloads when multiple applications are running simultaneously on the emerging network-on-chip (NoC)-based multiprocessor systems-on-chip (MPSoCs) platforms. In these type of systems, the overall system performance may be affected due to congestion, and therefore parallel programming stacks must be assisted by quality-of-service (QoS) support to meet application requirements and to deal with application dynamism.In this paper, we present a hardware-software QoS-driven reconfigurable parallel computing framework, i.e., the NoC services, the runtime QoS middleware API and our ocMPI library and its tracing support which has been tailored for a distributed-shared memory ARM clustered NoC-based MPSoC platform.The experimental results show the efficiency of our software stack under a broad range of parallel kernels and benchmarks, in terms of low-latency interprocess communication, good application scalability, and most important, they demonstrate the ability to enable runtime reconfiguration to manage workloads in message-passing parallel applications.Index Terms-Networks-on-chip (NoCs), NoC-based multiprocessor systems-on-chip (MPSoC), parallel computing, quality of service (QoS), runtime reconfiguration.

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Akash Bagdia

Introducing DVFS-Management in a Full-System Simulator

HW-SW implementation of a decoupled FPU for ARM-based Cortex-M1 SoCs in FPGAs

QoS-Driven Reconfigurable Parallel Computing for NoC-Based Clustered MPSoCs

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