C. Arun scite author profile

Different intellectual property (IP) cores, including processor and memory, are interconnected to build a typical system-on-chip (SoC) architecture. Larger SoC designs dictate the data communication to happen over the global interconnects. Network-onChip(NoC) architectures have been proposed as a scalable solution to the global communication challenges in nanoscale systemson-chip (SoC) design. We proposed an idea on building customizing synthesis network-on-chip with the better flow partitioning and also considered power and area reduction as compared to the already presented regular topologies. Hence to improve the performance of SoC, first, we did a performance study of regular interconnect topologies MESH, TORUS, BFT and EBFT, we observed that the overall latency and throughput of the EBFT is better compared to other topologies, The next best in case of latency and throughput is BFT. Experimental results on a variety of NoC benchmarks showed that our synthesis results were achieved reduction in power consumption and average hop count over custom topology implementation.

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A novel architecture of bidirectional NoC router using flexible buffer

Arun

2016

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Sustainable Lightweight Wireless Communication Stack

Magadum¹,

Arun²,

Ravikumar³

2017

IJERA

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High Performance Hybrid Two Layer Router Architecture for FPGAs Using Network On Chip

Ezhumalai¹,

Manojkumar²,

Arun³

et al. 2010

Preprint

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C. Arun

Diagnostic data detection of faults in RAM using different march algorithms with BIST scheme

Novel NoC Topology Construction for High-Performance Communications

A novel architecture of bidirectional NoC router using flexible buffer

Sustainable Lightweight Wireless Communication Stack

High Performance Hybrid Two Layer Router Architecture for FPGAs Using Network On Chip

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