Proffering Secure Energy Aware Network-On-Chip (Noc) Using Incremental Cryptogine

Abstract

Network-on-chip (NoC) is an integrated circuit network-based communications subsystem that usually operates between System on chip (SoC) systems. Security risks, including hidden data gathering from IP cores, contributing to unnecessary efficiency and energy degradation, are however revealed. So, to deal with this scenario, a Proffering Secure Energy-Aware Network-on-Chip (NoC) using Incremental Cryptogine is designed as the proposed work for the secure transmission of encrypted data and reducing the power and space consumption to enhance the performance. Unique NoC characteristics are implemented on the network interface for effectual lightweight encryption by Incremental Cryptogine to transmit encrypted data in a secured path. Aberrant Congestion Pattern Detection is used to identify the unusual traffic produced on the data transmission path. Spiking neural networks classifies the traffic and at the destination node, the encrypted data are decrypted into the original packet for secure data transmission. Cognizest Bipartite Buffer develops a unified buffer with the input ports on NoC and reduces an under-utilized buffer space by emphasizing an observation for the switch traversals to attain the competent performance for reducing both power and space consumption. Thus, better accuracy and performance in attack detection is achieved by using an incremental cryptogine to secure the data in Network-on-chip (NoC) thereby reducing both power and space consumption.