PROJECT TITLE :
Low Energy yet Reliable Data Communication Scheme for Network-on-Chip
In this paper, a low energy however reliable communication scheme for network-on-chip is recommended. To cut back the communication energy consumption, we have a tendency to invoke low-swing signals for transmitting data, as well as knowledge encoding techniques, for minimizing both self and coupling switching capacitance activity factors. To maintain the communication reliability of communication at low-voltage swing, an error control coding (ECC) technique is exploited. The decision about finish-to-finish or hop-to-hop ECC schemes and the proper range of detectable errors are determined through high-level mathematical analysis on the energy and reliability characteristics of the techniques. Primarily based on the analysis, the extended single error correction double-error detecting end-to-finish coding technique with three bits of error detection is utilized in the network layer. For minimization of the self and coupling switching capacitance activity factors, the odd, even, full invert theme is utilized in the info link layer. This coding has an inherent error detection chance for the flits, which is exploited in the urged technique. The potency of the theme is studied by using each synthetic and real traffic scenarios. The study reveals savings of up to 43% and 58%, for power dissipation and energy consumption, respectively, without any vital performance degradation and overhead within the network interface.
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