Low-Power/Cost RNS Comparison via Partitioning the Dynamic Range - 2016 PROJECT TITLE : Low-Power/Cost RNS Comparison via Partitioning the Dynamic Range - 2016 ABSTRACT: Residue number systems (RNSs) are the main selection in several comparisonand division-free applications (e.g., Digital Signal Processing). However, the development of economical RNS comparators can widen the spectrum of RNS applications. Such comparators can replace the simple, however slow and expensive, observe of converting the comparison operands to binary, as inputs to a good word binary comparator. This has motivated some researchers to style shortcut RNS comparison strategies that obviate the necessity for full reverse conversions. But, the few actual realizations that we tend to have encountered are based on moduli set t = 2n - 1, 2n, 2n + 1. During this paper, once transient review and performance analysis of the previous methods, we tend to present a new t-comparator with considerably reduced price and power dissipation, with no delay penalty. The underlying comparison algorithm is based on ordering the dynamic vary into consecutive partitions, and locating the partitions that own the corresponding comparison operands. The needed circuitry includes 2 n-bit adders, which are replaced by one compound parallel prefix design, in order to save lots of space and power. Postlayout performance evaluations, of the proposed work and the simplest previous one, show small latency improvement, 17%(46p.c) reduction in area consumption, 30p.c(41p.c) in power dissipation, and thirty one%(forty seven%) in power-delay product, for n = eight(22). Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Adders Residue Number Systems Comparators (Circuits) Dynamic Range Partitioning Parallel Prefix Addition Residue Number System (RNS) Comparison VLSI Realization Design and FPGA Implementation of a Reconfigurable 1024-Channel Channelization Architecture for SDR Application - 2016 Understanding the Relation Between the Performance and Reliability of NAND Flash/SCM Hybrid Solid-State Drive - 2016