Design of High Speed Memory-Based FFT Processor Using 90nm Technology

In order to enhance performance, the Fast Fourier Transformation is a important operation in Digital Signal Processing (DSP) systems had been extensively studied. State-of-the-art transmission technology uses Orthogonal frequency division multiplexing (OFDM), which primary operation is the Fast fourier transform (FFT). This analysis presents the design of a high-speed memory-based FFT processor using 90nm technology. The novel hybrid multiplier and hybrid adder is used in this analysis. The main objective of this method is to develop an efficient, memory-efficient FFT processor that requires less area.  Using 90nm CMOS (Complementary Metal Oxide Semiconductor) technology, the proposed FFT processor was created and implemented in process. With reduced processing time, this means that the proposed FFT processor performs better than the prior memory-based FFT processors in terms of performance and the number of LUTs required which reduces area and memory utilization

Selected Papers from IEEE ICASI 2019

The 5th IEEE International Conference on Applied System Innovation 2019 (IEEE ICASI 2019, https://2019.icasi-conf.net/), which was held in Fukuoka, Japan, on 11–15 April, 2019, provided a unified communication platform for a wide range of topics. This Special Issue entitled “Selected Papers from IEEE ICASI 2019” collected nine excellent papers presented on the applied sciences topic during the conference. Mechanical engineering and design innovations are academic and practical engineering fields that involve systematic technological materialization through scientific principles and engineering designs. Technological innovation by mechanical engineering includes information technology (IT)-based intelligent mechanical systems, mechanics and design innovations, and applied materials in nanoscience and nanotechnology. These new technologies that implant intelligence in machine systems represent an interdisciplinary area that combines conventional mechanical technology and new IT. The main goal of this Special Issue is to provide new scientific knowledge relevant to IT-based intelligent mechanical systems, mechanics and design innovations, and applied materials in nanoscience and nanotechnology