This feature allows the system to be powered off during the idle modes in order to reduce the static power without the need for any retention parts or loss of data. The proposed AXMAs also introduce the advantage of full nonvolatility to the systems. The proposed AXMAs offer low area, high sensing speed, considerable lower energy consumption, and the lowest power delay product (PDP) than the considered antecedent counterparts. This paper proposes two novel hybrid MTJ/CMOS approximate full-adder circuits (AXMA) for low power approximate computing-in-memory architectures. The hybrid MTJ/CMOS circuits offer low power consumption, nonvolatility, and high performance. In recent years, spin-based technologies like magnetic tunnel junctions (MTJ) have emerged and shown some fascinating features to overcome the aforesaid issues of CMOS technology. The implementation results show the advantages of the proposed methods regarding area, performance, and output quality.ĭeep submicron conventional complementary metal oxide semiconductor (CMOS) technology is facing various issues such as high static power consumption due to the increasing leakage currents. The algorithms are implemented in a Field Programmable Gate Array (FPGA) device using a pipelined architecture. They indicate that the proposed approach is practically applicable to real-world applications. Experiments and results on the synthetic and real image sequences clearly validate the performance of the proposed scheme. In this paper, two hardware-efficient interpolation methods are proposed for these platforms, mainly for the mobile application. algorithms and has a significant influence on the quality of the output image. Image interpolation is one of the most critical steps in the S.R. image reconstruction can be viewed as a three-stage process: image interpolation, image registration, and fusion. Super-resolution imaging (S.R.) is a series of techniques that enhance the resolution of an imaging system, especially in surveillance cameras where simplicity and low cost are of great importance.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |