Low power and high speed computation using hybridized multiplier

Uvaraj Subramaniam, Srinivasan Alavandar
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引用次数: 2

Abstract

The key problems in designing of VLSI circuits are high power consumption, larger area utilization and delay which affect the speed of the computation and also results in power dissipation. In general speed and power are the essential factors in VLSI design. For solving the issues, a new architecture has been proposed. In the proposed system, the two high speed multipliers, Modified booth multiplier (MBM) and the Wallace tree multiplier are hybridized with Carry Look Ahead adder (CLA) and formed a hybridized multiplier which delivers high speed computation with low power consumption. MBM is proposed to reduce the partial products whereas Wallace tree multiplier is accompanied for fast addition and CLA is used for final accumulation. This hybrid multiplier produces better results in terms of speed and power than the conventional designs. The simulation results prove that the hybrid architecture is superior to other multipliers. It is done by using Xilinx tool and it is implemented using FPGA (Field Programmable Gate Array).
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混合乘法器的低功耗和高速计算
VLSI电路设计的关键问题是高功耗、大面积占用和延迟,这些问题影响了计算速度,也导致了功耗的增加。一般来说,速度和功率是VLSI设计的关键因素。为了解决这些问题,提出了一种新的体系结构。在该系统中,将修正booth乘法器(MBM)和Wallace树乘法器这两种高速乘法器与进位前向加法器(CLA)杂交,形成了一种计算速度快、功耗低的杂交乘法器。采用MBM法减少部分产物,采用Wallace树乘法器快速相加,采用CLA法进行最终累积。这种混合倍增器在速度和功率方面比传统设计产生更好的结果。仿真结果表明,该混合结构优于其他乘法器。采用Xilinx工具实现,采用FPGA(现场可编程门阵列)实现。
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