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引用次数: 0
摘要
在该系统中,实现了一种具有不同加法器配置的双速改进基数-4 booth乘法器算法,用于数字信号处理、数字滤波器和其他神经网络等应用。该乘法器是n位串行乘法器的改进版本,该乘法器执行booth乘法算法,该算法添加非零计算并跳过所有其他全零全一计算。该乘法器的数据路径被划分为两个子电路,其中包括用于操作跳变的控制电路和用于乘法的组合电路,这些子电路具有两条不同的关键路径。在这两个速度乘法器中使用了各种加法器配置,并根据传播延迟的速度和片lut数量的面积进行了比较。该乘法器采用verilog HDL进行设计,并在Xilinx ISE 14.7模拟器上进行了仿真。
Two Speed Modified Radix-4 Booth Multiplier With Different Adder Configurations
In this proposed system, a two speed modified radix-4 booth multiplier algorithm with different adder configurations are implemented for the applications like digital signal processing, digital filters and other neural networks. This multiplier is a modified version of a n-bit serial multiplier which performs booth multiplication algorithm which adds the nonzero computations and skips all other all-zero all-one computations. The datapath of the multiplier is partitioned into two subcircuits operating with two different critical paths which includes a control circuit for operating skipping and a combinational circuit for multiplication. Various adder configurations are utilized in this two speed multiplier and compared in terms of speed by propagation delay and area by number of slice LUTs. The proposed multiplier is designed using verilog HDL and evaluated on Xilinx ISE 14.7 Simulator.
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