在DSP应用中，采用32/ sp1 /8乘积器实现32位乘法和MAC指令的高效VLSI算法

6th International Conference on Signal Processing, 2002. Pub Date : 2002-08-26 DOI:10.1109/ICOSP.2002.1180969

Ze Tian, Dunshan Yu, Yuxiao Qiu

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引用次数: 1

摘要

乘法和乘法累加(MAC)指令(参见ARM DDI0l00E, ARM架构参考手册)是DSP应用中的基本指令。在嵌入式数字信号处理(DSP)核心和高性能增强型DSP指令处理器核心中，高性能乘法和MAC指令的实现非常重要。提出了一种基于32/spl /8乘法器的32/spl倍/32乘法和MAC指令的VLSI实现算法。32/spl乘以/32是通过4乘以32/spl乘以/8来实现的。一个32/spl乘以/8的乘法运算结果作为下一个32/spl乘以/8运算的部分积;当四次这样的乘法的结果累积起来时，我们得到32/spl乘以/32的结果。32/ sp1乘以/8的乘法仅由硬件布斯乘法器实现。乘法和MAC指令的实现算法是串行乘法器与并行乘法器之间较好的折衷。

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A high effective algorithm of 32-bit multiply and MAC instructions' VLSI implementation with 32/spl times/8 multiplier-accumulator in DSP applications

Multiply and multiply-accumulate (MAC) instructions (see ARM DDI0l00E, ARM Architecture Reference Manual) are fundamental instructions in DSP applications. In an embedded digital signal processing (DSP) core and high-performance enhanced DSP instruction processor core, the implementation of high-performance multiply and MAC instructions is very important. An algorithm of 32/spl times/32 multiply and MAC instructions' VLSI implementation with 32/spl times/8 multiplier-accumulator in DSP applications is presented. The 32/spl times/32 multiplication is achieved by 4 times 32/spl times/8 multiplication. The result of one 32/spl times/8 multiplication serves as a partial product of the next 32/spl times/8 operation; when the result of four such multiplications is accumulated, we get the result of 32/spl times/32. The 32/spl times/8 multiplication is only implemented by the hardware Booth multiplier. The algorithm of multiply and MAC instructions' implementation is the better trade-off between serial multiplier and parallel multiplier.

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6th International Conference on Signal Processing, 2002.

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