Yuki Watanabe, N. Homma, K. Degawa, T. Aoki, T. Higuchi
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引用次数: 1
摘要
本文提出了一种多值算术电路的高级设计方法。该方法采用基于单元的方法和专用的硬件描述语言ARITH。利用ARITH,我们可以形式化地描述和验证任何二进制/多值算术电路。在二进制/多值融合逻辑中,ARITH描述可以转化为与技术相关的网表。将网表转换为物理布局模式的过程由现成的放置和路由工具自动执行。在本文中,我们提出了一个包含多值符号加法器的特定单元库及其相关电路,采用0.35 μ m CMOS技术,并证明了该方法可以根据ARITH描述在多值电流模式逻辑中合成32倍32位并行乘法器。
High-Level Design of Multiple-Valued Arithmetic Circuits Based on Arithmetic Description Language
This paper proposes a high-level design method of multiple-valued arithmetic circuits. The proposed method uses a cell-based approach with a dedicated hardware description language called ARITH. By using ARITH, we can describe and verify any binary/multiple-valued arithmetic circuits in a formal manner. The ARITH description can be transformed into a technology-dependent netlist in binary/multiple-valued fused logic. The process of transforming the netlist into a physical layout pattern is automatically performed by an off-the-shelfplace-and-route tool. In this paper, we present a specific cell library containing a multiple-valued signed-digit adder and its related circuits with a 0.35mum CMOS technology, and demonstrate that the proposed method can synthesize a 32times 32-bit parallel multiplier in multiple-valued current-mode logic from an ARITH description.
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