使用带解码控制输入的多功能寄存器的整数除法器的最佳实现

2015 19th International Conference on System Theory, Control and Computing (ICSTCC) Pub Date : 2015-11-09 DOI:10.1109/ICSTCC.2015.7321342

A. Valachi, M. Timis, C. Monor

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引用次数: 1

摘要

作者提出了一种基于转移矩阵法的基于解码控制输入的多功能寄存器(MFR)的整数除法序列算法的优化实现方法。实施成本的计算强调最经济的解决方案。低成本意味着更少的功耗-绿色架构，CPU FPU逻辑核心更快，响应时间短。现代设计工具处理具有许多输出的数字系统，并出于效率的原因用立方体表示它们。从最优的角度来说，数字自动机的实现可以简化为一个组合:使用逻辑门原语的综合和使用平面图设计。生成有限状态机(FSM)控制信号的数字逻辑网络可以利用传递矩阵进行合成。

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Optimal implementation of an integer divider using multifunctional registers with decoded control inputs

The authors propose a new optimal method for the implementation of an integer division sequential algorithm using multifunctional registers (MFR) with decoded control inputs, based on transfer matrix method. The implementation cost is calculated emphasizing the most economical solutions. Low cost means less power consumed - green architectures, the CPU FPU logic core is much faster and the responses timing are short. The modern design tools handle digital systems with many outputs and represent them by cubes, for efficiency reasons. Talking as optimal, the implementation of the digital automaton can be reduced to a combinatorial one: synthesis using logic gates primitives and using floor planning design. The digital logic network that generates the control signals of the Finite State Machine (FSM) can be synthesized using the transfer matrix.

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来源期刊

2015 19th International Conference on System Theory, Control and Computing (ICSTCC)

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