基于实时规则系统的多值规则可编程匹配VLSI芯片设计

[1992] Proceedings The Twenty-Second International Symposium on Multiple-Valued Logic Pub Date : 1992-05-27 DOI:10.1109/ISMVL.1992.186806

T. Hanyu, K. Takeda, T. Higuchi

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引用次数: 1

摘要

提出了一种用于全并行模式匹配的多值VLSI处理器设计。它可以应用于具有大量可编程知识库的实时基于规则的系统。基于每个属性的直接多值编码的一位数模式匹配只能用可编程增量字面值来描述。此外，文字电路可以很容易地实现使用两个浮栅MOS器件，其阈值电压是可控的。具有256条规则和冲突解决电路的8值匹配处理器的推理时间估计约为360 ns，芯片面积减少到等效二进制实现的10%左右

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Design of a multiple-valued rule-programmable matching VLSI chip for real-time rule-based systems

A multivalued VLSI processor design for fully parallel pattern matching is presented. It can be applied to real-time rule-based systems with large knowledge bases which are programmable. One-digit pattern matching based on direct multivalued encoding of each attribute can be described by only a programmable delta literal. Moreover, the literal circuit can be easily implemented using two floating-gate MOS devices whose threshold voltages are controllable. The inference time of an eight-valued matching processor with 256 rules and conflict resolution circuits is estimated at about 360 ns, and the chip area is reduced to about 10% of that of the equivalent binary implementation.<>

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[1992] Proceedings The Twenty-Second International Symposium on Multiple-Valued Logic

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