Power efficient designs of CNTFET-based ternary SRAM

Abstract

This paper presents three new power-efficient designs of ternary SRAM using carbon-nanotube-field-effect-transistors (CNTFETs). Two of the proposed ternary SRAM designs are cycle-operator based and the third design is buffer-based. The cycle operators and buffer used in the design of the proposed ternary SRAM consume low power as they use two power supplies for operation. Ternary logic implementation using CNTFETs is largely being used lately due to the advantages it provides in terms of reduced interconnect complexity and chip area. The proposed ternary SRAM designs are compared with the existing designs using HSPICE simulations that use a standard Stanford CNTFET model. All the three proposed designs show considerable improvement in power consumption for read and write operations than their existing counterparts in literature. The read, and write delays and noise margins of the proposed designs are also analysed and are found to be comparable to the existing designs.