Abstract
ABSTRACTIn this research paper, demonstrates, the logic performance of n and p channel complementary metal oxide semiconductor (CMOS) circuits implemented with dual material gate silicon on insulator junctionless transistor (DMG SOI JLT). The logic performance of a CMOS circuit is evaluated in terms of static power dissipation, voltage transfer characteristic, propagation delay and noise margin. The gate capacitance is less as compared to gate capacitance of DMG SOI transistor in saturation. The power dissipation for CMOS inverter of DMG SOI JLT is improved by 25% as compared to DMG SOI transistor. The DMG SOI JLT common source amplifier has 1.25 times amplification as that of DMG SOI transistor. The noise margin of DMG SOI JLT CMOS inverter is improved by 23% as compared to the DMG SOI transistor CMOS inverter. The NAND gate static power dissipation of DMG SOI JLT is found improved imperically as compared to DMG SOI transistor for various channel length. The improvement obtained is 53% for 20nm, 46% for 30nm and 34% for 40nm respectively. Static power dissipation of DMG SOI JLT inverter is reduced by 3% as compared to junction transistor inverter at channel length of 30nm.
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