Title :
Neuron-MOS-based Dynamic Circuits for Multiple-Valued Logic
Author :
Guoqiang Hang ; Yang Yang ; Danyan Zhang ; Xiaohua Li
Author_Institution :
Sch. of Inf. & Electr. Eng., Zhejiang Univ. City Coll., Hangzhou, China
Abstract :
A neuron-MOS-based dynamic circuit scheme with two-phase clocks for realizing voltage-mode multiple-valued logic(MVL), is proposed. The dynamic ternary inverter, literal circuits, and quaternary inverter are designed, and the standard CMOS process with a 2-ploy layer is adopted without any modification of the thresholds. In the proposed circuits, the problem of floating output nodes is solved. The proposed circuits have some other favorable properties including the less complex structure, full logic swing and low propagation delay. All the proposed circuits are verified by HSPICE simulation results with TSMC 0.35μm 2-ploy 4-metal CMOS technology. For comparison, the energy consumption and the output delay of the proposed circuits are measured during the simulations.
Keywords :
CMOS logic circuits; clocks; integrated circuit design; logic design; logic gates; neural nets; synchronisation; transistor circuits; CMOS process; HSPICE simulation; MVL; TSMC CMOS technology; dynamic circuit scheme; dynamic ternary inverter; energy consumption; floating output nodes; literal circuits; logic swing; neuron-MOS transistor; propagation delay; quaternary inverter; size 0.35 mum; two-phase clocks; voltage-mode multiple-valued logic; CMOS integrated circuits; Educational institutions; Inverters; Logic gates; MOS devices; Threshold voltage; Transistors; CMOS circuit; dynamic circuit; multiple-valued logic; neuron-MOS transistor;
Conference_Titel :
Computational Intelligence and Security (CIS), 2014 Tenth International Conference on
Conference_Location :
Kunming
Print_ISBN :
978-1-4799-7433-7
DOI :
10.1109/CIS.2014.178
