Title :
ERCCL: energy recovery capacitance coupling logic
Author :
Qian, Yang ; Runde, Zhou
Author_Institution :
Inst. of Microelectron., Tsinghua Univ., Beijing, China
Abstract :
The non-adiabatic loss of ERCCL is independent of the size of the associated circuit and the load capacitance; it depends only on the gate count in the circuit. ERCCL does not implement logic through a switch logic network but through capacitance coupling, which decrease its turn-on resistance and adiabatic loss. ERCCL not only reduces dissipation at the circuit level, but also its loss and performance can be optimized further through choosing a threshold logic topology at the architecture level. A 4-bit ERCCL adder is designed, and 4-bit 2N-2N2P and static CMOS adders are designed for comparison. Layout-based simulation with CSMC 0.6 μm DPDM technology shows that the dissipation of the ERCCL circuit is only 50% of that of the 2N-2N2P circuit, and 28-41% of that of the static CMOS circuit.
Keywords :
CMOS logic circuits; adders; circuit simulation; integrated circuit design; logic circuits; logic design; network topology; power consumption; threshold logic; 0.6 micron; 4 bit; 4-bit adder; adiabatic loss; architecture level; energy recovery capacitance coupling logic; gate count; load capacitance; nonadiabatic loss; power consumption; static CMOS circuit; switch logic network; threshold logic topology; turn-on resistance; Adders; CMOS logic circuits; Capacitance; Circuit simulation; Circuit topology; Coupling circuits; Logic circuits; Network topology; Performance loss; Switches;
Conference_Titel :
Solid-State and Integrated Circuits Technology, 2004. Proceedings. 7th International Conference on
Print_ISBN :
0-7803-8511-X
DOI :
10.1109/ICSICT.2004.1435256
