Title :
Minimizing gate capacitances with transistor sizing
Author :
Wróblewski, Artur ; Schumecher, O. ; Schimpfle, Christian V. ; Nossek, Josef A.
Author_Institution :
Munchen Univ., Germany
Abstract :
In this paper a method for choosing appropriate transistor topology for use with transistor sizing is presented. In combinatorial blocks of static CMOS circuits transistor sizing can be applied for delay balancing in order to guarantee synchronously arriving signal slopes at the input of logic gates. Since the delay of a logic gate depends directly on transistor sizes, the variation of channel-widths and -lengths (W and L) allows one to equalize different path delays without influencing the total propagation delay of the circuit. Thus, glitching can be avoided. To achieve optimal results, transistor lengths have to be increased, which results in both increased gate capacitances and area. Splitting the long transistors counteracts this negative influence and reduces the power dissipated. A program, GliMATS, for automated circuit optimization has been implemented. Experimental results show that significant power savings can be achieved with this method
Keywords :
CMOS logic circuits; capacitance; circuit CAD; circuit optimisation; combinational circuits; delays; integrated circuit design; logic CAD; logic gates; GliMATS; automated circuit optimization; channel-lengths; channel-widths; combinatorial blocks; delay balancing; gate capacitances; glitching; logic gates; path delays; power savings; static CMOS circuits; synchronously arriving signal slopes; total propagation delay; transistor sizing; transistor topology; Appropriate technology; CMOS logic circuits; CMOS technology; Capacitance; Circuit topology; Energy consumption; Logic circuits; Logic gates; Power dissipation; Propagation delay;
Conference_Titel :
Circuits and Systems, 2001. ISCAS 2001. The 2001 IEEE International Symposium on
Conference_Location :
Sydney, NSW
Print_ISBN :
0-7803-6685-9
DOI :
10.1109/ISCAS.2001.922203
