Title :
Minimising buffer latency through optimum transistor p-to-n ratio scaling
Author :
Lidhoim, S. ; Buckley, Conor
Author_Institution :
Dept. of Microelectron. Eng., Univ. Coll. Cork, Ireland
fDate :
28 Aug.-2 Sept. 2005
Abstract :
This paper establishes, in the case of CMOS buffer chains, that along with an optimum scaling factor there exists an equivalent optimum P-to-N transistor ratio which minimises latency. An optimum triple-point of buffer number, P-to-N ratio and scaling factor is identified which provides a process-specific absolute minimum latency. It is further determined that for any number of buffers, the corresponding optimum P-to-N transistor ratio and optimum buffer scaling factor can be calculated simultaneously, through numerical approximation of the points of intersection of two transcendental equations.
Keywords :
CMOS integrated circuits; approximation theory; buffer circuits; minimisation; scaling circuits; transistors; CMOS buffer chain; P-to-N transistor ratio; buffer latency minimisation; numerical approximation; optimum transistor p-to-n ratio scaling; optimum triple-point; process-specific absolute minimum latency; scaling factor; transcendental equation; Capacitance; Delay effects; Differential equations; Educational institutions; Inverters; Microelectronics; Niobium; Process design; Very large scale integration;
Conference_Titel :
Circuit Theory and Design, 2005. Proceedings of the 2005 European Conference on
Print_ISBN :
0-7803-9066-0
DOI :
10.1109/ECCTD.2005.1523104
