Title :
Logic in wire: using quantum dots to implement a microprocessor
Author :
Niemier, Michael T. ; Kogge, Peter M.
Author_Institution :
Notre Dame Univ., IN, USA
Abstract :
Despite the seemingly endless upwards spiral of modern VLSI technology many experts are predicting a hard wall for CMOS in about a decade. Given this, researchers continue to look at alternative technologies, one of which is based on quantum dots, called quantum cellular automata. While the first such devices have been fabricated, little is known about how to design complete systems. This paper summarizes one of the first such studies, namely an attempt to design a complete, albeit simple, CPU in the technology. The projections are striking: a projected 10 to 1 increase in circuit density when compared to a CMOS equivalent, but a design approach which is radically different from conventional “logic” design, especially in timing considerations
Keywords :
VLSI; cellular automata; logic CAD; microprocessor chips; quantum gates; semiconductor quantum dots; timing; VLSI technology; circuit density; logic design; microprocessor chips; quantum cellular automata; quantum dots; timing considerations; Electrons; Equations; Inverters; Logic; Microprocessors; Polarization; Quantum cellular automata; Quantum dots; US Department of Transportation; Wire;
Conference_Titel :
VLSI, 1999. Proceedings. Ninth Great Lakes Symposium on
Conference_Location :
Ypsilanti, MI
Print_ISBN :
0-7695-0104-4
DOI :
10.1109/GLSV.1999.757390
