Title :
Molecular QCA: A write-in system based on electric fields
Author :
Pulimeno, A. ; Graziano, M. ; Abrardi, C. ; Demarchi, D. ; Piccinini, G.
Author_Institution :
Electron. Dept., Politec. di Torino, Torino, Italy
Abstract :
Molecular Quantum Dot Cellular Automata (MQCA) are an emergent beyond CMOS technology that uses molecular systems as elementary nanoelectronic devices with computational purposes. The binary encoding is provided by the charge localization within the molecule, so that no current flows among the cells. We discuss a method to write a logic state in a molecule synthesized ad hoc for this technology. Our idea is to apply specific electric field to move the electrons inside the molecule, forcing a logic state. A combination of ab-initio calculations and molecular dynamics simulations allowed us to fix the working point of our experimental system and to assess the feasibility of this method, as well as to investigate further experimental solutions for the read-out issue.
Keywords :
cellular automata; molecular dynamics method; molecular electronics; nanoelectronics; quantum dots; ab-initio calculations; binary encoding; electric fields; molecular QCA; molecular dynamics simulations; molecular quantum dot cellular automata; molecule synthesized ad hoc; write-in system; Automata; Clocks; Electric fields; Encoding; Logic gates; Quantum cellular automata; Quantum dots; molecular QCA; molecular computation; nano-gaps;
Conference_Titel :
Nanoelectronics Conference (INEC), 2011 IEEE 4th International
Conference_Location :
Tao-Yuan
Print_ISBN :
978-1-4577-0379-9
Electronic_ISBN :
2159-3523
DOI :
10.1109/INEC.2011.5991702
