Title :
Static and Dynamic Modeling of Single-Electron Memory for Circuit Simulation
Author :
Xuan, Wei ; Beaumont, Arnaud ; Guilmain, Marc ; Bounouar, Mohamed-Amine ; Baboux, Nicolas ; Etzkorn, James ; Drouin, Dominique ; Calmon, Francis
Author_Institution :
Lyon Inst. of Nanotechnol., Univ. of Lyon, Villeurbanne, France
Abstract :
Two compact models for single-electron memory (SEM) are proposed and validated by comparisons with the program SIMON. The approach is based on the master equation method and the orthodox theory. The specific and efficient algorithms for each model are presented. The first model is static and allows directly calculating the final number of electrons on the memory dot. The second model is dynamic, which evaluates every electron tunnel event to assess the stored charge variation and determines the writing or retention times. Both static and dynamic models are written in Verilog-A language and implemented in IC design framework. These SEM models are attractive for circuit simulation to find out the optimal biasing strategy and memory architecture.
Keywords :
electronic engineering computing; hardware description languages; integrated circuit design; single electron devices; IC design framework; SEM models; SIMON; Verilog-A language; circuit simulation; dynamic models; electron tunnel; master equation method; memory dot; optimal biasing strategy; orthodox theory; single-electron memory; static models; Equations; Integrated circuit modeling; Junctions; Mathematical model; Numerical analysis; Resistance; Tunneling; Coulomb blockade; Verilog-A; modeling; single-electron devices (SEDs); single-electron memory (SEM);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2011.2173347
