Title :
A Full Adder Design Using Serially Connected Single-Layer Magnetic Tunnel Junction Elements
Author :
Lee, Seungyeon ; Seo, Sunae ; Lee, Seungjun ; Shin, Hyungsoon
Author_Institution :
EWHA Womans Univ., Seoul
fDate :
3/1/2008 12:00:00 AM
Abstract :
Magnetic tunnel junction (MTJ) elements based magnetologic promises many advantages over conventional CMOS logic devices. MTJ elements can be configured by simple circuitry to compute various Boolean functions and store the results. Advantages of magnetologic include low power consumption, the possibility of high-speed operation, and high density. We have proposed a novel magnetologic structure comprising a single-layer MTJ and a current driver, which requires fewer processing steps and provides enhanced functional flexibility and uniformity. Here, we expand the computational capabilities of single-layer MTJs, using series connections. An algorithm that realizes complex Boolean functions with fewer magnetologic elements than previous papers is presented.
Keywords :
adders; logic devices; magnetic tunnelling; semiconductor junctions; tunnelling magnetoresistance; Boolean functions; MTJ elements; full adder design; single-layer magnetic tunnel junction elements; Adders; Boolean functions; Driver circuits; Energy consumption; Information technology; Logic devices; Logic functions; Magnetic separation; Magnetic tunneling; Writing; Magnetic tunnel junction; magnetoresistive devices; nonvolatile logic device;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.914470
