Title :
Emitter-coupled spin-transistor logic
Author :
Friedman, Joseph S. ; Ismail, Yehea I. ; Memik, Gokhan ; Sahakian, Alan V. ; Wessels, B.W.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Northwestern Univ., Evanston, IL, USA
Abstract :
The recent invention of magnetoresistive bipolar spin-transistors makes possible the creation of new spintronic logic families. Here we propose the first logic family exploiting these spin-transistors, extending emitter-coupled logic (ECL) to achieve a greater range of basis logic functions. By placing the wire from the output stage of ECL logic elements near spin-transistors in other parts of a circuit, additional basis logic elements can be realized. These new logic elements support greater logic minimization, resulting in enhanced speed, area, and power characteristics. A novel magnetic shielding structure provides this logic family with the crucial ability to cascade logic stages. This logic family achieves a power-delay product 10 to 25 times smaller than conventional ECL, and can therefore be exploited to increase the performance of very high-speed circuits while broadening the range of design choices for a variety of electronic applications.
Keywords :
bipolar transistors; high-speed integrated circuits; logic design; logic devices; magnetic shielding; magnetoelectronics; magnetoresistive devices; ECL logic element; design; electronic application; emitter-coupled spin-transistor logic; first logic family; high-speed circuit; logic function; logic minimization; logic stage; magnetic shielding structure; magnetoresistive bipolar spin-transistor; power characteristics; power-delay product; spintronic logic family; Junctions; Logic gates; Magnetic fields; Magnetoresistance; Magnetoresistive devices; Transistors; Wires;
Conference_Titel :
Nanoscale Architectures (NANOARCH), 2012 IEEE/ACM International Symposium on
Conference_Location :
Amsterdam
Print_ISBN :
978-1-4503-1671-2
