Title :
Static and Clocked Spintronic Circuit Design and Simulation With Performance Analysis Relative to CMOS
Author :
Calayir, Vehbi ; Nikonov, Dmitri E. ; Manipatruni, Sasikanth ; Young, Ian A.
Author_Institution :
Components Res., Intel Corp., Hillsboro, OR, USA
Abstract :
Spin-based devices, in which information is carried via electron spin rather than electron charge, are potential candidates to complement CMOS technology due to the promise of non-volatility and compact implementation of logic gates. One class of such devices is all-spin logic (ASL) which is based on switching ferromagnets by spin transfer torque and conduction of spin-polarized current. Using previously developed physics-based circuit models for ASL, we develop a complete logic family for static ASL comprising of majority logic gates. We compare its performance metrics by means of circuit simulations using our Verilog-A compact models. We also show the novel implementations of sequencing elements (e.g., latch and D flip-flop) to enable clocked ASL. We also refine the models for ferromagnets to include spin relaxation inside ferromagnetic metals (FMs).
Keywords :
CMOS integrated circuits; circuit simulation; clocks; electron spin; ferromagnetic materials; flip-flops; hardware description languages; logic gates; magnetoelectronics; ASL; CMOS technology; D flip-flop; Verilog-A compact models; all-spin logic; circuit simulations; clocked spintronic circuit; electron spin; ferromagnetic metals; latch; logic family; logic gates; sequencing elements; spin relaxation; spin transfer torque; spin-based devices; spin-polarized current; static spintronic circuit; switching ferromagnets; All-spin logic; circuit model; clocked logic; compact modeling; ferromagnetic metal; non-magnetic metal; non-volatility; performance comparison; spintronic; static logic;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2013.2268375
