Title :
Crossbar Logic Using Bipolar and Complementary Resistive Switches
Author :
Rosezin, R. ; Linn, E. ; Kügeler, C. ; Bruchhaus, R. ; Waser, R.
Author_Institution :
Peter Grunberg Inst., Julich Res. Center, Julich, Germany
fDate :
6/1/2011 12:00:00 AM
Abstract :
Memristive switches are promising devices for future nonvolatile nanocrossbar memory devices. In particular, complementary resistive switches (CRSs) are the key enabler for passive crossbar array implementation solving the sneak path obstacle. To provide logic along with memory functionality, “material implication” (IMP) was suggested as the basic logic operation for bipolar resistive switches. Here, we show that every bipolar resistive switch as well as CRSs can be considered as an elementary IMP logic unit and can systematically be understood in terms of finite-state machines, i.e., either a Moore or a Mealy machine. We prove our assumptions by measurements, which make the IMP capability evident. Local fusion of logic and memory functions in crossbar arrays becomes feasible for CRS arrays, particularly for the suggested stacked topology, which offers even more common Boolean logic operations such as and and nor .
Keywords :
Boolean functions; bipolar memory circuits; finite state machines; microswitches; nanoelectronics; random-access storage; Boolean logic operation; CRS arrays; IMP logic unit; Mealy machine; Moore machine; bipolar resistive switch; complementary resistive switch; crossbar logic; finite-state machine; local fusion; material implication; memory functionality; memristive switch; nonvolatile nanocrossbar memory device; passive crossbar array; Arrays; Electric potential; Logic gates; Materials; Resistance; Switches; Bipolar resistive switch; complementary resistive switch (CRS); crossbar arrays; logic; memory devices; nonvolatile memory; resistive switching;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2127439
