Title :
Novel spin-valve memory architecture
Author :
Melo, Luis V. ; Rodrigues, Luis M. ; Freitas, Paulo P.
Author_Institution :
INESC, Lisbon, Portugal
fDate :
9/1/1997 12:00:00 AM
Abstract :
Giant magnetoresistance (GMR) materials are used for random access, non-volatile memories. Different memory architectures have been proposed, both using GMR multilayers and spin-valve (SV) sandwich structures. In most of these approaches extra word lines are needed for writing purposes in addition to read contacts. This makes three interconnect levels. We show results on a simpler SV memory architecture, where writing is achieved using the read current contacts. This is relevant in terms of fabrication, as only two interconnecting layers are necessary to address a matrix of bits. A 400 bit memory matrix was fabricated and tested. A 2 mV signal between “0” and “1” states was measured for a bit inside this matrix
Keywords :
giant magnetoresistance; magnetic film stores; magnetic multilayers; magnetoresistive devices; memory architecture; random-access storage; 2 mV; 400 bit; GMR; SiO2-Ta-NiFe-Cu-Co-TbCo-Ta-TiW; giant magnetoresistance materials; interconnecting layers; matrix of bits; memory matrix; random access nonvolatile memories; read current contacts; spin-valve memory architecture; spin-valve sandwich structures; Fabrication; Giant magnetoresistance; Magnetic materials; Magnetic multilayers; Magnetization; Memory architecture; Nonvolatile memory; Sandwich structures; Testing; Writing;
Journal_Title :
Magnetics, IEEE Transactions on
