Title :
Demonstrated reliability of 4-mb MRAM
Author :
Åkerman, Johan ; Brown, Philip ; DeHerrera, Mark ; Durlam, Mark ; Fuchs, Earl ; Gajewski, Don ; Griswold, Mark ; Janesky, Jason ; Nahas, Joseph J. ; Tehrani, Saied
Author_Institution :
Embedded Memory Center, Chandler, AZ, USA
Abstract :
The successful commercialization of MRAM will rely on providing customers with a robust and reliable memory product. The intrinsic reliability of magnetoresistive tunnel junction (MTJ) memory bits and the metal interconnect system of MRAM are two areas of great interest due to the new materials involved in this emerging technology. Time dependent dielectric breakdown (TDDB) and resistance drift were the two main failure mechanisms identified for intrinsic memory bit reliability. Results indicated that a lifetime over 10 years is achievable under the operating condition. For metal interconnect system, the initial results of Cu with magnetic cladding have met the reliability performance of typical nonclad Cu backend process in electromigration (EM) and iso-thermal annealing (ITA). Finally data retention is demonstrated over times orders of magnitude longer than 10 years.
Keywords :
copper; electric breakdown; electromigration; integrated circuit interconnections; integrated circuit reliability; magnetic storage; magnetoresistive devices; random-access storage; tunnelling magnetoresistance; 4 Mbit; Cu; MRAM; data retention; electromigration; failure mechanisms; intrinsic memory bit reliability; isothermal annealing; magnetic cladding; magnetic memories; magnetoresistive devices; magnetoresistive tunnel junction; memory bits; metal interconnect system; nonclad Cu backend process; reliable memory; resistance drift; robust memory; time dependent dielectric breakdown; Commercialization; Dielectric breakdown; Dielectric materials; Failure analysis; Inorganic materials; Magnetic materials; Magnetic tunneling; Materials reliability; Robustness; Tunneling magnetoresistance;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2004.837608
