Title :
Impact of Resistive-Bridge Defects in TAS-MRAM Architectures
Author :
Azevedo, J. ; Virazel, A. ; Bosio, A. ; Dilillo, L. ; Girard, P. ; Todri, A. ; Prenat, G. ; Alvarez-Hérault, J. ; Mackay, K.
Author_Institution :
LIRMM, Univ. Montpellier 2, Montpellier, France
Abstract :
Magnetic Random Access Memory (MRAM) is an emerging memory technology. Among existing MRAM technologies, the Thermally Assisted Switching (TAS) MRAM technology offers several advantages such as selectivity, single magnetic field and high integration density. In this paper, we analyze resistive-bridge defects that may affect the TAS-MRAM architecture. Electrical simulations were performed on a hypothetical 16-words TAS-MRAM architecture enabling any sequences of read/write operations. Results show that both read and write operations may be affected by these defects. Especially, we demonstrate that resistive-bridge defects may have a local (single cell) or global (multiple cells) impact on the TAS-MRAM functioning. As these analysis results will be further used to develop effective test algorithms targeting faults related to actual resistive bridge-defects that may affect TAS-MRAM architecture.
Keywords :
MRAM devices; bridge circuits; circuit simulation; fault diagnosis; integrated circuit testing; magnetic switching; magnetoresistance; 16-words TAS-MRAM architecture; TAS MRAM technology; electrical simulation; fault test algorithm; integration density; magnetic field; magnetic random access memory; memory technology; read/write operation; resistive-bridge defect; thermally assisted switching; Computer architecture; Heating; Magnetic fields; Magnetic tunneling; Magnetization; Switches; Writing; TAS-MRAM; fault modeling; non-volatile memories; resistive-bridge defects; spintronics; test;
Conference_Titel :
Test Symposium (ATS), 2012 IEEE 21st Asian
Conference_Location :
Niigata
Print_ISBN :
978-1-4673-4555-2
Electronic_ISBN :
1081-7735
DOI :
10.1109/ATS.2012.37
