Title :
Multilevel phase-change memory
Author :
Papandreou, N. ; Pantazi, A. ; Sebastian, A. ; Breitwisch, M. ; Lam, C. ; Pozidis, H. ; Eleftheriou, Evangelos
Author_Institution :
IBM Res. - Zurich, Ruschlikon, Switzerland
Abstract :
Phase-change memory (PCM) has emerged in recent years as one among the most attractive technologies for future non-volatile solid-state memory. PCM relies on the reversible phase transition in chalcogenide materials between different states, i.e., amorphous and poly-crystalline, which are characterized by very different electrical properties. Multilevel storage, namely storage of multiple bits in a memory cell, is a key factor for the competitiveness of PCM technology in the nonvolatile memory market. This paper presents experimental characterization of multilevel PCM devices and addresses the feasibility and reliability issues of multilevel storage using adaptive program-and-verify schemes.
Keywords :
integrated circuit reliability; phase change memories; PCM technology; adaptive program-and-verify schemes; chalcogenide materials; experimental characterization; multilevel PCM devices; multilevel phase change memory; multiple-bit storage; nonvolatile solid-state memory; reliability issues; reversible phase transition; Adaptation model; Arrays; Phase change materials; Programming; Temperature measurement; Thermal resistance; Nonvolatile memory (NVM); chalcogenide glasses; multilevel storage; phase-change memory (PCM); program-and-verify;
Conference_Titel :
Electronics, Circuits, and Systems (ICECS), 2010 17th IEEE International Conference on
Conference_Location :
Athens
Print_ISBN :
978-1-4244-8155-2
DOI :
10.1109/ICECS.2010.5724687
