Introduction: Recently, phase change memory (PCM) has entered the commercial stage in a 45 nm technology [1]. To better assess the potential scaling and application as embedded memory [2], data retention and its statistics must be carefully understood and optimized. This work studies crystallization statistics in 1 Gb arrays of PCM devices. We evidence (i) retention stabilization by tuning of the programming conditions, and (ii) erratic retention due to crystallization variability. A new retention model is developed, which is capable of predicting cell-to-cell and cycle-to-cycle variability as a function of programming conditions
We developed a comprehensive simulation program of phase change memory (PCM) including the electrica...
Phase change memory PCM is an emerging technology that combines the unique properties of phase ch...
Emerging phase-change memory (PCM) technology for non-volatile applications presents many potential ...
Introduction: Recently, phase change memory (PCM) has entered the commercial stage in a 45 nm techno...
Data retention and its statistics are the key issues for the development of next generation phase-ch...
The statistical spread of intrinsic data retention times in phase-change memory (PCM) cells is stud...
Phase Change Memory is one of the most promising emerging Non-Volatile Memory technology thanks to f...
Data retention is an important issue in the phase-change memories (PCMs) development, which is induc...
Data retention is an important issue in the phase-change memories (PCMs) development, which is induc...
The amorphous phase of chalcogenide material in phase-change memories (PCMs) is subjected to sponta...
The scaling analysis of phase-change memory (PCM) cells is an essential step toward validation as a ...
A key issue in nonvolatile storage is long-term data retention. This aspect is even more important i...
In this paper we present a new analytical model of the erasing operation in Phase Change Memories (P...
A robust simulation framework was developed for nanoscale phase change memory (PCM) cells. Starting ...
We developed a comprehensive simulation program of phase change memory (PCM) including the electrica...
Phase change memory PCM is an emerging technology that combines the unique properties of phase ch...
Emerging phase-change memory (PCM) technology for non-volatile applications presents many potential ...
Introduction: Recently, phase change memory (PCM) has entered the commercial stage in a 45 nm techno...
Data retention and its statistics are the key issues for the development of next generation phase-ch...
The statistical spread of intrinsic data retention times in phase-change memory (PCM) cells is stud...
Phase Change Memory is one of the most promising emerging Non-Volatile Memory technology thanks to f...
Data retention is an important issue in the phase-change memories (PCMs) development, which is induc...
Data retention is an important issue in the phase-change memories (PCMs) development, which is induc...
The amorphous phase of chalcogenide material in phase-change memories (PCMs) is subjected to sponta...
The scaling analysis of phase-change memory (PCM) cells is an essential step toward validation as a ...
A key issue in nonvolatile storage is long-term data retention. This aspect is even more important i...
In this paper we present a new analytical model of the erasing operation in Phase Change Memories (P...
A robust simulation framework was developed for nanoscale phase change memory (PCM) cells. Starting ...
We developed a comprehensive simulation program of phase change memory (PCM) including the electrica...
Phase change memory PCM is an emerging technology that combines the unique properties of phase ch...
Emerging phase-change memory (PCM) technology for non-volatile applications presents many potential ...