In this paper, we address the high-write latency and process variation issues of MLC-PCM by introducing Mercury: A fast and energy efficient multi-level cell ...
Simulation results show that Mercury achieves 10% saving in programming latency and 25% saving in programming energy for the PCM memory system compared to that ...
A fast and energy-efficient multi-level cell based Phase Change Memory ...
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In this paper, we address the high-write latency and process variation issues of MLC-PCM by introducing Mercury: A fast and energy efficient multi-level cell ...
Simulation results show that Mercury achieves 10% saving in programming latency and 25% saving in programming energy for the PCM memory system compared to that ...
The high-write latency and process variation issues of MLC-PCM are addressed by introducing Mercury: A fast and energy efficient multi-level cell based ...
Madhura Joshi, Wangyuan Zhang, Tao Li: Mercury: A fast and energy-efficient multi-level cell based Phase Change Memory system. HPCA 2011: 345-356.
Mercury: A fast and energy-efficient multi-level cell based Phase Change Memory system · Materials Science, Engineering. 2011 IEEE 17th International Symposium ...
It improves energy, latency and reliability of MLC PCM while maintaining its capacity advantage. The solution we offer is variable resistance spectrum MLC PCM.
Jan 21, 2015 · Mercury: A fast and energyefficient multi-level cell based phase change memory system. In Proc. the 17th Int. Symp. High Performance ...
Mercury: A fast and energy-efficient multi-level cell based Phase Change Memory system. Conference Paper. Feb 2011. Madhura Joshi · Wangyuan Zhang · Tao Li.