Drift-Invariant Detection for Multilevel Phase-Change Memory

2018 IEEE International Symposium on Circuits and Systems (ISCAS) Pub Date : 2018-05-27 DOI:10.1109/ISCAS.2018.8351740

M. Stanisavljevic, T. Mittelholzer, N. Papandreou, Thomas Parnell, H. Pozidis

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引用次数: 6

Abstract

Next-generation memory (NGM) technologies present a major opportunity but also a significant challenge, due to their intricate reliability issues. In particular, multilevel-cell (MLC) storage is highly desirable for increasing storage capacity and lowering total cost-per-bit. In phase-change memory (PCM), MLC storage is hampered by sensitivity to temperature variations and resistance drift. A novel drift-invariant detection (DID) scheme that estimates variable read thresholds based on ordered statistics and clustering of the soft read-back signals from a small block of 32 cells has been developed and implemented in hardware to improve reliability and prolong data retention. A low-complexity implementation of the DID on a FPGA platform comprises 20'000 LUTs and 6'000 flip-flops and has a latency of 90ns. We present results from an extensive performance verification that ascertains highly reliable data retrieval up to 13 orders of magnitude in time after programming. Such elevated reliability is necessary for the most anticipated application of NGM, namely persistent far-memory, where the NGM is used as a large memory pool, possibly together with DRAM.

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多电平相变存储器的漂移不变检测

由于复杂的可靠性问题，下一代存储器(NGM)技术带来了重大机遇，但也带来了重大挑战。特别是，多层单元(MLC)存储对于增加存储容量和降低每比特的总成本是非常理想的。在相变存储器(PCM)中，MLC存储受到温度变化敏感性和电阻漂移的限制。为了提高可靠性和延长数据保留时间，提出了一种新的漂移不变检测(DID)方案，该方案基于对32个单元的小块软读回信号的有序统计和聚类来估计可变读阈值。在FPGA平台上实现的低复杂度DID包括20,000个lut和6,000个触发器，延迟为90ns。我们提出了一个广泛的性能验证结果，确定了高度可靠的数据检索，在编程后的时间高达13个数量级。这种高可靠性对于最令人期待的NGM应用(即持久远内存)是必要的，在这种应用中，NGM被用作大型内存池，可能与DRAM一起使用。

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2018 IEEE International Symposium on Circuits and Systems (ISCAS)

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