Multilevel flash memory contains blocks of cells that represent data by the amount of charge stored in them. The cell writing - or programming - process applies specified voltages in a sequential manner, injecting charge to achieve a desired level. Reducing a cell level requires a costly block erasure, so programming only increases cell levels. Parallel programming, whereby a common voltage is applied to a group of cells to inject charge simultaneously, simplifies circuitry and increases programming speed. However, cell-to-cell variations and limited programming round can adversely affect its precision. In this paper, we consider algorithms for efficient cell programming. Since cell levels are quantized to a discrete set of values, our obje...
Multi-level (ML) storage is becoming an important option to achieve high-density flash EEPROMs. This...
We present an efficient design technique for implementing the optimal ramped gate soft-programming f...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
Multi-level flash memory cells represent data by the amount of charge stored in them. Certain voltag...
Flash memories are currently the most widely used type of nonvolatile memories. A flash memory consi...
We explore a novel data representation scheme for multi-level flash memory cells, in which a set of ...
The multi-level-cell (MLC) NAND flash channel exhibits nonstationary behavior over increasing progra...
Inter-cell interference (ICI) is one of the main obstacles to precise programming (i.e., writing) of...
We present a novel data programming scheme for flash memory. In each word-line, exactly k out of n m...
he trade-off between speed and dispersion of programmed threshold voltages is investigated in 0.25 m...
<p>As NAND flash memory continues to scale down to smaller process technology nodes, its reliability...
Non-volatile memories (NVMs) have attracted considerable attention as data storage media because of ...
For many nonvolatile memories, – including flash memories, phase-change memories, etc., – maximizing...
We investigate a novel storage technology, Rank Modulation, for flash memories. In this scheme, a se...
We discover significant value-dependent programming energy variations in multi-level cell (MLC) flas...
Multi-level (ML) storage is becoming an important option to achieve high-density flash EEPROMs. This...
We present an efficient design technique for implementing the optimal ramped gate soft-programming f...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
Multi-level flash memory cells represent data by the amount of charge stored in them. Certain voltag...
Flash memories are currently the most widely used type of nonvolatile memories. A flash memory consi...
We explore a novel data representation scheme for multi-level flash memory cells, in which a set of ...
The multi-level-cell (MLC) NAND flash channel exhibits nonstationary behavior over increasing progra...
Inter-cell interference (ICI) is one of the main obstacles to precise programming (i.e., writing) of...
We present a novel data programming scheme for flash memory. In each word-line, exactly k out of n m...
he trade-off between speed and dispersion of programmed threshold voltages is investigated in 0.25 m...
<p>As NAND flash memory continues to scale down to smaller process technology nodes, its reliability...
Non-volatile memories (NVMs) have attracted considerable attention as data storage media because of ...
For many nonvolatile memories, – including flash memories, phase-change memories, etc., – maximizing...
We investigate a novel storage technology, Rank Modulation, for flash memories. In this scheme, a se...
We discover significant value-dependent programming energy variations in multi-level cell (MLC) flas...
Multi-level (ML) storage is becoming an important option to achieve high-density flash EEPROMs. This...
We present an efficient design technique for implementing the optimal ramped gate soft-programming f...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...