Both rewriting and error correction are important technologies for non-volatile memories, especially flash memories. However, coding schemes that combine them have been limited. This paper presents a new coding scheme that combines rewriting and error correction for the write-once memory model. Its construction is based on polar codes, and it supports any number of rewrites and corrects a substantial number of errors. The code is analyzed for the binary symmetric channel, and experimental results verify its performance. The results can be extended to multi-level cells and more general noise models
Error-correcting codes are used to achieve reliable and efficient transmission when storing or sendi...
Abstract This paper investigates error correction in two‐dimensional (2‐D) intersymbol interference ...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
Both rewriting and error correction are technologies usable for non-volatile memories, such as flash...
This paper considers the partial information rewriting problem for flash memories. In this problem, ...
Techniques are disclosed for generating codes for representation of data in memory devices that may ...
We consider the noisy write-once memory (WOM) model to capture the behavior of data-storage devices ...
This paper constructs WOM codes that combine rewriting and error correction for mitigating the relia...
We propose efficient coding schemes for two communication settings: 1) asymmetric channels and 2) ch...
The increasing density of NAND flash memories makes data more prone to errors due to severe process ...
Abstract—For nonvolatile memories such as flash memo-ries and phase-change memories, endurance and r...
The dissertation provides polar coding techniques for a variety of source and channel models with ap...
Error-correcting codes are used to achieve reliable and efficient transmission when storing or sendi...
Abstract This paper investigates error correction in two‐dimensional (2‐D) intersymbol interference ...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
Both rewriting and error correction are technologies usable for non-volatile memories, such as flash...
This paper considers the partial information rewriting problem for flash memories. In this problem, ...
Techniques are disclosed for generating codes for representation of data in memory devices that may ...
We consider the noisy write-once memory (WOM) model to capture the behavior of data-storage devices ...
This paper constructs WOM codes that combine rewriting and error correction for mitigating the relia...
We propose efficient coding schemes for two communication settings: 1) asymmetric channels and 2) ch...
The increasing density of NAND flash memories makes data more prone to errors due to severe process ...
Abstract—For nonvolatile memories such as flash memo-ries and phase-change memories, endurance and r...
The dissertation provides polar coding techniques for a variety of source and channel models with ap...
Error-correcting codes are used to achieve reliable and efficient transmission when storing or sendi...
Abstract This paper investigates error correction in two‐dimensional (2‐D) intersymbol interference ...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...