The introduction of multiple-level cell (MLC) and triple-level cell (TLC) technologies reduced the reliability of flash memories significantly compared with single-level cell flash. With MLC and TLC flash cells, the error probability varies for the different states. Hence, asymmetric models are required to characterize the flash channel, e.g., the binary asymmetric channel (BAC). This contribution presents a combined channel and source coding approach improving the reliability of MLC and TLC flash memories. With flash memories data compression has to be performed on block level considering short-data blocks. We present a coding scheme suitable for blocks of 1 kB of data. The objective of the data compression algorithm is to reduce the amoun...
The growing error rates of triple-level cell (TLC) and quadruple-level cell (QLC) NAND flash memorie...
The reliability of flash memories suffers from various error causes. Program/erase cycles, read dist...
The on-going data revolution demands storage systems that can store very large quantities of data wh...
The binary asymmetric channel (BAC) is a model for the error characterization of multi-level cell (M...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
Error correction coding based on soft-input decoding can significantly improve the reliability of fl...
NAND flash memory is widely used for data storage due to low power consumption, high throughput, sho...
The limited endurance of flash memories is a major design concern for enterprise storage systems. We...
Flash memory has a wide variety of applications nowadays. The information from flash devices are ret...
NAND Flash memories have become a widely used non-volatile data storage technology and their applica...
This work investigates data compression algorithms for applications in non-volatile flash memories. ...
High-density flash memories suffer from inter-cell interference (ICI) which threatens the reliabilit...
Reconfigurable embedded systems can take advantage of programmable devices, such as microprocessors ...
This contribution presents a data compression scheme for applications in non-volatile flash memories...
NAND flash memory is a ubiquitous storage medium which has revolutionized the non-volatile memory in...
The growing error rates of triple-level cell (TLC) and quadruple-level cell (QLC) NAND flash memorie...
The reliability of flash memories suffers from various error causes. Program/erase cycles, read dist...
The on-going data revolution demands storage systems that can store very large quantities of data wh...
The binary asymmetric channel (BAC) is a model for the error characterization of multi-level cell (M...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
Error correction coding based on soft-input decoding can significantly improve the reliability of fl...
NAND flash memory is widely used for data storage due to low power consumption, high throughput, sho...
The limited endurance of flash memories is a major design concern for enterprise storage systems. We...
Flash memory has a wide variety of applications nowadays. The information from flash devices are ret...
NAND Flash memories have become a widely used non-volatile data storage technology and their applica...
This work investigates data compression algorithms for applications in non-volatile flash memories. ...
High-density flash memories suffer from inter-cell interference (ICI) which threatens the reliabilit...
Reconfigurable embedded systems can take advantage of programmable devices, such as microprocessors ...
This contribution presents a data compression scheme for applications in non-volatile flash memories...
NAND flash memory is a ubiquitous storage medium which has revolutionized the non-volatile memory in...
The growing error rates of triple-level cell (TLC) and quadruple-level cell (QLC) NAND flash memorie...
The reliability of flash memories suffers from various error causes. Program/erase cycles, read dist...
The on-going data revolution demands storage systems that can store very large quantities of data wh...