Abstract—A rewriting code construction for flash memories based upon lattices is described. The values stored in flash cells correspond to lattice points. This construction encodes information to lattice points in such a way that data can be written to the memory multiple times without decreasing the cell values. The construction partitions the flash memory’s cubic signal space into blocks. The minimum number of writes is shown to be linear in one of the code parameters. An example using the E8 lattice is given, with numerical results. I
Rank modulation has been recently proposed as a scheme for storing information in flash memories. Th...
We investigate a novel storage technology, Rank Modulation, for flash memories. In this scheme, a se...
Abstract—Flash memory is a nonvolatile memory technology that suffers from errors due to charge leak...
Abstract—This paper considers that write-once memory (WOM) codes can be seen as a type of dirty-pape...
Memories whose storage cells transit irreversibly between states have been common since the start o...
Error-correcting codes are used to achieve reliable and efficient transmission when storing or sendi...
Abstract—We consider lattice tilings of by a shape we call a-quasi-cross. Such lattices form perfect...
Abstract—A generalized rewriting model is defined for flash memory that represents stored data and p...
A generalized rewriting model is defined for flash memory that represents stored data and permitted ...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
A constrained memory is a storage device whose elements change their states under some constraints. ...
Abstract Flash memory is a non-volatile computer memory comprised of blocks of cells, wherein each ...
A constrained memory is a storage device whose elements change their states under some constraints. ...
Rank modulation has been recently proposed as a scheme for storing information in flash memories. Th...
We investigate a novel storage technology, Rank Modulation, for flash memories. In this scheme, a se...
Abstract—Flash memory is a nonvolatile memory technology that suffers from errors due to charge leak...
Abstract—This paper considers that write-once memory (WOM) codes can be seen as a type of dirty-pape...
Memories whose storage cells transit irreversibly between states have been common since the start o...
Error-correcting codes are used to achieve reliable and efficient transmission when storing or sendi...
Abstract—We consider lattice tilings of by a shape we call a-quasi-cross. Such lattices form perfect...
Abstract—A generalized rewriting model is defined for flash memory that represents stored data and p...
A generalized rewriting model is defined for flash memory that represents stored data and permitted ...
Flash memories are, by far, the most important type of non -volatile memory in use today. They are e...
A constrained memory is a storage device whose elements change their states under some constraints. ...
Abstract Flash memory is a non-volatile computer memory comprised of blocks of cells, wherein each ...
A constrained memory is a storage device whose elements change their states under some constraints. ...
Rank modulation has been recently proposed as a scheme for storing information in flash memories. Th...
We investigate a novel storage technology, Rank Modulation, for flash memories. In this scheme, a se...
Abstract—Flash memory is a nonvolatile memory technology that suffers from errors due to charge leak...