Patent application number | Description | Published |
20130145235 | DETECTION AND DECODING IN FLASH MEMORIES WITH SELECTIVE BINARY AND NON-BINARY DECODING - Methods and apparatus are provided for detection and decoding in flash memories with selective binary and non-binary decoding. Data from a flash memory device is processed by obtaining one or more read values for a plurality of bits from one or more pages of the flash memory device; converting; the one or more read values for the plurality of bits to a non-binary log likelihood ratio based on a probability that a given data pattern was written to the plurality of bits when a particular pattern was read from the plurality of bits; and jointly decoding the plurality of bits using the non-binary log likelihood ratio, wherein the pages are encoded independently. | 06-06-2013 |
20130145238 | ENCODING AND DECODING IN FLASH MEMORIES USING CONVOLUTIONAL-TYPE LOW PARITY DENSITY CHECK CODES - Methods and apparatus are provided for encoding and decoding in flash memories using convolutional-type low parity density check codes. A plurality of bits to be stored on a flash memory device are encoded using a convolutional-type low density parity check code, such as a spatially coupled low density parity check code. The encoded pages or portions thereof can be decoded independently of other pages. In one embodiment, an encoded page is decoded jointly with one or more additional pages in the same wordline or a different wordline. | 06-06-2013 |
20130311845 | SYSTEMS AND METHODS FOR NON-BINARY LDPC ENCODING - The present inventions are related to systems and methods for data processing, and more particularly to systems and methods for data encoding. | 11-21-2013 |
20130311846 | Systems and Methods for Hardware Flexible Low Density Parity Check Conversion - The present inventions are related to systems and methods for data processing, and more particularly to systems and methods for data encoding. | 11-21-2013 |
20130343495 | APPARATUS AND METHOD FOR BREAKING TRAPPING SETS - An error correction data processing apparatus includes a noise predictive calibration circuit operable to calibrate a first set of filter coefficients based on a first data set and a second set of filter coefficients based on a second data set, and includes a first noise predictive detector operable to receive the first set of filter coefficients. The apparatus further includes a decoder operable to perform a first global iteration with the first noise predictive detector and determine a violation check count value, and a second noise predictive detector operable to receive the second set of filter coefficients if the violation check count value is less than a predetermined value or receive the first set of filter coefficients if the violation check count value is greater than the predetermined value. | 12-26-2013 |
20140050023 | MEMORY DEVICE HAVING COLLABORATIVE FILTERING TO REDUCE NOISE - An apparatus is described that is configured to modify a signal to at least substantially remove a noise portion from the signal. In one or more implementations, the apparatus is a collaborative filtering module that is configured to communicatively couple to a memory array having a plurality of memory cell blocks. The memory array is configured to furnish a signal representative of data stored within the plurality of memory cell blocks. The collaborative filtering module is configured to determine a noise distribution associated with the plurality of memory cell blocks and generate a noise prediction, which is based upon the noise distribution, when a read operation for the plurality of memory cell blocks is issued. The collaborative filtering module is also configured to modify the signal utilizing the noise prediction to at least substantially remove noise from the signal. | 02-20-2014 |
20140052893 | FILE DELETION FOR NON-VOLATILE MEMORY - A device includes non-volatile memory and a controller. The controller receives a write request including data and a logical address associated with a file. The controller stores the data at a data storage segment having a physical address and associates the physical address with the logical address and a file identifier for the file. The controller receives a second write request including data and the logical address associated with the file. The controller stores the data at a second data storage segment having a second physical address and associates the second physical address with the logical address and the file identifier. When a file delete request for the file is received, the controller identifies the first physical address and the second physical address using the file identifier and erases the information stored at the first data storage segment and the second data storage segment based upon the file identification. | 02-20-2014 |
20140075261 | OPTIMIZED MECHANISM TO SIMPLIFY THE CIRCULANT SHIFTER AND THE P/Q KICK OUT FOR LAYERED LDPC DECODER - A layered LDPC decoder architecture includes a single MUX and a single shifter element for processing an optimized LDPC parity check matrix. The optimized LDPC parity check matrix may be a K×L sub-matrix having zero elements, non-zero elements defined by a circulant matrix or zero matrices, and identity matrixes. | 03-13-2014 |
20140122971 | LEH Memory Module Architecture Design in the Multi-Level LDPC Coded Iterative System - A memory in a LDPC decoding system includes data banks organized into a ping-pong memory. The ping-pong memory is connected to an interleaver and a de-interleaver. The interleaver interleaves L values; the interleaved L values are then stored in the ping-pong memory. A LDPC decoder retrieves L values from the ping-pong memory and returns E values to the ping-pong memory. The de-interleaver de-interleaves the E values and sends data to a LE queue and HD queue. | 05-01-2014 |
20140122979 | Hardware Architecture and Implementation of Low Power Layered Multi-Level LDPC Decoder - A layered LDPC decoder sorts and selects a subset of message entries for processing based on entry size. MIN1 and MIN2 values for each message entry in the subset are truncated, and either the truncated values or non-truncated values are combined with a symbol vector based on whether the subset of message entries includes a variable node associated with the layer being processed. | 05-01-2014 |
20140130061 | System and Method for Check-Node Unit Message Processing - The disclosure is directed to a system and method for storing and processing check-node unit (CNU) messages utilizing random access memory (RAM). A decoder includes a layered array of CNUs configured to receive at least one variable-node unit (VNU) message associated with decoded bits of at least one data segment being operated upon by the decoder. The decoder further includes a CNU message converter configured to permutate at least one initial circulant of the VNU message to generate a converted CNU message having sub-circulants sized for RAM-based processing. The decoder further includes RAM configured to store sub-circulants of the converted CNU message at addressable memory blocks for parallel VNU processing. | 05-08-2014 |
20140223259 | Memory Architecture for Layered Low-Density Parity-Check Decoder - A LE hard decision memory comprises a global mapping element to interleave L values from a first and second circulant and store the interleaved values in a first memory element. A low-density parity-check decoder then processes the circulants from the first memory element and stores output in a second memory element. The LE hard decision memory does not include any mux-demux elements. | 08-07-2014 |