Patent application number | Description | Published |
20120185744 | LDPC MULTI-DECODER ARCHITECTURES - Systems, methods, and other embodiments associated with LDPC decoder architectures are described. According to one embodiment, an apparatus includes a super-parity-check matrix that corresponds to at least a portion of a low density parity check (LDPC) code matrix. The super-parity-check matrix is coupled to a high throughput LDPC decoder and a low throughput LDPC decoder, The super-parity-check matrix includes n parity check matrices, each including x rows corresponding to x check node processing elements and y columns corresponding to y bit node processing elements. Thus, the super-parity-check matrix comprises nx rows and ny columns. The numbers n, x, and y are selected so that ny codeword can be processed in single time unit by the high throughput decoder and y codeword bits can be processed in a single time unit by the low throughput decoder. | 07-19-2012 |
20120198308 | METHODS AND SYSTEMS FOR EFFICIENT DECODING OF CONCATENATED ERROR CORRECTION CODES - Decoding data received includes decoding the received data using a first error correcting circuitry that decodes data in accordance with a first decoding process, terminating execution of the first decoding process used to correct the data before the first error correcting circuitry completes executing the first, decoding process and outputting partially decoded data, determining whether partially decoded data requires further decoding, and in response to determining whether partially decoded data requires further decoding, decoding the partially decoded data using a second error correcting circuitry that decodes data in accordance with a second decoding process. A system decodes data in accordance with the method. | 08-02-2012 |
20120233524 | LOW-DENSITY PARITY CHECK CODES FOR HOLOGRAPHIC STORAGE - Systems and methods for constructing low-density parity check codes for holographic storage are provided. The methods include selecting parameters of a low-density parity check code, determining the number of bit processing elements and the amount of memory in an accompanying decoder, and constructing a mother matrix representation of a quasi-cyclic parity check matrix. The low-density parity check codes are optimized for performance, memory considerations, and throughput. | 09-13-2012 |
20130073922 | METHOD AND APPARATUS FOR IMPROVED PERFORMANCE OF ITERATIVE DECODERS ON CHANNELS WITH MEMORY - Systems and methods for improving the performance of iterative decoders on various channels with memory are disclosed. These systems and methods may reduce the frequency or number of situations in which the iterative decoder cannot produce decoded data that matches the data that was originally sent in a communications or data storage system. The iterative decoder includes a SISO channel detector and an ECC decoder and decodes the coded information according to at least one iterative decoding algorithm in regular decoding mode and/or at least one iterative decoding algorithm in error-recovery mode. | 03-21-2013 |
20130232389 | POWER CONSUMPTION IN LDPC DECODER FOR LOW-POWER APPLICATIONS - This disclosure relates generally to low power data decoding, and more particularly to low power iterative decoders for data encoded with a low-density parity check (LDPC) encoder. Systems and methods are disclosed in which a low-power syndrome check may be performed in the first iteration or part of the first iteration during the process of decoding a LDPC code in an LDPC decoder. Systems and methods are also disclosed in which a control over the precision of messages sent or received and/or a change in the scaling of these messages may be implemented in the LDPC decoder. The low-power techniques described herein may reduce power consumption without a substantial decrease in performance of the applications that make use of LDPC codes or the devices that make use of low-power LDPC decoders. | 09-05-2013 |
20130246879 | ITERATIVE DECODER SYSTEMS AND METHODS - Systems and methods are provided for improved designs and performance for iterative decoder systems. In some embodiments, the iterative decoder may be decoupled from FIR samples through an FIR RAM, thus resulting in a less complex design and shorter processing times. In some embodiments, an intermediate memory may be used when passing information between the SOVA and LDPC of the iterative decoder. In some embodiments, the SOVA-required information may be continuously serialized from information received from the LDPC during each LDPC iteration. In some embodiments, the 1/(1+D | 09-19-2013 |
20140068393 | SYMBOL FLIPPING DECODERS OF NON-BINARY LOW-DENSITY PARITY CHECK (LDPC) CODES - Systems and methods are provided for decoding data. A decoder retrieves data related to a symbol and identifies a plurality of candidate values for the symbol. The decoder determines a distance between each of the plurality of candidate values and a reference value associated with the symbol to obtain a plurality of distances, and the decoder determines whether to update a value of the symbol based at least in part on the plurality of distances. | 03-06-2014 |
20140143641 | ITERATIVE DECODER SYSTEMS AND METHODS - Systems and methods are provided for improved designs and performance for iterative decoder systems. In some embodiments, the iterative decoder may be decoupled from FIR samples through an FIR RAM, thus resulting in a less complex design and shorter processing times. In some embodiments, an intermediate memory may be used when passing information between the SOVA and LDPC of the iterative decoder. In some embodiments, the SOVA-required information may be continuously serialized from information received from the LDPC during each LDPC iteration. In some embodiments, the 1/(1+D | 05-22-2014 |
20140298130 | LDPC MULTI-DECODER ARCHITECTURES - Systems, methods, and other embodiments associated with LDPC decoder architectures are described. According to one embodiment, an apparatus includes a super-parity-check matrix corresponding to at least a portion of a low density parity check (LDPC) code matrix. The super-parity-check-matrix is configured to operate with nx check node processing elements (NPEs) and ny bit NPEs. The super-parity-check matrix includes a plurality of parity check matrices. Each parity check matrix is configured to operate with x check NPEs and y bit NPEs. The numbers n, x, and y, are selected such that ny codeword bits are processed in the single time unit by a high throughput decoder and y codeword bits are processed in the single time unit by a low throughput decoder. | 10-02-2014 |