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    • 4. 发明公开
    • DECODING APPARATUS AND DECODING METHOD
    • DEKODIERUNGSVORRICHTUNG UND DEKODIERUNGSVERFAHREN
    • EP1876716A1
    • 2008-01-09
    • EP06745481.9
    • 2006-04-20
    • Sony Corporation
    • YOKOKAWA, Takashi, c/o SONY CORPORATIONMIYAUCHI, Toshiyuki, c/o SONY CORPORATIONSHINYA, Osamu, c/o SONY CORPORATION
    • H03M13/19
    • H03M13/1168H03M13/1114H03M13/1137H03M13/116H03M13/6505H03M13/6566
    • The present invention relates to a decoding apparatus and a decoding method, which are capable of decoding LDPC codes with a high degree of precision while preventing the circuit scale of the decoding apparatus from increasing. A computation section 1102 carries out a first computation process corresponding to three check-node processes by making use of decoding intermediate results D1101 supplied from a decoding intermediate result storage memory 1104 by way of a cyclic shift circuit 1101, and stores the result of the first computation process in a decoding intermediate result storage memory 1103. A computation section 415 carries out a second computation process corresponding to six variable-node processes by making use of decoding intermediate results D414 supplied from a decoding intermediate result storage memory 1103 by way of a cyclic shift circuit, and stores the decoding intermediate result D415 in the decoding intermediate result storage memory 1104. The present invention can be applied to, for example, a tuner for receiving (digital) satellite broadcasts.
    • 解码装置和解码方法技术领域本发明涉及一种解码装置和解码方法,其能够在防止解码装置的电路规模增加的同时高精度地解码LDPC码。 计算部1102通过利用通过循环移位电路1101从解码中间结果存储存储器1104提供的解码中间结果D1101,进行与三个校验节点处理相对应的第一计算处理,并且存储第一 解码中间结果存储存储器1103中的计算处理。计算部415通过利用从解码中间结果存储存储器1103提供的解码中间结果D414通过循环的方式执行与六个可变节点处理相对应的第二计算处理 并将解码中间结果D415存储在解码中间结果存储存储器1104中。本发明可以应用于例如用于接收(数字)卫星广播的调谐器。
    • 7. 发明公开
    • SHUFFLED LDPC DECODING
    • SHUFFLED LDPC解码
    • EP2171857A1
    • 2010-04-07
    • EP08763425.9
    • 2008-07-01
    • NXP B.V.
    • DIELISSEN, John
    • H03M13/11
    • H03M13/1168H03M13/1114H03M13/1117H03M13/112H03M13/1122H03M13/1137H03M13/114H03M13/116H03M13/1165H03M13/6527H03M13/6544H03M13/6566H03M13/658H03M13/6583H03M13/6588
    • An LDPC decoder iteratively decodes an LDPC code represented by a parity check matrix H consisting of a plurality of circulants based on a Log-Likelihood Ratio Belief-Propagation algorithm. First computation means (1010) compute for a next iteration symbol messages λϰm from a representation of a corresponding symbol value stored in a first memory 1005 and from check node messages Λmn from a previous iteration. A shuffler (1030) changes a sequence of the symbol message received from the first computation means (1010) in dependence on a position of the non-zero elements in a corresponding sub-matrix. Second computation means (DP-O, DP-I, DP-D-I) compute the check node messages in dependence on symbol messages received from the barrel shifter and store a representation of the computed check node message in a second memory (1015). Third computation means (1020) update the representation of the symbol values in the first memory in dependence on output of the first and second computing means. The principle of 'staggered' or 'shuffled' LDPC decoding is used. One embodiment is designed for multi-diagonal circulants.
    • LDPC解码器基于对数似然比置信传播算法迭代解码由包括多个循环的奇偶校验矩阵H表示的LDPC码。 第一计算装置(1010)根据存储在第一存储器1005中的对应符号值的表示和来自先前迭代的校验节点消息Δmn来计算下一个迭代符号消息λk。 混洗器(1030)根据相应子矩阵中的非零元素的位置来改变从第一计算装置(1010)接收到的符号消息的序列。 第二计算装置(DP-O,DP-1,DP-D-I)根据从桶形移位器接收的符号消息计算校验节点消息,并将计算的校验节点消息的表示存储在第二存储器(1015)中。 第三计算装置(1020)根据第一和第二计算装置的输出更新第一存储器中符号值的表示。 使用'交错'或'混洗'LDPC解码的原理。 一个实施例被设计用于多对角线循环。
    • 8. 发明公开
    • DECODING APPARATUS AND DECODING METHOD
    • DEKODIERUNGSVORRICHTUNG UND DEKODIERUNGSVERFAHREN
    • EP1876716A4
    • 2008-07-23
    • EP06745481
    • 2006-04-20
    • SONY CORP
    • YOKOKAWA TAKASHIMIYAUCHI TOSHIYUKISHINYA OSAMU
    • H03M13/11
    • H03M13/1168H03M13/1114H03M13/1137H03M13/116H03M13/6505H03M13/6566
    • A decoding apparatus and a decoding method wherein the decoding of LDPC codes can be accurately performed, while the apparatus scale can be suppressed. A calculating part (1102) uses a decoding in-progress result (D1101) received from a decoding in-progress result storage memory (1104) via a cyclic shift circuit (1101) to perform a first computation corresponding to three check node computations, and causes a decoding in-progress result storage memory (1103) to store a decoding in-progress result (D1102) from the first computation. A calculating part (415) uses a decoding in-progress result (D414) received from the decoding in-progress result storage memory (1103) via the cyclic shift circuit to perform a second computation corresponding to six variable node computations, and causes a decoding in-progress result storage memory (1104) to store a decoding in-progress result (D415) from the second computation. This invention can be applied to, for example, a turner for receiving satellite broadcasts.
    • 一种解码设备和解码方法,其中可以准确地执行LDPC码的解码,同时可以抑制设备规模。 计算部(1102)使用经由循环移位电路(1101)从解码中进行结果保存存储器(1104)接收到的解码进行中结果(D1101),进行与3个校验节点运算对应的第1运算, 使解码进行中结果存储器(1103)存储来自第一计算的解码进行中结果(D1102)。 运算部(415)使用经由循环移位电路从解码进行中结果保存存储器(1103)接收到的解码进行中结果(D414),进行与6个变量节点运算对应的第二运算,并进行解码 正在进行结果存储器(1104)存储来自第二计算的解码进行中结果(D415)。 本发明可以应用于例如用于接收卫星广播的调谐器。