IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0677322
(2008-12-12)
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등록번호 |
US-8464129
(2013-06-11)
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국제출원번호 |
PCT/US2008/086537
(2008-12-12)
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§371/§102 date |
20100310
(20100310)
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국제공개번호 |
WO2010/019169
(2010-02-18)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Mendelsohn, Drucker & Associates, P.C.
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인용정보 |
피인용 횟수 :
4 인용 특허 :
48 |
초록
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Certain embodiments of the present invention are methods for the organization of trapping-set profiles in ROM and for the searching of those profiles during (LDPC) list decoding. Profiles are ranked by dominance, i.e., by their impact on the error-floor characteristics of a decoder. More-dominant tr
Certain embodiments of the present invention are methods for the organization of trapping-set profiles in ROM and for the searching of those profiles during (LDPC) list decoding. Profiles are ranked by dominance, i.e., by their impact on the error-floor characteristics of a decoder. More-dominant trapping-set profiles contain information about both unsatisfied check nodes (USCs) and mis-satisfied check nodes (MSCs), while less-dominant trapping-set profiles contain information about only USCs. Trapping-set profile information is organized into a number of linked, hierarchical data tables which allow for the rapid location and retrieval of most-dominant matching trapping-set profiles using a pointer-chase search.
대표청구항
▼
1. A method for decoding encoded data encoded using a graph-based code, the method comprising: (a) decoding the encoded data to generate a candidate decoded codeword; and(b) performing, if the candidate decoded codeword is not a decoded correct codeword, a trapping-set (TS)-ROM list decoding method
1. A method for decoding encoded data encoded using a graph-based code, the method comprising: (a) decoding the encoded data to generate a candidate decoded codeword; and(b) performing, if the candidate decoded codeword is not a decoded correct codeword, a trapping-set (TS)-ROM list decoding method to attempt to generate the decoded correct codeword, wherein: the candidate decoded codeword has at least one unsatisfied check node, wherein an unsatisfied check node is a check node that fails a parity check;the TS-ROM list decoding method accesses one or more TS profiles stored in ROM memory;a first stored TS profile stored in the ROM memory comprises stored information for at least one unsatisfied check (USC) node and stored information for at least one mis-satisfied check (MSC) node, wherein an MSC node is a check node that (i) is associated with erroneous bit nodes (EBNs) and (ii) satisfies the parity check; anda second stored TS profile stored in the ROM memory is associated with a trapping set having one or more USC nodes and one or more MSC nodes, wherein the second stored TS profile comprises stored information for the one or more USC nodes, but does not contain information about the one or more MSC nodes. 2. The invention of claim 1, wherein the first stored TS profile is associated with a trapping set that is more dominant than the trapping set of the second stored TS profile. 3. The invention of claim 1, wherein the TS-ROM list decoding method comprises: (b1) identifying one or more EBNs associated with the at least one USC node in the candidate decoded codeword;(b2) identifying, if (i) the candidate decoded codeword has one or more MSC nodes and (ii) the ROM memory contains information regarding the one or more MSC nodes, one or more EBNs associated with the one or more MSCs;(b3) modifying the identified EBNs; and(b4) performing further processing, wherein: if step (b2) identifies one or more EBNs, then the further processing comprises performing a syndrome check on the modified candidate decoded codeword; andif step (b2) does not identify one or more EBNs, then the further processing comprises decoding modified encoded data. 4. The invention of claim 1, where the graph-based code is a Low-Density Parity Check (LDPC) code. 5. The invention of claim 1, wherein: for each unsatisfied check node in a TS profile, the TS profile comprises: a decoding layer in which the unsatisfied check node is located;an index for the unsatisfied check node (USC) within the decoding layer; andone or more indices for one or more erroneous bit nodes (EBNs) associated with the unsatisfied check node; andfor each mis-satisfied check node in a TS profile, the TS profile comprises: location information for one or more erroneous bit nodes associated with the mis-satisfied check node. 6. The invention of claim 5, wherein: the ROM memory comprises a plurality of stored TS profiles;the decoding layers, USC indices, and EBN indices for the plurality of stored TS profiles are stored in a first table; andthe location information for the erroneous bit nodes associated with mis-satisfied check nodes is stored in a second table. 7. The invention of claim 6, wherein the ROM memory further comprises a third table and a fourth table, wherein: the third table identifies addresses in the second table of the location information for the erroneous bit nodes associated with mis-satisfied check nodes for a matched TS profile;for each group of stored TS profiles having the same number of unsatisfied check nodes in the first table, the fourth table identifies: (i) a start address in the first table for the group of stored TS profiles;(ii) a number of TS profiles in the group having location information related to mis-satisfied check nodes; and(iii) a start address in the third table for the group of stored TS profiles. 8. The invention of claim 6, wherein: the stored TS profiles are grouped in the first table based on number of unsatisfied check nodes in the stored TS profiles;the stored TS profiles in each group of stored TS profiles having the same number of unsatisfied check nodes are ordered by TS profile dominance, wherein dominance of a TS profile is dependent on the effect the associated trapping set has on error-floor characteristics for the decoding of step (a). 9. The invention of claim 8, wherein, for each TS profile having multiple unsatisfied check nodes: the unsatisfied check nodes are grouped in the TS profile by decoding layer; andthe unsatisfied check nodes in a group of unsatisfied check nodes having the same decoding layer are arranged by USC index. 10. An apparatus for decoding encoded data encoded using a graph-based code, the apparatus comprising: (a) a decoder adapted to decode the encoded data to generate a candidate decoded codeword; and(b) a post-processor adapted to perform, if the candidate decoded codeword is not a decoded correct codeword, a trapping-set (TS)-ROM list decoding method to attempt to generate the decoded correct codeword, wherein: the candidate decoded codeword has at least one unsatisfied check node, wherein an unsatisfied check node is a check node that fails a parity check;the TS-ROM list decoding method accesses one or more TS profiles stored in ROM memory;a first stored TS profile stored in the ROM memory comprises stored information for at least one unsatisfied check (USC) node and stored information for at least one mis-satisfied check (MSC) node, wherein an MSC node is a check node that (i) is associated with erroneous bit nodes (EBNs) and (ii) satisfies the parity check; anda second stored TS profile stored in the ROM memory is associated with a trapping set having one or more USC nodes and one or more MSC nodes, wherein the second stored TS profile comprises stored information for the one or more USC nodes, but does not contain information about the one or more MSC nodes. 11. The invention of claim 10, wherein the first stored TS profile is associated with a trapping set that is more dominant than the trapping set of the second stored TS profile. 12. The invention of claim 10, wherein, for the TS-ROM list decoding method, the post-processor: (b1) identifies one or more EBNs associated with the at least one USC node in the candidate decoded codeword;(b2) identifies, if (i) the candidate decoded codeword has one or more MSC nodes and (ii) the ROM memory contains information regarding the one or more MSC nodes, one or more EBNs associated with the one or more MSCs;(b3) modifies the identified EBNs; and(b4) performs further processing, wherein: if the post-processor identifies one or more EBNs associated with the one or more MSCs, then the post-processor performs a syndrome check on the modified candidate decoded codeword; andif the post-processor does not identify one or more EBNs associated with the one or more MSCs, then the post-processor decodes modified encoded data. 13. The invention of claim 10, where the graph-based code is a Low-Density Parity Check (LDPC) code. 14. The invention of claim 10, wherein: for each unsatisfied check node in a TS profile, the TS profile comprises: a decoding layer in which the unsatisfied check node is located;an index for the unsatisfied check node (USC) within the decoding layer; andone or more indices for one or more erroneous bit nodes (EBNs) associated with the unsatisfied check node; andfor each mis-satisfied check node in a TS profile, the TS profile comprises: location information for one or more erroneous bit nodes associated with the mis-satisfied check node. 15. The invention of claim 14, wherein: the ROM memory comprises a plurality of stored TS profiles;the decoding layers, USC indices, and EBN indices for the plurality of stored TS profiles are stored in a first table; andthe location information for the erroneous bit nodes associated with mis-satisfied check nodes is stored in a second table. 16. The invention of claim 15, wherein the ROM memory further comprises a third table and a fourth table, wherein: the third table identifies addresses in the second table of the location information for the erroneous bit nodes associated with mis-satisfied check nodes for a matched TS profile;for each group of stored TS profiles having the same number of unsatisfied check nodes in the first table, the fourth table identifies: (i) a start address in the first table for the group of stored TS profiles;(ii) a number of TS profiles in the group having location information related to mis-satisfied check nodes; and(iii) a start address in the third table for the group of stored TS profiles. 17. The invention of claim 15, wherein: the stored TS profiles are grouped in the first table based on number of unsatisfied check nodes in the stored TS profiles;the stored TS profiles in each group of stored TS profiles having the same number of unsatisfied check nodes are ordered by TS profile dominance, wherein dominance of a TS profile is dependent on the effect the associated trapping set has on error-floor characteristics for the decoder. 18. The invention of claim 17, wherein, for each TS profile having multiple unsatisfied check nodes: the unsatisfied check nodes are grouped in the TS profile by decoding layer; andthe unsatisfied check nodes in a group of unsatisfied check nodes having the same decoding layer are arranged by USC index.
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