Abstract: A layered decoding architecture with a reduced number of hardware buffers for low-density parity-check (LDPC) decoding by storing a variable-to-check message. When a check node begins a new operation, a variable-to-check message (Q) is added to a check-to-variable message (R) obtained in previous check-node operation to obtain an updated APP value. Then, the R value for the check node in the layer being processed is deducted from the APP value to obtain a variable-to-check message (Q). This variable-to-check message is stored in the memory and inserted into the check node equation to obtain a check-to-variable message. Finally the check-to-variable message obtained in this operation is stored to the check-to-variable message shift register to complete the updating operation for the check node and the variable node for the layer being processed. Improved hardware utilization and fewer buffers, thus achieving a smaller hardware area while retaining the converge speed, is obtained.

Abstract: A layered decoding architecture with a reduced number of hardware buffers for low-density parity-check (LDPC) decoding by storing a variable-to-check message. When a check node begins a new operation, a variable-to-check message (Q) is added to a check-to-variable message (R) obtained in previous check-node operation to obtain an updated APP value. Then, the R value for the check node in the layer being processed is deducted from the APP value to obtain a variable-to-check message (Q). This variable-to-check message is stored in the memory and inserted into the check node equation to obtain a check-to-variable message. Finally the check-to-variable message obtained in this operation is stored to the check-to-variable message shift register to complete the updating operation for the check node and the variable node for the layer being processed. Improved hardware utilization and fewer buffers, thus achieving a smaller hardware area while retaining the converge speed, is obtained.