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A hyper encoder module encodes a block of data having a plurality of sub-blocks. Each sub-block includes a plurality of systematic block code codewords. A parity sub-block is added to the block. The parity sub-block is a first sub-block rotated by a predetermined number of bits. Each subsequent sub

A hyper encoder module encodes a block of data having a plurality of sub-blocks. Each sub-block includes a plurality of systematic block code codewords. A parity sub-block is added to the block. The parity sub-block is a first sub-block rotated by a predetermined number of bits. Each subsequent sub-block in the n-dimensional block is rotated by an appropriate number of bits and bit-wise XORed. An encoder method and apparatus which includes the hyper encoder module receives the block of data. A row of the block is immediately output and encoded by a first module according to a first encoding scheme. A column is encoded by a second module according to a second encoding scheme. A second set of encoded data is generated, iteratively updated and output by the second module. The hyper encoder module hyper-diagonally encodes the information bits as described above and then output.

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What is claimed is: 1. A method of encoding a block of data having n-dimensions received from an input source, the block containing a plurality of information bits, the method comprising the steps of: receiving a row of the block and immediately outputting the row; encoding the information bits in

What is claimed is: 1. A method of encoding a block of data having n-dimensions received from an input source, the block containing a plurality of information bits, the method comprising the steps of: receiving a row of the block and immediately outputting the row; encoding the information bits in the row by an X-axis encoder, thereby forming a first set of encoded data including a first parity data, wherein the first set of encoded data is generated according to a first encoding scheme and stored in a row encode storage array having a plurality of row array bits; outputting the first set of encoded data; resetting the row encode storage array after the first set of encoded data is output, wherein all row array bits are set to zero; encoding the information bits in a column by a Y-axis encoder according to a second encoding scheme, thereby forming a second set of encoded data including a second parity data, wherein the second set of encoded data is generated and iteratively updated according to the information bits in the row, and the Y-axis encoder is separate from the X-axis encoder; hyper-diagonally encoding the information bits in the block by a hyper-axis encoder according to a parity type encoding scheme, thereby forming a hyper set of encoded data comprising a plurality of hyper parity data values, each hyper parity data value is generated according to: the information bits in the row, the information bits in the column, the first parity data, and the second parity data, wherein at least one information bit in the row is located in a different row for the hyper set of encoded data than in the block, and the hyper-axis encoder is separate from the X-axis encoder and the Y-axis encoder; outputting the second set of encoded data after all the information bits and all subsequent first sets of encoded data are outputted; and outputting the hyper set of encoded data. 2. The method of claim 1, wherein the second set of encoded data is encoded according to the first encoding scheme. 3. The method of claim 1, wherein the second set of encoded data is encoded according to the second encoding scheme. 4. The method according to claim 1 wherein the block of data is three dimensional, the block of data including a plane of encoded bits, wherein the plane is orthogonal to the row and the column. 5. The method according to claim 4 further comprising the steps of: a. encoding the information bits in the plane according to a third encoding scheme, wherein a third set of encoded data is generated and iteratively updated corresponding to the information bits in the row; and b. outputting the third set encoded data after all subsequent second sets of encoded data are outputted. 6. The method according to claim 4 wherein the hyper set of encoded data is stored in a hyper parity array, and the hyper parity array is a hyper parity plane. 7. The method according to claim 1 wherein the second set of encoded data is stored in a column encode storage array. 8. The method of claim 7 wherein the Y-axis encoder stores only the second parity data. 9. The method according to claim 1, wherein the hyper set of encoded data is stored in a hyper parity array, wherein the hyper parity array includes a plurality of parity array bits. 10. The method of claim 9, wherein the hyper-axis encoder stores only the hyper parity data values. 11. The method according to claim 9 wherein the step of hyper-diagonally encoding further comprises: a. updating the hyper parity array by iteratively encoding the parity array for the information bits and the first set and the second set of encoded data for each row; and b. rotating the hyper parity array, wherein rotating the hyper parity array comprises relocating a plurality of the parity array bits in the array. 12. The method according to claim 9 further comprising the step of initializing the hyper parity array such that all parity array bits are set to zero, wherein the step of initializing is executed before the information bits are encoded. 13. The method of claim 1, wherein the X-axis encoder stores only the first parity data.