999 B
Data card
The data card deals with binary data, thus there must be a simple format.
Hamming ECC
Each nibble (4-bit sequence) uses a Hamming (7, 4) code encoded in 1 byte, with the ability to detect 2 bit errors (but not correct them)
Given N bytes to encode, the final encoded output will take 2N bytes. This also means when decoding, the length must be even.
A byte is split into 2 nibbles, with the one comprised of the lowest bits first. Each nibble is ECC encoded separately. In a nibble there are 4 bits d0, d1, d2 and d3, where dN refers to the bit with value 2^N (2 to the N). In the output, there are p0, p1, p2, p3 bits, where p1 and above represent hamming code parity data, and p0 is a parity check on the whole block.
Nibble arrangement
| d0 | d1 | d2 | d3 |
Hamming code arrangement
| p0 | p1 | p2 | d0 |
| p3 | d1 | d2 | d3 |
This creates a fairly generic hamming code structure. Do note that p0 is the bit for checking the whole block's parity.