# Simple error checking to replace repetition code in flash

I have a 16 bit field in flash memory in which to store an 8-bit number (more specifically, a value in the closed range from 0 to 254). I'd like to use the extra 8+ bits for error checking (error correction not needed), and the most obvious approach is simply repeat the value twice. Only slightly less obvious is the XMODEM packet number approach: store the number in the first octet, and 255 minus the number in the second octet.

Are there any better options that will provide more robust error detection in the available space and that are simple to implement and fast to execute? Perhaps the fact that flash bits are more likely to go from 1 to 0 than 0 to 1 can be taken advantage of?

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Whoever voted down, it would be much more useful if you also explained why. If you think this is the wrong forum and can suggest a better one, that would also be useful. – sh1ftst0rm Jan 29 '13 at 17:53

Note up front: I think the XMODEM approach is reasonable, so I'd take that and get to work on something more important. Anyhow, you tagged this question with algorithm, so you can also approach this in a way that proves this...

Since you want error detection, the most important part is that any changing a single bit can be detected, so two representations of the number must not be just a single bit apart, preferable they are as far apart as possible. Further, not every change to a bit is equally likely to occur.

If you model this as a graph, you will get vertices identified by a 16-bit number and directed edges between two vertices that define the probability of that transition. This will be a complete graph, so think about how you store it (if you store it at all instead of computing it on demand). What you are now searching for is a circular path of exactly 255 vertices with a maximum weight.

For that, just search for any circular path with 255 vertices, using DFS with a tendency to heavy edges. From this circle, take its lightest edge and remove all non-heavier edges from the graph. Then, repeat searching for a graph in the resulting (possibly disconnected!) graph, until you can't find one any more.

Finally, map your input values to vertex IDs of (one of) the remaining circles to store them in your flash memory.

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Very nice description, thanks! – sh1ftst0rm Jan 30 '13 at 12:55
Shouldn't it be minimum weight though? I want the set of codewords (vertices) that are most unlikely to transform into one another, so that would be the lowest set of probabilities. – sh1ftst0rm Jan 30 '13 at 13:15
You are right, I wrote probability of transition while I was thinking resistance to change. BTW: It occurred to me later that this is actually a linear search for the weight limit, but I think you could also do a binary search, reducing the number of steps. – Ulrich Eckhardt Jan 30 '13 at 17:37

If I understand your dilemma correctly, you are trying to detect the bits fading away because you are using a flash memory. Problem is if they go away in one octet, then they'll go away in the others too. So that tells you that simply replicating isn't going to work.

Personally, I would negate the number and store that. In that way, if the value was 1 for example (which is mostly zeros), you would use 11111110 (which is mostly ones) so data fading away will be obvious.

The problem gets a lot thicker if the degradation is really bad to where the data approaches all zeros. So using a negation will help a lot because there's no case where all the data should be zeros.

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