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I am trying to build a model to compare the input for a particular bit pattern.

For example, if I have to check for input pattern 1110, I build a model with 3 delay elements get the input and Concatenate it and then use a comparator to compare with 14(Hex E).

Currently, I need to do a pattern matching for 128 bits. Going by previous instance, I can ideally build the similar model of using 127 Delay elements and compare Blocks.

But I would like to know if there is a optimal and "better" way to do it.

Looking forward to some suggestion in this regard.

If you are interested, here is the small model I built to extract 8 bits: Extact 8 Bits

Concat 8 bits

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1 Answer 1

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What you have described is a fine generic approach - it assumes nothing about the patterns you want to detect.

You might be able to do something different if the pattern is (for example) a long string of 1s then 0s (create counters to count those lengths and flag a match if the counters reach the right values)

I think you could make your diagram a little easier (maybe) if you created a block with the z^-1 and concat inside. Then when you pass in the input, you can delay it and concat it with the previous stage's output (also passed in).

As another aside, this is trivially described in VHDL as a shift register (one line of code) and a matcher (another line of code).

You could build a similar thing in an m-code block (in a similar couple of lines), using persistent variables for registers, but if you want to instantiate more than one instance of the block you're out-of-luck as the persistent storage is shared across them!

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Thanks, I will try the first approach having a hierarchal block structure with delay elements with concat blocks. m-code block is a wonderful idea. But still we need to have have 127 Delay elements right ? VHDL would have been a wonderful solution –  Kiran May 27 '11 at 13:40
    
There is one more possibility as you mentioned. I am looking for a pattern of 128bits which are actually scrambled. So you basically scramble all 1's passing through a scrambler with a predefined seed content. So, I could also descramble it and use the approach you have mentioned in your answer(to count the number of 1's using the counter). I will try this approach also. Reference : standards.ieee.org/getieee802/download/802.11b-1999.pdf –  Kiran May 27 '11 at 14:25
    
de-scrambler - yes, that could work well if you don't have to recognise a dynamic pattern. –  Martin Thompson May 27 '11 at 19:46

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