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Hamming It Up with Hamming Codes CSE 461 Section Week 3.

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Presentation on theme: "Hamming It Up with Hamming Codes CSE 461 Section Week 3."— Presentation transcript:

1 Hamming It Up with Hamming Codes CSE 461 Section Week 3

2 Error Detection/Correction  We want to know when there are errors in communication  Correcting errors would be even better! Why?  It’d save lots of time  What are some ways we can correct errors?  Send data multiple times  Send longer symbols  Send data with the payload that’s a function of the payload  E.g., parity bits

3 Parity Bits  Problem  We want to send 1101  Last bit gets flipped  1100 is sent instead  How can we detect this?  Add another bit at the end: the sum (without carry) of all the bits  So instead of 1101 we send…  11011  If 11001 is received, we know that it’s wrong—how?  The parity bit for 1100 should be 0, but it’s not… something was flipped!  Even and odd parity

4 Error Detection/Correction  Parity bits don’t let us correct errors (by themselves)  Can we do any better?  What’s the best way to detect and correct?

5 Hamming Codes: Background  Richard Hamming  Worked at Bell Labs  Developed Hamming Codes to save time on punchcard reading errors  Mixed message bits and parity bits to detect and correct specific errors  Hamming codes now used for network communications as well as hard drive RAIDs

6 Hamming Codes: How They Work 00100101100 Bits in 1, 2, 4, 8, etc. positions are parity bits All other bits are message bits

7 Hamming Codes: How They Work We want to send 1011100 We put its message bits into the non-2 n places, like so: ? ? 1 ? 0 1 1 ? 1 0 0 P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11

8 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 Each message bit is added to the parity bits that sum up to that message bit’s place For m 3, 3 = 2 + 1, so we add to p 1 and p 2 P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

9 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 For m 5, 5 = 4 + 1, so we add to p 4 and p 1 But m 5 = 0, so we don’t add anything P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

10 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 For m 6, 6 = 4 + 2, so we add to p 4 and p 2 P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

11 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 For m 7, 7 = 4 + 2 + 1, so we add to p 4, p 2 and p 1 P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

12 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 What would we do for m 9 ? 9 = 8 + 1, so we add to p 8 and p 1 P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

13 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 What would we do for m 10 ? 10 = 8 + 2, so we add to p 8 and p 2 But m 10 = 0, so we don’t add anything P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

14 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 What would we do for m 11 ? 11 = 8 + 2 + 1, so we add to p 8, p 2 and p 1 But m 11 = 0, so we don’t add anything P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

15 Hamming Codes: How They Work ? ? 1 ? 0 1 1 ? 1 0 0 Now we add up all of the parity bits What would each one be? (Even parity) P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

16 Hamming Codes: How They Work 1 ? 1 ? 0 1 1 ? 1 0 0 Now we add up all of the parity bits What would each one be? (Even parity) P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

17 Hamming Codes: How They Work 1 1 1 ? 0 1 1 ? 1 0 0 Now we add up all of the parity bits What would each one be? (Even parity) P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

18 Hamming Codes: How They Work 1 1 1 0 0 1 1 ? 1 0 0 Now we add up all of the parity bits What would each one be? (Even parity) P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

19 Hamming Codes: How They Work 1 1 1 0 0 1 1 1 1 0 0 Now we add up all of the parity bits What would each one be? (Even parity) P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 +1

20 Hamming Codes  So we get 11100111100 as our bit string to send  The receiver can recalculate the parity bits and make sure they match

21 Error Syndromes The sender sent 11100111100 but what if we received 11000111100 ? Can we correct this?

22 Error Syndromes 1 1 0 0 0 1 1 1 1 0 0 P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 Recalculate parity bits and you get the numbers in blue: 0 0 0 1 (We know there’s an error because we didn’t get 1101)

23 Error Syndromes 1 1 0 0 0 1 1 1 1 0 0 P 1 p 2 m 3 p 4 m 5 m 6 m 7 p 8 m 9 m 10 m 11 Add calculated parity bits to parity bits in received data: 0 0 0 1 =1 =1 =0 =0 Then reverse the sum and it will tell you the bit in error: 0011 -> third bit is wrong!

24 Now, you try! Decode this ASCII message (0b1000001 = 65 = ‘A’) 1011 0101 000 1111 0011 001 1100 0001 111 There may be bit errors! Assume each line encodes one byte of message data. (I.e., pad with a leading zero.)

25 1011 0101 000 1111 0011 001 1100 0001 111 Answers 1011 0100 000 1111 0011 001 1110 0001 111 Correct errors Extract message bits 1010 000 1001 001 1000 111 Convert to ASCII PIG

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