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Reconfigurable Computing (EN2911X, Fall07) Lecture 17: Application-Driven Hardware Acceleration (3/4). Prof. Sherief Reda Division of Engineering, Brown University http://ic.engin.brown.edu. Viterbi algorithm.
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Reconfigurable Computing (EN2911X, Fall07) Lecture 17: Application-Driven Hardware Acceleration (3/4) Prof. Sherief Reda Division of Engineering, Brown University http://ic.engin.brown.edu
Viterbi algorithm • A dynamic programming algorithm for finding the most likely sequence of hidden states, the Viterbi path, that results in a sequence of observed events. • Originally devised by Andrew Viterbi in 1967 as an error-correction scheme for noisy digital communication links. • Widely used in decoding the convolutional codes for both CDMA and GSM digital cellular, dial-up modems, satellite, deep-space communications and 802.11 wireless LANs. Also used in speech recognition, computational linguistics, and bioinformatics.
1. Encoding using convolution codes O1 + u1 u0 u-1 u-2 + O2 • Each input bit is coded onto 2 output bits. • The 2 outputs bits are produced by using modulo-2 adders. The selection of which bits are to be added to produce an output bit is called the generating polynomial • O1 = (u0+u1+u-1+u-2)mod 2 • O2 = (u1+u0+u-2) mod 2
Example Assume the input sequence is 1011 What is the output? 11 11 01 11 01 01 11 Example by C. Langton
State transition graph representation O1O2=00 O1O2=11 O1O2=00 O1O2=00 O1O2=01 O1O2=10 O1O2=01 O1O2=10 de Bruijn graph. Not all outputs are shown
Trellis diagram Not all transitions are shown
Output of the encoder for various inputs • How can we devise a good generating polynomial? • Let’s say we receive 01 11 01 11 01 01 11. It is not one of the possible 16 sequences. How do we decode it?
01 11 01 11 01 01 11 cost 000 001 010 011 100 101 110 111 2. Decoding received sequences using the Viterbi algorithm Let’s decode the received sequence 01 11 01 11 01 01 11 00 1 11 1
01 11 01 11 01 01 11 cost 000 001 010 011 100 101 110 111 2nd step Let’s decode the received sequence 0111 01 11 01 01 11 00 00 3 11 11 1 11 1 00 3
01 11 01 11 01 01 11 cost 000 001 010 011 100 101 110 111 01 00 10 11 01 00 11 10 3rd step Let’s decode the received sequence 01 11 01 11 01 01 11 00 00 4 3 11 11 2 11 3 4 00 1 2 5
01 11 01 11 01 01 11 cost 000 001 010 011 100 101 110 111 01 00 01 00 11 11 10 11 00 01 10 10 00 10 11 10 4th step Let’s decode the received sequence 01 11 01 11 01 01 11 00 00 min(3, 6) 3 11 11 3 11 4 4 00 3 1 3 A any step, there is only one path from the initial state to any state. In case more than one path converge to a node, always pick the minimum
01 11 01 11 01 01 11 cost 000 001 010 011 100 101 110 111 00 00 01 11 11 11 01 01 10 10 01 01 11 11 10 10 01 00 11 01 10 11 11 5th step Let’s decode the received sequence 01 11 01 11 01 01 11 00 00 4 4 11 11 5 11 1 4 00 3 4 3
01 11 01 11 01 01 11 cost 000 001 010 011 100 101 110 111 00 10 01 11 11 01 10 11 11 11 01 01 10 11 01 11 01 00 01 10 01 00 11 10 6th step Let’s decode the received sequence 01 11 01 11 01 01 11 00 00 4 1 11 11 4 11 4 4 00 3 5 3
01 11 01 11 01 01 11 cost 000 001 010 011 100 101 110 111 11 10 01 11 00 11 10 11 00 11 10 01 01 11 11 01 11 01 01 01 10 11 01 00 10 11 Finally 00 00 1 5 11 11 6 11 6 3 00 5 3 4 • Winner path is 000, 100, 010, 101, 110, 011, 001, 000 with input sequence 1011000 • What is runtime using SW on a general-purpose CPU? • What is the runtime using an FPGA?
Summary • So far we have covered popular application-driven algorithms to accelerate in FPGAs • FFT for signal and image processor as an example of divide and conquer algorithms • Speech recognition applications • Viterbi algorithm for digital communication as an example of dynamic programming algorithms • Next time, we cover some popular algorithms for bioinformatics
Project updates • 2nd project report extended until Sunday Dec 2nd. Make sure to add the new material to the content of the 1st report. The new report is worth 10 points. Main evaluation criterion is your progress on the project plan you outlined in the first report. • How thorough and creative your ideas develop? • How meticulous is the experimental setup? • How do the carried out experiments serve towards the project goals? • Make sure to also send me a couple of slides by Monday Dec 3rd to present on Tuesday Dec 4th (last lecture)