A modular bit-serial architecture for large-constraint-lengthViterbi decoding |
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Authors: | Bree M.A. Dodds D.E. Bolton R.J. Kumar S. Daku B.L.F. |
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Affiliation: | Commun. Syst. Res. Group, Saskatchewan Univ., Sask.; |
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Abstract: | A node-parallel Viterbi decoding architecture and bit-serial processing and communication are presented. An important aspect of this structure is that short-constraint-length decoders may be interconnected, without loss of throughput, to implement a Viterbi decoder of larger constraint length. The convolutional encoder trellis is modeled by appropriate wiring of decoder processing nodes: a variety of generating codes can be accommodated. Bit-serial communication links between nodes require only a single wire each and thus interconnection area is relatively small. During each decoding cycle, more than 50 b need to be communicated on each serial link and thus the technique is limited to moderate bit rate applications. A constraint length K=4 `proof of concept' chip was developed using 9860 transistors in 3 μm CMOS on a 4.51-mm×4.51-mm die size. The complete circuit operates at 280 kb/s and supports any rate 1/2 or 1/3 code with eight-level soft decision |
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