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Published Articles >> Table of Contents >> Abstract
39th Design Automation Conference (DAC'02)
p. 263
Design of a High-Throughput Low-Power IS95 Viterbi Decoder
Xun Liu, University of Michigan, Ann Arbor
Marios C. Papaefthymiou, University of Michigan, Ann Arbor
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DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/DAC.2002.1012633
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The design of high-throughput large-state Viterbi decoders relies on the use of multiple arithmetic units. The global communication channels among these parallel processors often consist of long interconnect wires, resulting in large area and high power consumption. In this paper, we propose a data-transfer oriented design methodology to implement a low-power 256-state rate-1/3 IS95 Viterbi decoder. Our architectural level scheme uses operation partitioning, packing, and scheduling to analyze and optimize interconnect effects in early design stages. In comparison with other published Viterbi decoders, our approach reduces the global data transfers by up to 75% and decreases the amount of global buses by up to 48%, while enabling the use of deeply pipelined datapaths with no data forwarding. In the RTL implementation of the individual processors, we apply precomputation in conjunction with saturation arithmetic to further reduce power dissipation with provably no coding performance degradation. Designed using a 0.25 µm standard cell library, our decoder achieves a throughput of 20 Mbps in simulation and dissipates only 450 mW.
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 Additional Information
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Index Terms- Communications, Pipelining, Bus reduction
Citation:
Xun Liu, Marios C. Papaefthymiou,
"Design of a High-Throughput Low-Power IS95 Viterbi Decoder,"
dac,
p. 263,
39th Design Automation Conference (DAC'02),
2002
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