Recent analog implementations of channel decoders, which are used to decode powerful error correcting schemes, have shown promising results for lower-power consumption and higher-speed than their digital counterparts. This work presents the implementation of an analog trellis decoder that takes advantage of the high-speed features of SiGe HBTs. Its fast error correcting capability of 20 nsec outperforms relevant analog decoders and digital decoders, as well. The simulated total throughput of the decoder, including the delay time introduced by the input and the output interfaces, is 55.55 Mbit/s for a total latency of 180 nsec. The energy consumption per decoding bit is 8.57 nJ/b for a total power consumption of 476 mW. The design is based on AMS 0.35μm SiGe BiCMOS process.
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