Add to ORKGThis paper proposes a framework for a low-power design of flexible multi-standard channel decoders which are the most computational demanding blocks of modern communication systems. A power-efficient design envisages hardware level techniques to reduce static power consumption and algorithmic level technique to early stop the iterative decoding when the received information is estimated to be correct. Particularly, the paper focuses on two different stopping rules for Turbo codes which are well-suited for a multi-standard scenario. Simulation results indeed show an achievable power saving ranging from 50% to 80%
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
From the methodological point of view, the design of efficient channel decoders for wireless applica...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
From the methodological point of view, the design of efficient channel decoders for wireless applica...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
This paper proposes a framework for a low-power design of flexible multi-standard channel decoders w...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceIn today's digital baseband implementation, energy efficiency, flexibility, hi...
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
International audienceLow-density-parity-check codes decoding relies on powerful iterative algorithm...
From the methodological point of view, the design of efficient channel decoders for wireless applica...