In this paper, we present two new hardware architectures for Turbo Code decoding that combine functional, spatial and iteration parallelism. Our first architecture is the first fully pipelined iteration unrolled architecture that supports multiple frame sizes. This frame flexibility is achieved by providing a set of interleavers designed to achieve a hardware implementation with a reduced routing overhead. The second architecture efficiently utilizes the dynamics of the error rate distribution for different decoding iterations and is comprised of two stages. First, a fully pipelined iteration unrolled decoder stage applied for a pre-determined number of iterations and a second stage with an iterative afterburner-decoder activated only for f...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
International audienceIn turbo decoding of product codes, we propose an algorithm implementation, ba...
International audienceIn this paper, we present two new hardware archi-tectures for Turbo Code decod...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
Turbo codes are a well-known code class used for example in the LTE mobile communications standard. ...
International audienceTurbo codes are a well-known code class used for example in the LTE mobile com...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
International audienceEmerging digital communication applications and the underlying architectures e...
International audienceArchitecture efficiency, in terms of performance/area, of application-specific...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
Abstract—This paper introduces a turbo decoder that utilizes multiple soft-in/soft-out (SISO) decode...
Parallel implementations of Turbo decoding has been studied extensively. Traditionally, the number o...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
International audienceIn turbo decoding of product codes, we propose an algorithm implementation, ba...
International audienceIn this paper, we present two new hardware archi-tectures for Turbo Code decod...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
Turbo codes are a well-known code class used for example in the LTE mobile communications standard. ...
International audienceTurbo codes are a well-known code class used for example in the LTE mobile com...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
International audienceEmerging digital communication applications and the underlying architectures e...
International audienceArchitecture efficiency, in terms of performance/area, of application-specific...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
Abstract—This paper introduces a turbo decoder that utilizes multiple soft-in/soft-out (SISO) decode...
Parallel implementations of Turbo decoding has been studied extensively. Traditionally, the number o...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
International audienceIn turbo decoding of product codes, we propose an algorithm implementation, ba...