In this paper, we demonstrate how the development of parallel hardware architectures for turbo decoding can be continued to achieve a throughput of more than 100 Gb/s. A new, fully pipelined architecture shows better error correcting performance for high code rates than the fully parallel ap-proaches known from the literature. This is demonstrated by comparing both architectures for a frame size K = 128 LTE turbo code and a frame size K = 128 turbo code with parity puncture constrained interleaving. To the best of our knowledge, an investigation of the error correcting performance at high code rates of fully parallel decoders is missing from the literature. Moreover, place & route results for a case study implementation of the new architect...
Parallel implementations of Turbo decoding has been studied extensively. Traditionally, the number o...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
Turbo codes facilitate near-capacity transmission throughputs by achieving a reliable iterative forw...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
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...
Turbo-Codes are among the most advanced channel coding schemes and are already part of the 3rd Gener...
International audienceEmerging digital communication applications and the underlying architectures e...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
The remarkable performance of the turbo codes in terms of their error correcting capabilities, and t...
International audienceArchitecture efficiency, in terms of performance/area, of application-specific...
International audienceA full-parallel architecture for turbo decoding, which achieves ultra high dat...
Parallel implementations of Turbo decoding has been studied extensively. Traditionally, the number o...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
Turbo codes facilitate near-capacity transmission throughputs by achieving a reliable iterative forw...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
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...
Turbo-Codes are among the most advanced channel coding schemes and are already part of the 3rd Gener...
International audienceEmerging digital communication applications and the underlying architectures e...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
The remarkable performance of the turbo codes in terms of their error correcting capabilities, and t...
International audienceArchitecture efficiency, in terms of performance/area, of application-specific...
International audienceA full-parallel architecture for turbo decoding, which achieves ultra high dat...
Parallel implementations of Turbo decoding has been studied extensively. Traditionally, the number o...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
Turbo codes facilitate near-capacity transmission throughputs by achieving a reliable iterative forw...