Turbo codes are a well-known code class used for example in the LTE mobile communications standard. They provide built-in rate flexibility and a low-complexity and fast encoding. However, the serial nature of their decoding algorithm makes high-throughput hardware implementations difficult. In this paper, we present recent findings on the implementation of ultra-high throughput Turbo decoders. We illustrate how functional parallelization at the iteration level can achieve a throughput of several hundred Gb/s in 28 nm technology. Our results show that, by spatially parallelizing the half-iteration stages of fully pipelined iteration unrolled decoders into X-windows of size 32, an area reduction of 40% can be achieved. We further evaluate the...
The wide range of code rates and code block sizes supported by todays wireless communication standa...
International audienceParallel turbo decoding is becoming mandatory in order to achieve high through...
Wireless communication at near-capacity transmission throughputs is facilitated by employing sophist...
International audienceTurbo codes are a well-known code class used for example in the LTE mobile com...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
Turbo codes facilitate near-capacity transmission throughputs by achieving a reliable iterative forw...
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 audienceThis paper presents a high-throughput implementation of a portable software tu...
Turbo-Codes are among the most advanced channel coding schemes and are already part of the 3rd Gener...
The wide range of code rates and code block sizes supported by todays wireless communication standa...
International audienceParallel turbo decoding is becoming mandatory in order to achieve high through...
Wireless communication at near-capacity transmission throughputs is facilitated by employing sophist...
International audienceTurbo codes are a well-known code class used for example in the LTE mobile com...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
Turbo codes facilitate near-capacity transmission throughputs by achieving a reliable iterative forw...
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 audienceThis paper presents a high-throughput implementation of a portable software tu...
Turbo-Codes are among the most advanced channel coding schemes and are already part of the 3rd Gener...
The wide range of code rates and code block sizes supported by todays wireless communication standa...
International audienceParallel turbo decoding is becoming mandatory in order to achieve high through...
Wireless communication at near-capacity transmission throughputs is facilitated by employing sophist...