The effect of parallelism on Bit Error Rate (BER) performance of Turbo Code (TC) and Self Concatenated Convolutional Code (SECCC) with different levels of parallelism and frame sizes is investigated. Next Iteration Initialization (NII) method is employed for mitigating the BER degradation resulting from increased parallelism. In order to analyze and compare the architectural performance of both schemes, this paper presents the Very High Speed Integrated Circuit Hardware Description Language (VHDL) design of Maximum Aposteriori Probability (MAP) decoder for TC and SECCC, both employing the same constituent code. The simulation results show that for BER of 10−4, without parallelism, TC is 0.4 dB superior to SECCC, whereas, with parallelism of...
The symbol-by-symbol maximum a posteriori (MAP) known also as BCJR algorithm is described. The logar...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
Abstract—Iterative decoding of convolutional turbo code (CTC) has a large memory power consumption. ...
International audienceParallel turbo decoding is becoming mandatory in order to achieve high through...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
This tutorial paper gives an overview of thei mplementation aspects related to turbo decoders, where...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
This paper proposes a SIMD technique to implement efficiently the Max-Log-MAP algorithm on a DSP [2]...
Abstract—Soft-input soft-output (SISO) maximum a-posteriori (MAP) decoders for convolutional codes (...
Abstract- This paper presents a novel high-speed maximum a posteriori (MAP) decoder architecture wit...
The complete design of a new high throughput adaptive turbo decoder is described. The developed syst...
The introduction of turbo codes in 1993 was a breakthrough in constructing error correction codes th...
The symbol-by-symbol maximum a posteriori (MAP) known also as BCJR algorithm is described. The logar...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
Abstract—Iterative decoding of convolutional turbo code (CTC) has a large memory power consumption. ...
International audienceParallel turbo decoding is becoming mandatory in order to achieve high through...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
This tutorial paper gives an overview of thei mplementation aspects related to turbo decoders, where...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
This paper proposes a SIMD technique to implement efficiently the Max-Log-MAP algorithm on a DSP [2]...
Abstract—Soft-input soft-output (SISO) maximum a-posteriori (MAP) decoders for convolutional codes (...
Abstract- This paper presents a novel high-speed maximum a posteriori (MAP) decoder architecture wit...
The complete design of a new high throughput adaptive turbo decoder is described. The developed syst...
The introduction of turbo codes in 1993 was a breakthrough in constructing error correction codes th...
The symbol-by-symbol maximum a posteriori (MAP) known also as BCJR algorithm is described. The logar...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
Abstract—Iterative decoding of convolutional turbo code (CTC) has a large memory power consumption. ...