We propose a two-phase successive cancellation (TPSC) decoder architecture for polar codes that exploits the array-code property of polar codes by breaking the decoding of a length-TV polar code into a series of length-√ L decoding cycles. Each decoding cycle consists of two phases: a first phase for decoding along the columns and a second phase for decoding along the rows of the code array. The reduced decoder size makes it more affordable to implement the core decoder logic using distributed memory elements consisting of flip-flops (FFs), as opposed to slower random access memory (RAM), leading to a speed up in clock frequency. To minimize the circuit complexity, a single decoder unit is used in both phases with minor modifications. The r...
This brief presents a hardware architecture and algorithmic improvements for list successive cancell...
Achieving the attractive error-correcting capability with a simple decoder structure, the polar code...
In this paper, the first transport triggered architecture (TTA) customized for the decoding of polar...
The recently-discovered polar codes are widely seen as a ma-jor breakthrough in coding theory. These...
Abstract—Polar codes, discovered by Arıkan, are the first error-correcting codes with an explicit co...
Polar codes are one of the best linear block codes that are capacity achieving and incorporating alo...
Polar code is the first channel code which is provable to achieve the Shannon capacity. Additionally...
Polar codes are a new class of forward error-correcting codes recently discovered by Arıkan. They ar...
With its low error-floor performance, polar codes attract significant attention as the potential sta...
This paper proposes a high-throughput energy-efficient Successive Cancellation (SC) decoder architec...
Polar code is the first channel code which is provable to achieve the Shannon capacity. Additionally...
Polar codes are a class of codes versatile enough to achieve the Shannon bound in a large array of s...
© 2016 IEEE. Polar codes are regarded as a major breakthrough in modern channel coding since they ar...
Polar codes become one in every of the necessary error correction codes attributable to their capaci...
Error correcting codes are essential in realizing reliable communication over noisy channels. Polar ...
This brief presents a hardware architecture and algorithmic improvements for list successive cancell...
Achieving the attractive error-correcting capability with a simple decoder structure, the polar code...
In this paper, the first transport triggered architecture (TTA) customized for the decoding of polar...
The recently-discovered polar codes are widely seen as a ma-jor breakthrough in coding theory. These...
Abstract—Polar codes, discovered by Arıkan, are the first error-correcting codes with an explicit co...
Polar codes are one of the best linear block codes that are capacity achieving and incorporating alo...
Polar code is the first channel code which is provable to achieve the Shannon capacity. Additionally...
Polar codes are a new class of forward error-correcting codes recently discovered by Arıkan. They ar...
With its low error-floor performance, polar codes attract significant attention as the potential sta...
This paper proposes a high-throughput energy-efficient Successive Cancellation (SC) decoder architec...
Polar code is the first channel code which is provable to achieve the Shannon capacity. Additionally...
Polar codes are a class of codes versatile enough to achieve the Shannon bound in a large array of s...
© 2016 IEEE. Polar codes are regarded as a major breakthrough in modern channel coding since they ar...
Polar codes become one in every of the necessary error correction codes attributable to their capaci...
Error correcting codes are essential in realizing reliable communication over noisy channels. Polar ...
This brief presents a hardware architecture and algorithmic improvements for list successive cancell...
Achieving the attractive error-correcting capability with a simple decoder structure, the polar code...
In this paper, the first transport triggered architecture (TTA) customized for the decoding of polar...