In this paper, a novel current-mode approach is proposed for implementing basic building blocks of an analog iterative decoder. The decoder is based on the so-called min-sum algorithm (also referred to as max-sum or max-product) and can be used to decode powerful coding schemes such as low-density paritycheck (LDPC) codes and turbo codes. The proposed circuits can be implemented by standard CMOS technology, which means lower fabrication cost and/or simpler design compared to previously reported analog iterative decoders that are based on BiCMOS or sub-threshold CMOS technology. To demonstrate the functionality of the proposed design, simulation results based o
In this work we present a full analog turbo decoder for hard-disk EPR-IV read channels in CMOS techn...
Journal ArticleA method is presented for analog softdecision decoding of block product codes (block ...
This paper presents the FPGA implementation of a number of popular decoding algorithms for a regular...
In this paper, a novel current-mode approach is proposed for implementing basic building blocks of a...
A novel current-mode approach is proposed for implementing basic building blocks of an analog iterat...
Current-mode circuits are presented for implementing analog min-sum (MS) iterative decoders. These d...
Current-mode circuits are presented for implementing analog min-sum (MS) iterative decoders. Propose...
IN THIS THESIS, the concept of analog decoding as a power-saving implementation alternative to the t...
Abstract- Analog iterative decoders offer several advantages-over their digital counterparts in term...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
This paper is concerned with the implementation of iterative decoding algorithms in analog VLSI. We ...
Abstract—A margin propagation (MP) algorithm that can be used for implementing analog decoders for l...
In this work, we consider a class of structured regular LDPC codes, called Turbo-Structured LDPC (TS...
This letter is concerned with the implementation of iterative decoding algorithms in analog integrat...
International audienceBased on multiple-slice turbo codes, a novel semi-iterative analog turbo decod...
In this work we present a full analog turbo decoder for hard-disk EPR-IV read channels in CMOS techn...
Journal ArticleA method is presented for analog softdecision decoding of block product codes (block ...
This paper presents the FPGA implementation of a number of popular decoding algorithms for a regular...
In this paper, a novel current-mode approach is proposed for implementing basic building blocks of a...
A novel current-mode approach is proposed for implementing basic building blocks of an analog iterat...
Current-mode circuits are presented for implementing analog min-sum (MS) iterative decoders. These d...
Current-mode circuits are presented for implementing analog min-sum (MS) iterative decoders. Propose...
IN THIS THESIS, the concept of analog decoding as a power-saving implementation alternative to the t...
Abstract- Analog iterative decoders offer several advantages-over their digital counterparts in term...
A new current-mode maximum winner-take-all (Max WTA) circuit is presented. Inputs and output of the ...
This paper is concerned with the implementation of iterative decoding algorithms in analog VLSI. We ...
Abstract—A margin propagation (MP) algorithm that can be used for implementing analog decoders for l...
In this work, we consider a class of structured regular LDPC codes, called Turbo-Structured LDPC (TS...
This letter is concerned with the implementation of iterative decoding algorithms in analog integrat...
International audienceBased on multiple-slice turbo codes, a novel semi-iterative analog turbo decod...
In this work we present a full analog turbo decoder for hard-disk EPR-IV read channels in CMOS techn...
Journal ArticleA method is presented for analog softdecision decoding of block product codes (block ...
This paper presents the FPGA implementation of a number of popular decoding algorithms for a regular...