Rahul Shrestha scite author profile

This paper presents architecture of block-level-parallel layered decoder for irregular LDPC code. It can be reconfigured to support various block lengths and code rates of IEEE 802.11n (WiFi) wireless-communication standard. We have proposed efficient comparison techniques for both column and row layered schedule and rejection-based high-speed circuits to compute the two minimum values from multiple inputs required for row layered processing of hardware-friendly min-sum decoding algorithm. The results show good speed with lower area as compared to state-of-the-art circuits. Additionally, this work proposes dynamic multi-frame processing schedule which efficiently utilizes the layered-LDPC decoding with minimum pipeline stages. The suggested LDPC-decoder architecture has been synthesized and post-layout simulated in 90 nm-CMOS process. This decoder occupies 5.19 area and supports multiple code rates like 1/2, 2/3, 3/4 & 5/6 as well as block-lengths of 648, 1296 & 1944. At a clock frequency of 336 MHz, the proposed LDPC-decoder has achieved better throughput of 5.13 Gbps and energy efficiency of 0.01 nJ/bits/iterations, as compared to the similar state-of-the-art works. Index Terms-Data-rate/throughput, IEEE 802.11n (WiFi) wireless-communication standard and very-large scale-integration (VLSI) design, LDPC codes, LDPC-layered decoding.1549-8328

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Fast Sensing-Time and Hardware-Efficient Eigenvalue-Based Blind Spectrum Sensors for Cognitive Radio Network

Chaurasiya

Shrestha

2020

IEEE Trans. Circuits Syst. I

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High-Throughput Turbo Decoder With Parallel Architecture for LTE Wireless Communication Standards

Shrestha

Paily

2014

IEEE Trans. Circuits Syst. I

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High-Speed and Hardware-Efficient Successive Cancellation Polar-Decoder

Shrestha

Sahoo

2019

IEEE Trans. Circuits Syst. II

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Rahul Shrestha

Parameterized Posit Arithmetic Hardware Generator

High-Throughput LDPC-Decoder Architecture Using Efficient Comparison Techniques & Dynamic Multi-Frame Processing Schedule

Fast Sensing-Time and Hardware-Efficient Eigenvalue-Based Blind Spectrum Sensors for Cognitive Radio Network

High-Throughput Turbo Decoder With Parallel Architecture for LTE Wireless Communication Standards

High-Speed and Hardware-Efficient Successive Cancellation Polar-Decoder

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Rahul Shrestha

Parameterized Posit Arithmetic Hardware Generator

High-Throughput LDPC-Decoder Architecture Using Efficient Comparison Techniques &amp; Dynamic Multi-Frame Processing Schedule

Fast Sensing-Time and Hardware-Efficient Eigenvalue-Based Blind Spectrum Sensors for Cognitive Radio Network

High-Throughput Turbo Decoder With Parallel Architecture for LTE Wireless Communication Standards

High-Speed and Hardware-Efficient Successive Cancellation Polar-Decoder

Contact Info

Product

Resources

About

High-Throughput LDPC-Decoder Architecture Using Efficient Comparison Techniques & Dynamic Multi-Frame Processing Schedule