750Mb/s 17pJ/b 90nm CMOS (120,75) TS-LDPC Min-Sum based analog decoder

2013 IEEE Asian Solid-State Circuits Conference (A-SSCC) Pub Date : 2013-12-23 DOI:10.1109/ASSCC.2013.6691012
A. R. Abolfazli, Y. Shayan, G. Cowan
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引用次数: 7

Abstract

Circuit and IC implementation of a (120, 75) Min-Sum based Turbo-Structured LDPC analog decoder in CMOS 90nm technology is presented. This is the highest throughput and one of the longest codes implemented to date using analog techniques. At a Bit Error Rate of 10-5, the measured performance is within 0.2dB of modeled performance using floating-point arithmetic. The chip was tested at a throughput of 750Mb/s. This improves the throughput of analog decoders by a factor of 57. The power dissipation of the core is 13 mW resulting in 17pJ/b energy efficiency. The core area is 1.38mm2. The fabricated MS-based TS-LDPC analog decoder has BER performance nearly identical to theory without compromising energy efficiency.
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750Mb/s 17pJ/b 90nm CMOS (120,75) TS-LDPC最小和模拟解码器
介绍了一种基于(120,75)最小和的涡轮结构LDPC模拟解码器的电路和集成电路实现。这是迄今为止使用模拟技术实现的最高吞吐量和最长代码之一。在误码率为10-5的情况下,测量的性能与使用浮点运算建模的性能相差不超过0.2dB。该芯片的测试吞吐量为750Mb/s。这将模拟解码器的吞吐量提高了57倍。磁芯的功耗为13mw,能量效率为17pJ/b。核心面积为1.38平方毫米。制造的基于ms的TS-LDPC模拟解码器具有几乎与理论相同的误码率性能,而不影响能源效率。
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2013 IEEE Asian Solid-State Circuits Conference (A-SSCC)
2013 IEEE Asian Solid-State Circuits Conference (A-SSCC)
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