High-Speed Parallel CRC Implementation Based on Unfolding, Pipelining, and Retiming

Cheng C.; Parhi K.K.

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High-Speed Parallel CRC Implementation Based on Unfolding, Pipelining, and Retiming

机译：基于展开，流水线和重定时的高速并行CRC实现

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This brief presents a high-speed parallel cyclic redundancy check (CRC) implementation based on unfolding, pipelining, and retiming algorithms. CRC architectures are first pipelined to reduce the iteration bound by using novel look-ahead pipelining methods and then unfolded and retimed to design high-speed parallel circuits. A comparison on commonly used generator polynomials between the proposed design and previously proposed parallel CRC algorithms shows that the proposed design can increase the speed by up to 25% and control or even reduce hardware cost

机译：本简介介绍了一种基于展开，流水线和重定时算法的高速并行循环冗余校验（CRC）实现。 CRC体系结构首先通过使用新颖的前瞻流水线方法进行流水线处理以减少迭代边界，然后展开并重新定时以设计高速并行电路。所提出的设计与先前提出的并行CRC算法之间的常用生成多项式的比较表明，所提出的设计可以将速度提高多达25％，并且可以控制甚至降低硬件成本

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《IEEE Transactions on Circuits and Systems. II, Express Briefs》 |2006年第2006期|p.1017-1021|共5页
作者
Cheng C.; Parhi K.K.;
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正文语种 eng
中图分类通信;
关键词
cyclic redundancy check codes; high-speed integrated circuits; integrated circuit design; pipeline processing; cyclic redundancy check; high-speed parallel circuits; iteration bound; linear feedback shift register; look-ahead pipelining; Cyclic redundancy check (;

机译：循环冗余校验码;高速集成电路;集成电路设计;流水线处理;循环冗余校验;高速并行电路;迭代边界;线性反馈移位寄存器;超前流水线;循环冗余校验（;

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1. High-Speed Parallel CRC Implementation Based on Unfolding, Pipelining, and Retiming [J] . Cheng C., Parhi K.K. IEEE transactions on circuits and systems. II, Express briefs . 2006,第10期

机译：基于展开，流水线和重定时的高速并行CRC实现
2. Design and Implementation of CRC Code Generator based on Parallel Execution Method for High Speed Wireless LAN [J] . Ms.Sonali D.Selokar, Mr.P.H.Rangaree International Journal of Engineering Research and Applications . 2011,第3期

机译：高速无线局域网中基于并行执行方法的CRC码生成器的设计与实现
3. High-speed parallel implementations of the rainbow method based on perfect tables in a heterogeneous system [J] . Kim Jung Woo, Seo Jungjoo, Hong Jin, Software . 2015,第6期

机译：异构系统中基于完美表的Rainbow方法的高速并行实现
4. Optimized FPGA Implementation of the CRC Using Parallel Pipelining Architecture [C] . Noor Najeeb Qaqos International Conference on Advanced Science and Engineering . 2019

机译：使用并行流水线架构优化的CRC的FPGA实现
5. A multi-wavelength optical content-addressable parallel processor (MW-OCAPP) for high-speed relational database processing: Free-space experimental implementation and monolithic adaptation based on guided-wave technology [D] . Detofsky, Abram Maximilian 1999

机译：用于高速关系数据库处理的多波长光学内容可寻址并行处理器（MW-OCAPP）：自由空间实验实现和基于导波技术的单片自适应
6. Highly efficient and exact method for parallelization of grid-based algorithms and its implementation in DelPhi [O] . Chuan Li, Lin Li, Jie Zhang, -1

机译：基于网格的算法并行化的高效和精确方法及其在Delphi中的实现
7. A multi-wavelength optical content-addressable parallel processor (MW-OCAPP) for high-speed relational database processing: Free-space experimental implementation and monolithic adaptation based on guided-wave technology [O] . Detofsky Abram Maximilian 1999

机译：用于高速关系数据库处理的多波长光学内容可寻址并行处理器（MW-OCAPP）：自由空间实验实现和基于导波技术的单片自适应
8. Demand Based Signal Retiming Phase 2- Real-World Implementation, Summary. [R] . Stevanovic, A. 2016

机译：基于需求的信号重新定时阶段2-实际实施，总结。

High-Speed Parallel CRC Implementation Based on Unfolding, Pipelining, and Retiming

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