搜索资源列表
CMOS_IA
- A low-noise CMOS instrumentation amplifier intended for low-frequency thermoelectric microsensor applications
Current Feedback_IA
- A power-efficient current-feedback instrumentation amplifier (CFIA) with high gain accuracy.
Feedback_IA
- A precision general-purpose current-feedback instrumentation amplifier (CFIA) that employs a combination of ping-pong auto-zeroing and chopping to cancel its offset and 1/f noise.
Low-Power CMOS Acquisition
- A low-power analog acquisition front-end circuit for Wireless Body Area Network (WBAN).
Microcantilever
- An analog signal processing integrated circuit for microcantilever array has been designed for pressure measurement in biomedical applications.
pecialization
- 一个用来进行分割的程序,是使用fm算法设计的分割VLSI电路的程序()
Binary Stack counter
- Designing of stack counter using binary logical input and multiplier design integration
watermark
- SPATIAL DOMAIN WATERMARKING WITHOUT CONTENT ALTERATION
add.v
- 这是verilog的加法器。它可用于超大规模集成电路设计。(This is an adder by Verilog. It can be used for VLSI design.)
jeas_reversable-vedic-multiplier
- reversible logic is mainly used to achieve low power. peres gate HUG gate is used to design a vedic multiplier. reversible gate we can give n numbers of input and we can get n number of output
VLSI LAB Q8toQ18
- verilogprogrammescode
LDPC码编译码算法的研究与实现_陈石平
- 本文首先回顾了LDPC码的发展历程和现状,介绍了LDPC码检验矩阵的构造、编 译码原理。在对编译码作了深入探讨和分析后,接着进行了RU算法编码和长码编码 的FPGA实现;根据二叉树的性质,提出了一种长码编码的ASIC优化设计的方法,节省 了大量硬件资源;论文详细阐述了CORDIC算法原理以及LDPC码译码中所采用的指 数函数和反双曲正切函数的FPGA实现:CORDIC内核及前后处理单元设计、仿真、综 合及数据分析,这对LDPC码的译码具有很重要的意义,为用数字VLSI来实现LDPC的
DLL_clock_generator
- DLL is useful for the ug and pg sdents tu
VLSI verilog
- booth multiplier using booth algorithm
formal_verification
- 现在最流行的RTL设计方法之一,本书为全球流行的设计入门书籍(One of the most popular RTL design methods nowadays, this book is an introductory book for popular design all over the world.)
Deterministic Message Passing Algorithm SCMA in NOMA 5G
- Being an effective non-orthogonal multiple access (NOMA) technique, sparse code multiple access (SCMA) is promising for future wireless communication. Compared with orthogonal techniques, SCMA enjoys higher overloading tolerance and lower complexity