### 电子工程代写|数字信号处理代写Digital Signal Processing代考|EE615

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• Statistical Inference 统计推断
• Statistical Computing 统计计算
• (Generalized) Linear Models 广义线性模型
• Statistical Machine Learning 统计机器学习
• Longitudinal Data Analysis 纵向数据分析
• Foundations of Data Science 数据科学基础

## 电子工程代写|数字信号处理代写Digital Signal Processing代考|BWER of the Asymmetrical BTC

For a general transfer function of the form of Eq. (2.14), combining Eqs. (2.17) and (2.18) with Eq. (2.15), we get the following expression for the BWER of the asymmetrical BTC:
$$\eta=(1+b+2 m) \sqrt{\frac{b+m}{(1+m)\left(b-m^{2}\right)}} \times \sqrt{\left(1-2 \varsigma^{2}\right)+\sqrt{\left(1-2 \varsigma^{2}\right)^{2}+1}}$$
For MFM, $5=1 / \sqrt{2}$ and Eq. (2.24) becomes
$$\eta=(1+b+2 m)\left(\frac{b+m}{(1+m)\left(b-m^{2}\right)}\right)^{\frac{1}{2}}$$
Further, putting $\zeta=1 / \sqrt{2}$, we get
$$2=\frac{(b+m)^{3}}{(1+m)\left(b+m^{2}\right)}$$
Thus for MFM response, $b$ and $m$ have to satisfy Eq. (2.26) and for any such set, $\eta$ is given by Eq. (2.25). Combining Eqs. (2.25) with (2.26), the expression for $\eta$ gets further simplified to the following:
$$\eta=\sqrt{2}\left(1+\frac{1+m}{b+m}\right)$$
It is difficult to find, analytically, the variation of $b$ with $m$ from Eq. (2.26) or that of $\eta$ with $m$ from Eq. (2.27). One way is to simplify Eq. (2.26) to get a cubic equation in $b$ and to solve it; however, as is well known $[35,36]$, an explicit expression for $b$ in terms of $m$ cannot be written and one has to take recourse to numerical computations. An alternative, and a simpler way, is to introduce the variable $\beta=b / m$.

## 电子工程代写|数字信号处理代写Digital Signal Processing代考|Technology Simulation Results

Using Agilent’s Advanced Design System tools with models of United Microelectronics $130 \mathrm{~nm}$ (1P8M) technology, simulation studies were carried out for a few specific designs of Table $2.1$ with $R_{T}=50 \Omega$ and $C_{L}=5 \mathrm{pF}$. The results of simulation are rather disappointing and indicate that parasitics cause appreciable deviations from the ideal characteristics and that the distortions increase with increasing coefficient of coupling. Simulations with only the device parasitics indicate that the BTC parasitics have dominant effect on the deviations from maximal flatness and reduction of the BWER. Realizing the full potential of the theoretical results derived here will therefore have to wait for improved technologies for inductor fabrication in future.

A comprehensive theoretical analysis has been carried out in this chapter of the general asymmetrical BTC network used as the load of a wide-band amplifier, and it has been shown that the BWER achievable is unlimited, the limit being set only by practical considerations of tight coupling, large spreads in inductance and capacitance values, and of course, parasitics. Unlimited bandwidth has never been reported earlier, by either the BTC or any other network, and it is believed that the results of this chapter will set a new trend in the design of wide-band and ultra wide-band amplifiers.

## 电子工程代写|数字信号处理代写Digital Signal Processing代考|BWER of the Asymmetrical BTC

$$\eta=(1+b+2 m) \sqrt{\frac{b+m}{(1+m)\left(b-m^{2}\right)}} \times \sqrt{\left(1-2 \varsigma^{2}\right)+\sqrt{\left(1-2 \varsigma^{2}\right)^{2}+1}}$$

$$\eta=(1+b+2 m)\left(\frac{b+m}{(1+m)\left(b-m^{2}\right)}\right)^{\frac{1}{2}}$$

$$2=\frac{(b+m)^{3}}{(1+m)\left(b+m^{2}\right)}$$

$$\eta=\sqrt{2}\left(1+\frac{1+m}{b+m}\right)$$

## 广义线性模型代考

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## MATLAB代写

MATLAB 是一种用于技术计算的高性能语言。它将计算、可视化和编程集成在一个易于使用的环境中，其中问题和解决方案以熟悉的数学符号表示。典型用途包括：数学和计算算法开发建模、仿真和原型制作数据分析、探索和可视化科学和工程图形应用程序开发，包括图形用户界面构建MATLAB 是一个交互式系统，其基本数据元素是一个不需要维度的数组。这使您可以解决许多技术计算问题，尤其是那些具有矩阵和向量公式的问题，而只需用 C 或 Fortran 等标量非交互式语言编写程序所需的时间的一小部分。MATLAB 名称代表矩阵实验室。MATLAB 最初的编写目的是提供对由 LINPACK 和 EISPACK 项目开发的矩阵软件的轻松访问，这两个项目共同代表了矩阵计算软件的最新技术。MATLAB 经过多年的发展，得到了许多用户的投入。在大学环境中，它是数学、工程和科学入门和高级课程的标准教学工具。在工业领域，MATLAB 是高效研究、开发和分析的首选工具。MATLAB 具有一系列称为工具箱的特定于应用程序的解决方案。对于大多数 MATLAB 用户来说非常重要，工具箱允许您学习应用专业技术。工具箱是 MATLAB 函数（M 文件）的综合集合，可扩展 MATLAB 环境以解决特定类别的问题。可用工具箱的领域包括信号处理、控制系统、神经网络、模糊逻辑、小波、仿真等。