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| | They're always ready to help, and they're always making changes to the site to make sure you won't have troubles in the first place. You may discover this probably the most time-consuming part of building a Word - Press MLM website. Wordpress Content management systems, being customer friendly, can be used extensively to write and manage websites and blogs. Transforming your designs to Word - Press blogs is not that easy because of the simplified way in creating your very own themes. After activating, you will find their website link and get the activation code from their website. <br><br>You just download ready made templates to a separate directory and then choose a favorite one in the admin panel. While direct advertising is limited to few spots in your site and tied to fixed monthly payment by the advertisers, affiliate marketing can give you unlimited income as long as you can convert your traffic to sales. Which is perfect for building a mobile site for business use. You can up your site's rank with the search engines by simply taking a bit of time with your site. That's a total of 180$ for each Wordpress theme if you sell 3 links and keep the designer link for your own website, or 240$ if you sell all links. <br><br>Your Word - Press blog or site will also require a domain name which many hosting companies can also provide. The following piece of content is meant to make your choice easier and reassure you that the decision to go ahead with this conversion is requited with rich benefits:. Possibly the most downloaded Word - Press plugin, the Google XML Sitemaps plugin but not only automatically creates a site map linking to everyone your pages and posts, it also notifies Google, Bing, Yahoo, and Ask. Storing write-ups in advance would have to be neccessary with the auto blogs. Websites using this content based strategy are always given top scores by Google. <br><br>The next thing I did after installing Wordpress was to find myself a free good-looking Wordpress-theme offering the functionality I was after. And, make no mistake,India's Fertility Clinics and IVF specialists are amongst the best in the world,and have been for some time. Next you'll go by way of to your simple Word - Press site. A whole lot worse, your site will likely be useless as well as your merchandise won't sell if no one has the endurance to wait for the web pages to load. Word - Press offers constant updated services and products, that too, absolutely free of cost. <br><br>Under Settings —> Reading, determine if posts or a static page will be your home page, and if your home page is a static page, what page will contain blog posts. If you adored this article so you would like to obtain more info relating to [http://deurl.de/wordpress_backup_plugin_154914 backup plugin] please visit our webpage. By using Word - Press MLM websites or blogs, an online presence for you and your MLM company can be created swiftly and simply. While deciding couple should consider the expertise of the doctor,clinics success rate,the costs of fertility treatment,including fertility tests and IVF costs and overall ones own financial budget. And, it is better that you leave it on for the duration you are writing plugin code. However, if you're just starting out your blog site or business site, you can still search for an ideal theme for it without breaking your bank account. |
| Miniaturizing components has always been a primary goal in the [[semiconductor]] industry because it cuts production cost and lets companies build smaller computers and other devices. Miniaturization, however, has increased dissipated power per unit area and made it a key limiting factor in [[integrated circuits|integrated circuit]] performance. Temperature increase becomes relevant for relatively small-cross-sections wires, where it may affect normal semiconductor behavior. Besides, since the generation of heat is proportional to the frequency of operation for switching circuits, fast computers have larger heat generation than slow ones, an undesired effect for chips manufacturers. This article summaries physical concepts that describe the generation and conduction of heat in an integrated circuit, and presents numerical methods that model heat transfer from a macroscopic point of view.
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| ==Generation and transfer of heat==
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| ===Fourier's law===
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| At macroscopic level, [[Fourier's law]] states a relation between the transmitted heat per unit time per unit area and the gradient of temperature:
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| : <math>q= - \kappa \nabla T </math>
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| Where <math>\kappa</math> is the thermal conductivity, <nowiki>[</nowiki>W·m<sup>−1</sup> K<sup>−1</sup><nowiki>]</nowiki>.
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| ===Joule heating===
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| Electronic systems work based on current and voltage signals. Current is the a flow of charged particles through the material and these particles (electrons or holes), interact with the lattice of the crystal losing its energy which is released in form of heat. [[Joule Heating]] is a predominant mechanism for heat generation in integrated circuits<ref name="test">T. Bechtold, E. V. Rudnyi and J. G Korvink, "Dynamic electro-thermal simulation of microsystems—a review," Journal of Micromechanics and Microengineering. vol. 15, pp. R17–R31, 2005</ref> and is an undesired effect in most of the cases. For an ohmic material, it has the form:
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| : <math> Q = j^{2} \rho </math>
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| Where <math> j </math> is the current density in <nowiki>[</nowiki>A·m<sup>−2</sup><nowiki>]</nowiki>, <math> \rho </math> is the specific electric resistivity in <nowiki>[</nowiki><math>{\Omega}</math>·m<nowiki>]</nowiki> and <math> Q </math> is the generated heat per unit volume in <nowiki>[</nowiki>W·m<sup>−3</sup><nowiki>]</nowiki>.<ref name="test"/>
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| ===Heat-transfer equation===
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| The governing equation of the physics of the [[heat transfer]] problem relates the flux of heat in space, its variation in time and the generation of power by the following expression:
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| : <math>\nabla\left(\kappa\left( T\right) \nabla T\right)+g=\rho C\frac{\partial T}{\partial t} </math>
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| Where <math>\kappa</math> is the thermal conductivity, <math>\rho</math> is the density of the medium, <math>C</math> is the specific heat, <math>k=\frac{\kappa}{\rho C}</math>, the thermal diffusivity and <math>g</math> is the rate of heat generation per unit volume. Heat diffuses from the source following the above equation and solution in an homogeneous medium follows a Gaussian distribution.
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| ==Techniques to solve heat equation ==
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| ===Kirchhoff transformation===
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| To get rid of the temperature dependence of <math> \kappa </math>, Kirchhoff transformation can be performed <ref name="baty">W. Batty, C. E. Christoffersen, A. J. Panks, S. David, C. M. Snowden, M. B. Steer, “Electrothermal CAD of Power Devices and Circuits With Fully Physical Time- Dependent Compact Thermal Modeling of Complex Nonlinear 3-d Systems,” IEEE Trans. Comp. and Pack. Technologies, vol. 24, no. 4, pp. 566–590, 2001.</ref>
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| : <math> \theta=T_{s}+\frac{1}{\kappa_{s}}\int_{T_{s}}^{T}\kappa(T)dT </math>
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| where <math>\kappa_{s} = \kappa\left( T_{s}\right) </math> and <math>T_{s}</math> is the heat sink temperature. When applying this transformation, the heat equation becomes:
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| : <math> k\nabla^{2}\theta+\frac{k}{\kappa_{s}}g=\frac{\partial\theta}{\partial t} </math>
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| where <math> k=\frac{\kappa}{\rho C} </math> is called the diffusivity,<ref name="baty"/> which also depends on the temperature. To completely linearize the equation, a second transformation is employed:
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| <math> k_{s}\tau=\int_{0}^{t}k(\theta)dt </math>
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| yielding the expression:
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| <math> \nabla^{2}\theta-\frac{1}{k_{s}}\frac{\partial \theta}{\partial \tau}=-\frac{g}{\kappa_{s}} </math>
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| Simple, direct application of this equation requires approximation. Additional terms arising in the transformed Laplacian are dropped, leaving the Laplacian in its conventional form.<ref name="baty"/>
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| ===Analytical solutions===
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| Although analytical solutions can only be found for specific and simple cases, they give a good insight to deal with more complex situations. Analytical solutions for regular subsystems can also be combined to provide detailed descriptions of complex structures. In Prof. Batty's work,<ref name="baty"/> a Fourier series expansion to the temperature in the Laplace domain is introduced to find the solution to the linearized heat equation.
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| ====Example====
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| This procedure can be applied to a simple but nontrivial case: an homogeneous cube die made out of GaAs, L=300 um. The goal is to find the temperature distribution on the top surface. The top surface is discretized into smaller squares with index i=1...N. One of them is considered to be the source.
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| Taking the Laplace transform to the heat equation:
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| : <math> \nabla^{2}\bar{\Theta}-\frac{s}{k_{s}}\bar{\Theta}=0</math>
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| where <math>\overline{\Theta}=s\theta-\theta\left(\tau=0\right)</math>
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| Function <math>\overline{\Theta}</math> is expanded in terms of cosine functions for the <math>x</math> and <math>y</math> variables and in terms of hyperbolic cosines and sines for <math>z</math> variable. Next, by applying adiabatic boundary conditions at the lateral walls and fix temperature at the bottom (heat sink temperature), thermal impedance matrix equation is derived:
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| : <math>\Delta\theta_{i}=\sum_{j=1}^{N}R_{TH_{ij}}(t)P_{j}(t)</math>
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| Where the index <math>j</math> accounts for the power sources, while the index <math>i</math> refers to each small area.
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| For more details about the derivation, please see Prof. Batty's paper,.<ref name="baty"/>
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| The below figure shows the steady state temperature distribution of this analytical method for a cubic die, with dimensions 300 um. A constant power source of 0.3W is applied over a central surface of dimension 0.1L x 0.1L. As expected, the distribution decays as it approaches to the boundaries, its maximum its located at the center and almost reaches 400K | |
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| <center>
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| [[File:battysup.png]]
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| </center>
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| ===Numerical solutions===
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| Numerical solutions use a mesh of the structure to perform the simulation. The most popular methods are: Finite difference time-domain (FDTD) method, Finite element method (FEM) and method of moments (MoM).
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| The finite-difference time-domain (FDTD) method is a robust and popular technique that consists in solving differential equations numerically as well as certain boundary conditions defined by the problem. This is done by discretizing the space and time, and using finite differencing formulas, thus the partial differential equations that describe the physics of the problem can be solved numerically by computer programs.
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|
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| The FEM is also a numerical scheme employed to solve engineering and mathematical problems described by differential equations as well as boundary conditions. It discretizes the space into smaller elements for which basis functions are assigned to their nodes or edges. Basis functions are linear or higher order polynomials. Applying the differential equation and the boundary conditions of the problem to the basis functions, a system of equations is formulated using either the [[Ritz method|Ritz]] or [[Galerkin method]]. Finally, a direct or iterative method is employed to solve the system of linear equations.<ref name="jin">J.-M. Jin, The Finite Element Method in Electromagnetics. New York: Wiley, 2nd ed., 2002</ref> For the thermal case, FEM method is more suitable due to the nonlinearity nature of the thermal properties.
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| ====Example====
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| The previous example can be solved with a numerical method. For this case, the cube can by discretized into rectangular elements. Its basis functions can be chosen to be a first order approximation (linear):
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| <math> N_{i}^{e}=\frac{1}{2}\xi\left(1\mp\zeta\right),\qquad i=1,4 </math> | |
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| <math> N_{i}^{e}=\frac{1}{2}\eta\left(1\mp\zeta\right),\qquad i=2,5 </math>
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| <math> N_{i}^{e}=\frac{1}{2}\left(1-\xi-\eta\right)\left(1\mp\zeta\right),\qquad i=3,6 </math>
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| where <math>\zeta=2(z-z_{c})/h_{z} </math>. If <math>z_{c}=0</math>, then <math>\zeta=2z/h_{z}</math>.
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| Using this basis functions and after applying Galerkin's method to the heat transfer equation, a matrix equation is obtained:
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| <math> \left[S\right]\left\{ \theta\right\} +\left[R\right]\frac{d}{dt}\left\{ \theta\right\} =\left\{ B\right\} </math>
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| where,
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| : <math> R_{ij}=\int_{v}N_{j} N_{i}dV </math>
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| : <math> S_{ij}=k\int_{v}\nabla N_{j}.\nabla N_{i}dV </math>
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| : <math> B_{i}=\frac{k}{\kappa_{s}}\int_{\Omega_{1}}N_{i}p(x,y)d\Omega+\frac{k}{\kappa_{s}}\int_{v}N_{i}gdV-kT_{o}\sum_{j=0}^{N_{D}}\int_{v}\nabla N_{j}^{D}.\nabla N_{i}dV</math>.
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| This expressions can be evaluated by using a simple FEM code. For more details, please see.<ref name="jin"/> The figure below shows the temperature distribution for the numerical solution case. This solution shows very good agreement with the analytical case, its peak also reaches 390 K at the center. The apparent lack of smoothness of the distribution comes from the first order approximation of the basis functions and this can be solved by using higher order basis functions. Also, better results might be obtained by employing a denser mesh of the structure; however, for very dense meshes the computation time increases a lot, making the simulation non-practical.
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| <center>
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| </center>
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| The next figure shows a comparison of the peak temperature as a function of time for both methods. The system reaches steady state in approximately <math>1 ms</math>.
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| <center> | |
| [[File:Analithic&FEM1.PNG|400px]]
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| </center>
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| ===Model order reduction===
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| The numerical methods such as FEM or FDM derive a matrix equation as shown in the previous section. To solve this equation faster, a method called Model Order Reduction can be employed to find an approximation of lower order. This method is based on the fact that a high dimensional state vector belongs to a low dimensional subspace [http://modelreduction.com/ModelReduction/].
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| Figure below shows the concept of the MOR approximation: finding matrix V, the dimension of the system can be reduced to solve a simplified system.
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| <center>
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| [[File:DiagramMOR2.png|400px]]
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| </center>
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| Therefore the original system of equation:
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| : <math>C\left\{ x\right\} '+K\left\{ x\right\} =F\left\{ u\right\}</math>
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| becomes:
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| : <math>V^{T}CV\left\{ z\right\} '+V^{T}KV\left\{ z\right\} =V^{T}F\left\{ u\right\}</math>
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| Whose order is much lower than the original making the computation much less expensive. Once the solution is obtained, the original vector is found by taking the product with V.
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| ==Conclusion==
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| The generation of heat is mainly produced by joule heating, this undesired effect has limited the performance of integrated circuits. In the preset article heat conduction was described and analytical and numerical methods to solve a heat transfer problem were presented. Using this methods, steady state temperature distribution was computed as well as the peak temperature as a function of time for a cubic die. For an input power of <math>0.3 W </math> (or <math> 3.333e8 W/m_{2} </math>) applied over a single surface source on the top of a cubic die a peak increment of temperature in the order of 100 K was computed. Such increase in temperature can affect the behavior of surrounding semiconductor devices. Important parameters like mobility change drastically. That is why the heat dissipation is a relevant issue and must be considered for circuit designing.
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| ==See also==
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| *[[Heat generation in integrated circuits]]
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| ==References==
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| {{reflist|colwidth=30em}}
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| {{DEFAULTSORT:Thermal Simulations For Integrated Circuits}}
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| [[Category:Integrated circuits]]
| |
They're always ready to help, and they're always making changes to the site to make sure you won't have troubles in the first place. You may discover this probably the most time-consuming part of building a Word - Press MLM website. Wordpress Content management systems, being customer friendly, can be used extensively to write and manage websites and blogs. Transforming your designs to Word - Press blogs is not that easy because of the simplified way in creating your very own themes. After activating, you will find their website link and get the activation code from their website.
You just download ready made templates to a separate directory and then choose a favorite one in the admin panel. While direct advertising is limited to few spots in your site and tied to fixed monthly payment by the advertisers, affiliate marketing can give you unlimited income as long as you can convert your traffic to sales. Which is perfect for building a mobile site for business use. You can up your site's rank with the search engines by simply taking a bit of time with your site. That's a total of 180$ for each Wordpress theme if you sell 3 links and keep the designer link for your own website, or 240$ if you sell all links.
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