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| wiki:softwaretuts [2019/07/12 13:19] – ppham3 | wiki:softwaretuts [2021/10/27 23:09] (current) – xtian7 |
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| | //**<color #58595B>Model-base Coding Tutorial for Zedboard</color>**// |
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| | </WRAP> |
| | <WRAP left 10% rightalign>[[https://www.youtube.com/playlist?list=PLPjMI3ZNq8FWfFf8QPeZLTZYTQ3iABd0l|{{:wiki:video_icon.png?80|Zedboard}}]]</WRAP> |
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| | **Provider:** Young Hang\\ |
| | **Last Update:** October 2019\\ |
| | **Abstract:** This tutorial shows how to compile the code for a FPGA Zedboard from a Simulink model using the intergated Xilinx libary.\\ \\ |
| | **Keyword:** Zedboard, Simulink, Xilinx, FPGA\\ |
| | **Indexing Keyword:** Xilinx |
| | </WRAP> |
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| | <WRAP center 40%> |
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| | //**<color #58595B>Create a Component in PSCAD/EMTDC</color>**// |
| | </WRAP> |
| | </WRAP> |
| | <WRAP left 10% rightalign>[[this>_media/wiki:Tutorial_PSCAD_Create_Component.pdf|{{:wiki:icon_pdf.png?80|Create PSCAD Components}}]]</WRAP> |
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| | **Provider:** Shuyao Wang\\ |
| | **Last Update:** August 2019\\ |
| | **Abstract:** This tutorial gives a detailed explanation on how to create a “component” which can include multiple models into a sub-page, which not only allows users to customize the model, but also helps the canvas keep cleaner and better organized.\\ \\ |
| | **Keyword:** PSCAD, EMTDC, Components\\ |
| | **Indexing Keyword:** PSCAD |
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| | <WRAP center 40%> |
| | <WRAP centeralign box round> |
| | //**<color #58595B>MATLAB and Slack Themes</color>**// |
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| | </WRAP> |
| | <WRAP left 10% rightalign>[[this>_media/wiki:Tutorial_Matlab_Slack_Themes.pdf|{{:wiki:icon_pdf.png?80|MATLAB and Slack Themes}}]]</WRAP> |
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| | **Provider:** Jared Baxter\\ |
| | **Last Update:** August 2019\\ |
| | **Abstract:** This tutorial shows you how to change color schemes for MATLAB and Slack.\\ \\ |
| | **Keyword:** Matlab, Slack, Theme\\ |
| | **Indexing Keyword:** Matlab Slack Themes |
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| | <WRAP center 40%> |
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| | //**<color #58595B>Latex Template for IEEE Publications</color>**// |
| | </WRAP> |
| | </WRAP> |
| | <WRAP left 10% rightalign>[[https://www.youtube.com/watch?v=JYaA7Fidehs&t=301s|{{:wiki:video_icon.png?80|How To Use: IEEE Latex Template | Starter Files, Software, Tutorial}}]]</WRAP> |
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| | **Provider:** Spencer Cochran\\ |
| | **Last Update:** July 2019\\ |
| | **Abstract:** Never used Latex before? No problem. This tutorial will help you quickly get started using Latex to write IEEE style papers. These starter files, tips, explanations, and suggestions will get you on your feet with your first latex project.\\ \\ |
| | **Keyword:** Latex, template, tutorial, IEEE format\\ |
| | **Indexing Keyword:** Latex |
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| <WRAP centeralign box round> | <WRAP centeralign box round> |
| //**<color #58595B>Version Control 101</color>**// | //**<color #58595B>MAXWELL</color>**// |
| | </WRAP> |
| | </WRAP> |
| | <WRAP left 10% rightalign>[[this>_media/wiki:tutorial_maxwell.pptx|{{:wiki:icon_ppt.png?80|Maxwell}}]]</WRAP> |
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| | **Provider:** Quillen Blalock\\ |
| | **Last Update:** April 2019\\ |
| | **Abstract:** Maxwell ANSYS Tutorial for Simulating Conductors for Inductance/Resistance Measurements |
| | Includes Analysis of Mesh Setup for ANSYS Adaptive Solutions.\\ \\ |
| | **Keyword:** Maxwell, ANSYS, Inductance\\ |
| | **Indexing Keyword:** Maxwell |
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| | //**<color #58595B>CANalyzer</color>**// |
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| | ==== Transfer PCB from Altium to Q3d 2020 Version==== |
| | </WRAP></WRAP> |
| | <WRAP left 10% rightalign>[[this>_media/wiki:tutorial_altium_to_q3d_2020.docx|{{:wiki:icon_doc.png?80|Altium to Q3d}}]]</WRAP> |
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| | **Provider:** Ruiyang Qin\\ |
| | **Last Update:** May. 2020\\ |
| | **Abstract:** Circuit parasitics are especially relevant in high frequency applications. Q3d allows a designer to take a given shape of material and use finite element methods to quantify the structure's properties. It is often beneficial to be able to quantify the parasitics within a printed circuit board design prior to ordering the PCB. This tutorial will show you how to take your PCB design and import it into Q3d so that you can begin investigating your layout's electrical properties.\\ \\ |
| | **Keyword:** Parasitic, Q3D, PCB, Altium Designer\\ |
| | **Indexing Keyword:** Altium to Q3d |
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| | ==== CANape Setup Manual – Version 1==== |
| | </WRAP></WRAP> |
| | <WRAP left 10% rightalign>[[this>_media/wiki:tutorial_-_canape_communication.zip|{{:wiki:icon_zip.png?80|CANape}}]]</WRAP> |
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| | **Provider:** Ximu Zhang\\ |
| | **Last Update:** May. 2021\\ |
| | **Abstract:** CANape is a software tool used to measure and calibrate variables in the applications running in any microprocessors. It supports various protocols for data transfer (CAN, Ethernet, etc). At the protocol layer, it requires the XCP protocol for communication. This manual shows how to establish communication between CANape and ARM Cortex-A9 on the Xilinx ZYNQ-7000 Zedboard through XCP on Ethernet. Communication between FPGA and ARM will also be covered in this manual.\\ \\ |
| | **Keyword:** Canape, FPGA, ARM\\ |
| | **Indexing Keyword:** Microprocessors |
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| | ==== Magnetics Modeling in COMSOL Multiphysics==== |
| | </WRAP></WRAP> |
| | <WRAP left 10% rightalign>[[this>_media/wiki:foote_comsol_2-13-20.pdf|{{:wiki:icon_pdf.png?80|CANape}}]]</WRAP> |
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| | **Provider:** Andrew Foote\\ |
| | **Last Update:** May. 2021\\ |
| | **Abstract:** Very general software for solving problems described by PDEs with FEA\\ \\ |
| | **Keyword:** FEA, COMSOL, Magnetics\\ |
| | **Indexing Keyword:** COMSOL |
| | </WRAP> |
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| | ==== Icepake ==== |
| | </WRAP></WRAP> |
| | <WRAP left 10% rightalign>[[this>_media/wiki:icepak_tutorial.pptx|{{:wiki:icon_ppt.png?80|Icepake}}]]</WRAP> |
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| | **Provider:** Yu Yan\\ |
| | **Last Update:** May. 2021\\ |
| | **Abstract:** Ansys Icepak is a CFD solver for electronics thermal management. It predicts airflow, temperature and heat transfer in IC packages, PCBs, electronic assemblies/enclosures and power electronics.\\ \\ |
| | **Keyword:** ANYSYS,Icepake, thermal\\ |
| | **Indexing Keyword:** Thermal analysis |
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