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As part of our Community Resources for teachers running courses, workshops and events, here we provide an Overleaf-version of the excellent quick guide to LaTeX, originally by Dave Richeson (reproduced with his kind permission). This version is perfect for sharing as a PDF, or as a two-sided printed handout. If you'd like to tweak it to suit your workshop, you can open it as a template to make edits to the source. Please note that the Overleaf logos themselves shouldn't be altered, but you can find alternative versions here if you'd prefer. If you make substantial edits to the template, or find other uses for it, please let us know! We also have a complementary PDF listing the Overleaf keyboard shortcuts, available here. If you're looking for a fuller guide to LaTeX to share with you students, we have a free online course, a learn LaTeX in 30-minutes quick start guide, and many other in-depth tutorials and examples on our learn wiki. License note: the text content / source code of the handout is provided under the CC BY 4.0 license, as is Dave Richeson's original version. If you modify the template, guidance on the use of the Overleaf logos is available here.

An example flowchart using Tikz/PGF.

A horizontal stepped concept map.

Assignment for Math Structure

This paper describes the use of the LATEX2e TRR.cls class file for setting papers to be submitted to Transportation Research Record: Journal of the Transportation Research Board, published by SAGE Publications: https://journals.sagepub.com/home/trr.

"ModernCV" CV and Cover Letter LaTeX Template Version 1.1 (9/12/12) This template has been downloaded from: http://www.LaTeXTemplates.com Original author: Xavier Danaux (xdanaux@gmail.com) License: CC BY-NC-SA 3.0 (http://creativecommons.org/licenses/by-nc-sa/3.0/)

This is an adapted and modified version of the DTU Compute thesis template.

This is the 2020 letterhead released by the Berkeley campus in Word + traditional Berkeley fonts.

In this paper I demonstrate a novel design for an optoelectronic State Machine which replaces input/output forming logic found in conventional state machines with BDD based optical logic while still using solid state memory in the form of flip-flops in order to store states. This type of logic makes use of waveguides and ring resonators to create binary switches. These switches in turn can be used to create combinational logic which can be used as input/output forming logic for a state machine. Replacing conventional combinational logic with BDD based optical logic allows for a faster range of state machines that can certainly outperform conventional state machines as propagation delays within the logic described are in the order of picoseconds as opposed to nanoseconds in digital logic.