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A gallery of up-to-date and stylish LaTeX templates, examples to help you learn LaTeX, and papers and presentations published by our community. Search or browse below.

CV for Naman Sharma
Personal resume of Naman Sharma.
Naman

Personal CV for Jackson To
Personal CV for Jackson To.
Cheuk Sang Jackson To

Ejercicios en LaTeX
Mathematic homework exercise in LaTeX
Alvaro Polo Ulloque

Clases de amplificadores
Este ejemplo representa los cuatro diferentes modelos de amplificadores existentes: amplificador de tensión, de corriente, de trasnconductancia y de transresistencia. Cualquier amplificador puede ser convertido en cualquier otro modelo. Las notaciones son las siguientes:
vi: tensión de entrada.
ii: corriente de entrada.
Ri: resistencia de entrada.
vo: tensión de salida.
io: corriente de salida.
Ro: resistencia de salida.
Avo: Ganancia de tensión en vacío.
Aisc: Ganancia de corriente en cortocircuito.
Gmsc: Ganancia de transconductancia en cortocircuito, en Siemens.
Rmoc: Ganancia de resistencia en circuito abierto, en Ohms.
Las figuras con forma de diamante representan fuentes controladas por las tensiones o corrientes de entrada de cada una de los amplificadores. Los esquemas son una adaptación de los que se encuentran en el Capítulo 1 del texto "Electrónica, 2da Edición" de Allan R. Hambley, publicado en idioma español por la editorial Pearson Educación.
Ramón

MCHE 201 Template
A template for design project reports in MCHE201: Introduction to Mechanical Design at the University of Louisiana at Lafayette. For more information on the class, see:
http://www.ucs.louisiana.edu/~jev9637/MCHE201.html
Joshua Vaughan

Northeastern University Boston thesis template
LaTeX template for the thesis format according to the The Department of Electrical and Computer Engineering of Northeastern University Boston regulation.
This template was originally published on ShareLaTeX and subsequently moved to Overleaf in December 2019.
Uploaded from ShareLaTeX

Richard House's Curriculum Vitae
Richard House's Curriculum Vitae
Richard House

Accelerating GNSS Software Receivers
This paper addresses both the efficiency and the portability of a computer program in charge of the baseband signal processing of a GNSS receiver. Efficiency, in this context, refers to optimizing the speed and memory requirements of the software receiver. Specifically, the interest is focused on how fast the software receiver can process the incoming stream of raw signal samples and, in particular, if signal processing up to the position fix can be executed in real-time (and how many channels the host computer executing the receiver application can sustain in parallel). This is achieved by applying the concept of parallelization at different abstraction levels. The paper describes strategies based on task, data and instruction-level parallelism, as well as actual implementations released under an open source license and the results obtained with different commercially available computing platforms. At the same time, the proposed solution also addresses portability, understood as the usability of the same software in different computing environments.
Carles Fernandez-Prades, Javier Arribas, Pau Closas

ELE2024 Coursework Template
LaTeX template for ELE2024 coursework.
Pantelis Sopasakis