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Documento baseado nos templates oficiais da SBMAC para o CNMAC 2016.,
Para mais instruções sobre figuras, tabelas e equações, baixe o arquivo disponível em http://www.cnmac.org.br/Template-Categoria_3-SBMAC.zip
This is a skeleton file demonstrating the use of the IEEEtran.cls style with a one-column IEEE journal paper, and with example bibliography files included. (Please refer to your journal's instructions for other document class options to set before submitting.)
These bibliography files are includes to provide one example of how to set up a bibliography for your IEEE paper.
For more information on using bibtex for references in your IEEE journal papers, see this FAQ.
IEEEtran.cls version: 1.8b
The American Geophysical Union organizes and disseminates scientific information in the fields of geophysics, which include atmospheric and ocean sciences; solid-Earth sciences; hydrologic sciences; and space sciences. The agujournal2019 LaTeX class provides formatting for all AGU journals in the correct APA style. This template allows for direct submission to JGR: Atmospheres.
This template is based on the one from the official author guidelines. See the instructions on that page for complete information. AGU also provides some LaTeX tips for authors.
JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system, as well as their roles in climate variability and change.
The American Geophysical Union organizes and disseminates scientific information in the fields of geophysics, which include atmospheric and ocean sciences; solid-Earth sciences; hydrologic sciences; and space sciences. The agujournal2019 LaTeX class provides formatting for all AGU journals in the correct APA style. This template allows for direct submission to JGR: Space Physics.
This template is based on the one from the official author guidelines. See the instructions on that page for complete information. AGU also provides some LaTeX tips for authors.
JGR: Space Physics is dedicated to the publication of new and original research in the broad field of space science. This embraces aeronomy, magnetospheric physics, planetary atmospheres, ionospheres and magnetospheres, solar and interplanetary physics, cosmic rays, and heliospheric physics. Science that links interactions between space science and other components of the Sun-Earth system are encouraged, as are multidisciplinary and system-level science papers.
The American Geophysical Union organizes and disseminates scientific information in the fields of geophysics, which include atmospheric and ocean sciences; solid-Earth sciences; hydrologic sciences; and space sciences. The agujournal2019 LaTeX class provides formatting for all AGU journals in the correct APA style. This template allows for direct submission to Geophysical Research Letters.
This template is based on the one from the official author guidelines. See the instructions on that page for complete information. AGU also provides some LaTeX tips for authors.
Geophysical Research Letters publishes high-impact, innovative, and timely research on major scientific advances in all the major geoscience disciplines. Papers are communications-length articles and should have broad and immediate implications in their discipline or across the geosciences. GRL maintains the fastest turn-around of all high-impact publications in the geosciences and works closely with authors to ensure broad visibility of top papers.
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.
Macauley Coggins
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