Institut für Parallele und Verteilte Systeme - Universität Stuttgart
Institut für Parallele und Verteilte Systeme - Universität Stuttgart
Institut für Parallele und Verteilte Systeme - Universität Stuttgart
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26<br />
A Wireless Transmitter Concept Based on Sigma-Delta-Synthesizers<br />
F<strong>und</strong>ed by: B<strong>und</strong>esministerium <strong>für</strong> Bildung <strong>und</strong> Forschung (BMBF)<br />
Personnel: K. Merkle – external<br />
Duration: 30.9.2007 – 30.11.2010<br />
In this external research project a circuit concept for a wireless transmitter is investigated<br />
which replaces the A/D-converter of a wireless transmitter in order to simplify<br />
the hardware concept.<br />
Acceleration of Algorithms for In-Process Measurement Techniques<br />
of Nanostructured Surfaces<br />
Personnel: M. Shaikh, M. Grégoire<br />
F<strong>und</strong>ed by: Deutsche Forschungsgemeinschaft (DFG)<br />
Duration: 15.6.2009 – 14.6.2011<br />
In this project the algorithmic part of measurement techniques with respect to acceleration<br />
is examined which can be applied to nanostructured surfaces. Th e work is<br />
carried out in collaboration with the <strong>Institut</strong>e of Measurement Techniques of Bremen<br />
University.<br />
Acceleration of Simulations of Electromagnetic Wave Propagation<br />
in Biomedical Applications<br />
Personnel: M. Grégoire, T. Bringewat<br />
F<strong>und</strong>ed by: Baden-Württemberg Stiftung<br />
Duration: 15.6.2009 – 14.6.2011<br />
In collaboration with the “<strong>Institut</strong> <strong>für</strong> Lasertechnologien in der Medizin <strong>und</strong><br />
Meßtechnik” at the University of Ulm the accelerated simulation of electromagnetic<br />
wave propagation in biological cells are examined based on the classical fi nite diff erence<br />
time domain (FDTD) approach and the discrete dipole approximation (DDA)<br />
approach.<br />
Modeling and Analysis of High Speed Multi-Gigabit Interconnects<br />
Personnel: J. Hillebrand<br />
F<strong>und</strong>ed by: <strong>Universität</strong> <strong>Stuttgart</strong><br />
Duration: since 10.1.2009<br />
Th e project aims to derive design and measurement methodologies for board-level interconnects<br />
of future multi-gigabit data transmission standards. Th e focus lies on experimental<br />
investigation, analysis and subsequent modeling of physical eff ects relevant<br />
to the design of printed circuit boards carrying the signals of these high speed communication<br />
standards.