Projects from Prof. Dr.-Ing. J. Christoph Scheytt
RISC-V QEMU Implementations
Die Fachgruppe Schaltungstechnik war 2017 initial in Kooperation mit SiFive und TI der Co-Maintainer der ersten RISC-V-Implementierung innerhalb des QEMU CPU-Emulators. QEMU ist ein quelloffener CPU-Emulator, der eine Vielzahl von Befehlssatzarchitekturen zur Ausführung von kompilierter Software unterstützt. Die Fachgruppe kann auf umfangreiche ...
Duration: 08/2017 - 12/2024
Funded by: BMBF
Contact: apl. Prof. Dr. Wolfgang Müller
Monolithically Integrated Opto-Electronic Frequency Synthesizer in Silicon Photonics
Low jitter signal sources are in widespread use for object detection, navigation systems, and ultra-high speed data communication systems. The jitter of the signal sources is dominated by the reference signal source which is a Surface Acoustic Wave (SAW) or a quartz oscillator. While these reference oscillators are standard for communication ...
Duration: 06/2017 - 05/2021
Funded by: DFG
Contact: Meysam Bahmanian
Cute-machining - Cutting edge machining intelligence cloud
The Project "Cutting edge machining intelligence cloud", aims at the optimization of manufacturing processes by empowering the machining tools as "Smart Objects". In this project, the problem of tool-life fluctuations and the lack of predictability of tool-life in CNC machines are addressed and resolved using the so-called "tool monitoring" ...
Duration: 04/2016 - 06/2019
Funded by: EU, EFRE.NRW, LeitmarktAgentur.NRW
Contact: Saed Abughannam, M.Sc. Sanaz Haddadian
SPEED - Silicon Photonics Enabling Exascale Data Networks
With the growing demand for centralized data storage and processing large data centers have become an integral part of the strategy of large content and service providers such as Google, Amazon, Microsoft etc. Currently mega-data-centers in the size of large storehouses are built and evolve more and more to crosspoints of the global IT ...
Duration: 10/2015 - 09/2018
Funded by: BMBF
Contact: apl. Prof. Dr. Wolfgang Müller, Sergiy Gudyriev, M.Sc., M.Sc. Mohammed Iftekhar
EffektiV: Virtual Stresstests for Robots
Manufacturing plants of the future, the so-called cyber-physical Production Systems (CPPS), are highly complex, intelligent systems, which consist of a large number of heterogeneous components: software, microelectronics, power electronics, sensors, actuators. In this context, motion control systems, which form the core of those systems, coordinate ...
Duration: 06/2014 - 05/2017
Funded by: BMBF
Contact: apl. Prof. Dr. Wolfgang Müller
Transregional Collaborative Research Center TRR 142 - Tailored Nonlinear Photonics: From Fundamental Concepts to Functional Structures
The central goal of this CRC is the exploration, development, and engineering of future nonlinear photonics, which uses state-of-the-art technological capabilities for the exploration of new physics and devices based on tailored strong nonlinearities and genuine quantum effects. Our research harnesses tailored solid-state systems and bridges the ...
Duration: 04/2014 - 12/2025
Funded by: DFG
SPP 1655 - Real100g - 100 Gigabit per second wireless communication
Currently, mobile phone networks (LTE-A) and conventional wireless local area networks (WLAN) provide data rates of up to 1 Gigabit per second. However, demanding services like high definition video streaming require even higher data rates. In the REAL100G.COM project, the System and Circuit Technology research group aims to reach wireless data ...
Duration: 06/2013 - 05/2020
Funded by: DFG
SPP 1655: Wireless Ultra-High Speed Communication for Mobile Internet Access: "Wireless 100 Gb/s and beyond"
Wireless communication is becoming more and more a key technology for many economic areas. While during the last 20 years mainly the communication industry itself profited from the stable growth increasingly also areas like e.g. embedded systems, industrial automation, automotive communication, medical technologies, environmental monitoring and ...
Duration: 01/2013 - 12/2020
Funded by: DFG
On-Wafer-Messplatz für Breitband- und H?chstfrequenzschaltungen
Die Fachgruppe befasst sich in Lehre und Forschung mit dem Entwurf von integrierten H?chstfrequenz- und Breitbandschaltungen im Frequenzbereich bis über 100 GHz und mit seriellen Datenraten bis über 100 Gbit/s. Für den H?chstfrequenz- und Breitband-IC-Messplatz sollen ein manueller Wafer-Prober, ein Vektor-Netzwerkanalysator bis 110 GHz, ein ...
Duration: 01/2013 - 12/2013
Funded by: DFG
Miniaturized Radar Sensor for autonomous aircrafts - Development of a 122GHz Radar Module
In cooperation with partners from industry and universities our group develops a highly integrated 122GHz radar module for use in Unmanned Aerial Vehicle (UAV) applications. Based on a 122 GHz Radar IC as shown in Fig. 1 an extremely miniaturized sensor module will be developed.Electromagnetic waves in the frequency range above 100 GHz penetrate ...
Duration: 01/2013 - 12/2018
Funded by: EU
Contact: Stephan Kruse