Phase I Projects

Projects
Title Topics Project Leader

Runtime reconfigurable analog circuits and adaptive filter synthesis for compensation of unreliable hard-ware constraints

Dr. Joachim Becker, Uni Ulm

MixedCoreSoC - A Highly Dependable Self-Adaptive Mixed-Signal Multi-Core System-on-Chip

Prof. Uwe Brinkschulte, Uni Frankfurt

Prof. Lars Hedrich, Uni Frankfurt

Lifting Device-Level Characteristics for Error Resilient System Level Design: A Crosslayer Approach

Prof. Samarjit Chakraborty, TU München

Prof. Ulf Schlichtmann, TU München

ASTEROID - An Analyzable, Resilient, Embedded Real-Time Operating System Design

Prof. Rolf Ernst, TU Braunschweig

Prof. Hermann Härtig, TU Dresden

VirTherm-3D Communication Virtualization Enabling Thermal Management for Dependable 3D Many-Cores

 

Prof. Jörg Henkel, KIT Karlsruhe

Prof. Andreas Herkersdorf, TU München

 

OTERA: Online Test Strategies for Reliable Reconfigurable Architectures

Prof. Jörg Henkel, KIT Karlsruhe

Prof. Hans-Joachim Wunderlich, Uni Stuttgart

Dependability Aspects in Configurable Embedded Operating Systems

Dr. Rüdiger Kapitza, Uni Erlangen

Dr. Daniel Lohmann, Uni Erlangen

Prof. Olaf Spinczyk, TU Dortmund

Software-based error handling using cooperation between compilers and operating systems

Prof. Peter Marwedel, TU Dortmund

Dr. Michael Engel, TU Dortmund

Temperature-driven Thread mapping and Shadowing in Hybrid Multi-cores (SMASH)

Prof. Marco Platzner, Uni Paderborn

Self-adaptive Coarse-Grained Reconfigurable Architectures as Reliability Enhancers in Embedded Systems

Prof. Wolfgang Rosenstiel, Uni Tübingen

Providing Efficient Reliability in Critical Embedded Systems

Prof. Mehdi Tahoori, KIT Karlsruhe

Design of efficient, dependable VLSI architectures based on a cross-layer-reliability approach using wireless communication as application

Prof. Norbert Wehn, TU Kaiserslautern

Associated Projects
Title Topics Project Leader

Compositional System Level Reliability Analysis in the Presence of Uncertainties

Prof. Jürgen Teich, Uni Erlangen 

Automatisierte Verfahren zur Optimierung analoger integrierter Schaltungen im Hinblick auf Alterung

Dr. Helmut Graeb, TU Münich