Platzner / Wehn / Teich Dynamically Reconfigurable Systems

Architectures.- Development and Synthesis of Adaptive Multi-grained Reconfigurable Hardware Architecture for Dynamic Function Patterns.- Reconfigurable Components for Application-Specific Processor Architectures.- Erlangen Slot Machine: An FPGA-Based Dynamically Reconfigurable Computing Platform.- Design Methods and Tools - Modeling, Evaluation and Compilation.- Models and Algorithms for Hyperreconfigurable Hardware.- Evaluation and Design Methods for Processor-Like Reconfigurable Architectures.- Adaptive Computing Systems and Their Design Tools.- —Object-Oriented Modelling and Synthesis Targeting Dynamically Reconfigurable FPGAs.- Design Methods and Tools - Optimization and Runtime Systems.- Design Methods and Tools for Improved Partial Dynamic Reconfiguration.- Dynamic Partial Reconfiguration by Means of Algorithmic Skeletons—A Case Study.- ReCoNodes—Optimization Methods for Module Scheduling and Placement on Reconfigurable Hardware Devices.- ReCoNets—Design Methodology for Embedded Systems Consisting of Small Networks of Reconfigurable Nodes and Connections.- Adaptive Runtime System with Intelligent Allocation of Dynamically Reconfigurable Function Model and Optimized Interface Topologies.- ReconOS: An Operating System for Dynamically Reconfigurable Hardware.- Applications.- FlexiChaP: A Dynamically Reconfigurable ASIP for Channel Decoding for Future Mobile Systems.- Dynamically Reconfigurable Systems for Wireless Sensor Networks.- DynaCORE—Dynamically Reconfigurable Coprocessor for Network Processors.- FlexPath NP—Flexible, Dynamically Reconfigurable Processing Paths in Network Processors.- AutoVision—Reconfigurable Hardware Acceleration for Video-Based Driver Assistance.- Procedures for Securing ECC Implementations Against Differential PowerAnalysis Using Reconfigurable Architectures.- Reconfigurable Controllers—A Mechatronic Systems Approach.