This conference focuses on the different approaches in engineering of reconfigurable systems and implementing of algorithms, including theory, architecture, algorithms, design systems and applications that demonstrate the benefits of reconfigurable computing.
 
 

The topics of interest include, but are not limited to:
 

1.  Theory, Mapping and Parallelization

   o  Theoretical models of computing in space-time and adaptive computing
   o  Mapping algorithms into hardware and synthesis of regular arrays
   o  Parallelization and  (space-time) partitioning of algorithms
   o  System architectures using configurable computing platform
   o  Newly developed algorithms for efficient implementation on reconfigurable systems
 
 
2. Software, CAD and Operating Systems

   o  CAD,  specification, partitioning and verification
   o  Hardware compilation, hardware/software codesign, developing correct circuits
   o  High and low-level languages and compilers, design environments
   o  Operating systems and run-time reconfiguring
   o  IP-based and object oriented models and mapping methods
 
 
3. Adaptive Hardware Architectures

   o  Adaptive and dynamically reconfigurable systems
   o  Reconfigurable processor architectures
   o  Complex systems using reconfigurable processors
   o  Application-tailored reconfigurable Systems-on-Chip
   o  Low power systems on reconfigurable platform
 
 
4. Applications

   o Wireless communication systems ---
           mobile communication systems, video-phone, software radio,  global positioning systems etc.

   o Multimedia and virtual reality ---
           video imaging, teleconferencing, data compression, image databases,  computational geometry and  computer graphics etc.

   o Automotive industry ---
           vehicle guidance, lane  and obstacle detection, object recognition, traffic systems, navigation of robots etc.

   o Security systems ---
           object recognition and tracking, cryptology, Internet and security etc.

   o Classical image and signal processing ---
           digital filters, edge and line detection, morphological operators,  motion and stereo estimation, discrete transformations,   linear algebra, radar systems,  object recognition etc.