Title :
Modeling and generation tools for large-scale, real-time embedded systems
Author :
Bapty, Ted ; Neema, Sandeep ; Nordstrom, Steve ; Shetty, Shweta ; Vashishtha, Divya ; Overdorf, Jason ; Sheldon, Paul
Author_Institution :
Vanderbilt Univ., Nashville, TN, USA
Abstract :
High energy physics experiments require very large, real-time computation. Furthermore, the computers that implement on-line processing must be very reliable, due to the large cost of operating the facilities and the potential for loss of irreplaceable data. Standard, redundant fault tolerance approaches are not appropriate due to system costs (Fault handling is limited to 10% overhead). Adaptive, fault-mitigation approaches must be used instead. In this paper, we describe a set of tools for specifying and implementing user-defined adaptation algorithms, using model-based representation for specification and software synthesis for implementation.
Keywords :
embedded systems; formal specification; high energy physics instrumentation computing; software fault tolerance; adaptive fault-mitigation approaches; generation tools; high energy physics experiments; large-scale real-time embedded systems; model-based representation; modeling tools; on-line processing; real-time computation; software synthesis; specification; user-defined adaptation algorithms; Aggregates; Costs; Embedded system; Fault tolerant systems; Hardware; Large-scale systems; Physics computing; Real time systems; Redundancy; Software tools;
Conference_Titel :
Engineering of Computer-Based Systems, 2003. Proceedings. 10th IEEE International Conference and Workshop on the
Print_ISBN :
0-7695-1917-2
DOI :
10.1109/ECBS.2003.1194777
