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RTAS
1999
IEEE
1999
IEEE
Timing Constraint Remapping to Avoid Time Discontinuities in Distributed Real-Time Systems
In this paper we propose a dynamic constraint transformation technique for ensuring timing requirements in a distributed real-time system possessing periodically synchronized distributed local clocks. Traditional discrete clock synchronization algorithms that adjust local clocks instantaneously yield time discontinuities. Such time discontinuities lead to the loss or the gain of critical time points such as task release times and deadlines, thus raising run-time faults. While continuous clock synchronization is generally suggested to avoid the time discontinuity problem, it incurs too much run-time overhead to be implemented in software. The proposed constraint transformation for equi-continuity (CTEC) technique can solve this problem without modifying discrete clock synchronization algorithms. The CTEC working as an added component of discrete clock synchronization moves timing constraints out of correction intervals. In doing so, it makes use of a mapping derived from continuous clo...
Real-time TrafficClock Synchronization | Continuous Clock Synchronization | Discrete Clock Synchronization | Embedded Systems | RTAS 1999 |
| Added | 04 Aug 2010 |
| Updated | 04 Aug 2010 |
| Type | Conference |
| Year | 1999 |
| Where | RTAS |
| Authors | Minsoo Ryu, Jungkeun Park, Seongsoo Hong |
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