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Publication
Generalized Extraction of Real-Time Parameters for Homogeneous Synchronous Dataflow Graphs
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| 1.98 MB | Adobe PDF |
Advisor(s)
Abstract(s)
Many embedded multi-core systems incorporate both dataflow applications with timing constraints and traditional
real-time applications. Applying real-time scheduling techniques on such systems provides real-time guarantees
that all running applications will execute safely without violating their deadlines. However, to apply traditional realtime
scheduling techniques on such mixed systems, a unified model to represent both types of applications
running on the system is required. Several earlier works have addressed this problem and solutions have been
proposed that address acyclic graphs, implicit-deadline models or are able to extract timing parameters
considering specific scheduling algorithms. In this paper, we present an algorithm for extracting real-time
parameters (offsets, deadlines and periods) that are independent of the schedulability analysis, other applications
running in the system, and the specific platform. The proposed algorithm: 1) enables applying traditional real-time
schedulers and analysis techniques on cyclic or acyclic Homogeneous Synchronous Dataflow (HSDF) applications
with periodic sources, 2) captures overlapping iterations, which is a main characteristic of the execution of
dataflow applications, 3) provides a method to assign offsets and individual deadlines for HSDF actors, and 4) is
compatible with widely used deadline assignment techniques, such as NORM and PURE. The paper proves the
correctness of the proposed algorithm through formal proofs and examples.
Description
23rd Euromicro International Conference on Parallel, Distributed, and Network-Based Processing (PDP 2015). 4 to 6, Mar, 2015. Turku, Finland.