Exact analysis of synchronous dataflow (sdf) graphs is often considered too costly, because of the expensive transformation of the graph into a single-rate equivalent. As an alternative, several authors have proposed approximate analyses. Existing approaches to approximation are based on the operational semantics of an sdf graph. We propose an approach to approximation that is based on functional semantics. This generalises earlier work done on multi-rate sdf graphs towards cyclo-static sdf (csdf) graphs. We take, as a starting point, a mathematical characterisation, and derive two transformations of a csdf graph into hsdf graphs. These hsdf graphs have the same size as the csdf graph, and are approximations: their respective temporal behav...
The timed dataflow model of computation is a useful performance analysis tool for electronic system ...
In this paper we present a novel approach to throughput analysis of synchronous dataflow (SDF) graph...
The design of increasingly complex and concurrent multimedia systems requires a description at a hig...
Exact analysis of synchronous dataflow (sdf) graphs is often considered too costly, because of the e...
In this paper, we present a transformation that takes a cyclo-static dataflow (CSDF) graph and produ...
In this article, we present a mathematical characterisation of admissible schedules of cyclo-static ...
In the design of real-time systems, time forms a key requirement in a system’s specification. System...
Exact temporal analyses of multi-rate synchronous dataflow (MRSDF) graphs, such as computing the max...
Synchronous dataflow graphs (SDFGs) are used extensively to model streaming applications. An SDFG ca...
Synchronous dataflow graphs (SDFGs) are used extensively to model streaming applications. An SDFG ca...
The Synchronous Dataflow (SDF) model of computation is popu-lar for modelling the timing behaviour o...
The Synchronous Dataflow (SDF) model of computation is popular for modelling the timing behaviour of...
International audienceCyclo-Static DataFlow Graphs (CSDFG in short) is a formalism commonly used to ...
The timed dataflow model of computation is a useful performance analysis tool for electronic system ...
In this paper we present a novel approach to throughput analysis of synchronous dataflow (SDF) graph...
The design of increasingly complex and concurrent multimedia systems requires a description at a hig...
Exact analysis of synchronous dataflow (sdf) graphs is often considered too costly, because of the e...
In this paper, we present a transformation that takes a cyclo-static dataflow (CSDF) graph and produ...
In this article, we present a mathematical characterisation of admissible schedules of cyclo-static ...
In the design of real-time systems, time forms a key requirement in a system’s specification. System...
Exact temporal analyses of multi-rate synchronous dataflow (MRSDF) graphs, such as computing the max...
Synchronous dataflow graphs (SDFGs) are used extensively to model streaming applications. An SDFG ca...
Synchronous dataflow graphs (SDFGs) are used extensively to model streaming applications. An SDFG ca...
The Synchronous Dataflow (SDF) model of computation is popu-lar for modelling the timing behaviour o...
The Synchronous Dataflow (SDF) model of computation is popular for modelling the timing behaviour of...
International audienceCyclo-Static DataFlow Graphs (CSDFG in short) is a formalism commonly used to ...
The timed dataflow model of computation is a useful performance analysis tool for electronic system ...
In this paper we present a novel approach to throughput analysis of synchronous dataflow (SDF) graph...
The design of increasingly complex and concurrent multimedia systems requires a description at a hig...