Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These applications may belong to different domains, i.e., may have firm-, soft-, or non-realtime requirements. A composable system simplifies system design, integration, and verification by avoiding the inter-application interference. Existing work demonstrates composability for applications expressed using a single model of computation. For example, Kahn Process Network (KPN) and dataflow are two common data-driven parallel models of computation, each with different properties and suited for different application domains. This paper extends existing work with support for concurrent, composable execution of KPN and dataflow applications on the same MPSoC pl...
Design of real-time MPSoC systems including multiple applications is challenging because temporal re...
Design of real-time MPSoC systems including multiple appli-cations is challenging because temporal r...
A growing number of applications, often with firm or soft real-time requirements, are integrated on ...
Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These applicati...
Abstract—Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These ...
In this paper we propose a unified model of execution that aims to fill the abstraction level gap be...
Abstract—Nowadays, most embedded devices need to sup-port multiple applications running concurrently...
Systems on chip (SOC) contain multiple concurrent applicationswith different time criticality (firm,...
Systems on chip (SOC) contain multiple concurrent appli-cations with different time criticality (fir...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
We study the implementation of data- flow applications on multi-core processor with on-chip shared m...
Design of real-time MPSoC systems including multiple applications is challenging because temporal re...
Design of real-time MPSoC systems including multiple appli-cations is challenging because temporal r...
A growing number of applications, often with firm or soft real-time requirements, are integrated on ...
Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These applicati...
Abstract—Multi-processor Systems on Chip (MPSoCs) execute multiple applications concurrently. These ...
In this paper we propose a unified model of execution that aims to fill the abstraction level gap be...
Abstract—Nowadays, most embedded devices need to sup-port multiple applications running concurrently...
Systems on chip (SOC) contain multiple concurrent applicationswith different time criticality (firm,...
Systems on chip (SOC) contain multiple concurrent appli-cations with different time criticality (fir...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
Recent trends show a steady increase towards concurrently executing more and more applications on a ...
We study the implementation of data- flow applications on multi-core processor with on-chip shared m...
Design of real-time MPSoC systems including multiple applications is challenging because temporal re...
Design of real-time MPSoC systems including multiple appli-cations is challenging because temporal r...
A growing number of applications, often with firm or soft real-time requirements, are integrated on ...