In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples response time analysis from a reliance on context-independent WCET values. Instead, the analysis formulates response times directly from the demands placed on different hardware resources. The MRTA framework is extensible to different multicore architectures, with a variety of arbitration policies for the common interconnects, and different types and arrangements of local memory. We instantiate the framework for single level local data and instruction memories (cache or scratchpads), for a variety of memory bus arbitration policies, including: Round-Robin, FIFO, Fixed-Priority, Processor-Priority, and TDMA, and account for DRAM refreshes. The MR...
Abstract—It is predicted that multicores will be increasingly used in future embedded real-time syst...
Predictability is of paramount importance in real-time and safety-critical systems, where non-functi...
The interference on shared resources caused by concurrently executing applications unpredictably pro...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
In this paper, we introduce a Multicore Response Time Analysis (MRTA) framework. This framework is e...
Outstanding paper awardInternational audienceIn this paper, we introduce a Multicore Response Time A...
In this paper, we introduce a Multicore Response Time Analysis (MRTA) framework. This framework is e...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
The current industry trend is towards using Commercially available Off-The-Shelf (COTS) based multic...
International audienceIn this paper we introduce a response time analysis technique for Synchronous ...
International audienceThe aim of this paper is to present a high precision and event-versatile MBPTA...
Abstract Multicore technology has the potential for drastically increasing produc-tivity of embedded...
Abstract—In the domain of real-time systems, the analysis of the timing behavior of programs is cruc...
In singlecore processors timing analysis involves a step of Execution Time Analysis at task level th...
With the advent of multicore architectures, worst case execution time (WCET) analysis has become an ...
Abstract—It is predicted that multicores will be increasingly used in future embedded real-time syst...
Predictability is of paramount importance in real-time and safety-critical systems, where non-functi...
The interference on shared resources caused by concurrently executing applications unpredictably pro...
In this paper, we introduce a multicore response time analysis (MRTA) framework, which decouples res...
In this paper, we introduce a Multicore Response Time Analysis (MRTA) framework. This framework is e...
Outstanding paper awardInternational audienceIn this paper, we introduce a Multicore Response Time A...
In this paper, we introduce a Multicore Response Time Analysis (MRTA) framework. This framework is e...
Multicore technology has the potential for drastically increasing productivity of embedded real-time...
The current industry trend is towards using Commercially available Off-The-Shelf (COTS) based multic...
International audienceIn this paper we introduce a response time analysis technique for Synchronous ...
International audienceThe aim of this paper is to present a high precision and event-versatile MBPTA...
Abstract Multicore technology has the potential for drastically increasing produc-tivity of embedded...
Abstract—In the domain of real-time systems, the analysis of the timing behavior of programs is cruc...
In singlecore processors timing analysis involves a step of Execution Time Analysis at task level th...
With the advent of multicore architectures, worst case execution time (WCET) analysis has become an ...
Abstract—It is predicted that multicores will be increasingly used in future embedded real-time syst...
Predictability is of paramount importance in real-time and safety-critical systems, where non-functi...
The interference on shared resources caused by concurrently executing applications unpredictably pro...