Add to ORKGAbstract—In this paper we use a Markovian model previ-ously applied to cache related delay modeling and preemption delay modeling to a subset of dynamic branch predictors related WCET delays. Our model allows the modeling of a de-terministic or non deterministic automaton or set of automata thanks to a Markovian model. We previously applied this formalism to cache related delay and cache related preemption delays [7], [9] and to non deterministic cache policy [8]. Now we would like to introduce an application to some forms of branch prediction associated Worst Case Execution Time (WCET) computation. I
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In this paper, we discuss different approaches to performance prediction of embedded systems. We dis...
This report is a presentation of a new approach for Worst Case Execu- tion Time (WCET) computation f...
In this paper we use a Markovian model previously applied to cache related delay modeling and preemp...
In this paper we refine a Markovian model previously ap-plied to modelize a subset of dynamic branch...
In real-time systems and safety critical applications, it is a necessity to compute Worst Case Execu...
The wider and wider use of high-performance proces-sors as part of real-time systems makes it more a...
In this paper, we focus on modelling the timing aspects of binary programs running on architectures ...
AbstractPower consumption is a very important issue when it comes to embedded devices, therefore eve...
International audienceLong pipelines need good branch predictors to keep the pipeline running. Curre...
Hard realtime systems rely on the assumption that the deadlines of tasks can be met otherwise the s...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
Schedulability analysis of real-time embedded systems re-quires worst case timing guarantees of embe...
Measurement-Based Probabilistic Timing Analysis (MBPTA) has been shown to be an industrially viable ...
ABSTRACT: Accurate timing prediction for real-time embedded software execution is becoming a problem...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In this paper, we discuss different approaches to performance prediction of embedded systems. We dis...
This report is a presentation of a new approach for Worst Case Execu- tion Time (WCET) computation f...
In this paper we use a Markovian model previously applied to cache related delay modeling and preemp...
In this paper we refine a Markovian model previously ap-plied to modelize a subset of dynamic branch...
In real-time systems and safety critical applications, it is a necessity to compute Worst Case Execu...
The wider and wider use of high-performance proces-sors as part of real-time systems makes it more a...
In this paper, we focus on modelling the timing aspects of binary programs running on architectures ...
AbstractPower consumption is a very important issue when it comes to embedded devices, therefore eve...
International audienceLong pipelines need good branch predictors to keep the pipeline running. Curre...
Hard realtime systems rely on the assumption that the deadlines of tasks can be met otherwise the s...
International audienceThis chapter explains the usual methodology used to estimate worst case execut...
Schedulability analysis of real-time embedded systems re-quires worst case timing guarantees of embe...
Measurement-Based Probabilistic Timing Analysis (MBPTA) has been shown to be an industrially viable ...
ABSTRACT: Accurate timing prediction for real-time embedded software execution is becoming a problem...
Traditional approaches for worst case execution time (WCET) analysis produce values which are very p...
In this paper, we discuss different approaches to performance prediction of embedded systems. We dis...
This report is a presentation of a new approach for Worst Case Execu- tion Time (WCET) computation f...