This article presents a fast and accurate interval-based CPU timing model that is easily implemented and integrated in the COTSon full-system simulation infrastructure. Validation against real x86 hardware demonstrates the timing model's accuracy. The end result is a software simulator that faithfully simulates x86 hardware at a speed in the tens of MIPS range
Timing analysis for checking satisfaction of constraints is a crucial problem in real-time system de...
Real-time aspects are becoming more important in standard desktop PC environments and x86 based proc...
The ongoing trend of increasing computer hardware and software complexity has resulted in the increa...
This article presents a fast and accurate interval-based CPU timing model that is easily implemented...
With increasing complexity and software content, modern embedded platforms employ a heterogeneous mi...
simulation toolset to characterize and evaluate the performance of multiprocessor hardware systems c...
In the early design phase of embedded systems, discrete-event simulation is extensively used to anal...
In this study, we provide a set of architectural parameters for the HPLabs COTSon simulator that can...
Cycle level full system simulator based performance evaluation has been indispensable to increasingl...
International audienceEarly performance evaluation of embedded systemsextensively uses discrete-even...
International audienceWith an ever increasing complexity of hardware/software architectures, system-...
Abstract—This article is in the context of real-time embedded systems domain. These critical systems...
The components of (networked) embedded systems heavily influence each other’s real-time behavior tha...
Processor simulators rely on detailed timing models of the processor pipeline to evaluate performanc...
The cycle-accurate simulation is a method for design space study of a processor system before it goe...
Timing analysis for checking satisfaction of constraints is a crucial problem in real-time system de...
Real-time aspects are becoming more important in standard desktop PC environments and x86 based proc...
The ongoing trend of increasing computer hardware and software complexity has resulted in the increa...
This article presents a fast and accurate interval-based CPU timing model that is easily implemented...
With increasing complexity and software content, modern embedded platforms employ a heterogeneous mi...
simulation toolset to characterize and evaluate the performance of multiprocessor hardware systems c...
In the early design phase of embedded systems, discrete-event simulation is extensively used to anal...
In this study, we provide a set of architectural parameters for the HPLabs COTSon simulator that can...
Cycle level full system simulator based performance evaluation has been indispensable to increasingl...
International audienceEarly performance evaluation of embedded systemsextensively uses discrete-even...
International audienceWith an ever increasing complexity of hardware/software architectures, system-...
Abstract—This article is in the context of real-time embedded systems domain. These critical systems...
The components of (networked) embedded systems heavily influence each other’s real-time behavior tha...
Processor simulators rely on detailed timing models of the processor pipeline to evaluate performanc...
The cycle-accurate simulation is a method for design space study of a processor system before it goe...
Timing analysis for checking satisfaction of constraints is a crucial problem in real-time system de...
Real-time aspects are becoming more important in standard desktop PC environments and x86 based proc...
The ongoing trend of increasing computer hardware and software complexity has resulted in the increa...