Software simulation is of a big importance during development of processors as they provide access to hardware under development. Cycle-accurate simulators allow software engineers to design and optimize high-performance algorithms and programs with considerations of features and characteristics of processors being in development. This is especially important for architectures, whose performance is mainly achieved by advanced compiler optimizations. One of the core aspects of a cycle-accurate simulator is the way it simulates the pipeline of the target processor. A pipeline model has high impact on an overall structure of a simulator and its potential performance and accuracy. The main goal of this paper is to develop and analyze different approaches to pipeline simulation of "Elbrus" microprocessors, which let us reuse functionality of existing instruction set simulator and achieve good balance of performance and accuracy. We briefly describe features of "Elbrus" microprocessors and specifics of existing instruction set simulator, relevant for cycle-accurate simulation. We make several simple, but general and useful observations about various aspects of pipeline behavior in context of accurate and efficient cycle-accurate simulation of microprocessors. These observations are then used as a basis for justification, development and analysis of the several approaches to the pipeline simulation, described in this paper. We describe four different approaches, starting from simple and obvious one, which is then successively transformed into more advanced ones through several iterations. We analyze limitations of proposed approaches and outline further work.
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