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A method for fast but yet accurate performance evaluation of processor architecture is mostly desirable in modern processors design. This paper proposes one such method which can measure cycle counts and power consumption of pipelined processors. The method first develops a trace-driven performance simulation model and then employs simulation reuse in simulation of the model. The trace-driven performance modeling is for accuracy in which performance simulation uses the same execution traces as constructed in simulation for functional verification. Fast performance simulation can be achieved in a way that performance for each instruction in the traces is evaluated without evaluation of the instruction itself. Simulation reuse supports simulation speedup by elimination of an evaluation at the current state, which is identical to that at a previous state. The reuse approach is based on the property that application programs, especially multimedia applications, have many iterative loops in general. A performance simulator for pipeline architecture based on the proposed method has been developed through which greater speedup has been made compared with other approaches in performance evaluation.
Jun Kyoung KIM Ho Young KIM Tag Gon KIM
This paper proposes a retargetable framework for rapid evaluation of processor architecture, which represents abstraction levels of architecture in a hierarchical manner. The basis for such framework is a hierarchical architecture description language, called XR2, which describes architecture at three abstraction levels: instruction set architecture, pipeline architecture and micro-architecture. In addition, a token-level computational model for fast pipeline simulation is proposed, which considers the minimal information required for the given performance measurement of the pipeline. Experimental result shows that token-level simulation is faster than the traditional cycle-accurate one by 50% to 80% in pipeline architecture evaluation.