An adaptive sampling scheme guided by BART—with an application to predict processor performance |
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| Authors: | Qingzhao Yu Bin Li Zhide Fang Lu Peng |
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| Affiliation: | 1. Department of Biostatistics, School of Public Health, Louisiana State University Health Sciences Center, Suite 1400, 1615 Poydras Street, New Orleans, LA 70112;2. Department of Experimental Statistics, Louisiana State University, Baton Rouge, LA 70803;3. Department of Electrical and Computer Engineering, Louisiana State University, Baton Rouge, LA 70803 |
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| Abstract: | The evaluation of new processor designs is an important issue in electrical and computer engineering. Architects use simulations to evaluate designs and to understand trade‐offs and interactions among design parameters. However, due to the lengthy simulation time and limited resources, it is often practically impossible to simulate a full factorial design space. Effective sampling methods and predictive models are required. In this paper, the authors propose an automated performance predictive approach which employs an adaptive sampling scheme that interactively works with the predictive model to select samples for simulation. These samples are then used to build Bayesian additive regression trees, which in turn are used to predict the whole design space. Both real data analysis and simulation studies show that the method is effective in that, though sampling at very few design points, it generates highly accurate predictions on the unsampled points. Furthermore, the proposed model provides quantitative interpretation tools with which investigators can efficiently tune design parameters in order to improve processor performance. The Canadian Journal of Statistics 38: 136–152; 2010 © 2010 Statistical Society of Canada |
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| Keywords: | Adaptive design Bayesian additive regression trees sampling method sequential G‐optimization processor performance MSC 2000: Primary 62L05 and 62D05 secondary 62F15 |
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