Vector space computing strength predicting method and system based on fully random forest
A technology for calculating intensity and vector space, which is applied in calculation, still image data in vector format, design optimization/simulation, etc. It can solve the problems that have not been considered, cannot deal with the interaction of different features, and it is difficult to achieve accurate measurement of vector space calculation intensity. Achieve the effect of improving prediction accuracy and improving parallel computing efficiency
Inactive Publication Date: 2018-05-18
地大(武汉)资产经营有限公司
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However, the existing vector space calculation intensity prediction model is mainly based on the linear function model, which considers some vector space calculation intensity features, but does not consider the influence of other vector space calculation intensity features, and cannot deal with the interaction between different features.
More importantly, even with the excellent random forest modeling method, it cannot adapt to the accurate prediction of vector space calculation intensity with few important features and many redundant features, making it difficult to achieve accurate measurement of vector space calculation intensity
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[0024] In order to have a clearer understanding of the technical features, purposes and effects of the present invention, the specific implementation manners of the present invention will now be described in detail with reference to the accompanying drawings.
[0025] Such as figure 1 as shown, figure 1 It is a flow chart of the vector space calculation intensity prediction method based on complete random forest provided by the present invention, and the method includes the following steps:
[0026] Step 1) Obtain the original sample set of vector space calculation intensity, each vector space calculation intensity sample includes 13 types of values, which are respectively the number of elements contained in the vector layer, element geometry type, database type, and layer space range Width, layer spatial range height, number of elements in the spatial calculation domain, number of vertices in the spatial calculation domain, window pixel width, window pixel height, window geo...
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The invention discloses a vector space computing strength predicting method and system based on a fully random forest. By inputting all features relevant to the vector space computing strength, multiple full regression trees are trained, computing strength modeling for a vector space computing domain with various features is achieved, the prediction result of the fully random forest is optimized,prediction values which are distinctly different from the prediction result are removed, the prediction precision of the fully random forest is improved, and the vector space computing strength is precisely predicted in a parallel computing environment. By means of the vector space computing strength predicting method and system based on the fully random forest, in the training process of the fully random forest, the training sample of each regression decision-making tree is randomly selected from an original sample, the selected features comprise all features of the original sample, and the model can adapt to prediction of the vector space computing strength with few important features and many redundancy features. A basis can be provided for parallel computing resource balanced scheduling and allocating, and the parallel computing efficiency is improved.
Description
technical field [0001] The invention relates to a high-performance geospatial computing technology, in particular to a vector space computing strength prediction method and system based on a complete random forest. Background technique [0002] The modeling and prediction of vector space computing intensity is one of the key issues to be solved in high-performance spatial computing. In a parallel computing environment, parallel computing resources can be scheduled in a balanced manner according to the magnitude of vector data space computing intensity. It is beneficial to obtain a higher speed-up ratio. However, the existing vector space calculation intensity prediction model is mainly based on the linear function model, which considers some vector space calculation intensity features, but does not consider the influence of other vector space calculation intensity features, and cannot deal with the interaction between different features. More importantly, even with the exce...
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IPC IPC(8): G06F17/50G06F17/30
CPCG06F16/56G06F30/20
Inventor 郭明强黄颖谢忠关庆锋吴亮刘袁缘
Owner 地大(武汉)资产经营有限公司
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