We propose a new graphical model inference procedure, called SG-PALM, for learning conditional dependency structure of high-dimensional tensor-variate data. Unlike most other tensor graphical models the proposed model is interpretable and computationally scalable to high dimension. Physical interpretability follows from the Sylvester generative (SG) model on which SG-PALM is based: the model is exact for any observation process that is a solution of a partial differential equation of Poisson type. Scalability follows from the fast proximal alternating linearized minimization (PALM) procedure that SG-PALM uses during training. We establish that SG-PALM converges linearly (i.e., geometric convergence rate) to a global optimum of its objective function. We demonstrate the scalability and accuracy of SG-PALM for an important but challenging climate prediction problem: spatio-temporal forecasting of solar flares from multimodal imaging data.
翻译:我们提出了一个新的图形模型推断程序,称为SG-PALM,用于学习高维多元变异数据的有条件依赖性结构。与大多数其他高频图形模型不同,拟议模型可解释,可计算为高维。物理解释来自SG-PALM所依据的Sylvester基因化(SG)模型:该模型对于解决Poisson型部分差异方程式的任何观测过程都是精确的。可缩放性来自SG-PALM在培训中使用的快速准交替线性最小化(PALM)程序。我们确定SG-PALM从线性(即几何趋同率)到其客观功能的全球最佳化。我们展示SG-PALM对于一个重要但具有挑战性的气候预测问题的可缩放性和准确性:从多式成像数据中对太阳耀斑进行波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波波
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