Scalable Sampling of Truncated Multivariate Normals Using Sequential Nearest-Neighbor Approximation

Jian Cao, Matthias Katzfuss
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Abstract

We propose a linear-complexity method for sampling from truncated multivariate normal (TMVN) distributions with high fidelity by applying nearest-neighbor approximations to a product-of-conditionals decomposition of the TMVN density. To make the sequential sampling based on the decomposition feasible, we introduce a novel method that avoids the intractable high-dimensional TMVN distribution by sampling sequentially from $m$-dimensional TMVN distributions, where $m$ is a tuning parameter controlling the fidelity. This allows us to overcome the existing methods' crucial problem of rapidly decreasing acceptance rates for increasing dimension. Throughout our experiments with up to tens of thousands of dimensions, we can produce high-fidelity samples with $m$ in the dozens, achieving superior scalability compared to existing state-of-the-art methods. We study a tetrachloroethylene concentration dataset that has $3{,}971$ observed responses and $20{,}730$ undetected responses, together modeled as a partially censored Gaussian process, where our method enables posterior inference for the censored responses through sampling a $20{,}730$-dimensional TMVN distribution.
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利用序列近邻逼近对截断多变量正态进行可扩展采样
我们提出了一种线性复杂度方法,通过对截断多变量正态分布(TMVN)密度的条件乘积分解应用最近邻近似,从截断多变量正态分布中进行高保真采样。为了使基于分解的顺序采样可行,我们引入了一种新方法,通过从 $m$ 维 TMVN 分布(其中 $m$ 是控制保真度的调整参数)顺序采样,避免了难以处理的高维 TMVN 分布。这使我们克服了现有方法的关键问题,即随着维度的增加,接受率迅速降低。在我们进行的多达数万维度的实验中,我们可以生成 $m$ 为几十的高保真样本,与现有的最先进方法相比,我们实现了卓越的可扩展性。我们研究了一个四氯乙烯浓度数据集,该数据集有3{,}971$观测到的响应和20{,}730$未检测到的响应,这些响应一起被建模为部分删减的高斯过程(partially censored Gaussianprocess),我们的方法通过对20{,}730$维的TMVN分布进行采样,实现了对删减响应的后验推断。
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