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引用次数: 12
摘要
自旋系统是一个框架,在这个框架中,图的顶点从一个有限集合中被分配自旋。相邻自旋之间的相互作用会产生权值,因此自旋分配也可以看作是加权图同态。对于一般图来说,逼近配分函数(自旋分配的总权重)或从结果概率分布中抽样的问题通常是难以解决的。在这项工作中,我们考虑了二部扩展Δ-regular图上的任意自旋系统,包括二部随机Δ-regular图的规范类。当图的度和谱隙足够大时,我们开发了一般自旋系统的快速近似采样和计数算法。粗略地说,这保证了自旋系统处于所谓的低温状态。我们的方法推广了Jenssen et al.和Chen et al.的技术,证明了二部展开器上的典型构型对应于自旋系统的“双线”;然后,使用合适的聚合物模型,我们展示了如何在Õ(n2)时间内对这种构型进行采样并近似配分函数,其中n是图的大小。
Fast Algorithms for General Spin Systems on Bipartite Expanders
A spin system is a framework in which the vertices of a graph are assigned spins from a finite set. The interactions between neighbouring spins give rise to weights, so a spin assignment can also be viewed as a weighted graph homomorphism. The problem of approximating the partition function (the aggregate weight of spin assignments) or of sampling from the resulting probability distribution is typically intractable for general graphs. In this work, we consider arbitrary spin systems on bipartite expander Δ-regular graphs, including the canonical class of bipartite random Δ-regular graphs. We develop fast approximate sampling and counting algorithms for general spin systems whenever the degree and the spectral gap of the graph are sufficiently large. Roughly, this guarantees that the spin system is in the so-called low-temperature regime. Our approach generalises the techniques of Jenssen et al. and Chen et al. by showing that typical configurations on bipartite expanders correspond to “bicliques” of the spin system; then, using suitable polymer models, we show how to sample such configurations and approximate the partition function in Õ(n2) time, where n is the size of the graph.
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