收敛速度较快的近线性时间正LP求解器

Z. Zhu, L. Orecchia
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引用次数: 60

摘要

正线性规划(LP),也被称为包装和覆盖线性规划,是连接计算机科学、运筹学和优化的重要问题。在过去的20年里,求解这类lp的高效算法受到了极大的关注[2,3,4,6,7,9,11,15,16,18,19,21,24,25,26,29,30]。不幸的是,所有已知的用于生成正lp的(1+ε)近似解的近线性时间算法的运行时间依赖至少与ε-2成正比。这也被称为O(1/√T)收敛速率,在许多应用中特别差。在本文中,我们利用优化理论的见解来打破这个长期存在的障碍。我们的算法在时间~O(N ε-1)和覆盖时间~O(N ε-1.5)内分别求解了填充LP和覆盖LP。在高层次上,它们可以被描述为几个一阶下降步骤的线性耦合。这是我们的线性耦合技术(参见[1])在凸优化中已知迭代算法的黑盒应用无法解决的问题上的第一个应用。我们的工作还介绍了一系列新技术,包括梯度截断操作的随机和非对称执行,这可能是独立的兴趣。
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Nearly-Linear Time Positive LP Solver with Faster Convergence Rate
Positive linear programs (LP), also known as packing and covering linear programs, are an important class of problems that bridges computer science, operation research, and optimization. Efficient algorithms for solving such LPs have received significant attention in the past 20 years [2, 3, 4, 6, 7, 9, 11, 15, 16, 18, 19, 21, 24, 25, 26, 29, 30]. Unfortunately, all known nearly-linear time algorithms for producing (1+ε)-approximate solutions to positive LPs have a running time dependence that is at least proportional to ε-2. This is also known as an O(1/√T) convergence rate and is particularly poor in many applications. In this paper, we leverage insights from optimization theory to break this longstanding barrier. Our algorithms solve the packing LP in time ~O(N ε-1) and the covering LP in time ~O(N ε-1.5). At high level, they can be described as linear couplings of several first-order descent steps. This is the first application of our linear coupling technique (see [1]) to problems that are not amenable to blackbox applications known iterative algorithms in convex optimization. Our work also introduces a sequence of new techniques, including the stochastic and the non-symmetric execution of gradient truncation operations, which may be of independent interest.
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