基于迭代可达集约简的非线性模拟电路可达性分析

S. Ahmadyan, Shobha Vasudevan
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引用次数: 3

摘要

我们提出了一种非线性模拟电路的可达性分析方法来验证其安全特性。我们的迭代可达集约简算法最初认为整个状态空间是可达的。我们的算法迭代地确定状态空间中哪些区域是不可达的,并从过逼近的可达集中删除这些不可达的区域。我们使用状态划分树(SPT)算法递归地将可达集划分为凸多边形。我们通过分析两个相邻多面体之间公共面处的状态空间轨迹方向来确定相邻多面体的可达性。我们将轨迹的方向建模为可达性决策函数,并使用可靠的根计数方法求解。我们忠实于系统的非线性。通过计算范德波尔振荡电路的可达集,证明了该算法的存储效率。
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Reachability analysis of nonlinear analog circuits through iterative reachable set reduction
We propose a methodology for reachability analysis of nonlinear analog circuits to verify safety properties. Our iterative reachable set reduction algorithm initially considers the entire state space as reachable. Our algorithm iteratively determines which regions in the state space are unreachable and removes those unreachable regions from the over approximated reachable set. We use the State Partitioning Tree (SPT) algorithm to recursively partition the reachable set into convex polytopes. We determine the reachability of adjacent neighbor polytopes by analyzing the direction of state space trajectories at the common faces between two adjacent polytopes. We model the direction of the trajectories as a reachability decision function that we solve using a sound root counting method. We are faithful to the nonlinearities of the system. We demonstrate the memory efficiency of our algorithm through computation of the reachable set of Van der Pol oscillation circuit.
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