云弹性的静态分析

Proceedings of the 17th International Symposium on Principles and Practice of Declarative Programming Pub Date : 2015-07-14 DOI:10.1145/2790449.2790524

A. Garcia, C. Laneve, Michael Lienhardt

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引用次数: 19

摘要

我们提出了一种静态分析技术，通过显式的虚拟机获取和释放操作，在并发语言中计算虚拟机使用的上界。在我们的语言中，可以委托其他(特别的或第三方的)并发代码来释放虚拟机(通过将它们作为调用的参数传递)。我们的技术是模块化的，包括(i)一个将程序与记录资源使用相关信息的行为类型相关联的类型系统(创建、释放和并发操作)，(ii)一个接受行为类型和返回成本方程的转换函数，以及(iii)成本方程的自动现成解算器。类型系统的可靠性证明建立了我们的技术在成本方程方面的正确性。我们使用成本分析求解器对我们的技术进行了实验评估，并报告了一些结果。实验表明，我们的分析使我们能够推导出比其他技术(如基于平摊分析的技术)更好的程序边界。

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Static analysis of cloud elasticity

We propose a static analysis technique that computes upper bounds of virtual machine usages in a concurrent language with explicit acquire and release operations of virtual machines. In our language it is possible to delegate other (ad-hoc or third party) concurrent code to release virtual machines (by passing them as arguments of invocations). Our technique is modular and consists of (i) a type system associating programs with behavioural types that records relevant information for resource usage (creations, releases, and concurrent operations), (ii) a translation function that takes behavioural types and return cost equations, and (iii) an automatic off-the-shelf solver for the cost equations. A soundness proof of the type system establishes the correctness of our technique with respect to the cost equations. We have experimentally evaluated our technique using a cost analysis solver and we report some results. The experiments show that our analysis allows us to derive bounds for programs that are better than other techniques, such as those based on amortized analysis.

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Proceedings of the 17th International Symposium on Principles and Practice of Declarative Programming

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