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引用次数: 0
摘要
我们介绍了近期工作中出现的一种形式主义的变体,该形式主义针对的是一个杰出实体(领导者)协调任意数量相同实体(追随者)运行的系统建模。我们的变体更适合验证涉及复杂运算条件的系统属性。原形式主义被转化为一阶时态逻辑的可控片段,目的是利用自动(一阶时态逻辑)定理证明器进行验证,而我们的变体被转化为线性整数运算,目的是利用可满足性模态理论(SMT)求解器进行验证。具体地说,对于我们的形式主义中指定的任何给定系统,对于任何自然数 n,我们都能证明线性整数算术公式的存在,该公式的模型与系统在 n 个时间步长内执行的某些计数抽象(轮廓)一一对应。因此,对于任何自然数 n,我们都可以通过确定上述公式在逻辑上蕴含了某一属性,来验证任何此类系统在 n 个时间步长内的所有执行都具有该属性。为了突出我们方法的实用性,我们指定并验证了分布式数据库系统和低功耗无线网络中常用的三种共识协议。
Parameterized Verification of Leader/Follower Systems via Arithmetic Constraints
We introduce a variant of a formalism appearing in recent work geared towards modelling systems in which a distinguished entity (leader) orchestrates the operation of an arbitrary number of identical entities (followers). Our variant is better suited for the verification of system properties involving complex arithmetic conditions. Whereas the original formalism is translated into a tractable fragment of first-order temporal logic, aiming to utilize automated (first-order temporal logic) theorem provers for verification, our variant is translated into linear integer arithmetic, aiming to utilize satisfiability modulo theories (SMT) solvers for verification. In particular, for any given system specified in our formalism, we prove, for any natural number
n
, the existence of a linear integer arithmetic formula whose models are in one-to-one correspondence with certain counting abstractions (profiles) of executions of the system for
n
time steps. Thus, one is able to verify, for any natural number
n
, that all executions for
n
time steps of any such system have a given property by establishing that said formula logically entails the property. To highlight the practical utility of our approach, we specify and verify three consensus protocols, actively used in distributed database systems and low-power wireless networks.
期刊介绍:
IEEE Transactions on Software Engineering seeks contributions comprising well-defined theoretical results and empirical studies with potential impacts on software construction, analysis, or management. The scope of this Transactions extends from fundamental mechanisms to the development of principles and their application in specific environments. Specific topic areas include:
a) Development and maintenance methods and models: Techniques and principles for specifying, designing, and implementing software systems, encompassing notations and process models.
b) Assessment methods: Software tests, validation, reliability models, test and diagnosis procedures, software redundancy, design for error control, and measurements and evaluation of process and product aspects.
c) Software project management: Productivity factors, cost models, schedule and organizational issues, and standards.
d) Tools and environments: Specific tools, integrated tool environments, associated architectures, databases, and parallel and distributed processing issues.
e) System issues: Hardware-software trade-offs.
f) State-of-the-art surveys: Syntheses and comprehensive reviews of the historical development within specific areas of interest.
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