Quantitative system performance: computer system analysis using queueing network models
Quantitative system performance: computer system analysis using queueing network models
Dynamic fault tree models: techniques for analysis of advanced fault tolerant computer systems
Dynamic fault tree models: techniques for analysis of advanced fault tolerant computer systems
Performance and reliability analysis of computer systems: an example-based approach using the SHARPE software package
A compositional approach to performance modelling
A compositional approach to performance modelling
Probability and statistics with reliability, queuing and computer science applications
Probability and statistics with reliability, queuing and computer science applications
The Authoritative Dictionary of IEEE Standards Terms
The Authoritative Dictionary of IEEE Standards Terms
Reliability of Computer Systems and Networks: Fault Tolerance,Analysis,and Design
Reliability of Computer Systems and Networks: Fault Tolerance,Analysis,and Design
IEEE Transactions on Software Engineering
Computing System Reliability: Models And Analysis
Computing System Reliability: Models And Analysis
Basic Concepts and Taxonomy of Dependable and Secure Computing
IEEE Transactions on Dependable and Secure Computing
Queueing Networks and Markov Chains
Queueing Networks and Markov Chains
ARES '06 Proceedings of the First International Conference on Availability, Reliability and Security
Performance Analysis Using Stochastic Petri Nets
IEEE Transactions on Computers
Geometric Bounds: A Noniterative Analysis Technique for Closed Queueing Networks
IEEE Transactions on Computers
Dependability Evaluation with Dynamic Reliability Block Diagrams and Dynamic Fault Trees
IEEE Transactions on Dependable and Secure Computing
How to capture dynamic behaviours of dependable systems
International Journal of Parallel, Emergent and Distributed Systems - Papers from the Workshop on Dependable Parallel and Network-Centric Systems
Fluid models in performance analysis
SFM'07 Proceedings of the 7th international conference on Formal methods for performance evaluation
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Reliability and performance evaluation are important, often mandatory, steps in designing and analyzing (critical) systems. In such cases, accurate models are required to adequately take into account interference or dependent behaviors affecting the system, its parts and the external environment, especially if the system experiences high complexity. The techniques and tools to adopt in the evaluation have to adequately fit the problem considered. The main goal of this paper is to identify the dynamic-dependent aspects that can affect the reliability and performance of a system. Starting from the concept of dependence at the basis of system decomposition, an analytic framework and some of the most important dynamic-dependent aspects and behaviors are characterized in terms of both dynamic reliability and performance.