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WEAVESIM: A SCALABLE AND REUSABLE CLOUD SIMULATION FRAMEWORK LEVERAGING ASPECT-ORIENTED PROGRAMMING

AlSobeh, Anas ; AlShattnawi, Sawsan ; Jarrah, Amin ; Hammad, Mahmoud

Jordanian Journal of Computers and Information Technology, 2020-06, Vol.6 (2), p.1-201 [Periódico revisado por pares]

Amman: Scientific Research Support Fund of Jordan Princess Sumaya University for Technology

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  • Título:
    WEAVESIM: A SCALABLE AND REUSABLE CLOUD SIMULATION FRAMEWORK LEVERAGING ASPECT-ORIENTED PROGRAMMING
  • Autor: AlSobeh, Anas ; AlShattnawi, Sawsan ; Jarrah, Amin ; Hammad, Mahmoud
  • Assuntos: cloud architecture ; cloud simulation ; cloudsim ; Data encryption ; dynamic modeling ; model-based aspect-oriented programming ; Simulation ; Software
  • É parte de: Jordanian Journal of Computers and Information Technology, 2020-06, Vol.6 (2), p.1-201
  • Descrição: Cloud computing service-oriented simulation frameworks are very important tools for modeling and simulating the dynamic behavior of cloud-based software systems. However, the existing service-oriented simulation frameworks lack the ability to measure and control the rapidly changing (adaptive) requirements that span over many modules in cloud-based software systems, such as security, logging, monitoring, …etc. To address these limitations, this paper presents an efficient framework for reducing the complexity of modeling and simulating the custom and dynamic behavior of cloud-based applications, called WeaveSim. WeaveSim utilizes the aspect-oriented programming (AOP) to encapsulate the complexity of developing the dynamic behavior of cloud-based applications by adding another abstract layer called Context-Aware Aspect Layer (CAAL). CAAL reduces the complexity of using CloudSim to simulate cloud-based software systems. Examples of cross-cutting concerns are data encryption, logging and monitoring. Since implementing a cross-cutting concern on a cloud-based simulator, such as CloudSim, requires modifications, from developers, to many core modules of that simulator. However, using WeaveSim, implementing cross-cutting concerns would be an easy task for developers, since they only need to reuse pre-defined joinpoints and pointcuts without modifying the underlying core modules of the simulator. We evaluated WeaveSim on an academically-scaled system. The results of our experimental evaluations show the benefit of WeaveSim in reducing the complexity of implementing cross-cutting concerns on cloud-based software systems. Hence, the reusability, scalability and maintainability of the cloud-based software systems are increased.
  • Editor: Amman: Scientific Research Support Fund of Jordan Princess Sumaya University for Technology
  • Idioma: Inglês;Árabe
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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