Assessing the Performance of Raaes: Reliability-Assured and Accessibility-Enriched Storage Structure in Cloud Environment

Cloud computing has revolutionized the world of distributed computing in recent decades, offering new dimensions and enticing opportunities. Presently, numerous organizations and individuals are increasingly transitioning to cloud storage services for their business and personal needs. This shift is primarily driven by the appealing concepts of "on-demand" and "Pay per Use," which provide flexible and cost-effective solutions. Perhaps, that’s why it provides even more services to billions of users in every moment from the most popular companies such as Google, Microsoft, and Yahoo. However, the numerous cloud services are offered by a multitude of data centers equipped with power, network infrastructure, and backup systems. These services cater to users' demands for high availability and swift response times, necessitating the mirroring of each service across multiple geographically dispersed data centers. Previous research addressed this issue by focusing on the perspectives of vendors and users, aiming to develop economical and improved cloud storing solutions that fulfill stability and obtainability requirements for overall storage process. Furthermore, there is a suggestion to enhance the RAAES framework, aiming for efficient cloud storage by significantly reducing space and cost while still meeting reliability demands. Therefore, this study evaluated the performance of the RAAES through this paper, improved the availability requirements, ultimately reduced the response time, and actively promoted the development of the cloud with an efficient impact stock. As a result, it fosters the advancement of cloud technology by facilitating efficient storage, thereby generating a positive impact.