Optimizing Workflow Scheduling for Web Servers in Hybrid Cloud Computing: Balancing Delay Sensitivity and Performance Efficiency

Er. Manpreet Singh, Er. Akashdeep Singh Rana, Er. Simran and Er. Hitakshi
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Er. Manpreet Singh: Assistant Professor, Department of Computer Science and Engineering, Sant Baba Bhag Singh University, Jalandhar, Punjab
Er. Akashdeep Singh Rana: Assistant Professor, Department of Computer Science and Engineering, Sant Baba Bhag Singh University, Jalandhar, Punjab
Er. Simran: Research Scholar, Department of CSE, GNA University, Phagwara, Punjab
Er. Hitakshi: Assistant Professor, Department of Computer Science and Engineering, Sant Baba Bhag Singh University, Jalandhar, Punjab

International Journal of Latest Technology in Engineering, Management & Applied Science, 2025, vol. 14, issue 5, 768-776

Abstract: To develop an efficient operations organizing optimization of internet servers that will certainly bring great concessions to satisfy the operations job hold-up prerequisite and also efficiency demand. Techniques: This research provides a delay aware as well as performance-efficient power optimization (DAPEEO) strategy for operations implementation in a diverse atmosphere (i.e., edge-cloud setting). This method offers an operations implementation version which satisfies the application hold-up requirement together with efficiency need. Searching for: Our design has actually been developed to lower the power usage, rise throughput, lower computational price together with computational time to give a delay-aware along with performance-efficient operations design for the internet servers in crossbreed cloud computer. Our design Delay Aware together with Performance Efficient Workflow Scheduling of Web Servers in Hybrid Cloud Computing Environment (DAPEEO) has actually minimized the power intake by 4.217%, raised the throughput by 19.51%, as well as minimize the computational price by 62.38% when contrasted with the existing††Deadline-Constrained Cost Optimization for Hybrid Clouds (DCOH)††designs. Even more, the typical power intake revealed a decrease of 40.993% along with 90.384% when contrasted with the DCOH along with Self- Configuring and also Self-Healing of Cloud-based Resources (RADAR) work version specifically. Experiment end result reveals the DAPEEO strategy accomplishes much superior power effectiveness, throughput along with computation set you back decrease when contrasted with the existing operations implementation design. Uniqueness: Existing version fell short to stabilize decreasing expense, as well as conference operations implementation target dates under a varied atmosphere. Beyond, the DAPEEO works in bringing trade-offs in minimizing power dissipation and also conference job target dates with minimized expense under the edge-cloud computer design.

Date: 2025
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