A Modular Distributed Operating System Architecture for Scalable Mesh Topologies

Operating systems mediate user-device interactions, crucially managing resources, software execution, and application interfaces. In the face of technological advancements, the demand for secure, resilient, and scalable operating systems grows. This paper introduces a novel modular and decentralized...

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Bibliographic Details
Published in2024 International Conference on Emerging Trends in Smart Technologies (ICETST) pp. 1 - 5
Main Authors Zaidi, Yaazir M., Nisar, Muhammad Usman, Khan, Rukhshan, Hamid, Anaum
Format Conference Proceeding
LanguageEnglish
Published IEEE 10.10.2024
Subjects
Computer architecture
Decentralized networks
Fault tolerance
Fault tolerant systems
Kernelless architecture
Mesh networks
Operating systems
Performance evaluation
Resource management
Robustness
Scalability
Software
Software execution
Topology
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Summary:Operating systems mediate user-device interactions, crucially managing resources, software execution, and application interfaces. In the face of technological advancements, the demand for secure, resilient, and scalable operating systems grows. This paper introduces a novel modular and decentralized operating system architecture, emphasizing robustness, scalability, and advanced parallel processing. The proposed mesh architecture diverges from conventional kernel designs, distributing responsibilities across nodes to eliminate a central point of failure, enhancing scalability and fortifying fault tolerance. The study advocates for a mesh-based operating system adaptable to diverse microprocessor platforms.
DOI:10.1109/ICETST62952.2024.10737937