Scalable Quantum Computing Approaches for Next-Generation Edge and IoT Devices
- Title
- Scalable Quantum Computing Approaches for Next-Generation Edge and IoT Devices
- Creator
- Prasant, P.; Rao, M Nagabhushana; Yuvaraju, Chinnam; Jeshurun, Subramania Bala; Rengaraju, Perumalraja; Sravani, Mekala Guru
- Description
- The fast development of Internet of Things (IoT) and edge devices requires secure energy efficient and scalable solutions to computing in highly resource-constrained environments. In the post-quantum future, classical cryptographic and computational algorithms will be restricted in the ability to fulfil stringent performance and security requirements, such as high latency, bandwidth, and security. Such issues might be solved by the framework proposed in this paper which is built upon the ideas of lightweight quantum algorithms, quantum-inspired optimization, and post-quantum security primitives in the form of a scalable quantum-assisted hybrid architecture. the architecture is heterogeneous, supporting a variety of deployment types in the Internet of Things, with modular quantum co-processors and cloud-edge interconnection making them deployable. Experimental measurements are showing 32 per cent less encryption decryption latency than RSA/ECC and PQC baselines, as well as enhanced fault tolerance in noisy settings and scalability in the thousands of devices. These outcomes underscore the technical contributions achieved by the proposed architecture as well as the practical viability of the proposed architecture in next generation IoT systems. The bridge between theoretical advancements and deployment-oriented design is an essential contribution that the study provides in guaranteeing the security, intelligent, and sustainability of the IoT ecosystems based on scalable quantum approaches. 2025 IEEE.
- Source
- 2025 International Conference on Future Technologies, ICFT 2025;
- Date
- 01-01-2025
- Publisher
- Institute of Electrical and Electronics Engineers Inc.
- Subject
- Edge computing; Internet of Things (Io'T); Post-quantum security; Quantum computing; Scalable architectures
- Coverage
- Prasant P., SRM University, Department of Computer Science & Engineering, U.P, Ghaziabad, India; Rao M.N., School of Computer Science & Technology, Malla Reddy (MR) Deemed to Be University, Department of Computer Science & Engineering, Telangana, India; Yuvaraju C., School of Computer Science & Technology, Malla Reddy (MR) Deemed to Be University, Computer Science & Engineering, Telangana, India; Jeshurun S.B., School of Business and Management, CHRIST (Deemed to Be University), Bangalore, India; Rengaraju P., SRM TRP Engineering College, Department of Artificial Intelligence and Data Science, Trichy, India; Sravani M.G., Amity Institute of Information Technology, Amity University, Bengaluru, India
- Rights
- Restricted Access; Hardcopy may be available in the library
- Relation
- ISBN: 979-833156815-3;
- Format
- online
- Language
- English
- Type
- Conference paper
Collection
Citation
Prasant, P.; Rao, M Nagabhushana; Yuvaraju, Chinnam; Jeshurun, Subramania Bala; Rengaraju, Perumalraja; Sravani, Mekala Guru, “Scalable Quantum Computing Approaches for Next-Generation Edge and IoT Devices,” CHRIST (Deemed To Be University) Institutional Repository, accessed June 18, 2026, https://archives.christuniversity.in/items/show/26006.