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Arithmetic Framework to Optimize Packet Forwarding among End Devices in Generic Edge Computing Environments.
Pedro Juan Roig1, Salvador Alcaraz1, Katja Gilly1
1Computer Engineering Department, Miguel Hernández University, 03202 Elche, Spain.
This study introduces an arithmetic framework to optimize packet forwarding in multi-access edge computing (MEC). By using integer division and modular arithmetic, it simplifies routing and switching for improved performance.
Area of Science:
- Computer Science
- Network Engineering
Background:
- Multi-access edge computing (MEC) deployments are rapidly expanding across various applications.
- Efficient packet forwarding is crucial for optimizing performance in edge computing infrastructures.
Purpose of the Study:
- To propose an arithmetic framework for optimizing packet forwarding in generic edge computing environments.
- To simplify routing and switching operations through mathematical properties.
Main Methods:
- A layered arithmetic framework utilizing integer division and modular arithmetic.
- Analysis of communication types within edge computing environments.
- Verification through arithmetic and algebraic means, including theorems and behavioral equivalences.
Main Results:
- The proposed framework simplifies the identification of the next hop for packet forwarding.
- Routing and switching decisions are reduced to basic arithmetic operations.
- Demonstrated efficiency in three diverse case scenarios.
Conclusions:
- The arithmetic framework offers a simplified and efficient approach to packet forwarding in MEC.
- This method avoids complex table lookups, enhancing operational ease.
- The findings contribute to more performant and scalable edge computing networks.

