| Technical Name | Software-Defined RAN with GPGPU-based Alloplasmic Distributed Fusion | ||
|---|---|---|---|
| Project Operator | National Chiao Tung University | ||
| Project Host | 許騰尹 | ||
| Summary | For 5G/B5G, a software-defined RAN requires high reliability, high performanceflexibility that software-defined physical layer is key to ensure the performancequality of multi-service connections. With radio function splitdistributed CPUGPU cooperation, we can ensure software-defined RAN working properly for service-aware networking where our trial shows stable DLUL over |
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| Scientific Breakthrough | 1. Distributed CPUGPGPU Cooperation with Radio Function Split 2. UL 800 Mbps via NIVIDA GPU 3. Software-Defined Physical Layer on Shared-Memory Disaggregated Infrastructure |
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| Industrial Applicability | With radio function splitdistributed computation, software-defined RAN which shares computing resource with edge clouddata center, is well-fitted Taiwan’s echo system to make dynamic management, latency-aware service, load balancefail recovery well for industry 4.0 |
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| Keyword | Radio Function Split Distributed Computation Software-Defined RAN Software-Defined Physical Layer GPU Edge Cloud Data Center Shared Memory Industry 4.0 Dynamic Management | ||
| Notes | |||
- Contact
- fdragon.cs96g@g2.nctu.edu.tw
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