| Abstract: |
The exponential growth of data-intensive computing systems has intensified demand for high-throughput, low-latency network infrastructure. Optical fiber networks, underpinned by Wavelength Division Multiplexing (WDM) and Space Division Multiplexing (SDM), represent the dominant transmission substrate for modern computing environments. This study investigates Advanced Notification-Based Data Transmission (ANDT) as a proactive traffic-management paradigm within high-speed optical fiber networks. By dispatching control signals ahead of primary data bursts, ANDT enables network nodes to pre-allocate bandwidth, reduce queuing delays, and minimize packet loss in high-traffic computing environments. The study evaluated throughput and latency improvements achievable through notification-based mechanisms relative to conventional protocols, and assessed system-level efficiency gains in computing infrastructure. A quantitative experimental methodology was adopted using simulated Optical Burst Switching (OBS) scenarios benchmarked against ITU and IEEE standards. Statistical hypothesis testing confirmed that ANDT achieves significant reductions in latency and packet loss. Findings indicate up to 69.6% latency reduction and 91.6% improvement in burst loss rate, positioning ANDT as a viable next-generation transmission strategy for computing systems globally. |
