Network Architecture Disorder
The inability to achieve standardized integration of data from various business systems leads to management chaos, high network latency, thereby impacting data interoperability.
As the campus continues to expand in size, universities have increasingly higher demands for information technology construction. To achieve centralized management and data sharing, it is necessary to effectively integrate various business systems across the entire campus. Therefore, building a digital campus has become an urgent priority.
The inability to achieve standardized integration of data from various business systems leads to management chaos, high network latency, thereby impacting data interoperability.
The existing network equipment is unable to meet the expanding demands of the business. It lacks support for virtualized networks and suffers from high network latency due to bandwidth limitations.
Due to insufficient redundancy measures, operations cannot be promptly restored when network failures result in business interruptions.
Adopting the Spine-Leaf network architecture effectively reduces latency and improves network quality, meeting the requirements of high throughput, low latency, and high capacity networks.
The networking equipment supports data center functions such as MLAG, VXLAN, PFC, and ECN, which can meet the high-performance requirements of large-scale data centers based on virtualization technology.
By implementing M-Lag technology in the Leaf layer switches, the redundancy reliability is elevated from the link level to the device level, resulting in a higher level of stability.
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