Data Center Interconnection
Data Center Interconnection refers to the high-speed networking connections with DWDM technology between data centers to facilitate data exchange, replication, and workload migration. This enables organizations to distribute workloads across multiple data centers for redundancy, scalability, and disaster recovery purposes. Data Center Interconnection solutions typically utilize high-capacity, low-latency connections such as dedicated leased lines, dark fiber, or optical networks to ensure reliable and efficient communication between data centers.
Data Center Networking
Data Center Networking encompasses the architecture, hardware, and protocols used to connect and manage networking resources within a data center environment. This includes switches, routers, firewalls, and other network devices configured to support high-performance, low-latency communication between servers, storage, and other infrastructure components. Data Center Networking solutions prioritize traffic, optimize bandwidth utilization, and ensure security and compliance within the data center environment.
Campus and Wireless NetworkingÂ
Campus & Wireless Networking involves the design and deployment of networking infrastructure to connect devices, users, and resources within a campus or enterprise environment. This includes wired and wireless network infrastructure such as access points, switches, controllers, and management systems to provide seamless connectivity and mobility for users across the campus. Campus & Wireless Networking solutions enable organizations to support a wide range of devices and applications, enhance productivity, and deliver an exceptional user experience.
Software Defined WAN (SD-WAN)
Software Defined WAN (SD-WAN) is a technology that simplifies and optimizes wide area network (WAN) connectivity by leveraging software-defined networking (SDN) principles. SD-WAN solutions abstract the underlying network hardware and use centralized software-based controllers to dynamically route traffic across multiple WAN links, including MPLS, broadband, and LTE, based on application performance, security policies, and cost considerations. SD-WAN enhances network agility, scalability, and reliability while reducing costs and complexity compared to traditional WAN architectures.