Data Center Interconnect

Massive Scalability, Extreme Simplicity

The global explosion of cloud computing, video, social media, and other bandwidth-intensive applications is fueling skyrocketing growth in inter-data center traffic. This is creating significant capacity planning and network engineering challenges for service providers, managed hosting providers, as well as content and co-location providers. They must cost-efficiently upgrade their network infrastructure to expand bandwidth between data centers as well as POPs and peering points to support the massive growth in consumption of content and the increasing social media demands for photographs and video transmission, especially in metro areas.

BTI solves the data center interconnect challenge. Our metro data center interconnect solution leverages BTI’s packet optical transport architecture to deliver massive scale and flexibility, carrier-class reliability and simplified management and operations.

The BTI data center interconnect solution:

  • Accelerates capacity expansion—Flexible “pay-as-you-grow” architecture provides a seamless upgrade path from 10Gbps to 100Gbps to 200Gbps wavelength capacities with industry-leading scale, density and low-latency performance.
  • Simplifies network control—Centralized, end-to-end visibility and control of your entire data center interconnect infrastructure, dramatically simplifies network management and improves capacity planning.
  • Enables flexibility and agility—BTI's solution enables data center operators to create a programmable pool of network resources for high performance and efficient connection of multiple data centers in point-to-point, ring or mesh topologies.
  • Reduces CAPEX and OPEX—BTI’s packet optical architecture and market-leading density reduce complexity and footprint requirements, improve network utilization, while lowering operational and support burdens for rapid ROI and a lower total cost of ownership.

BTIData Center Interconnect Solution

BTI Data Center Interconnect Solution (Click image to enlarge)