Design a Virtualized Infrastructure

Bring new levels of programmability and virtualization to your networks. (2:23 min)

Massive growth in backbone network traffic and increasing traffic patterns are causing significant economic challenges for service providers. To address these challenges, they must evolve their backbone networks.

Current architectural approaches rely on network layers that are built and operated independently. This model contributes to scaling, provisioning, and operational inefficiencies that will soon go beyond the point where revenue can keep pace with needed investments.

Technology advances within a single network layer, although crucial, will not eliminate these inefficiencies. An innovative approach is needed that optimizes inter-layer boundaries to create a highly converged transport architecture.

This converged transport architecture must tightly integrate packet, optical time-division multiplexing (TDM), and dense wavelength-division multiplexing (DWDM) layers across hardware, control planes, management planes, and administrative domains. Doing so can create a network that is much more efficient, less complex, and easier to scale and operate.

This new converged transport architecture is based on the tight integration of:

Converged transport router platforms

These platforms can deliver massive scale, DWDM integration, optical transport network (OTN) switching, and advances in transport-class reliability, while still allowing flexibility for mixed core architectures. They also deliver superior scale, reliability, transport flexibility, and a very long lifespan.

An agile DWDM layer that supports dynamic 100 Gigabit and higher wavelengths

Eliminate the impediments to flexibility that affect much of the existing reconfigurable optical add-drop multiplexer (ROADM) installed base. Allow the adaptability normally associated only with the packet layer.

Extensions to GMPLS

Tightly integrate and consolidate the packet and DWDM layers without introducing scalability limits or organizational concerns.

Cisco nLight technology

This multi-layer packet and optical path optimization and signaling capability improves on GMPLS with crucial topology sharing and signaling functionality.

Cisco Prime network management technology

Facilitate top-to-bottom converged operations, administration, management, and provisioning (OAM&P), while allowing separate administrative domains in concert with existing management systems.

These elements, woven together, allow service providers to address all their scale, flexibility, and cost concerns at once, without sacrificing one for another.

  • Cisco Network Convergence System 2000 Series

    Deliver touchless programmability, massive scale, and ultra-long-haul performance necessary for today's and tomorrow's converged network architectures.

  • Cisco Network Convergence System 4000 Series

    Get an end-to-end solution and bridge the gap between IP and optical layers with a comprehensive feature set and best-in-class functionality for each layer.

  • Cisco Network Convergence System 6000 Series

    Bring new levels of programmability and virtualization that have never before existed, and at system-wide scale. Enhance application service offerings, increasing provisioning speed, and optimizing your network economics.

  • Cisco Services

    Get the most value from your investments in Cisco converged IP+Optical solutions with services from Cisco and our partners.

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