Nokia Siemens Networks' Next Generation SDH technology provides a Multi-Service Provisioning Platform (MSPP) that combines the flexibility of true Ethernet switching and Ethernet transport with the inherent operational reliability of SDH. Our Next Generation Metro product range is based on Nokia Siemens Networks' proven SURPASS hiT 70xx series platform
Multi service capabilities with agreed QoS
As SDH networks evolve to packet technology, Next Generation Metro provides a low-risk, non- disruptive way to exploit existing SDH infrastructure. Our products have proven inter-working with IP environments and offer enhanced packet-based services and Ethernet capabilities. Next Generation Metro supports a wide range of TDM, Ethernet, and Transparent interfaces that allow different traffic types to be carried seamlessly, benefiting from the agreed QoS that ensures reliable delivery of voice and data.
As a multi service capabilities platform, Next Generation Metro provides seamless integration with CWDM and DWDM platforms for solutions requiring the highest bandwidth or to cover increased fiber distances.
Due to the inherently synchronous nature of SDH, Next Generation Metro is an ideal solution to support timing-critical applications.
As SDH networks evolve to packet technology, Next Generation Metro provides a low-risk, non- disruptive way to exploit existing SDH infrastructure. Our products have proven inter-working with IP environments and offer enhanced packet-based services and Ethernet capabilities. Next Generation Metro supports a wide range of TDM, Ethernet, and Transparent interfaces that allow different traffic types to be carried seamlessly, benefiting from the agreed QoS that ensures reliable delivery of voice and data.
As a multi service capabilities platform, Next Generation Metro provides seamless integration with CWDM and DWDM platforms for solutions requiring the highest bandwidth or to cover increased fiber distances.
Due to the inherently synchronous nature of SDH, Next Generation Metro is an ideal solution to support timing-critical applications.
Reduced energy usage and lower OPEX
By migrating existing networks to the energy efficient transport provided by Next Generation Metro, customers can reduce power consumption by 25% compared to other platforms
Running all the services over one converged network can also generate significant OPEX reductions. All members of the Next Generation Metro family use the same cards, simplifying logistics and reducing the range of spare parts that need to be stocked. Our TNMS provides a best-in-class network management system, enabling speedy service provisioning with a single click. Network configuration is made easier through automated processes brought by GMPLS implementation.
By migrating existing networks to the energy efficient transport provided by Next Generation Metro, customers can reduce power consumption by 25% compared to other platforms
Running all the services over one converged network can also generate significant OPEX reductions. All members of the Next Generation Metro family use the same cards, simplifying logistics and reducing the range of spare parts that need to be stocked. Our TNMS provides a best-in-class network management system, enabling speedy service provisioning with a single click. Network configuration is made easier through automated processes brought by GMPLS implementation.
Reducing CAPEX
The efficiency of our multi-technology approach, together with extensive use of highly integrated components provides you with a truly cost effective solution. Quite simply: you get more features for a better price.
Network utilization can be improved by using meshed restoration, multiple failures resilience, and traffic engineering. Using ASON/ GMPLS in a meshed network can reduce CAPEX by 30% compared to a similar ring topology.
In addition your CAPEX investment is future proofed through switching matrix capacity and line rates (ASON/GMPLS).
The efficiency of our multi-technology approach, together with extensive use of highly integrated components provides you with a truly cost effective solution. Quite simply: you get more features for a better price.
Network utilization can be improved by using meshed restoration, multiple failures resilience, and traffic engineering. Using ASON/ GMPLS in a meshed network can reduce CAPEX by 30% compared to a similar ring topology.
In addition your CAPEX investment is future proofed through switching matrix capacity and line rates (ASON/GMPLS).