A Cost-Effective, Scalable Network Architecture Method

According to a recently available Cisco Annual Internet Report (AIR), a lot more than 70 % of the worldwide population – 5 approximately.7 billion people – by the entire year 2023 could have mobile connectivity. This connectivity includes 2G, 3G, 4G, and 5G. A lot more than 66 % of the global populace will be internet users. More users mean more devices, all having an insatiable urge for food for bandwidth to services their new customer and business applications.

5G promises faster information speeds, higher capacity, and low enabling new providers latency, presenting the cellular industry with unprecedented income growth opportunities. Operators is only going to have the ability to capitalize on these possibilities if the transport system is able to handle the explosion of information visitors and delivering those lower latency services, conference the stringent 5G Services Level Agreements (SLAs).

Traditionally, networks have already been built-in a layered approach where every layer was created individually and operated inside its technology lifecycle. It has introduced complexities and redundant functions resulting in inefficiencies with regards to network scalability and cost.

With Cisco’s top technology innovations, we enable operators such as for example PLDT in the Philippines with new means of delivering services permitting them to re-believe the system architecture towards a far more simplified one with a lower life expectancy total cost of system ownership.

Technology is advancing, of today and meet long term network needs enabling innovation to handle the challenges. These advancements include:

• Router capability increasing multi-fold – recent Market announcements outline performance capability higher than four times the biggest systems with a fraction of the footprint and energy consumption. These units predicated on new Network Digesting Devices (NPUs) that enable multi terabits per second capability are opening new doorways of chance of new solutions and architectures.

• Commoditization of coherent optics – with OTT, internet scale, and providers relocating to coherent optics at 400G for distances above 10Km, together with the standard initiatives, increases the adoption price and enables increased volumes not really seen before.

• Pluggables with Digital Coherent Optics (DCO) – investments in 7nm processes enable exactly the same form element for both brief reach and longer achieve coherent optics in QSFP-DD form aspect at 400G which today can be built-into high capacity routing systems with zero density trade-offs.

• Segment Routing (SR), Enhanced Gaussian Sound Model (GNPy) and Typical Industry Models

• High-Density Circuit Emulation

• Advancement in SDN and telemetry with automation and lifestyle cycle management – A model-driven method for automation and self-optimizing networking

These technological advancements are fundamental to the Cisco 5G Transport Architecture which allows a move from the mesh-based ROADM architecture to a Hop-to-Hop (H2H) Digital ROADM architecture. This architecture offers optimal capability by shortening endpoint distances while simplifying the transportation network, getting rid of redundant layers, legacy technology, and overlapping efficiency. It lowers the full total cost of possession with a decrease in strength, footprint, and components, as a result enhancing mean time taken between failures (MTBF).

The Cisco 5G Transport Architecture provides unprecedented capability and scalability, allowing clients such as for example PLDT to enhance the client encounter. Segment Routing (SR) simplifies the underlay, rendering it simpler to automate by way of a centralized SDN perform and providing better operation. 5G networking into the future offers end-to-end system slicing and reduced latency while significantly enhancing customer encounter and reducing the price to serve.

Find away more about our Cisco 5G solutions and the Cisco 8000 Series Routers

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