Huawei OLT Optical Fiber Access Equipment Smart MA5800 X15 Technical ParametersHuawei OLT Optical Fiber Access Equipment Smart MA5800-X15 Technical Parameters

The MA5800-X15 meets the ultimate business experience of users for 4K/8K videos and the massive physical connections brought by the all-optical park. At the same time, it can achieve unified support for multiple services such as home users, enterprise users, mobile carriers, and the Internet of Things, simplifying network architecture, reducing the number of CO data centers, and lowering operation and maintenance costs.

Huawei OLT optical fiber access equipment Smart MA5800-X15 technical parameters

HUAWEI Smart MA5800 provides multiple service access such as xPON, P2P GE and 10GE, supports multiple network construction modes including FTTx and D-CCAP, and realizes full-service converged access for home users, enterprise users, and mobile bearers. MA5800 integrates the functions of OLT and aggregation switches to achieve unified aggregation of OLT, MDU and campus switches, helping to simplify network architecture and reduce operating costs.

With the rise of new services such as 4K/8K, VR video, smart homes, and the Internet of Things, network bandwidth has exploded. The global FTTH and the entire ultra-broadband industry has entered a new round of vigorous development, and the gigabit ultra-broadband era has arrived. Business changes bring new changes to access networks. Currently, global operators are launching gigabit services, ultra-high-definition video is entering the fast lane, enterprises are moving toward digitalization and cloudification, and the Internet of Things (IoT) in the industry is in full swing, which means that bandwidth traffic and the number of connections will grow exponentially. As the core node of the network, the access network OLT platform's architecture and performance directly affect users' ultra-broadband experience. Traditional centralized platforms face bandwidth and performance processing bottlenecks. The cost and power consumption of the core forwarding chip cannot meet the requirements, and it is even impossible to obtain such a core chip. In terms of the number of connections, it can only support a small number of Gigabit and 4K /8K user concurrency, it is difficult to cope with Gigabit full services exceeding 10,000 users. In addition, in the ultra-broadband era, in addition to home broadband, there will also be a variety of access services with different network requirements, such as enterprise dedicated lines, safe cities, industrial Internet of Things, industry video, etc. If the network is built separately for different services, the cost will be too high and the scale of network construction cannot be achieved. How to help operators carry all services on one network is a new topic.

In the gigabit era, MA5800 leads the industry development direction. Huawei launched the industry's first distributed access platform MA5800 at BBWF in 2014. Different from centralized access platforms, MA5800 is based on an open programmable software and hardware architecture and adopts distributed switching. By distributing business processing to each service board, the system no longer has bottlenecks, thereby greatly improving the system's switching capacity. and performance, while reliability has also been greatly improved. Taken together, distributed is the best architecture for the ultra-broadband access era and an inevitable choice for OLT development.

At the same time, the bandwidth capacity of a single slot has been increased from 80Gbps to 200Gbps, and can be upgraded to 400Gbps, 600Gbps in the future; the single-frame MA5800 can satisfy 16,000 families watching 4K videos at the same time. As the core node of the access network, it supports the smooth evolution of 10G/40G/100G PON. It is possible to upgrade from 10G PON to 40G PON without changing the service board; at the same time, with the release of the 100G PON prototype based on the MA5800 platform, smooth evolution to 100G PON can be realized without changing the platform, which will help operators save more than 30% investment; in order to comply with the future trend of business cloudification, MA5800 supports network slicing, realizing unified access to all services such as homes, enterprises, and campuses on one access network, comprehensively improving network utilization, new service launch rate and Security and reliability help operators solve the problem of carrying all services on one network.

MA5800 has won industry recognition. On October 19, 2016, Huawei's distributed access platform MA5800 won the "InfoVision Best Fixed Broadband Innovation" award at the Broadband World Forum 2016. As one of the most important awards in the global broadband field, the InfoVision Awards are known as the Oscars in the communications industry. The "InfoVision Best Fixed Broadband Innovation" award mainly recognizes breakthrough innovations in the fixed access field and technologies and solutions that have demonstrated extraordinary significance to the industry in improving broadband speed, network quality and user experience.

Since its launch, MA5800 has quickly won the favor of global operators, been successfully used by 13 of the world's top 50 operators, and won more than 20 commercial contracts. Especially in NG-PON commercial projects, MA5800 has been selected as the preferred platform for many operators such as Openreach, Vodafone, Singapore Telecom, Hong Kong HKT, China Telecom, Japan So-net, Belarus Telecom, etc.

Long-term investment creates industry leadership. To date, Huawei's fixed access business market share has ranked first in the world for eight consecutive years, largely due to its long-term active investment in access technology research and standards.

Huawei's access network product line has more than 3,000 people engaged in ultra-broadband research and development, and it has six R&D centers around the world. As of the end of 2015, 2,804 patents had been approved, and the number of PCT (Patent Cooperation Treaty) international patent applications reached 1,102. At the same time, he assumes important positions such as chairman, board member, and main editor of PON standard organizations such as ITU-T, IEEE, and BBF, and makes outstanding contributions to the research and formulation of PON standards.