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NE40E V800R010C10SPC500 Feature Description - Network Reliability 01

This is NE40E V800R010C10SPC500 Feature Description - Network Reliability
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Huawei uses machine translation combined with human proofreading to translate this document to different languages in order to help you better understand the content of this document. Note: Even the most advanced machine translation cannot match the quality of professional translators. Huawei shall not bear any responsibility for translation accuracy and it is recommended that you refer to the English document (a link for which has been provided).
Overview of Ethernet OAM

Overview of Ethernet OAM

Easy-to-use Ethernet techniques support good bandwidth expansibility on low-cost hardware. With these advantages, Ethernet services and structures are the first choice for many enterprise networks, metropolitan area networks (MANs), and wide area network (WANs). The increasing popularity of Ethernet applications encourages carriers to use improved Ethernet OAM functions to maintain and operate Ethernet networks.

OAM mechanisms for server-layer services such as synchronous digital hierarchy (SDH) and for client-layer services such as IP cannot be used on Ethernet networks. Ethernet OAM differs from client- or server-layer OAM and has been developed to support the following functions:
  • Monitors Ethernet link connectivity.

  • Pinpoints faults on Ethernet networks.

  • Evaluates network usage and performance.

These functions help carriers provide services based on service level agreements (SLAs).

Ethernet operation, administration and maintenance (OAM) is used for Ethernet networks.

Ethernet OAM provides the following functions:

  • Fault management

    • Ethernet OAM sends detection packets on demand or periodically to monitor network connectivity.

    • Ethernet OAM uses methods similar to Packet Internet Groper (PING) and traceroute used on IP networks to locate and diagnose faults on Ethernet networks.

    • Ethernet OAM is used together with a protection switching protocol to trigger a device or link switchover if a connectivity fault is detected. Switchovers help networks achieve carrier-class reliability, by ensuring that network interruptions are less than or equal to 50 milliseconds.

  • Performance management

    Ethernet OAM measures network transmission parameters including packet loss ratio, delay, and jitter and collects traffic statistics including the numbers of sent and received bytes and the number of frame errors. Performance management is implemented on access devices. Carriers use this function to monitor network operation and dynamically adjust parameters in real time based on statistical data. This process reduces maintenance costs.

Ethernet OAM Network

Table 6-1 shows the hierarchical Ethernet OAM network structure.

Table 6-1 Ethernet OAM network

Layer

Description

Feature

Usage Scenario

Link-level Ethernet OAM

Monitors physical Ethernet links directly connecting carrier networks to user networks. For example, the Institute of Electrical and Electronics Engineers (IEEE) 802.3ah, also known as Ethernet in the First Mile (EFM), supports Ethernet OAM for the last-mile links and also monitors direct physical Ethernet links.

EFM supports link continuity check, fault detection, fault advertisement, and loopback for P2P Ethernet link maintenance. Unlike CFM that is used for a specific type of service, EFM is used on links transmitting various services.

EFM is used on links between customer edges (CEs) and user-end provider edges (UPEs) on a metropolitan area network (MAN) shown in Figure 6-1. It helps maintain the reliability and stability of connections between a user network and a provider network. EFM monitors and detects faults in P2P Ethernet physical links or simulated links.

Network-level Ethernet OAM

Checks network connectivity, pinpoints connectivity faults, and monitors E2E network performance at the access and aggregation layers. For example, IEEE 802.1ag (CFM) and Y.1731.

IEEE 802.1ag, also known as connectivity fault management (CFM), defines OAM functions, such as continuity check (CC), loopback (LB), and linktrace (LT), for Ethernet bearer networks. CFM applies to large-scale E2E Ethernet networks.

CFM is used at the access and aggregation layers of the MAN shown in Figure 6-1. For example, CFM monitors the link between a user-end provider edge (UPE) and a PE. It monitors network-wide connectivity and detects connectivity faults. CFM is used together with protection switchover mechanisms to maintain network reliability.

Y.1731 is an OAM protocol defined by the Telecommunication Standardization Sector of the International Telecommunication Union (ITU-T). It covers items defined in IEEE 802.1ag and provides additional OAM messages for fault management and performance monitoring. Fault management includes alarm indication signal (AIS), remote defect indication (RDI), locked signal (LCK), test signal, maintenance communication channel (MCC), experimental (EXP) OAM, and vendor specific (VSP) OAM. Performance monitoring includes frame loss measurement (LM) and delay measurement (DM).

Y.1731 is a CFM enhancement that applies to access and aggregation networks. Y.1731 supports performance monitoring functions, such as LM and DM, in addition to fault management that CFM supports.

Figure 6-1 Typical MAN networking

Benefits

P2P EFM, E2E CFM, E2E Y.1731, and their combinations are used to provide a complete Ethernet OAM solution, which brings the following benefits:
  • Ethernet is deployed near user premises using remote terminals and roadside cabinets at remote central offices or in unattended areas. Ethernet OAM allows remote maintenance, saving the trouble in onsite maintenance. Engineers operate detection, diagnosis, and monitoring protocols and techniques from remote locations to maintain Ethernet networks. Remote OAM maintenance saves the trouble of onsite maintenance and helps reduce maintenance and operation expenditures.

  • Ethernet OAM supports various performance monitoring tools that are used to monitor network operation and assess service quality based on SLAs. If a device using the tools detects faults, the device sends traps to a network management system (NMS). Carriers use statistics and trap information on NMSs to adjust services. The tools help ensure proper transmission of voice and data services.

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Updated: 2019-01-03

Document ID: EDOC1100055045

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