Carrier Ethernet Services Delivery -...

Metrodata Ltd Fortune House, TW20 8RY U.K.

Tel: +44 (0)1784 744700 www.metrodata.co.uk E-mail: [email protected]

Carrier Ethernet Services Delivery

Solution Brief

MetroCONNECT Ethernet Access Networking

Jan, 2016


Ethernet Service Delivery Access over SDH/PDH, Fibre & Serial Infrastructure Page 1 of 7

Introduction The importance of Ethernet, as the all-pervasive fixed infrastructure data transport vehicle of the Corporate 'Local-Area Network' (LAN), is such that it can be regarded as nothing less than a fundamental utility for IT connectivity. Increasingly, Ethernet is also the network media of choice for Corporate Telephony deployments, via the growth of Voice over IP (VoIP). Not surprisingly, Ethernet is now starting to be adopted as a transport for Wide-Area Network (WAN) connectivity. In fact, Telecoms Service Providers have offered physical Ethernet access for many years, but most almost exclusively such connections have been delivered via Edge Routers, supplied as the 'Customer Premise Equipment' (CPE) element of a 'Managed IP' network service. Only relatively recently though has Ethernet been offered as a native transport solution, offering the Corporate user a highly flexible, scalable bandwidth solution, unfettered by the complexity of IP addressing schema and the potential performance and limited 'Quality of Service' characteristics of Routed infrastructures. The increasing demand by customers for direct end-to-end Ethernet WAN connectivity presents an investment challenge to the Service Provider. Whilst in Metropolitan centres, the deployment of high-speed, fibre based network, over which Ethernet services at up to 1Gbps or beyond might readily be supported, this is certainly not the case, even in more economically and technologically advanced countries, for rural locations. Whilst Telecoms Infrastructure Carriers the world over are investing in upgrading their legacy SDH/PDH infrastructures to so-called 'Next Generation' packet-based networks, Service Providers can potentially offer Ethernet Access solutions which make use of existing legacy infrastructures.

Fig. 1: Ethernet Access Delivery may be via a variety of 'Next-Gen' and/or Legacy infrastructure,

such as PDH (E1) shown here

Ethernet Extension & Access Demarcation The MetroCONNECT family of Ethernet Service Delivery products enables the Telecoms Service Provider to offer Ethernet services delivered over a range of Access Network Transport architectures. MetroCONNECT solutions feature two essential technologies, (i) Switched LAN Extension and (ii) Managed Ethernet Service Demarcation.



Switched Ethernet Extension In its most simplistic form, LAN Extension simply offers a transparent Layer-2 Extension of an Ethernet network across another transport technology. The MetroCONNECT family offers extension solutions for Fibre, SDH/PDH and Serial network infrastructures. A simple example, featuring point-to-point Ethernet extension over a single E1 service via stand-alone WCM1101 products, is shown in Fig. 2 below:

Fig. 2: Point-to-Point Ethernet Extension over Clear Channel or Fractional (Nx 64Kbps) E1 service

In line with other family members of the MetroCONNECT range, the WCM1100 and WCM1101 products support the following core features:

� Copper and Fibre (via SFP, WCM1100 only) switch ports for Ethernet (with 'Jumbo' Frame support)

� Clear-channel and Framed / Fractional services

� VLAN tag-switching (802.1q), traffic prioritisation (802.1p / IP DSCP) and bandwidth control per service

� Comprehensive Systems and Service Management via Serial port, SNMP, Telnet or Web Browser

� Carrier-Ethernet OAM support ('EFM or Link' OAM' IEEE 802.3ah)

� Metrodata 'Zero touch' deployment with 'IP over OAM' proxy (or 'far-end' device management with no remote IP address setting required)

� GFP support for interoperability with 3rd party central site aggregation / MSP platform

� TACACS+ & SSH (V2) for secure authentication and Management access In general, the stand-alone devices within the MetroCONNECT family are used either by Corporate customers for ad-hoc point-to-point Ethernet extension applications, or as Customer Premise Equipment (CPE) devices for Demarcation by Ethernet Service Providers, for whom more application detail will be discussed in a later section. MetroCONNECT solutions offer more deployment flexibility than for just simple Point-to-Point networks. As shown in Fig. 3 below, Point-to-Multipoint deployments are also possible. In this example scenario, WCM1100 and WCM1400 units are shown in combination to provide Ethernet extension from a 'Central' location to three others. In this example, two further aspects of the MetroCONNECT family are highlighted,



namely (i) the use of 'Aggregation' functionality to link a single Ethernet network to multiple different destinations, and (ii) the use of Virtual Concatenation (VCAT) and Link Capacity Adjustment Scheme (LCAS) to facilitate the 'bonding' of two or more PDH circuits to provide greater Ethernet bandwidth in the connection between any two sites. As a point of further note, the MetroCONNECT SDH/PDH extension products use the well-defined standard 'Generic Framing Protocol' (GFP) for Ethernet encapsulation over SDH/PDH circuits, which facilitates potential inter-operability with other network Aggregation platforms.

Fig. 3: Point-to-Multipoint Aggregation and Ethernet Extension over E1 (or T1), also illustrating the use

of PDH circuit 'bonding' for increased Ethernet connection bandwidth (to Site C) Fig. 3 illustrates Ethernet Aggregation at a Central Office (which may be that of a Telecoms Carrier, or of the carrier's Customer) and three remote sites, A through C. Using VLAN Tag switching, the following Ethernet connectivity scenarios may be supported within the context of the basic connectivity illustrated;

1. The Ethernet network comprising Central, A, B and C may be a single 'flat' network domain, within which all traffic (including any defined VLAN groupings) will propagate to each of the locations, i.e. the Central site is aggregating all traffic from each remote location.

2. A single central Ethernet network may contain multiple pre-defined customer VLANs, which may

be required to propagate only to certain of the remote locations. The WCM1400 will switch traffic to A, B or C accordingly

3. Multiple separate Ethernet networks may be present at the Centre (the WCM1400 supports up to

four separate local Ethernet connections), for which it may be appropriate that traffic is switched to locations A, B and C accordingly. The WCM1400 may be set to do this, the Ethernet ingress-ports being used to define different VLAN groupings with may comprise either a single physical link, e.g. to Sites A and B above, or a multiple 'bonded' link as for site C above.

A wide range of stand-alone MetroCONNECT family devices are available, each with common Operating System and feature-set. Full details are available via the Metrodata Ltd. Web Site; www.metrodata.co.uk.



Managed Ethernet Service Demarcation In addition to their role as Ethernet Extenders, the MetroCONNECT family products are also manageable 'Ethernet Demarcation Devices'. The Corporate customer or Telecoms Service Provider has management visibility both towards the WAN service and LAN connection on either side of the MetroCONNECT device. In addition to SNMP, Command-Line (Telnet) and Web-access management, all devices in the range support elements of the Carrier Ethernet 'Operations and Management' (OAM) protocol suite, specifically the 'Ethernet First Mile' (EFM) or 'Link' OAM protocol defined under IEEE 802.3ah. In the case of the Service Provider, such protocols enable a greater degree of proactivity in connection fault management. MC12000 Ethernet Service Delivery Platform For the Service Provider, wishing to connect a number of remote customer clients across a variety of technologies from the CO or exchange environment, Metrodata offers the MC12000 chassis solution as a concentration point for Ethernet Extension / Service Delivery applications. The MC12000 is a resilient chassis solution offering dual-redundant AC or -48V DC PSU options and managed connectivity for up to 12 modules for Ethernet connection over a variety of media. Specifically, the following module options are supported:

� Ethernet over up to 4x individual or 'bonded' E1/T1 services

� Ethernet over up to 8x 'bonded' E1/T1 (or aggregation up to 4x single or bonded E1/T1 groups)

� Ethernet over individual or 2x 'bonded' E3/DS3 services

� Ethernet over one or two separate STM1/OC3 services

� Ethernet over Serial, (X.21, V.35, EIA.530) services

� Ethernet over Fibre (dual connection module)

Fig. 4: MC12000 Ethernet Service Delivery platform

The MC12000 supports network central Ethernet connection in a number of modes, including;

1. A single 'aggregated' Ethernet connection may be made to the Ethernet port on the Systems Management card, which can then be distributed to any or all remote Ethernet ports linked via Extension Modules within the MC12000 chassis. VLAN Tag switching definitions may be applied to the traffic streams from each port as appropriate.

2. Multiple central Ethernet connections may be made to individual modules within the MC12000, for

extension either across the particular link served by the same module, or distributed via different modules, as determined by VLAN Tag switching definitions.

Network Management connectivity can be effected either via a Serial port on the MC12000 Systems Management card, or via an Ethernet port on the Systems Management Card itself or any other module within the chassis. Ethernet-based Network Management is normally configured such as to be constrained within a single dedicated Management VLAN, which can be designated to terminate within each Access device if necessary, in order to avoid propagation of management traffic via user network ports. Fig. 5 below illustrates a typical configuration for the MC12000 used for Ethernet Access connectivity across different media in conjunction with various CPE Demarcation devices.



Fig. 5: MC12000 used for Ethernet Access concentration over a variety of Network Edge Transports

Setup and Management It is essential that all elements of a Service Delivery network may be comprehensively managed and the MetroCONNECT family embraces this principle. One of the key themes for management of the MetroCONNECT environment is “zero touch” installation for the CPE Demarcation units. Through “zero touch”, the Demarcation devices are simply physically installed and connected. All configuration functions are performed from the Provider's Management Station(s). One element of “zero touch management” is auto-discovery. When a device is installed, it will activate IEEE802.3ah Link OAM. It will then listen for status requests from the MC12000 Systems Manager. During this auto-discovery phase, the device type and capabilities are retrieved. Metrodata makes use of the Organisation-specific Extension capabilities of Link-level OAM to enable a management channel to be established. Once this channel has been established, the MC12000 Systems Manager acts as an IP proxy to effectively enable remote device management via TELNET/SSH or SNMP. The use of OAM for the management channel also gives the advantage of traffic isolation, since no management traffic will be visible to the customer and similarly the customer will have no access to the management sub-systems. To further enhance the management offerings, simple password management may be upgraded through the use of TACACS+, and security enhanced further through SSH based encryption. In general, the management of Metrodata products can be considered in two phases, configuration and monitoring. Configuration is normally achieved through the use of a simple, menu driven user interface available through TELNET or using a web browser and HTTP services. Once a device is configured, it then enters the monitoring phase where alarms, events and statistics are gathered using SNMP.



Additionally, the demarcation devices may generate TRAP indications to signal problems to the Management System. The MetroConnect MC12000 platform offers extensive performance monitoring facilities as well as in-service and out-of-service test facilities. Where problems are discovered, OAM level loopback tests may be used to determine the status of links exhibiting problems. These OAM level loops may operate at an “in-service” level where they are not traffic affecting, or as “out of service” tests where the traffic flows are disrupted during tests. Full details of the MC12000 and indeed of the full MetroCONNECT range can be found at the Metrodata Web Site, at: http://www.metrodata.co.uk/products/summaries/ethernet-network-access-and-lan-extension.htm Within the MetroCONNECT range, Metrodata offers products specifically for use as Copper-Copper or Copper-Fibre Carrier Ethernet Demarcation devices, including advanced capabilities for Performance Assurance and SLA verification, increasingly required of Ethernet Service Providers by their customers. This topic is examined in detail in our White Paper, "Managing Ethernet Service Delivery", and full product details can be found at the Web Site here; http://www.metrodata.co.uk/solutions/ethernet-extension/carrier-ethernet-demarcation-devices.htm



Appendix: MetroCONNECT Family Overview The following is a summary of the members of the MetroCONNECT product family available as of January 2015. All products have consistent Management, although the FCM9003 and FCM9005 Ethernet-over-Fibre Demarcation Devices have advanced features including in-built Ethernet and IP test traffic generation, loop-back and analysis for Telecoms Carrier commissioning and fault determination. Products with fibre interfaces also include the possibility to support Metrodata's unique integrated OTDR functionality for fibre fault localisation. WCM1100: Ethernet Extender over E1 or T1, supporting Gigabit Ethernet via RJ45 or Fibre (via SFP) WCM1101: Ethernet Extender over E1 or T1, supporting 10/100Mbps Ethernet connectivity via RJ45 WCM3100: Ethernet Extender over E3 or DS3, supporting Gigabit Ethernet via RJ45 or Fibre (via SFP) WCM5100: Ethernet Extender over STM1 or OC3, supporting Gigabit Ethernet via RJ45 or Fibre (SFP) WCM1400: Ethernet Aggregator/Extender over up to 4x individual or 'bonded' E1 or T1 services WCM1800: Ethernet Aggregator/Extender over up to 8x E1 or T1 services, including both individual

and 'bonded' links (maximum of 4 different remote sites serviced) WCM1820: Ethernet Aggregator/Extender over up to 16x E1 or T1 services, including both individual

and 'bonded' links (maximum of 4 different remote sites serviced) WCM3200: Ethernet Aggregator/Extender over up to 2x individual or 'bonded' E3 or DS3 services WCM3400: Ethernet Aggregator/Extender over up to 4x individual or 'bonded' E3 or DS3 services WCM-Serial: Ethernet Extender over Serial infrastructure (Flexible to X.21, V.35, EIA-530) LHM1000: Ethernet Extender over High Speed Serial infrastructure (HSSI) to ~52Mbps bandwidth FCM9003: Ethernet Demarcation Device, supporting 2x RJ45 and 1x Fibre connections FCM9005: Advanced Multi-port Ethernet Demarcation Device, supporting RJ45 and Fibre connections MC12000: Chassis system for centralised Aggregation and/or Service Distribution, supporting the

following modules:

WCC1400: 4x E1 or T1 ports WCC1800: 8x E1 or T1 ports WCC3200: 2x E3 or DS3 ports WCC5200: 2x STM1 ports WCC-Serial: 1x Serial interface (Flexible to X.21, V.35, EIA-530) FCC9000: Flexible Multi-Media Gigabit Ethernet Switching Module, for high-density

Copper-Fibre Media Conversion or local VLAN switching applications All MC12000 modules are hot-swappable, including the PSUs, which are available in single or dual-redundant configurations for AC or -48V DC application.

Carrier Ethernet Services Delivery -...

Documents

Transcript of Carrier Ethernet Services Delivery -...