Wholesale NBN Co Fibre Access Service Product Overview Fibre Access Services August 2010
Copyright This document is subject to copyright and must not be used except as permitted below or under the Copyright Act 1968 (CTH). You must not reproduce or publish this document in whole or in part for commercial gain without prior written consent of NBN Co. You may reproduce or publish this document ion whole or in part for educational or non-commercial purposes. Disclaimer This document sets out NBN Co s proposals in respect of certain aspects of the National Broadband Network. The contents of this document are intended for public consultation and represent NBN Co s current position on the subject matter of this document. The contents of this document should not be relied upon by our stakeholders (or any other person) as representing NBN Co s final position on the subject matter of this document, except where stated otherwise. The views expressed by NBN Co in this document may change as a consequence of NBN Co finalising formal technical specifications. NBN Co s position on the subject matter of this document may also be impacted by legislative and regulatory developments in respect of the National Broadband Network Environment NBN Co ask that you consider the environment before printing this document
Table of Contents 1 INTRODUCTION... 3 1.1 Benefits... 5 1.2 Key Product Features... 6 2 PRODUCT OVERVIEW... 8 2.1 Key Wholesale Product Components... 9 3 FIBRE ACCESS WHOLESALE PRODUCT... 13 3.1 Ethernet Bitstream Service... 13 3.2 Ethernet Bitstream features for Business... 14 3.3 Interconnection Arrangements... 15 3.4 Class of Service (COS)... 15 3.5 Telephony Capability... 16 3.6 Multicast... 17 3.7 Service OAM and Reporting... 19 4 WHOLESALE PRODUCT CATALOGUE... 20 4.1 Catalogue Structure... 20 5 SERVICE MANAGEMENT... 25 6 END-USER PREMISES... 25 7 NBN CO FIBRE ACCESS SERVICE (NFAS) CONFIGURATION EXAMPLES... 26 7.1 Residential Gateway... 26 7.2 Legacy Voice and Virtual Circuit Dimensioning... 27 7.3 Legacy Voice and Basic Broadband replacing existing xdsl CPE... 29 7.4 Access Seeker UniCast Internet Protocol TV Services... 30 8 ANNEXURE A1 INFORMATION AND DOCUMENT HIERARCHY RELEASE SCHEDULE... 31 8.1 Document Availability Schedule.... 32 9 ANNEXURE A2 DOCUMENT GLOSSARY OF TERMS... 33 Page 1
List of Figures FIGURE 2.1 - HIGH-LEVEL NFAS ACCESS SERVICES USED FOR INTERNET CONNECTIVITY... 8 FIGURE 2.2 - NFAS NETWORK CONNECTION ARCHITECTURE... 8 FIGURE 2.3 - LOGICAL NFAS NETWORK DELIVERY COMPONENTS... 9 FIGURE 2.4 - MULTIPLE CONNECTIVITY VC (CVC) LOGICAL CONFIGURATION... 11 TABLE 2.5 KEY NFAS COMPONENT RELATIONSHIPS... 12 FIGURE 3.1 - MULTICAST REPLICATION... 17 TABLE 4.1 UNI OPTIONS... 20 TABLE 4.2 AVC PIR OPTIONS... 21 TABLE 4.3 AVC CIR OPTIONS... 22 TABLE 4.4 OTHER OPTIONS... 22 TABLE 4.5 CVC BANDWIDTH OPTIONS... 23 TABLE 4.6 ADDITIONAL CVC OPTIONS... 23 TABLE 4.7 NNI OPTIONS... 24 FIGURE 5.1 SERVICE MANAGEMENT DOMAINS... 25 FIGURE 7.1 - RESIDENTIAL GATEWAY... 26 FIGURE 7.2 LEGACY VOICE SERVICE DELIVERY (FROM NTU)... 27 FIGURE 7.3 - DIMENSIONING OF VOICE TRAFFIC... 28 FIGURE 7.4 LEGACY VOICE AND NEW BROADBAND SERVICE... 29 FIGURE 7.5 UNICAST IPTV SERVICE DELIVERY... 30 Page 2
1 Introduction NBN Co Fibre Access Service (NFAS) is a wholesale, layer 2 based Ethernet Access product utilising Fibre to the Premises (FTTP) technology. NFAS provides Access Seekers with an Ethernet access solution from the NBN Co Point of Interconnect (POI) to the End-user interfaces on the Network Terminating Unit (NTU) located at the end-user premises. This document provides Access Seekers an overview of NFAS products, the key features, product components and their attributes, major network connection elements including Access Seeker interconnection arrangements and product pricing structures. Consultation The release of NBN Co s product description represents the culmination of an extensive industry engagement program on NBN Co s fibre product. As a wholesale only provider, NBN Co has been keen to engage with industry to understand the industry s product requirements. NBN Co has been actively engaging with access seekers (Access Seekers) since its inception. NBN Co has engaged with Access Seekers through a mixture of industry wide processes and bilateral meetings. NBN Co has also engaged on technical matters with industry via the Communications Alliance and met and presented to other industry groups. On the industry wide front, over 1000 attendees have participated in NBN Co s industry consultation forums: Three Product forums were held in Sydney, Melbourne and Perth (Perth jointly with Communications Alliance). 10 Network and Operations forums were held in Sydney (4 sessions), Melbourne (3 sessions), Adelaide, Perth and Brisbane. NBN Co presented to Communications Alliance members at two forums in Sydney and Melbourne on its product technical thinking. NBN Co released a public Product Consultation paper in December 2009. Nearly 50 submissions were received from industry and interested stakeholders and we released a response paper in March 2010. On the bilateral front, NBN Co has held a number of deep dive product and operations workshops with a number of key retail and wholesale service providers. NBN Co has completed approximately 150 hours of direct product deep dives in workshop sessions with over 25 access seekers spread across Australia. These sessions are designed to ensure that we get as much information as possible from our prospective customers to ensure that we develop the right products, operational systems and processes for industry and End-users. We have received a significant amount of valuable feedback from these engagements, much of which has been incorporated into this product paper. However, if you do have any further feedback Page 3
on this paper, please respond by 2 nd September 2010 via email to: feedback@nbnco.com.au, with a subject line of Fibre Access Product. Next steps As part of the overall development of our commercial products, and the further definition of the network architecture, NBN Co is also developing a related - POI consultation paper, and a - Fibre Access Services (NFAS) Product Technical Specification - Fibre Access Services (NFAS) Pricing Guide Annexure A1 identifies the planned consultation and information release activities. Other related documents are in preparation, and will be published over coming months to form a suite of documentation: - Service Management and Operations Manual - Deployment Guide - Systems Manual The NFAS Products described in this Product Overview are available to retail and wholesale service providers to deliver services to end-user premises. A glossary of acronyms and abbreviations is included in the Glossary of Terms Section in Annexure A2. In a number of places in this paper, NBN Co has provided details of the speeds at which the NBN or a particular wholesale product offering is capable of operating. However, it is important for acquirers of NFAS to recognise that the speeds actually achieved by an End-User will depend on a number of factors, including the terms of the retail broadband plan, the End-User s chosen hardware and their in-premises connection. Page 4
1.1 Benefits The NFAS product offering will provide wholesale Ethernet access services with the following characteristics: High Speed Broadband Access NFAS provides high speed, high quality Ethernet access broadband services at speeds up to 1Gbps to meet the present and growing future needs of consumer, small/medium enterprise and corporate/government markets. Flexible service access speeds and a component based product approach provide the maximum flexibility and utility to Access Seekers. National Footprint NFAS products are provided using Fibre to the Premises (FTTP) technology to deliver high speed access to 93% of premises in Australia. Access Seekers can be connected to a fibre serving network at the NBN Co Points of Interconnect (POI). This will ensure an Access Seeker can provide a ubiquitous retail offering together with certainty of the speeds that can be delivered over the access network. NFAS access speed is consistent across the NBN FTTP footprint and unlike some earlier access technologies, does not deteriorate as distance to the end-user premises increases. High Quality Service Management Access Seekers using NFAS will be supported by highly automated systems and processes for service ordering and provisioning, service assurance and reporting/billing. Quality online service reporting and management tools will greatly assist the end-user and Access Seeker service management and communication process during the service lifecycle. Service Migration NFAS services and support systems are designed to enable a predictable service migration process from existing copper based access services to new fibre based services. Rollout An indicative national rollout schedule will be published and updated from time to time to give Endusers and Access Seekers as much visibility as possible of the local rollout arrangements and timing to ensure maximum uptake and minimise service disruption. Page 5
1.2 Key Product Features The following section outlines the high level features to be delivered in the initial release of the NFAS product set. 1.2.1 At the End-user Premises Network Termination Unit (NTUs) with multiple end-user facing ports. The ports on the NTU are User Network Interfaces (UNI). There will be four Ethernet ports (UNIdata) and at least one standard telephony port (UNI-voice). Standard deployment of the NTU will be indoor. Additional external deployment options will be available and may be subject to additional pricing. The ability for one Access Seeker to offer multiple end-user services (such as Triple Play) using the NFAS product. The ability for multiple Access Seekers to provide services to a single end-user via separate ports on the NTU on the end-users premises. Fibre based access services with bandwidths of up to 1000Mbps downstream with the flexibility to add committed bandwidth to support just-in-time and real-time applications such as video and telephony for consumers, business and government end-users. Specialist fibre based access services with symmetrical bandwidths above 100Mbps to 1000Mbps as a customised order and subject to special pricing. The ability for an Access Seeker to offer a Standard Telephony Service via the UNI- Voice telephony port to assist in migration from legacy technologies. 1.2.2 Within the NBN Co Network Flexible bandwidth levels to facilitate up-sell opportunities for Access Seekers. The ability for an Access Seeker to assemble product components to support their own unique business and deployment model. A network that allows Access Seekers to control/manage points of contention to align with retail product offerings. A Class of Service (COS) model that enables Access Seekers to map their existing end to end Quality of Service (QOS) strategies into the NFAS product set. A range of additional services and features including business Ethernet functionality, Multicast and enhanced service levels. Page 6
Enhanced service monitoring including OAM to support flexible Access Seeker service levels. 1.2.3 At the Access Seeker Point of Interconnect A range of physical interfaces and speed options to cater for Access Seekers with varying levels of network infrastructure and End-user scale. A range of resiliency options to enable Access Seekers to deliver a high grade of service and to differentiate their offerings. 1.2.4 Exclusions The NFAS product does not include: Facility Access at the NBN Co Point of Interconnect. Details on the facilities available at NBN Co POI to aid interconnection will be made available in a separate NBN Co product overview. Backhaul transmission infrastructure from the POI to the Access Seeker Point of Presence (PoP). Content or applications including Internet Gateway Connection, BNG capability or Soft Switching infrastructure. Page 7
2 Product Overview The NFAS product consists of a number of components which are used by Access Seekers as building blocks to provide an end-to-end service. NFAS represents the access network portion of the overall network chain and is used for delivering Access Seeker s applications and services, as illustrated in the ISP application environment, Figure 2.1. FIGURE 2.1 - HIGH-LEVEL NFAS ACCESS SERVICES USED FOR INTERNET CONNECTIVITY NFAS delivers an active wholesale network connection via one or more Ethernet Virtual Circuits from the NBN Co POI to the End-user premises within the NBN Co FTTP footprint. It delivers analogue telephony and/or Ethernet interfaces at the End-user s Premises. Access Seekers can interconnect at designated NBN Co POIs which serve defined geographical Fibre Connectivity Serving Areas (FCSA) via Connectivity Virtual Circuits (CVC) as shown below in Figure 2.2. FIGURE 2.2 - NFAS NETWORK CONNECTION ARCHITECTURE Page 8
2.1 Key Wholesale Product Components The initial offering will be an Ethernet Bitstream product. It will consist of four key product components two physical and two logical network bandwidth elements. Access Seekers can build service offerings with significant flexibility using this component approach. The components are illustrated in Figure 2.3 which depicts the active network elements at the end-user premises and the Connectivity Serving Area, and the virtual circuits which connect the key active network elements. FIGURE 2.3 - LOGICAL NFAS NETWORK DELIVERY COMPONENTS 2.1.1 User Network Interface (UNI) The UNI is depicted as product component 1 in Figure 2.3. It is the physical interface at an Enduser s premises and represents the NFAS network boundary. NBN Co will provide a NTU device which offers a number of UNI ports through which an Access Seeker can deliver services. An End-user may receive services from multiple Access Seekers simultaneously. An Access Seeker is able to deliver multiple services (for example, triple play) through a single UNI, or alternatively may elect to use multiple UNI. A UNI is uniquely allocated to an Access Seeker. Two types of UNI are provided: UNI-Data UNI-Voice Four independent 10/100/1000BaseT Ethernet ports are provided for data service delivery. Optionally, optical Ethernet UNI can be provided ie UNI-Data (1000BaseSX) and UNI-Data (1000BaseLX) At least one independent Analogue Telephony port is provided. This interface will utilise the SIP protocol for media signalling and can be interfaced with an existing Access Seeker SIP Softswitch infrastructure. Access Seekers can use these Page 9
interfaces to provide a migration path from traditional PSTN based telephony services. If two ports are provided both will be SIP. 2.1.2 Access Virtual Circuit (AVC) The Access Virtual Circuit (AVC) is the second product component depicted in the Figure 2.3. An AVC provides logical connectivity between a UNI at the end-user s premises and the Connectivity Virtual Circuit. Each Access Seeker wishing to deliver a service to a given End-user must order one or more AVCs. Each AVC can be ordered as Unicast or Multicast. Multiple AVCs can be mapped to a single UNI. AVC bandwidth is defined by the Committed Information Rate (CIR) and the Peak Information Rate (PIR). In the first release of NFAS there will be 7 defined PIR rates with the option to add incremental CIR bandwidth to support just-in-time and real-time applications such as voice and video. 2.1.3 Connectivity Virtual Circuit (CVC) The CVC is the third element depicted in Figure 2.3. It is the product component where many AVCs from End-users are aggregated together for presentation to the Access Seeker. The CVC provides logical capacity for connection of the Access Seeker network on the Network- Network Interface at an NBN Co Point of Interconnect (POI) to a Connectivity Serving Area. Each Access Seeker requires at least one CVC for each Fibre Connectivity Serving Area (FCSA) in which End-users are connected. The CVC is an aggregation element of the network and shields the Access Seeker from management of the NFAS infrastructure. This potentially allows the Access Seeker to achieve a higher utilisation and aggregation of backhaul. It allows for streamlining of backhaul providers, contracts, services and technologies, through the ability to use fewer, higher-capacity backhaul services, with greater control over contention and utilisation A given CVC is used to logically aggregate multiple end-users and is dimensioned by the Access Seeker. NBN Co may introduce minimum and maximum bandwidth rules on the CVC. Access Seekers may implement multiple CVCs in order to create a differentiated experience for particular end-user segments such as residential or business. The diagram Figure 2.4 illustrates the logical network configuration. The diagram illustrates that the CVCs are presented at a common POI for both residential and business End-users. Access Seekers may dimension the CVCs differently based on application and market requirements. Page 10
FIGURE 2.4 - MULTIPLE CONNECTIVITY VC (CVC) LOGICAL CONFIGURATION 2.1.4 Network-Network Interface (NNI) The NNI is the fourth component of the NFAS product. It forms the physical service hand-off to the Access Seeker at each Point of Interconnect (POI). All End-user services in a given FCSA are presented to the Access Seeker at the POI via one or more Ethernet NNI. The NNI represents a physical aggregation where traffic is handed over to the Access Seeker and is delivered back to the Access Seeker s Point of Presence (POP) under whatever arrangements the Access Seeker has in place. Each NNI physically operates at either 1Gbps or 10Gbps and is available with a number of optical interfaces The NNI is offered in the following modes: Standard NNI Protected NNI A single physical interface is provided to the Access Seeker over which all NFAS services are presented. Multiple physical interfaces are provided which enable the Access Seeker to implement diverse equipment or backhaul. Physical interfaces are configured into NNI Redundancy Groups to implement either 1+1 redundancy or load sharing across ports, using IEEE802.3ad link aggregation. Page 11
2.1.5 Summary of Product Components and Relationships The following table provides a summary of the key NFAS product components and their context. Component Applies To Notes 1. User Network Interface (UNI) End-user 2. Access VC (AVC) End-user 3. Connectivity VC (CVC) 4. Network-Network Interface (NNI) Fibre Connectivity Serving Area Single or multiple Fibre Serving Areas The UNI provides physical handoff of Access VCs at an End-user premises. One or more UNI can be ordered by an Access Seeker. An Access Seeker can map one or more Access VCs to one UNI, but a UNI cannot be shared by multiple Access Seekers Each End-user will be served by a single or multiple AVC. AVCs can be ordered as Unicast or Multicast, and each AVC will be delivered to one UNI, although multiple AVC can be delivered to the same UNI of an Access Seeker. A Connectivity VC (CVC) aggregates multiple Access VCs back to the POI. The CVC is shared among nominated AVCs and allows the Access Seeker to manage network contention. The CVC connect to one Connectivity Serving Area. The NNI provides physical aggregation of several Connectivity VCs across a Fibre Distribution Region. It forms the physical handoff point to the Access Seeker at a POI and may be configured with redundant interface protection options. TABLE 2.5 KEY NFAS COMPONENT RELATIONSHIPS Page 12
3 Fibre Access Wholesale Product NFAS will offer one wholesale Ethernet Bitstream product with a variety of selectable features and functionality to enable Access Seekers to build Retail offerings in the residential, business, and enterprise & government markets. These include: Ethernet Bitstream Service Business features Interconnection Arrangements Class of service (COS) Telephony Capability Multicast Service OAM and Reporting 3.1 Ethernet Bitstream Service The Ethernet Bitstream product provides Access Seekers with a Layer 2 access service between the UNI on the NTU at an End-User Premises and the NNI located at the NBN Co POI. The logical architecture of the Ethernet Bitstream product construct is depicted in Figure 3.1 and shows the boundary within the End-User Premises that is known as the Wholesale Services Boundary (UNI), as well as the Access Seeker s POI network boundary (NNI). Within the initial release there will be seven bandwidth profiles based on Peak Information Rate (PIR) for the AVC. The base downsteam bandwidth will be 12Mbps, which will be consistent with the base downstream bandwidth of NBN Co satellite and wireless products. This will include 150kbps committed AVC capacity that can be either included in the AVC associated with the UNI-D or included as a separate AVC associated with the UNI-V to enable a standard telephony service. Downstream bandwidth up to 1000Mbps will be available on the NBN Co fibre network NBN Co will offer additional Committed Information Rate (CIR) speed increments up to an initial 100 Mbps per premises to support just-in-time and real-time applications such as video, voice and enterprise applications. Page 13
VLAN Tags The NFAS network will be designed to support network security and integrity to ensure secure delivery of services and support multiple End-Users. NFAS utilises a two-level VLAN addressing scheme to differentiate circuits, fully-compliant with IEEE802.1ad. A high level of security is achieved by including the NTU as part of the service it will not be possible for customers to connect directly to the fibre in the End-user s premises. Each AVC will be supplied as a separate virtual data stream within NFAS. The Tag structure uses an inner C-TAG to indicate an individual Access VC, to an NTU UNI-Data. The outer S-TAG indicates a Connectivity VC (which is specific to a FCSA). An example of NFAS planned VLAN tag assignment and usage follows: S-VLAN is used to designate the Connectivity Virtual Circuit from the Access Seeker to the Fibre Connectivity Serving Area. C-VLAN is used to designate the Access VC within the FCSA. The combination of S-VLAN and C-VLAN uniquely describes the EVC from the Access Seeker s network to the UNI at the End-user premises. S-VLAN tags will be unique within a POI, but may be re-used in other POIs. C-VLAN tags will be unique within the scope of a S-VLAN, but may be re-used between different S-VLANs. NBN Co will define and manage all tags unless VLAN transparency is enabled, in which case the business End-user C-VLAN tags are passed transparently through the NFAS network. Access Seekers will have the option of assigning VIDs at the UNI/NNI. 3.2 Ethernet Bitstream features for Business It is recognised that NFAS will be used as the access method of choice for many Access Seekers to build Wide Area Networks (WANs) offers for the enterprise market. As such NFAS will provide a number of enhanced features to enable this. Optical interfaces options on UNI-D Symmetrical CIR bandwidth from 10Mbps 1Gbps (for services higher than 100Mbps feasibility for Point-to-point deployment may to be considered) Multiple AVC support to a single UNI-D CE-VLAN Transparency options AVC protection options (specific design required) Page 14
Enhanced response and restoration SLA (up to 4 hour restore) An enhanced range of service provisioning and restoration options OAM and Enhanced reporting options (see section 3.7) 3.3 Interconnection Arrangements At each Point of Interconnect (POI), two options will be provided for Access Seekers to interconnect their infrastructure to the NFAS network platform. Passive Interconnection Facilities Access An Access Seeker requires only optical patching between the NNI and a backhaul service provided by a third party. An allocation is made at the Optical Fibre Distribution Frame (OFDF) at the POI. No facilities access is provided. An Access Seeker requires a physical presence in the POI facility for the purpose of housing transmission equipment related to the provision of backhaul. Physical accommodation and power is provided by NBN Co, and is ordered and supplied as a separate product from NFAS. Further information in Interconnection Facilities will be made available. 3.4 Class of Service (COS) The provision of end-to-end Class of Service (COS) is the responsibility of the Access Seeker to engineer and manage capacities, service policies, capabilities and tagging of different IP packets or Ethernet frames on the end-user UNI side of the Network Boundary and the Access Seekers NNI side of the POI. The Access Seeker applies the policy to its defined COS traffic classes in its network and interconnects this profiled traffic queue to collective end-users on the NFAS via the Connectivity VC at the POI. Two Classes of Service are offered with the initial release of NFAS: Traffic Class Typical Use 1 Control, critical and delay sensitive applications. 4 Data download / upload applications. Traffic Class 1 supports a Committed Information Rate with no excess information rate support, while Traffic Class 4 supports a Peak Information Rate with a Committed Information Rate set to zero. Page 15
Traffic Class 1 frames will be transmitted before Traffic Class 4 frames (ie. a strict priority queue). Additional Traffic Classes may be introduced in later releases of the product Further details on COS implementation will be available in the NBN Co Fibre Access Product - Technical Specification Congestion Management within NFAS Services Within an NFAS service, the Committed Information Rate (CIR) of Traffic Class 1 within an AVC is provisioned using reserved capacity. This results in deterministic performance for in-profile Traffic Class 1 traffic, under normal operating conditions. Out of profile traffic for Traffic Class 1 (ie. traffic sent in excess of the CIR) will be discarded. For all Traffic Classes, traffic sent in excess of the PIR of that traffic class will be discarded. 3.5 Telephony Capability NFAS will facilitate the delivery of a telephone service via an analogue telephony port (UNI-V) on the NTU by an Access Seeker. This capability is provided via an internal SIP based Analogue Telephone Adapter (ATA) and access is via the UNI-V interface. The UNI-V supports the following features where the Access Seekers softswitch supports this function, for example: Call Waiting Calling Number Display Call Blocking (Calling Number Blocking) UNI-V supports G.711 A-law voice coding. This will enable most legacy telephones to operate with the Access Seeker s IP telephony softswitch without having to change existing telephone equipment to an IP telephony handset. If required, local number porting of the end-user telephone number from legacy networks will be the responsibility of the Access Seeker. NFAS also supports Voice over IP (VoIP) natively within the AVC via a UNI-D. Thus the Access Seekers may deliver VoIP solutions from softswitch infrastructure to end-users with VoIP-compatible handsets and /or personal computers. The NTU will be able to accommodate an optional backup battery capability (ie a power supply unit capable of supporting a battery). NBN Co will not supply, install or maintain a backup battery. The ongoing supply and management of batteries will be handled by the telephony Access Seekers as will treatment of monitoring information provided by NBN Co by way of an optional service when power is not being supplied to the NTU. It will be up to Access Seekers whether they choose to acquire this service. However, NBN Co recommends that Access Seekers notify End-Users of its availability. Page 16
The support of Priority Assistance and Life-Line services are under consideration. NBN Co will provide an update of its position on these services as soon as possible 3.6 Multicast Multicast is a technology whereby content transmitted simultaneously to two or more End-users is carried as a single stream as far into the network as possible before being replicated (i.e. divided) and on-forwarded to end-users. Replication may occur at more than one point along the end to end path, resulting in a tree of replicated streams. The multicast technique can achieve significant bandwidth savings for the delivery of one-to-many services ensuring efficient use of the NBN capacity and Access Seekers backhaul, enabling a more cost effective delivery of services such as IPTV to a wide customer base. The example shown in Figure 3.4 depicts four End-users, each receiving a 10Mbps video stream. Multicast enables the Access Seeker to inject that stream only once at the POI. Without multicast, the Access Seeker would need to inject the same stream four times at the POI (consuming 40Mbps of bandwidth). An Access Seeker is free to scale the number of End-users they can support, without incurring additional CVC and backhaul expense. FIGURE 3.1 - MULTICAST REPLICATION The NFAS Multicast solution consists of two components: Multicast Domain Multicast Access Virtual Circuits Page 17
NFAS Multicast Domain Multicast Access Virtual Circuit Multicast Dimensioning Example The NFAS Multicast Domain enables Access Seekers to efficiently distribute content from a POI by injecting traffic only once at the Point of Interconnect (POI) irrespective of the number of end-users. NBN Co will manage the distribution of content to each OLT within the FAN(s). Access Seekers will define a series of Multicast Groups for each POI. In the context of IPTV, each Multicast Group represents one simultaneous channel of content. Charges are based on the aggregate Multicast bandwidth per POI and directly relate to the channel line-up offered by the Access Seeker. Access Seekers must order a Multicast Access Virtual Circuit for each End-user who wishes to receive Multicast content such as IPTV. This is an additional AVC to an AVC being used by the same Access Seeker for Broadband services. Multicast AVCs can be ordered at specific bit rates to suit the type of content being delivered (for example, Standard Definition or High Definition). This is a separate and dedicated AVC for multicast i.e. unicast traffic such as VOD or internet cannot be delivered on this service. In the context of IPTV, each Multicast AVC needs to be dimensioned at the required simultaneous viewing capacity that is to be provided to the End-user. The Access Seeker has a channel line-up as follows: 20 x Standard Definition Channels @ 5Mbps per channel = 100Mbps 5 x High Definition Channels @ 10Mbps per channel = 50Mbps The Access Seeker would order a Multicast Domain to satisfy the total channel line-up bandwidth of 100Mbps + 50Mbps = 150Mbps. End-user Multicast Access VCs (M AVC) would be ordered based on the number of channels to be delivered simultaneously. For example: Single Set Top Box package Dual Set Top Box package Standard Definition only package = 10Mbps M AVC. = 20Mbps M AVC. = 5Mbps M AVC. Page 18
3.7 Service OAM and Reporting Service OAM The NFAS product offers enhanced Service Operational, Administration and Maintenance (Service OAM) features using capabilities based on IEEE802.1ag (Connectivity Fault Management). NFAS Service OAM provides a level of operational integration across the NFAS service boundaries that allows NFAS services to appear functionally on-net to the Access Seeker. These features allow an increased level of visibility into the status of NFAS services, and provide diagnostic capabilities that assist in the rapid identification and isolation of faults. NFAS Service OAM is expected to appeal to Access Seekers who use NFAS to address the business market, and require a higher level of network monitoring and control for delivering premium applications. Reporting The NFAS network offers enhanced reporting for selected services. This extended reporting builds upon the base level of statistics, providing further information around traffic management and discard at the Class of Service level. These metrics help an Access Seeker monitor their congestion and traffic management within the NFAS network, to ensure preservation of their own IP-level, end-to-end QoS policies. This will appeal to Access Seekers who offer mixed-media applications across the NFAS network (e.g. tripleplay), who are expected to take advantage of the NFAS Class of Service mechanisms. Page 19
4 Wholesale Product Catalogue NBN Co s Product Catalogue is aligned to the key product components outlined in Section 2. It enables NFAS products to be built at a component level to provide a high level of flexibility to Access Seekers. The Product Catalogue defines orderable elements of the product and related attributes. represents some but not all pricing elements. It Further detailed description on the configuration attributes and the pricing will be available in the NFAS Product Technical Specification document and NFAS Pricing Guide. 4.1 Catalogue Structure The following catalogue shows the charge structure and feature elements available for ordering on an NFAS services. UNI Attributes Option Description NRC MRC Comments UNI-V ATA Port N/A $TBA SIP protocol -available with an Access VC and UNI-D UNI-D 10/100/1000 Base TX N/A $TBA 4 ports 1000Base SX or 1000baseLX N/A $TBA Optical interface suitable for addressing the Business/government market. NTU Power Battery backup capability $TBA $TBA Battery not included Non Standard Install Including external NTU $TBA $TBA NRC = Non Recurring Charge, MRC = Monthly Recurring Charge TABLE 4.1 UNI OPTIONS Page 20
Access Virtual Circuit Chargeable Options and Descriptions: AVC speed options (PIR) Option PIR Speed combinations Downstream (Mbps) Upstream (Mbps) MRC 12 1 $TBA 25 10 $TBA 50 20 $TBA 100 40 $TBA 250 100 $TBA 500 200 $TBA 1000 400 $TBA Comments Aligns with Wireless and Satellite. 150Kbps CIR AVC provided for voice traffic either to the UNI-D or UNI-V TABLE 4.2 AVC PIR OPTIONS Incremental CIR available on the AVC Downstream (Mbps) MRC Comments 1 $TBA 2 $TBA 5 $TBA 10 $TBA 15 $TBA 20 $TBA 25 $TBA 50 $TBA 75 $TBA 100 $TBA Upstream Mbps MRC Comments 1 $TBA 2 $TBA 5 $TBA 10 $TBA 15 $TBA CIR bandwidth is added as required to support just-in and time-real-time applications such as voice and video Upstream and downstream bandwidth can be bought independently to suit the applications being offered. Page 21
20 $TBA 25 $TBA 50 $TBA 75 $TBA 100 $TBA TABLE 4.3 AVC CIR OPTIONS Additional selectable features and options: Options Description NRC MRC Comments Transparency CE-VLAN transparency $TBA Service OAM Monitor service in real time & diagnostic capability $TBA For Wide Area Networking Protection Access redundancy $TBA $TBA Design required Enhanced SLA 24/7 response and restoration timeframes $TBA A range of enhanced service levels Multicast Access Optional feature to support IP TV and other media $TBA Based on bandwidth required Modifications Changes of speed or feature $TBA TABLE 4.4 OTHER OPTIONS Page 22
Connectivity VC Orderable Options and Descriptions The Connectivity VC is dependent on the Access Seekers capacity requirements CVC Options (Symmetrical) Options Bandwidth (Mbps) MRC CVC required to aggregate AVCs back to NNI 10 $TBA 20 $TBA 50 $TBA 100 $TBA 150 $TBA 200 $TBA 300 $TBA 400 $TBA 500 $TBA 750 $TBA 1000 $TBA TABLE 4.5 CVC BANDWIDTH OPTIONS Additional Selectable Features Options Description MRC Multicast domain N:1 multicast domain based on number of channels being distributed $TBA OAM CVC OAM $TBA Modification AMC $TBA TABLE 4.6 ADDITIONAL CVC OPTIONS Page 23
Network to Network Interface (NNI) Orderable Options and Descriptions: Standard Ethernet Interface The Standard Ethernet Interface ports are charged at separate rates for the 1Gbps port and the 10Gbps port on a per port basis. Long Haul Interfaces The Long Haul Interfaces have material cost implications for NBN Co as they have different laser configurations to enable longer distance transmission. The Long Haul Interface ports are charged at separate rates for the 1Gbps port and the 10Gbps port. Further details are provided in the Technical Specification. NNI Attributes Interface Speed Description NRC MRC Comments 1Gbps 1000BaseLX- 10Km range $TBA $TBA 1Gbps 1000BaseZX-40Km range $TBA $TBA 10Gbps 10GBaseLR-10 Km range $TBA $TBA 10Gbps 10GBaseER-40Km range $TBA $TBA Link OAM Monitor service in real time and diagnostic capability $TBA Protected NNI Redundancy options at the NNI $TBA $TBA Expedited Installation set up NNI at faster than std provisioning time $TBA Modifications changes of speed or feature $TBA TABLE 4.7 NNI OPTIONS Page 24
5 Service Management NBN Co s system architecture is built around the key principles of Service Provider enablement and automation. By placing the management controls of each End-user service in the hands of the corresponding Access Seeker, operational overheads and manual order processing are minimised. NBN Co system interfaces will span across a number of different domains as shown below. FIGURE 5.1 SERVICE MANAGEMENT DOMAINS Details will be provided in the Service Management and Operations Manual and the Systems Manual. 6 End-user Premises NBN Co will provide a Network Termination Unit (NTU) at each end-user premises. Further details will be provided in the Deployment Guide. Page 25
7 NBN Co Fibre Access Service (NFAS) Configuration Examples The following examples illustrate NFAS use in the typical delivery of residential and business applications offered by Access Seekers. They outline both equipment and service configuration arrangements, and how components of NFAS can be utilised in varying service delivery environments. 7.1 Residential Gateway The NTU connects to End-user equipment, typically via a Residential Gateway, which maintains the Access Seeker IP address required for the network connection. Figure 7.1 shows voice connection via the gateway. Traffic classes (TCs) are illustrated, terminating on a single NTU port. FIGURE 7.1 - RESIDENTIAL GATEWAY The Residential Gateway illustration shows residential connection for voice, video and data and the gateway CPE is the responsibility of the End-user or the Access Seeker. The selection of gateway equipment will be determined by the Access Seeker and End-user, depending on the Access Seeker retail service model and feature requirements. Page 26
7.2 Legacy Voice and Virtual Circuit Dimensioning A legacy POTS equivalent service, utilising existing in-house telephony wiring is illustrated in Figure 7.2. The Access Seeker provides an equivalent standard telephone service using the inbuilt NTU ATA capability. FIGURE 7.2 LEGACY VOICE SERVICE DELIVERY (FROM NTU) In this scenario, the voice service will be delivered from the NTU s analogue POTS port (ATA). The Access Seeker will need to undertake the following typical tasks to equip the NFAS product to provide voice services: Provision a Connectivity VC between the Access Seekers NNI and the connectivity Serving Area the Access Seeker s End-user is located. Provision an Access VC to the End-user premises at a sufficient bit-rate to carry one channel of voice (150kbps in this example). Enable the NTU POTS port, and configure the NTU SIP stack to communicate with the Access Seeker soft-switch and media gateway infrastructure. Once the new voice service is ready and tested, the Access Seeker will migrate the End-user s existing voice service to NBN, which will consist of the following: Connect the End-user s existing premises telephony cabling to the NTU POTS port. Initiate porting of the End-user s existing PSTN number as per the established Local Number Portability process If required, cancel the existing legacy voice service with the existing carrier. Premises cabling changes or upgrades are the responsibility of the End-user or Access Seeker. Page 27
The diagram in Figure 7.3 illustrates a possible approach to dimensioning upstream bandwidth requirements at the Connectivity VC taking into account the statistical nature of telephone calling and the potential for network efficient concentration or contention of the provisioned bandwidth at the Connectivity VC. FIGURE 7.3 - DIMENSIONING OF VOICE TRAFFIC This example illustrates the relationship between Access VC and Connectivity VCs for an Access Seeker provided voice service to End-users located in a Connectivity Serving Area. AVCs are dimensioned at 150kbps for each UNI voice port. Based on calling patterns of 100 End-users, 3Mbps of CVC capacity is provisioned, effectively contending the access capacity 5:1. Page 28
7.3 Legacy Voice and Basic Broadband replacing existing xdsl CPE The application illustrated in Figure 7.4 is the typical high speed internet broadband and voice service. It supports broadband High Speed Internet Access, Internet Video (e.g. YouTube, ABC iview), and standard OTT applications. The Broadband service is equivalent to today s ADSL/ADSL2+ speeds and throughput. FIGURE 7.4 LEGACY VOICE AND NEW BROADBAND SERVICE An Access Seeker providing this configuration would need a two access service with appropriate traffic classes to support voice and data services. It is recommended that the data service be TC-4 best effort while voice should be provided as the premium traffic class, TC-1. Premises cabling is the responsibility of the End-user or Access Seeker, but may affect service performance. Page 29
7.4 Access Seeker UniCast Internet Protocol TV Services IPTV services can be delivered over the NFAS network as over the top services. Figure 7.5 illustrates the service environment. IPTV and VoD services can be delivered to the user residential gateway or set top box as part of the normal High Speed Internet Access, service IP data bitstream by an Access Seeker with the appropriate content serving infrastructure. Ethernet Bitstream FIGURE 7.5 UNICAST IPTV SERVICE DELIVERY Page 30
8 Annexure A1 Information and Document Hierarchy Release Schedule Following is a draft document hierarchy and draft schedule dates. POI Consultation Paper: Product Overview NFAS POI consultation paper. A high level product and pricing structure document that provides the Access Seeker sufficient product description details to identify key architectural and business considerations required to use the NFAS service, including: Product Components Product Ordering Catalogue Application Examples NFAS Pricing Guide Rollout Schedule The NFAS product price list, charge structure and conditions. The indicative NFAS national network rollout locations and dates. NFAS Product Technical Specification The NFAS Technical Specification comprehensively defines the product technical details, ordering information and service levels. Service Management and Operations Manual A service manual that defines operational processes, service levels, including: B2B Interface Ordering Services Service Modification Churn Process Service Qualification Assurance Process POI setup and management Page 31
Deployment Guide A manual that defines the geographical and physical aspects of the network rollout and related party obligations, including: In building cabling Demarcation Points Service Testing Power requirements Space Requirements Environmental Migration Systems Manual A manual that defines operational, systems and Access Seeker Business to Business IT and network interfaces. 8.1 Document Availability Schedule. Product Overview Calendar Quarter 3, 2010 POI Consultation Paper Calendar Quarter 3, 2010 NFAS Product Technical Specification Calendar Quarter 3, 2010 NFAS Pricing Guide Calendar Quarter 4, 2010 Initial, indicative 3 year Rollout Schedule Calendar Quarter 4, 2010 Service Management and Operations Manual Calendar Quarter 1, 2011 Deployment Guide Calendar Quarter 1, 2011 Systems Manual Calendar Quarter 2, 2011 Page 32
9 Annexure A2 Document Glossary of Terms The following words, acronyms and abbreviations are referred to in this and related documents. Access Seeker: A customer of NBN Co wholesale services. ADSL/DSL (Asymmetric Digital Subscriber Line): A technology used for sending broadband data over a conventional copper telephone line. Actual speeds are distant dependent. AVC: Access Virtual Circuit: A dedicated Ethernet Virtual Circuit that connects the UNI to one CVC. ATA: Analogue Telephone Adapter is a device used to connect one or more standard telephones to a digital system such as VoIP network. BNG: Broadband Network Gateway: An IP routing device that maintains a table of IP network addresses which designate network reach ability. Predominately it is a device used in Internet networks. Broadband: A network service which provides high speed access to the internet or a term used to describe a high speed transmission network. CE-VLAN: Carrier Ethernet Virtual Local Area Network a set of Ethernet virtual circuit attributes. CIR: Committed Information Rate: CIR defines a level if data throughput for which service frames are delivered unconditionally. Connectivity Serving Area (CSA): defines the geographical region that is addressable using a single Connectivity VC CVC: Connectivity Virtual Circuit: A shared Ethernet Virtual Circuit that connects one or more AVCs to a NNI. DSCP: Differentiated Service Code Point a method of marking traffic according to priority. DSL (Digital End-user Line): General name for range of technologies that offer broadband over copper access networks, including ADSL and VDSL. End-user: An End-user that acquires (or proposes to acquire) a service from an Access Seeker for final consumption by that End-user. End-user Premises: The premises of an End-user to which a carriage service is or will be supplied. Ethernet: A common interface and transmission technology which allows computers and devices to communicate on a network. EBS: Ethernet Bitstream Service: The hierarchy term that defines wholesale mass market based services. EES: NBN Co Enterprise Ethernet Service: A wholesale service delivered over NBN fibre infrastructure with features suitable for business End-users. EVC: Ethernet Virtual Circuit: A logical Ethernet channel between UNI and NNI. FAN: Fibre Access Node: The facility that houses the active electronic equipment for the Fibre Access Node (the OLTs and EFSs). It may or may not be the POI location. FSA: Fibre Serving Area: A geographic area covered by one or more Passive Optical Networks (PONS) terminating at the same FAN. Page 33
FTTP: Fibre-to-the-Premises: An optical fibre access network structure in which the optical fibre extends directly from the End-user s premises to the carrier transmission network. A number of technologies can be used, with GPON being a commonly implemented FTTP technology. GPON: Gigabit Passive Optical Network: A shared fibre network architecture that can be used for next generation broadband access. MDU: Multi Dwelling Unit: A multi-tenanted residential or business building. MEF: Metro Ethernet Forum: A global body of network operators and equipment vendors with the common goal of promoting the use of Carrier Ethernet. MRC: Monthly recurring charges Multicast: Multicast is a special IP protocol which enables a single device to communicate with a specific multiple set of hosts (ie point to multipoint communication). This allows for communication that resembles a conference call NFAS: NBN Co Fibre Access Service: The umbrella term used to describe all NBN Co wholesale services. NGN: Next Generation Network, including FTTP technologies NNI: Network to Network Interface: The Access Seeker physical point of network connection to NFAS located at the POI. Typically a 1Gbps or 10Gbps optical transmission interface. NRC: Non-recurring charges NTU: Network Terminating Unit. A generic term for network equipment at the End-user premises which provides a point for network demarcation. OAM: Operations, administration and Maintenance ONT: Optical Network Terminating Unit: The premise equipment that terminates the local access fibre. This is the NTU. OLT: Optical Line Terminating Unit: The FAN equipment that interfaces to the passive optical network. OSI: Open System Interconnection: Reference model for network infrastructure. An international recognised standard based model that defines a network element hierarchy. Premises: A physical location yet to be precisely defined. PIR: Peak Information Rate: PIR defines the maximum data throughput that may be achieved on a given circuit. POI: Point of Interconnect: A demarcation and network connection point between carriers. PoP: Point of Presence: Closest Access Seeker location to a POI. Service Providers (SPs): Companies which provide services, such as telephone or internet services, to a customer s home or business, collectively referred to as Access Seekers in this document. Splitter: A piece of equipment used in fibre optic technology which splits a beam of light into a number of optical light signals. UNI: User Network Interface: The physical End-user NFAS access point, and NFAS point of network demarcation either an Ethernet connector or analogue voice connection. Unicast: Unicast IP data is data sent from one host to another host, when one device transmits a message destined for one receiver (ie point to point communication). VC: Virtual Circuit Page 34
VIDs: VLAN Identifier: Used to indentify traffic on an Ethernet network. VoIP: Voice over IP Voice services carried over a packet digital IP network. Page 35