Who Makes What: MSAPs & IP DSLAMs
Second stage of a survey aimed at identifying and rating equipment in these markets * IP DSLAM product questionnaire * Deadline of June 18th * Poll on multiservice access platforms
May 24, 2005
Welcome to the second stage of a project aimed at identifying and rating products in the market for IP DSLAMs (digital subscriber line access multiplexers) and multiservice access platforms (MSAPs), also known as broadband loop carriers (BLCs) and multiservice access nodes (MSANs).
In the first stage of the project, Light Reading published a report that invited readers to help create a comprehensive list of suppliers and products in this market, by suggesting revisions to a table. The current version of this table, shown on Page 5, will continue to be updated as readers alert us to missing or changed information.
Light Reading also invited readers to rate the importance of key characteristics of IP DSLAMs, with a view to using the results as weightings in a granular survey of products conducted by Heavy Reading, Light Reading’s market research division. So far, 95 people have taken the survey, which can still be taken on Page 4.
In the second stage of this project, two new developments have been added to the original report:
1. Downloadable Questionnaire for IP DSLAM Products
A questionnaire covering IP DSLAM equipment features can now be downloaded by vendors for completion and submission to Heavy Reading, to ensure that their products are included in its report.
The questionnaire comprises three sheets covering:
Central Office IP DSLAMs
Outside Plant Mini Remote Access Multiplexers (OSP Mini-RAMs)
Outside Plant Sealed Units, definitions of which are included in the questionnaire.
The form itself has been designed to make it as easy as possible to complete, and comes complete with examples of the sort of answers expected.
You can download the questionnaire by clicking here:IP DSLAM Questionnaire.
DEADLINE: IP DSLAM vendors have until June 18 to complete and submit the form.
2. Poll on MSAP Key Characteristics
The initial report focused on IP DSLAMs but acknowledged that there was overlap with multiservice access platforms, which integrate other functions with IP DSLAMs – notably VOIP media gateways, FTTx optical line terminals (OLTs), and packet transport to handle multiple traffic types. As already noted, vendors sometimes call these platforms broadband loop carriers (BLCs) or multiservice access nodes (MSANs).
Feedback on the original report has encouraged Light Reading and Heavy Reading to extend the remit of this project, with the goal of producing a second Heavy Reading report providing a detailed competitive analysis of MSAPs.
With this in mind, a second poll has been created, inviting readers to rate the importance of key characteristics of MSAPs. As the first poll focused on IP DSLAM characteristics, a large part of this poll focuses on additional characteristics, notably VOIP media gateway and FTTx functions.
The new poll on MSAP key characteristics is on Page 3. As previously, Light Reading also wants readers to suggest additional issues that should be taken into account when evaluating MSAPs. The preferred method of doing this is to post comments on the message board at the foot of this article. However, private messages can also be sent to [email protected]; please include “MSAP” in the subject field.
When we’ve received and digested comments on our plans, we will create a second downloadable questionnaire for vendors to submit details of their products. It will be added to this report.
UPDATE 7/28: The questionnaire is now ready. You can download it by clicking here:MSAP Questionnaire.
DEADLINE: MSAP vendors have until August 15 to complete and submit the form.
The data from the IP DSLAM and MSAP product questionnaires will be processed to create a granular competitive analysis of IP DSLAM products, similar to the ones that Heavy Reading has published in the past, covering Session Border Controllers, Softswitches, and Media Gateways, among others, all produced by Graham Beniston, author of this report. The scoring systems will be based on the results of the interactive polls on pages 3 and 4.
Here’s a hyperlinked summary of the report contents:
Page 2: IP DSLAM & MSAP Basics
— What they are
— Why they’re hot
— Different typesPage 3: MSAP Key Characteristics
— What data to collect
— Weighting pollPage 4: IP DSLAM Key Characteristics
— What data to collect
— Weighting pollPage 5: IP DSLAM & MSAP Suppliers
— Companies
— Products
Related Light Reading Webinar archives:
Next-Gen DSLAMs
The Role of DSLAMs in Delivering Next-Gen Services
Upstream of the DSLAM: Beating Broadband Bottlenecks
Working Text 81: The B-RAS Blueprint
Related Heavy Reading Reports:
— Graham Beniston has over 25 years experience in the telecom industry with Marconi (GEC, GPT, and Plessey), where he held a variety of technical, business development, and marketing roles and worked in all narrowband and broadband technologies – most recently as system design authority for triple-play services over DSL networks. His expertise includes IP over ATM, IP VPNs, mobile IP, IP satellite networks, and IP traffic management. He has contributed to Light Reading Webinars and reports on next-generation B-RAS, DSLAMs, and edge routing. Beniston holds an MSc in Data Communications Systems from Loughborough University of Technology and is a member of the Institute of Physics and the IEEE.
What Is an IP DSLAM?
In 2003, Heavy Reading defined an IP DSLAM as one having IP routing capability and other Layer 3 functionality. Limited B-RAS (broadband remote access server) capabilities including PPP (point-to-point protocol) and RFC 1483 termination were also seen as competitive features. (See Next-Generation DSL Equipment: The Path to Profitability.)
But the industry trend to calling any DSLAM with any IP Layer functionality and non-ATM backhaul an IP DSLAM has continued, so we will use this wider description for this project.
This means that we include not only Ethernet DSLAMs with a minimum of IP functionality, but also ATM DSLAMs with minimal or high IP functionality.
This may be contrary to the current perception of IP DSLAMs as being somehow cheaper and having better bandwidth capabilities than ATM DSLAMs. While Ethernet DSLAMs with IP functionality may be cheaper, they are not always denser in terms of number of lines handled and simultaneous bandwidth per line supported.
The main difference between ATM and Ethernet DSLAMs is the interior switching technology. It is quite normal to find ATM DSLAMs with Gigabit Ethernet backhaul capability so that they can compete on capex and opex.
IP DSLAMs can be deployed in the central office (CO) or in remote terminals in the outside plant (OSP). The market and regulatory drivers are making OSP deployment more popular, with environmentally hardened units located in a range of housings, from cabinets to pole mountings or underground enclosures.
In North America, the new trend is to put the IP DSLAM at the serving-area interface (SAI) and limit the subscriber copper drop length to 5,000 feet. CO IP DSLAMs are usually, but not always, housed in large chassis and rack systems. OSP IP DSLAMs are usually smaller and come in a variety of form factors. The defining property of an OSP DSLAM in this study is that it is environmentally hardened for deployment in unconditioned housings.
Why Are They Hot?
Telco TV and video service support
The reason IP DSLAMS are currently hot products is the almost universal decision by operators to deploy TV and video services over DSL. The drivers have been well documented elsewhere.
This decision has major implications for DSLAMs. TV and video streams require much higher bit rates than does general-purpose high-speed Internet access or voice-over-IP services. With each video stream requiring between 1 and 4 Mbit/s, operators are looking to increase the rate of DSL services offered to between 5 and 25 Mbit/s. Since the supportable bit rate of a particular line is dependent on its length, the need to maintain a viable penetration of the market with advanced video services has guaranteed the need to deploy remote DSLAMs in street cabinets. The high bit-rate requirement has also increased the interest in DSL line bonding.
The high-rate video streams will of themselves require higher throughput in the DSLAM. But the potential requirement to decrease normal contention ratios for residential Internet access from around 50:1 to 10:1 or even 1:1 for video-on-demand service puts a much higher importance on the DSLAM throughput.
The need to include broadcast TV in the service set gives an added requirement for multicast support. The minimum support required is IGMP snooping. Higher competitiveness is achieved with a greater IGMP capability, particularly proxy support and, to a lesser extent, multiple version support. For DSLAMs with IP routing capability, IP multicast support is highly desirable. The preferred protocol is PIM-Sparse Mode.
A knock-on effect of the requirement for higher throughput is the cost of B-RAS equipment. There is a growing feeling in operators that putting high bit-rate video services through a centralized B-RAS is not cost effective. One proposed solution, which increases the competitiveness of DSLAMs, is the inclusion in them of a distributed subset of B-RAS capability. As part of this distribution of functionality, at least two alternative architectures are being considered: one with minimal IP functionality at the DSLAM, and one with enhanced IP functionality, including IP routing.
Multiservice access platform (MSAP) requirement
While acknowledging that telco TV is the current white-hot driver for IP DSLAM deployment, there is still a rapidly growing requirement for multiservice support over DSL to increase ARPU, particularly VOIP, including the translation of analogue voice to VOIP at the DSLAM for Class 5 migration.
One implication that does cross over into IP DSLAM competitiveness is the requirement to support QOS handling for multiple services. The minimum requirement is support for IEEE 802.1p prioritization and IEEE 802.1Q VLAN support. Much better is the inclusion of IP DiffServ handling and MPLS traffic engineering.
Since we have decided to undertake a separate comparative analysis of MSAPs, we are going to loosen our definition to attract as many relevant products as possible. So, whereas earlier we stated:“The defining properties of an MSAP are the inclusion of a VOIP media gateway, an FTTx optical line terminal (OLT), and an integrated packet transport for all traffic types,” we shall from now on use the working definition introduced in last year’s Light Reading Webinar, "Multiservice IP in Access Networks”:
“In general the term MSAP can refer to any DSL delivery platform capable of delivering a wide range of services, based on IP, ATM, or TDM technology, over copper or fiber loops."
Still, we expect the features associated with VOIP media gateways and FTTx OLTs to be important in the product comparisons.
MSAPs can be deployed in CO locations or can be hardened for OSP use. This will be shown in the detailed report comparisons, but is not indicated in the product listings.
OSP deployment
We have explained why DSLAM deployment remote from the CO is growing rapidly. The accommodation for these DSLAMs is quite varied, from small spaces in existing cabinets to environmentally controlled huts and vaults.
Which OSP IP DSLAM sizes should we compare? The only standardized sizes appear to be the 1U pizza box or the cut-down 19-inch CO chassis. Are there other mini-IP DSLAM boxes we should take into account? We certainly think that all OSP IP DSLAMs we compare should be environmentally hardened to differentiate them from redeployed CO chassis units.
A proposed list of key features and performance metrics is given in the linked survey below. We believe that all of these features are relevant to MSAPs providing high-density TV and video-over-DSL services in addition to high-speed Internet access.
In order to compare products using these metrics, Heavy Reading will need to give each one a weighting to reflect its relative importance to the average service provider. The poll below gives readers an opportunity to share their opinions on which characteristics are most important – and modify the weightings we use in the Heavy Reading study.
Interactive Poll on Key MSAP Characteristics:
{survey 115}Other features?
If we’ve missed something you consider important please tell us on the message board or email [email protected], citing “MSAP” in the subject field.
A list of key features and performance characteristics was published in the first version of this report and was the subject of a poll enabling readers to share their opinions on which characteristics are most important – and modify the weightings we use in the Heavy Reading study.
These are reproduced below. The poll can still be taken and the results will still be considered in the Heavy Reading study. And Light Reading is still interested in receiving comments on issues that you consider have been glossed over or, conversely, have been given too much attention in this list.
However, Heavy Reading has taken into account earlier comments in preparing the product questionnaire for IP DSLAMs, which can now be downloaded and completed by vendors, by clicking here:
IP DSLAM Questionnaire.
DEADLINE: IP DSLAM vendors have until June 18 to complete and submit the form.
Interactive Poll on Key IP DSLAM Characteristics:
{survey 110}Other features?
If we’ve missed something you consider important please tell us on the message board or email [email protected], citing “IP DSLAM” in the subject field.
Where’s Your Firm? Where’s Your Product?
It’s been hard to track every vendor and product because of the explosion of interest in this product area, especially from startups in Asia and Eastern Europe. So if your firm has a product, and either the firm or the product is not mentioned below, let us know. Again, to be listed in the outside plant (OSP) section requires an environmentally hardened unit.
Table 1: IP DSLAM & MSAP Suppliers
IP DSLAM Central Office | IP DSLAM Outside Plant | Multiservice Access Platform | ||
Adtran | Total Access 1200 | NO | YES | NO |
Alcatel | 7300 ASAM | YES | YES | YES |
Alcatel | 7301 ASAM | YES | YES | YES |
Alcatel | 7302 ISAM | YES | YES | YES |
Alcatel | 7330 ISAM FTTN | YES | YES | YES |
Alcatel | 1540 Litespan | NO | NO | YES |
Allied Telesyn | TN9000 | YES | YES | YES |
Allied Telesyn | TN7000 | YES | YES | YES |
Asotel | Dynamix SmartDSLAM | YES | ||
Astoria Networks | NGNAxs 2000 | YES | NO | YES |
Astoria Networks | NGNAxs 2100 | YES | YES | YES |
Calix | C7 | YES | YES | YES |
C-Com | IPAM-1600 | |||
C-Com | IPAM-2400 | |||
Ciena | CN 1000 | YES | YES | YES |
Coastcom | R632 | YES | NO | NO |
Conklin-Intracom | FlexAccess 9000 | YES | YES | YES |
Conklin-Intracom | FastMux Model 2004 | YES | YES | NO |
Conklin-Intracom | IBAS | YES | NO | YES |
Corecess | 6800 APC/MPC | YES | NO | NO |
Corecess | 7200 | NO | YES | NO |
Critical Telecom | Gemini | NO | YES | NO |
CTC Union | IP DSLAM | |||
ECI Telecom | HI-FOCuS 4 | YES | YES | YES |
ECI Telecom | HiFOCuS MiniRAM | YES | YES | YES |
ECI Telecom | HiFOCuS MiniCAB | NO | YES | YES |
Entrisphere | BLM 1500 | YES | YES | YES |
Ericsson | EDN 312 | YES | YES | NO |
Ericsson | EDA 288 | YES | YES | NO |
Fujitsu Telecom Europe | Geostream Access Gateway | YES | NO | YES |
Harbour Networks | Hammer 10000 | |||
Huawei | SmartAx MA 5100 | YES | NO | YES |
Huawei | SmartAx MA 5300 | YES | NO | YES |
Huawei | SmartAx MA 5600 | YES | NO | |
Integral Access | PurePacketNode | YES | NO | NO |
Iskratel | SI 2000 | YES | YES | YES |
KeyMile | KEYNode | YES | YES | YES |
KeyMile | UMUX | YES | YES | YES |
Loop Telecom | IP 6324 | |||
Loop Telecom | H 3780 | |||
Lucent | Stinger FS+ | YES | NO | YES |
Lucent | Stinger RT | NO | YES | YES |
Lucent | Stinger MRT | NO | YES | YES |
Lucent | Stinger Compact Remote | NO | YES | NO |
Lucent | V-16 | NO | MxU | NO |
Marconi | AXH 2500 | YES | NO | YES |
Marconi | AXH | NO | YES | YES |
Motorola | USAM | YES | NO | NO |
Motorola | USAM SSE 2 | NO | YES | NO |
NEC | AM 31 | YES | NO | YES |
NEC | AM 32 | YES | NO | YES |
NEC | AM 34 | NO | YES | NO |
NEC | AM 35 | NO | YES | NO |
Nokia | D500 | YES | YES | NO |
Occam | BLC 6000 | YES | YES | YES |
PacketFront | IPD 1000 | YES | NO | YES |
Pannaway | BAS | YES | YES | YES |
Paradyne | IPD 12000 IP BLC | YES | NO | YES |
Paradyne | IPD 4000 IP BLC | YES | NO | YES |
Paradyne | 8000 IP/ATM BLC | YES | NO | YES |
Paradyne | 4900 IP | YES | YES | NO |
Paradyne | 4200 IP | YES | YES | NO |
Paradyne | 4800 | YES | NO | NO |
Paradyne | 2600 | YES | NO | NO |
Sagem | 3P@c 4400E | NO | NO | YES |
Sagem | 3P@c 4450E | NO | NO | YES |
Samsung | AceMAP IP DSLAM | YES | NO | NO |
Samsung | AceMAP MS DSLAM | YES | NO | YES |
Siemens | SURPASS HiX 5620 | YES | YES | NO |
Siemens | SURPASS HiX 5630 | YES | YES | NO |
Siemens | SURPASS HiX 5635 | YES | NO | NO |
Siemens | SURPASS HiX 5500 | NO | NO | YES |
TeleData Networks | BroadAccess | NO | NO | YES |
Telindus | Mini DSLAM | NO | ||
Tellabs (AFC) | Telliant 5000 | YES | NO | NO |
Tellabs (AFC) | DMAX 1120 | YES | YES | YES |
Telspec | Telmax | |||
Telstrat | Inteleflex | YES | YES | YES |
UTStarcom | AN-2000 B-1000 | YES | NO | NO |
UTStarcom | UBS 4848-1GE | NO | YES | NO |
UTStarcom | iAN 8000 | NO | NO | YES |
Zhone | Raptor 300 | YES | YES | YES |
Zhone | Raptor 700 | YES | YES | YES |
Zhone | Raptor 100 | NO | YES | NO |
Zhone | MALC | NO | NO | YES |
ZTE | ZXDSL 8200 | YES | NO | YES |
ZTE | ZXDSL 9200 | YES | NO | YES |
ZTE | ZXDSL 9800 | YES | NO | YES |
ZyXEL | IP Express | |||
Other?
If you see that we’ve missed any company or products, please tell us on the message board or email [email protected], citing “IP DSLAM” or "MSAP" in the subject field.
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