Xelerated Xpress

ADSL Is Losing to Fiber

I read a very interesting article in Computer Sweden which presents the latest broadband statistics for the Swedish market. Fiber-based broadband access is growing,  and copper-based ADSL is losing market share.  Fiber is not only growing faster, but now, for the first time, the number of ADSL subscriptions are actually declining. Also, more people are using IP telephony than POTS – however both are losing to cellular phone services.

Yet another statistical proof point that copper-based services are on a downhill slope. The pace of change to fiber seems to be faster than many of us have expected.

by Thomas Eklund on Nov. 27th, 2009

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Time to Clarify Service Density

This industry struggles with a communication issue. One of the most important aspects of network processing – service density – lacks a common definition, and because of this, there is no widely accepted way to measure it.

The density of processing resources, here illustrated by a part of the single pipeline of processor cores and engine access points featured in the Dataflow Architecture, defines how much services a chip can support.

We all know how to measure link bandwidth; we do this in Gigabits per second (Gbps). Likewise, we have a common understanding of how to measure the raw performance of packet processing; Megapackets per second (Mpps). But we don’t fully agree on how to measure the capabilities of parsing, classification and modification – important tasks which are performed by the network processor (NPU).

Over what is now a few generations of NPU development at Xelerated, it is fair to say we spend a large part of our system engineering on increasing service density. The first generation of NPUs, the X10q family, was initially released in 2002. It was a 40 Gbps NPU with 40-100 Mpps, depending on type. In the next generation, the X11 Family of NPUs, the greatest achievement was (yes, you are correct!), increases in service density.   (Okay, some people may argue that the integration of more interface types and GE MACs was key to the success. But I still think  the list of services and features the X11 performs – in parallel and in wirespeed – must be one of the greatest achievements in the industry at the time).

Now moving to the third generation, the HX family of NPUs. This is a 100 Gbps and 150 Mpps NPU family, which is significantly more than the X11, sure. But again, we make a giant leap forward in terms of service density. This means more instructions per packet and more lookup bandwidth per packet type. The result is that more services can be delivered in a single chip.

For the system vendors, making the correct assumptions on service density is one of the most strategic tasks for product management. There are many cases where the HX device consolidates three to four ingress and egress processing chips (be it custom ASICs or merchant NPUs) into one. It impacts COGS, margins, and in the end, the whole business case for the product.

The lack of a commonly accepted definition of service density makes the dialog between silicon and system vendors unnecessary blurred and full of misunderstanding.

So let us start the job of defining the term. I do not have a perfect answer to this. As can be seen at the Xelerated product pages, we measure service density only by comparing the capabilities of the different devices within the same family. As we lack a more general definition, we could not measure service density across product families. Yet.

The definition should take both the number of operations per packet and the classification of resources per packet into account. And another component also needs to be added to the equation: the packet processing needs to be achieved at wirespeed for a specified link rate. Without a hard performance target in terms of Mpps, the whole discussion just falls short. So let’s get the discussion rolling… for the evolving services in the metro space, next generation platforms will be dependent on this definition.

by Per Lembre on Nov. 24th, 2009

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Observations at the Linley Data Center Seminar

I attended Linley Group’s data center seminar this Tuesday to learn more about the latest data center trends.  Xelerated’s Anders Wirkestrand presented on the Network Processor Unit’s (NPU) role in data centers as a key catalyst for virtualization.

One key observation is that an NPU has an enormous amount of service density and could, when used together with a multicore processor, increase the overall performance and transaction rate while lowering the power significantly. The number of instructions per packet is 23 times (yes, you read that correctly!) over a state-of-the-art Intel Core 2 Extreme QX9770 multicore processor. Combining the strength of a state-of-the-art multicore processor and an Xelerated NPU can dramatically improve the overall solution.

It is interesting to see that the data center server players are adding switching functionality, and at the same time, the router and switch vendors are adding server functionality. They end up competing with each other. When the switch becomes a server, and the server becomes a switch, it opens up for a period of strong innovations.  Which architecture model will prevail in the future?

by Thomas Eklund on Nov. 13th, 2009

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Technology Recycling

It is funny to see how many good ideas come at the wrong time, but can later be recycled when the timing is right. As we all know, predicting the timing of a technology isn’t the easiest.

Look at the famous God Boxes that everyone thought were dead. Today it is the hottest new architecture in Transport and it’s called P-OTS  (hmm, I can’t think of a worse name for a plain old telephone system –  sorry packet optical transport system).

Another famous old technology – thin clients.  But, now what does cloud computing enable?  That’s right – thin clients. As we enter the “Google world of Internet” more and more applications will reside in the cloud – enabled by high speed access networks and virtualization in the data centers.

IP as a bearer of data in radio access network ten years ago was interesting from a technology point of view but never gained any traction with the carriers. Today on the other hand, you see everyone launching new IP or Ethernet-based Radio Access Equipment to carry mobile data.

So whats next – IPv6?

by Thomas Eklund on Nov. 10th, 2009

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Fixing the Mobile Backhaul Flat Tire

It looks like Carrier Ethernet in mobile backhaul is generating a lot of debate at networking seminars and shows these days.  More precisely, the debate is centered around packet-based flexible and reliable synchronization solutions.

At this week’s  Ethernet Expo, Light Reading’s Craig Matsumoto, noted mobile operators are not yet confident about the solutions. PTP and Synchronous Ethernet are new technologies, and therefore there is limited experience and know how on how to operate these technologies. But if we don’t fix it, we will remain dependent on other means of delivering synchronization to the base stations, typically by keeping legacy E1/T1/J1 to each site. And being dependent on legacy technology to roll-out the latest and greatest technology is a pretty strong limitation. As Matsumoto puts it:

“It is like having a nearly-flat tire on your car. You can drive that way. But you be best advised to fix it right away.”

At Xelerated we don’t like flat tires. This week, we announced our Precision Time Solution, which you can read about here at Converge Network Digest. Given the amount of interest among our customers, I’m confident that this problem will be fixed in next-generation Carrier Ethernet platforms.

So service providers, expect to have fresh tires when taking the next corner. No need to ease the gas pedal!

by Per Lembre on Nov. 9th, 2009

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Sweet Chips

Xelerated’s HX family of network processors is fast and feature rich, we all know that. Today, we may add that they are, indeed, sweet.

Tempted to try out the chocolate chip version? Stop by the marketing department in Stockholm, or visit the career fair Armada, where Xelerated will be exhibiting November 17-18.

by Per Lembre on Nov. 9th, 2009

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It is All-Ethernet

Follow Ethernet and you will be guaranteed a low cost and robust solution for your network. If the buzzword was All-IP a few years back, it is definitely All-Ethernet these days (and yes, you can still run MPLS and IP over it).

We are now witnessing how Carrier Ethernet is extending into access networks. It is becoming a key technology for unifying EPON, GPON, Active Ethernet, Microwave, and Mobile Backhaul. In parallel, it is emerging as a peering technology in the Core.

Xelerated has been pioneering the Carrier Ethernet technology, contributing with a number of industry firsts.  We believe in Ethernet. It is a superior technology from the access to the core, and nowadays it is not a question of if and how, rather when (can you deliver it) and how (much).

The potential in Carrier Ethernet is recognized by most service providers around the world. AT&T’s position is shared in a recent Light Reading article.  Margaret Chiosi, executive director of Optics & Ethernet Service Development for AT&T Research Labs makes a strong point of using ‘Carrier Ethernet everywhere.’ It is a matter of driving down CAPEX and OPEX, while riding the bandwidth wave. But she also brings up an interesting caveat; “The challenge now is to make Ethernet services available at more locations with more customer choices.” I could not agree more.

Taking AT&T’s statement serious, it has some hard implications to Carrier Ethernet platforms.  As services and standards keep evolving, every platform in the network should be programmable. This enables customized services and tailor made services over time.

When the network becomes All-Ethernet, it better be programmable.

by Thomas Eklund on Nov. 8th, 2009

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The Net Neutrality Debate is Only Half

Having spent time both in the U.S. and in Europe, I believe the U.S. focused net neutrality debate tends to miss an important point. Net neutrality and open-based access models are interlinked. In the U.S., the debate centers around how to ensure equal and transparent treatment of services by the access providers. In Europe, the regulatory discussion is focused more on how the access player’s competition can be ensured in the long run.

Today EU is endorsing an open-based access model in an attempt to get more “fair” access to the local loop and Central Office spaces typically owned by the incumbent local exchange carrier (ILEC).  The idea is to avoid the problem experienced in the copper-based world with a monopoly organization owning a key public infrastructure resource, and thereby defining the rules for competition with implications both on network services, prices and pace of service innovations. Without sound regulations, alternate multiplay service providers, CLECs, utilities companies, and municipalities would have been effectively locked out to offer broadband services on competitive grounds.

The U.S. is a country where free trade and strong competition are well recognized. The way the regulatory discussion in the U.S. is moving forward, it is limited to content and service transparency and equal treatment. The goal is to limit service providers’ freedom to filter and downgrade user experiences on applications like Peer-to-Peer download. This is an important dimension but I think ultimately customers will leave if the services beeing offered have too poor quality. That is, if there are competitive players around for the consumers to select from. In competitive markets, access service providers who have tried to downgrade user experiences on specific network services have faced strong churn and the brands have taken serious hits in the media as well.

To be effective, broadband stimulus should couple net neutrality with defined rules for open-based access. There are many real world cases where this model has successfully stimulated sound competition.  If done right, competition will be healthy both on services being offered and for the access to the local loop and Central Office space footprint. This drives down price and increases the pace of innovation, pushing vendors and service providers alike to bring better technologies and services to market, all to the benefit of the consumer.

While the debates and the strengths of the different players vary between the U.S. and the European Union, both continents face similar challenges, and can learn from each other. Now is a good time to push for open-based access models and net neutrality. Broadband stimulus may add the necessary extra incentive to increase competition and avoid the new fiber access infrastructures currently being deployed from being locked into monopolies.

by Thomas Eklund on Nov. 5th, 2009

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Ethernet as a Peering Technology

In recent developments of Metro Ethernet Forum’s MEF23, the industry has been working on standardizing Carrier Ethernet to be used as a core peering technology, complementing today’s IP/MPLS peering model. This is an interesting extension and development into the core market. So why is this needed?

There are limitations to today’s IP/MPLS peering, both commercial and technical, however when looking at the broader context, I believe the main driver for using Ethernet as a peering technology comes down to cost. Historically, the success of Ethernet has been dependent on its ability to scale and reduce cost. Ideally, the MEF 23 standard – which will make it easier to scale Carrier Ethernet services globally – will provide a common framework for operators to interconnect Ethernet services with other operators, helping to improve the reach of those services.

The ENNI global interconnect* looks promising and could offer more robust monitoring of the peering points with Service OAM, faster fail-over-times and high availability at a lower cost for the carriers.

In addition, the use of  multipoint configurations and multi-homing scenarios will drive new feature enhancements to the data plane. Carrier Ethernet systems based on programmable devices, such as Xelerated’s chipsets, can add features to the data plane as they mature. The evolving Ethernet peering technology is another proof point for the benefit of programmability.

Ethernet peering is likely to be one of the next hot areas for the networking industry. At Xelerated, we will not only be watching this closely, but actively contribute to its success. Stay tuned for more updates.

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*ENNI is short for Ethernet Network to Network Interface, and defines a common set of rules for interchanging Ethernet services between service provider domains.

by Thomas Eklund on Nov. 4th, 2009

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