Tag Archive for Networking

| June 23, 2015
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2Gbps Coming To Detroit

2Gbps Coming To DetroitNot so long ago, Comcast was leaving Detroit. Now, the embattled cable provider has announced a 2 Gbps fiber-to-the-home (FTTH) campaign in Motown. FierceTelecom reports that Comcast will bring its Gigabit Pro service to about 1.5 million homes in Michigan. The service will be offered to residential customers in Detroit, Flint, Grand Rapids, Jackson, and Lansing. Tim Collins, senior VP of Comcast’s Heartland Region, said in a release that the company’s move into Michigan is designed to address “tech-savvy residents who have a need for even faster speeds.

a need for even faster speedsSimilar to other markets, Detroit customers that live near Comcast’s fiber network will be eligible to get Gigabit Pro service. Comcast technicians will install an optical network terminal and related equipment at the customer’s home for the service. In addition to the metro-Detroit area, Comcast plans to offer the service in Benton Harbor and St. Joseph (as part of the Greater Chicago region).

Options in Detroit

Comcast has not yet disclosed what it will charge Detroiters for the Gigabit Pro offering. The author cites a DSL Reports article where Comcast was planning a $299 per month price tag for the service. That price would make it much more expensive than it competition. Google charge $70 per month for Google Fiber service or AT&T‘s (T) $120 per month charge for its gigabit services. However, it’s unclear if Comcast will adhere to that pricing when it does launch the service.

The article says today, Comcast charges $399.95 a month for its 505 Mbps tier. An Ars Technica report said Comcast’s 2 Gbps service will cost less than that. It also said that all 505 Mbps customers will be upgraded to the new Gigabit Pro service. As the MSO tries to work out pricing, it decided to delay the initial May release of the service in Detroit to a new, undetermined date.

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Let’s be honest, the real hero here is Dan Gilbert and his Rocket Fiber project. As has been the case where Google Fiber has gone in, the other players suddenly show an interest in that market. I predict a win for RocketFiber, because Mr. Gilbert’s people understand customer service and Comcast hates its customers.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| April 30, 2015
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Romania Leads IPv4 Market

Romania Leads IPv4 MarketI first wrote about the grey market in IPv4 addresses when Microsoft (MSFT) bought Nortel‘s IPv4 IP block back in 2011. A  recent article from CircleID proves the market has caught up with Bach Seat. In the CircleID article, Doug Madory, Director of Internet Analysis at Dyn reports that the market for IPv4 addresses is heating up especially in Europe.

RIPE’s IPv4 transfers

According to Dyn, statistics from RIPE, the European registrar, show that the IPv4 market has heated up. RIPE’s table of transfers of provider aggregatable (PA) IPv4 address clearly shows a rapidly increasing rate of transfers of IPv4 address blocks and unique IPv4 addresses.  In fact:

  • increasing rate of transfers of IPv4 address blocksFebruary 2015 saw the most organizational transfers (373).
  • November 2014 saw the most unique address transfers (nearly 2 million).
  • The number of transfers in the RIPE region far outpaces any other region.

Romania is a key player in IPv4

An analysis of the RIPE data by the author finds that Romania is a key player in the IPv4 market.

  • Romania Leads IPv4 MarketDuring 2014/15 1,069 (58%) transfers came from Romanian organizations.
  • 947 (51%) of all the blocks transferred in the RIPE region were from a single Romanian organization, namely, Jump.ro.
  • Jump is willing to sell large blocks of IPv4 address space (around $10/address) or lease smaller blocks for $0.50/address/year.
  • Of the 4,656 routed prefixes that make up the Saudi Arabia part of the Internet, 1,498 or almost a third of them were Romanian just a few months ago.
  • The Syrian state telecom got 5.155.0.0/16 from Romania’s Nav Telecom last August and Iranian telecoms bought over 1 million unique IP addresses in 85 transfers over the past year (80% from Jump.ro).
  • Saudi Telecom received 17 IPv4 transfers since September last year representing over 1.5 million IP addresses: 14 were from Romanian sources and the other 3 were from
  • Ukraine.  At $10/address, those addresses would have cost Saudi Telecom $15 million.

A side-effect of the IPv4 gray market is abetting the growth of global routing tables to dangerous levels. The first effects of this were seen in August 2014 when BGP routing tables grew to over 512,000 routes when many older routers could no longer properly track the routes. ZDNet explains that routes are typically kept in a specialized kind of memory called Tertiary Content Addressable Memory (TCAM) which has a limited capacity which fails when it is full.

The author asks what are the implications of all this? Now that the Romanians have demonstrated that there is a lucrative business to be had in selling off IPv4 address space, will we see ISPs in developing countries rush to sell off their address space for some quick cash?  If such sales result in the IPv4 space getting sliced more and more thinly, we can surely expect the global routing table to increase in size, perhaps dramatically, as a result.

Will this cause more router meltdowns?

 

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| April 28, 2015
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Wi-Fi Marches On

Wi-Fi Marches OnKevin Fitchard at GigaOm lays out where Wi-Fi is headed. Now that the second wave of 802.11ac Wi-Fi equipment is hitting the market, new pans are happening. The Wi-Fi Alliance and the Institute of Electrical and Electronics Engineers (IEEE) have begun to look ahead to 802.11ac successor. This time around, the wireless industry is turning its focus away from overall network capacity to real connection speed to the device.

IEEE logoMr. Fitchard explains that the huge gigabit-plus numbers often attributed to 802.11ac can be a bit misleading. They represent the overall capacity a Wi-Fi network can support. For instance, 1.3 Gbps in today’s most advanced routers, but only in the rarest of circumstances would any single device actually be able to connect at such high rates. The author argues that 802.11ac technologies improvements will be able to pack more high-speed connections into a single router and take advantage of bigger swaths of unlicensed spectrum.

Fair share

However, individual connections are still peaking at just over 300 Mbps. Assuming the broadband connection that can even support those speeds. Typical connection speeds are far slower. 802.11ac channel widthWith 802.11ax, though, wireless engineers are making sure the individual, not just the network, gets its fair share of attention, said Greg Ennis, VP of Technology for the Wi-Fi Alliance.

Wi-Fi Alliance logoThough the IEEE is still in the early stages of developing the 801.11ax specifications (we likely won’t have a ratified standard until at least 2018), it has begun setting priorities for the new technology, the Wi-Fi Alliance’s Ennis said. And at the top of that list is a 4X increase in speed to the device, possibly pushing individual device connections into the gigabit range.

MIMO-OFDA

GigaOm speculates that the IEEE is hoping to do this with a new radio technology called MIMO-OFDA. MIMO, or multiple input-multiple output, uses multiple antennas to send multiple streams of data to the same or different devices, while OFDA is a variant of the orthogonal frequency division multiplexing (OFDM) technologies used in 4G mobile and earlier Wi-Fi standards. The idea is to create a more powerful and efficient radio that can shove more bits into the same transmission. That would create a bigger data pipe to the individual devices, which would, in turn, add up to greater overall network capacity and better Wi-Fi performance even in the sketchiest of conditions, Mr. Ennis said. “The goal here is not just to increase average throughput, but the average throughput users would actually see in the real world, even in the densest environments,” Ennis said.

IEEE 802.11axChinese equipment maker Huawei (002502) — which is heading up the IEEE 802.11ax working group — is already doing trials of MIMO-OFDA systems and it’s hitting 10.53 Gbps in the lab using Wi-Fi’s traditional 5 GHz band. Whether that means a 10 Gbps to your smartphone or tablet remains to be seen, but it hardly seems relevant given it’s difficult to comprehend what any device could possibly do with a 10 Gbps connection (much less a home broadband connection capable of supporting a high-capacity link).

 

IEEE 802.11ah

Faster simultaneous Wi-Fi connections

But if 802.11ax lives up to its promise, the author says it should be able to squeeze a lot more and a lot faster simultaneous connections out of a single router or hotspot, which would mean a far better experience for everyone on a crowded network. Though the IEEE won’t ratify 802.11ax until 2018 or later, we might see the Wi-Fi Alliance certify “draft-ax” devices and equipment beforehand just as we saw “draft-n” and “draft-ac” devices before their respective 802.11 standards were finalized. It all depends on how far the wireless industry has progressed with the underlying technology in the coming years, Ennis said. A range comparison for different Wi-Fi technologies. And long before we see the “ax” suffix stamped onto any gadget or router, other combinations of the Wi-Fi alphabet will make an appearance.

The Alliance will begin certifying the first 802.11ad, or WiGig, devices next year, supporting extremely close range but very high-capacity links between gadgets and peripherals. A bit further down the road is 802.11ah, which will take Wi-Fi to the 900 MHz band where it will provide narrowband but long-range connectivity to the internet of things.

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Techie wireless alphabet  – IEEE, N, AC, AD, AH, AX, MIMO, OFDM, EI, EIO, O!

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| April 16, 2015
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Wi-Fi Charges Up Ethernet

Wi-Fi Charges Up EthernetInformation Technology prognosticators Gartner (IT) predicts that 40% of enterprises will use Wi-Fi as the default connection for mobile and non-mobile devices by 2018 according to Fred Donovan at FierceMobileIT. The prediction says that typically fixed location devices like; desktops, desk phones, projectors, and conference rooms will use Wi-Fi as their primary connection replacing Ethernet.

Wi-FI logoGartner says Wi-Fi is facilitating BYOD. The enterprise Wi-Fi network now allows workers to choose any device and move anywhere in the workplace. Gartner argues that the introduction of security measures like 802.1X augmented with Advanced Encryption Standard (AES) encryption has lessened IT’s worry about security breaches involving the Wi-Fi infrastructure. Ken Dulaney, V.P. and distinguished analyst at Gartner said;

Ethernet cabling has been the mainstay of business workspace connectivity since the beginning of networking. However, as smartphones, laptops, tablets, and other consumer devices have multiplied, the consumer space has largely converted to a wireless-first world

Facilitating BYOD

As the first connection to the enterprise infrastructure, Wi-Fi brings workers the ability to choose any device and move anywhere without worry. VP Dulaney continued;

WI-FI certifiedAs bring your own device (BYOD) has increased in many organizations, the collision of the business and consumer worlds has changed workers’ demands

Furthermore, cabling systems or even peer-to-peer (P2P) wireless solutions using technologies that offer cable replacement have had to deal with a variety of connectors challenges, such as USB and micro-USB, as video systems move beyond Video Graphics Array (VGA). The market research firm also argues that MACD costs will decrease.

MACD costsAdditions, moves, and changes are costly inconveniences that waste time for enterprise IT organizations. A move can sometimes involve cabling changes that can cost as much as $1,000 … With Wi-Fi printers, desktops, and other devices, all that is required is a cable to the power source, leaving workers free to move themselves making reconfigurations of offices easier.

Because of the many benefits of Wi-FI, Gartner VP Dulaney predicts firms are going to change how they connect;

we expect many organizations to shift to a wireless-by-default and a wired-by-exception model.

New Ethernet specifications

In order to deal with the new wireless-by-default reality, changes are needed on the wired network.  at FierceCIO reports that the vendor community is working to address the Wi-Fi first world. Unfortunately, there are two industry groups pushing their own new Ethernet specifications. Mr. Mah says that new Ethernet standards are needed to work with Wave 2 of 802.11ac wireless access points (AP) with a theoretical maximum throughput of up to 3.5Gbps.

NCaptain Ethernetew standards are needed because the existing Gigabit Ethernet is a bottleneck and current alternatives are not attractive. First, link-aggregating two Gigabit Ethernet connections for each Wi-Fi AP would need additional cabling and more expensive managed switches to support it. Using 10GbE would be overkill. Upgrading to 10GbE is a significant investment that includes new Category 6a or Category 7 cables, more power, and more cabling.

One faction, the MGBase-T Alliance, was formed in June 2014 and includes; Avaya, Aruba Networks (ARUN), and Brocade (BRCD) as well as component vendors Broadcom (BRCM) and Freescale Semiconductor. The other group known as the NBase-T Alliance was formed in October 2014. This faction consists of Cisco (CSCO), Intel, Xilinx (XLNX), Freescale, and Aquantia, a company that’s already making 2.5G/5G components.

Little agreement on standards

At the moment, the only agreement between the two factions is that 2.5Gbps and 5Gbps speeds are needed. The IEEE 802 LAN/MAN Standards Committee has set up the P802.3bz 2.5/5GBase-T Task Force to address this issue. The 2015 Q1 CommScope Standards Advisor reports that the 802.3bz Ethernet cablescommittee has decided so far that:

  • 2.5 GBase-T option will run on Cat 5e (Class D) 4 pair UTP up to 100M, and
  • 5 GBase-T option will run on Cat 6 (Class E) 4 pair UTP up to 100M.
  • There is no release date yet

The concern, however, is that vendors could jump the gun by shipping pre-standard products ahead of standards rectification, complicating matters and slowing down the development of the pertinent standards.

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Remember 802.11n? Pre-standard products? Given that there is no guarantee that systems built with components from the two groups will work together. Don’t jump the gun – waiting for the standard to solidify before buying into new 2.5G/5G Ethernet networking hardware.

For now, Dell’Oro Group analyst Alan Weckel told FierceCIO is that enterprises will probably be able to buy 2.5G/5G equipment starting in Q2 of 2015. 

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| April 14, 2015
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IPv6 is 20 Years Old

IPv6 is 20 Years OldNetworking’s little brother is growing up. IPv6 turned 20 is years old this month. The IETF IPv6 Operations groups’ mailing list noted that the first independent IPv6 connection was established between sipper.pa-x.dec.com and ottawa.inria.fr in 1995.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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