Tag Archive for 5G

| September 18, 2020
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Under Water Data Center Resurfaces

Under Water Data Center Resurfaces– Updated – 07/07/2024 – Microsoft has discontinued its efforts to build a data center on  the sea floor. “I’m not building subsea data centers anywhere in the world,” Noelle Walsh, the head of Microsoft’s Cloud Operations and Innovation division, told DatacenterDynamics.

Two years ago, Microsoft sank a data center half a mile off Scotland’s Orkney Islands under 117 feet of North Sea water. Earlier this week, they dredged the shipping container-size data center of 864 servers and 27.6 petabytes of storage back to the surface. Now that it has resurfacedMicrosoft (MSFT) researchers are studying how it survived its trip into Davy Jone’s locker and the trip can tell us about land-loving data centers.

Lower failure rate

Microsoft logoTheir first conclusion is that the cylinder with servers packed in like sardines had a lower failure rate than a conventional data center. Only eight out of the 855 servers on board had failed. Ben Cutler, a project manager in Microsoft’s Special Projects research group who leads Project Natick, said in a presser,

Our failure rate in the water is one-eighth of what we see on land.

The MSFT team is speculating that the greater reliability may be connected to the fact that there were no humans on board.  Microsoft’s John Roach explained:

people bump and jostle components,The team hypothesizes that the atmosphere of nitrogen, which is less corrosive than oxygen, and the absence of people to bump and jostle components, are the primary reasons for the difference. If the analysis proves this correct, the team may be able to translate the findings to land data centers.”They believe that land-loving data centers often run into issues like corrosion from oxygen, humidity and temperature fluctuations. and bumps and jostles from people who replace broken components.

Microsoft "Northern Isles"

Alternate power sources for data centers

Project Natick is also about addressing the huge energy demands of data centers as more and more of our data is stored in the cloud. All of Orkney’s electricity comes from alternate power sources, wind and solar power, which was not a problem for the underwater data center “Northern Isles.” Spencer Fowers, Microsoft’s Special Projects research group principal member of technical staff,

We have been able to run really well on what most land-based data centers consider an unreliable grid.

Not only can data centers run on alternative power, but they may not need the huge investment in dedicated buildings, rooms of batteries, and racks of UPS’s. Microsoft’s Fowers speculates;

We are hopeful that we can look at our findings and say maybe we don’t need to have quite as much infrastructure focused on power and reliability.

Underwater data center availability

Microsoft has clammed up about the availability of an underwater data center SKU, but MSFT’s Cutler is confident that it has proved the idea has value;

We think that we’re past the point where this is a science experiment … Now it’s simply a question of what do we want to engineer – would it be a little one, or would it be a large one?

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The drive to autonomous vehicles is just one case that explains MSFT’s idea of micro-self-contained data centers vs. mega-data centers. Even with 5G –  computing power will have to move closer to the user, to the edge of the network. How much latency do you want as your autonomous Tesla, traveling 70 MPH tries to figure out where it is?

Stay safe out there!

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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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| June 19, 2020
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5G in the D

5G in the DDuring the COVID-19 lockdowns work from home saw a 34% growth. Gartner reports that in the post-COVID “new normal” (whenever that is) era 74% of businesses will move some of their previously on-site workforce to permanently remote positions. These signals problems for many Detroiters who live in one of America’s worst connected areas.

Verizon 5gVerizon may be one part of Detroit moving forward in the “new normal.” FireceWirless is reporting that Verizon (VZ) is now offering its fixed wireless access (FWA) 5G Home Internet service in the D. The telco will offer the 5G Ultra-Wideband Network in the following areas: Detroit, Dearborn, Livonia, and Troy.

Detroit
Dearborn
Livonia
Troy

The Detroit 5G Home service will use millimeter wave (mmWave) spectrum and is expected to deliver speeds of about 300 Mbps. There are several factors that affect the speed of 5G networks. Notably, the more people that are connected to a network, the slower speeds will be. Not only that, but your distance to a 5G node may impact speeds too. It also uses the same network the operator is building for mobile 5G which means the FWA product is dependent on mobile 5G being available in your area.  

5G fixed wireless access

Verizon is working on higher-powered customer premises equipment for 5G Home that’s expected to expand the coverage area supported by the fixed wireless service. But the improved CPE is not part of the initial 5G Home rollout in Motown.

5G small cell site

Detroiters will get a new “enhanced” form of the product which uses industry standard 5G-NR transmission standard that, among others things, supports a customer self-install model (cost savings for VZ). Detroiters signing up for 5G Home will get the new router. The router supports the Wi-Fi 6 standard, promising peak speeds up to 1 Gbps and allowing multiple devices to run at the same time. It also features Amazon Alexa built-in, so customers can control their smart home devices and ask questions, hands-free.

5G Home service perks

The no-contract 5G Home service starts at $50 per month for Verizon customers and $70 per month for everybody else. The operator is sweetening the deal with an offer of no cost content options to get customers to sign up. Among the perks being used to entice consumers to 5G Home, Verizon is offering:

  • One month of YouTube TV,
  •  One year of Disney+
  • Three months of Google Stadia (Google’s new cloud gaming service).

New customers can also get a free Stream TV device. The device is an Android TV-based, 4K-capable streaming product from Verizon. The device is also integrated with the Google Assistant platform and Chromecast “built-in,” which enables users to cast video from the smartphone to the TV screen. The Stream TV device gets subscribers access to a library of OTT channels, apps, and entertainment, including Netflix and Amazon Prime.

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Verizon has said it plans to expand 5G Home Internet to have coverage for 30 million households. Verizon predicts that by 2035, 5G will enable more than $12 trillion in global economic revenue, and support 22 million jobs worldwide driven by the digitalization of industries such as transportation, agriculture, and manufacturing.

Not everyone is convinced that these new attempts at delivering fixed wireless broadband will be a success. Lynnette Luna, principal analyst with GlobalData, told FierceWireless that Verizon needs to provide some clarity on its strategy. “They don’t want to deploy it in places with a lot of broadband competition so they look for markets where they have an advantage but I don’t understand their formula.” 

However, she added that she thinks it’s smart for Verizon to bundle the service with other things. In particular, the demo access to Google Stadia because it showcases one of 5G’s key use cases — cloud gaming.

Stay safe out there!

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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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| February 6, 2020
Comments Off on VMware Had a Bad Week

VMware Had a Bad Week

VMware Had a Bad WeekVMware (VMW) had a bad week last week. First, a  jury in the U.S. federal district court for the District of Delaware ruled that the virtualization giant infringed on two patents owned by Densify. Densify is a Toronto-based startup that makes cloud and container resource management software. The ruling will cost VMware about $237 million dollars. Of course, VMware will appeal.

VMware logoIn an emailed statement, to sdxcentral VMware wrote, “VMware intend[s] to vigorously pursue all legal remedies that are available to us to prove that we are not liable here.

Next, it was announced that over 200 VMware employees will lose their jobs as part of a “workforce rebalancing.” TargetTech noted that IBM has historically used the same term to describe its periodic layoffs.

In addition to workers losing their jobs, the VMware executive suite has undergone purging too. Reports are that

  • VMware Executative layoffsChief Customer Officer Scott Bajtos, an 11-year VMware veteran who oversaw VMware’s global services team which includes customer success, technical support, professional services support, and customer advocacy.
  • Mark Ritacco, VP of operations and customer intelligence, after almost 11 years,
  • Kate Woodcock, VP of customer advocacy, after almost eight years.
  • Scott Bajtos – global chief customer officer, is leaving after 11 years.
  • Alexa Erjavic, senior director of global services strategy.

VMware acquisitions

Could it be buyer’s regret? Not even cutting a handful of executive salaries can cover the billions VMware has spent on acquisitions over the past 2 years.

In 2018 VMware bought:

  • billions VMware has spent on acquisitionsE8 Security for machine learning (ML) and Artificial Intelligence (AI) for cybersecurity intelligence and analytics.
  • CloudCoreo to manage cloud configurations and identify risks when deploying public clouds to prevent breaches and compliance violations.
  • EMC Service Assurance Suite for monitoring telco network health, performance, and root cause analysis.
  • CloudHeath for multi-cloud management platform across Amazon Web Services (AWS), Microsoft Azure and Google Cloud Platform (GCP) for $500 million.
  • Heptio VMware plans to use Heptio assets to enhance Kubernetes life-cycle management $550 million.

In 2019 VMware bought:

  • VMwareacquisitions over the past 2 yearsAetherPal for remote IT support software to remotely view, control, troubleshoot, and fix devices and applications.
  • BitFusion to support Artificial Intelligence and machine learning-based workloads on graphics processor units (GPUs) (no acquisition price announced).
  • Uhana for 5G mobile network optimization.
  • Intrinsic for secure serverless functions on AWS, Azure, and GCP.
  • Bitnami brings simplified app development with a curated marketplace for VMware customers.
  • Veriflow for network monitoring software for multi-cloud management.
  • Avi Networks for multi-cloud application delivery to enhance performance, resource utilization, automation, and scalability.
  • Pivotal for multi-cloud application software strategy across AWS, Azure & GCP for $2.7 billion. and;
  • Carbon Black to provide an enterprise-grade security platform to protect workloads, applications and networks from device to cloud for $2.1 billion.

Already in 2020 VMware bought:

  • Nyansa to provide network traffic analytics that covers the SD-WAN and the wired and wireless LAN.

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While the hyper-scale cloud vendors AWS, Azure, GCP, and the Chinese giants battling it out for cloud supremacy. Most enterprises have adopted a multi-cloud strategy. VMware is in the incumbent position as it competes with IBM, maybe Cisco, and HPE to be the glue that binds private and public clouds as well as owned data centers into an enterprise multi-cloud strategy. This is a long-term play.

In the near term – all of the acquisitions since 2018, VMware does not have a lot to show for it financially. VWM has been basically flat. VMW spiked to $150.00 in January 2018, hit a peak of $203.64 in, 2019 and has settled back to $157.50 in February 2020.

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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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| June 7, 2019
Comments Off on What is 5G ?

What is 5G ?

What is 5G ?Updated 07/16/2019 – Qualcomm released the Snapdragon 855 Plus. It features a Kryo 486 CPU Prime core with a clock speed of 2.96 GHz and a 15% faster Adreno 640 GPU. Qualcomm claimed in a presser, the 855 Plus would deliver better coverage and all-day battery life in 5G devices.

AT&T (T), Verizon (VZ), Sprint (S), and other carriers are hyping 5G. But what exactly is 5G? If you believe the hype, it is the greatest thing since sliced bread. 5G will improve our homes, make our cities safer, our machines smarter, our cars driverless, our entertainment mobile and our phones faster. So what is the tech behind the hype?

When 5G really gets here will bring three improvements to current wireless: greater speed, lower latency, and more connections.  The real advantages of 5G will come in massive capacity and lower latency. The standards bodies involved are aiming at 20Gbps speeds and 1ms latency.

Work on 5G started 10-15 years before anything went commercial. Marcus Weldon, CTO, and president of Nokia Bell Labs told FierceWireless. Finally, in 2017, the 3rd Generation Partnership Project, the standards body that writes the rules for wireless connectivity, agreed on the first specification for 5G. The Non-Standalone Specification of 5G New Radio standard covers 600 and 700 MHz bands and the 50 GHz millimeter-wave end of the spectrum. But, as followers of the Bach Seat know, a standard doesn’t mean that it will work the same, or what applications it will enable.

The G in this 5G means it's a generation of wireless technologyThe G in this 5G means it’s a generation of wireless technology. PC Magazine says, most wireless generations have technically been defined by their data transmission speeds, each has also been marked by a break in encoding methods, or “air interfaces,” that make it incompatible with the previous generation. The earlier G’s were:

  • 1G was analog cellular.
  • 2G technologies, such as CDMA, GSM, and TDMA, were launched in 1991 the first generation of digital cellular technologies without much concern for data transmission or the mobile Web.
  • 3G technologies, such as EVDO, HSPA, and UMTS, brought speeds from 200kbps to a few megabits per second. It focused on applications in voice telephony, mobile Internet, video calls, and mobile TV.
  • 4G technologies, such as WiMAX and LTE, were the next incompatible leap forward, and they are now scaling up to hundreds of megabits and even gigabit-level speeds. 4G was designed to better support IP telephony, video conferencing, and cloud computing, as well as video streaming and online gaming.

The actual 5G radio system, known as 5G-NR, isn’t compatible with 4G. But for the foreseeable future, all US 5G devices will need 4G to set up 5G connections where it’s available. That’s technically known as a non-standalone,” or NSA, network. Later 5G networks will become “standalone,” or SA, not requiring 4G coverage to work.

Like other cellular networks, 5G networks use a system of cell sites that divide their territory into sectors and send encoded data through radio waves according to PCMag. Each cell site requires a network backbone connection, whether through a wired or wireless backhaul connection. 5G networks use a type of encoding called OFDM.

5G is designed to carry higher speeds by using much larger channels than 4G. While most 4G channels are 20MHz, bonded together into up to 160MHz at a time, 5G channels can be up to 100MHz, with Verizon using as much as 800MHz at a time. That’s a much broader highway, but it also requires larger, clear blocks of airwaves than were available for 4G. PCMag cites Qualcomm (QCOM) claims that 5G will be able to boost capacity by four times over current systems by leveraging wider bandwidths and advanced antenna technologies.

5G primarily runs in two kinds of airwaves: below and above 6GHz. Low-frequency 5G networks, which use existing cellular and Wi-Fi bands, take advantage of more flexible encoding and bigger channel sizes to achieve speeds 25 to 50 percent better than LTE, according to a presentation by T-Mobile (TMUS) exec Karri Kuoppamaki.

Those networks can cover the same distances as existing cellular networks and generally won’t need more cell sites.  Rural networks will likely be stuck with low-band 5G, because low-frequency bands have a great range from cell towers.

To get super-high, multi-gigabit speeds, carriers are turning to newer, much higher frequencies, known as millimeter wave (mmWave). In the existing cellular bands, only relatively narrow channels are available because that spectrum is so busy and heavily used. But up at 28GHz and 39GHz, there are big, broad swathes of spectrum available to create big channels for very high speeds.

The 28GHz and 39GHz bands have previously only been used for backhaul. But they haven’t been used for consumer devices before, because the handheld processing power and miniaturized antennas weren’t available. Millimeter wave signals also drop off faster with distance than lower-frequencies, and the massive amount of data they transfer will need more connections to landline internet. So cellular providers will have to use many smaller, lower-power base stations rather than fewer, more powerful macrocells to offer the multi-gigabit speeds that millimeter wave networks promise.

There’s a third set of 5G airwaves being used overseas. These frequencies, ranging from 3.5GHz to 7GHz. These are slightly above current cellular bands but have quantities of the spectrum (speed) that approaches mmWave. The US is falling behind other countries in the mid-band spectrum because over here, it’s being used for satellite communications and the Navy.

Bell Labs’ Weldon, described his idea of a true 5G network for FierceWireless;

you need a low band that gives you nationwide coverage—higher efficiency on it; a mid-band for high-capacity, relatively locally; and millimeter-wave for super high-capacity, extremely locally, and if you blend all those together, you’ve got a network that really is significant.

Some believe that mmWave 5G will not work. T-Mobile CTO Neville Ray wrote that millimeter-wave won’t be able to deliver on the promise of 5G because it doesn’t travel far. Jeffrey Moore, principal analyst at Wave7 Research told FierceWireless. “…there are definitely some concerns about the economics of 5G.”

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5G is an investment for the next decade. It is unlikely that the next big application will drop in 5G until 2021 or 2022. It is likely that a true 5G iPhone won’t appear until later 2020 and Qualcomm will not release its second-generation Snapdragon X55 5G modem until late 2019. The new chip will support all major spectrum types and bands. Qualcomm claims it is capable of 7Gbps downloads. Until then, the wireless carriers will jockey for customers and mind share.

The providers desperately need 5G to boost smartphone sales. The smartphone market is saturated. Deloitte found (PDF) that 80% of people in developed nations now own a smartphone and wait up to 4 years to replace their device – a significant increase from the 2-year refresh rate in 2011-12.

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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 21, 2019
Comments Off on Will 5G Save Broadband Over Power Line?

Will 5G Save Broadband Over Power Line?

Will 5G Save Broadband Over Power Lines?5G could resurrect broadband over powerline (BPL). At least that is the hope of AT&T (T). For those who don’t remember the heady rise of BPL, it grew out of an attempt to use the existing electrical grid to deliver broadband everywhere without having to build infrastructure anywhere. A few broadband over power line systems with paying customers got off the ground but they were all gone by the end of 2010.

ATT logoAT&T started testing BPL renamed Project AirGig in 2016. And now in 2019 FierceWireless is reporting AT&T is planning more trials of AirGig that will involve 5G. The telecom behemoth is also working with vendors and technology partners to build commercial-grade 5G equipment for those trials.

Hank Kafka, vice president of access architecture and standards at AT&T, told FierceWireless the company isn’t ready to offer details but said Project AirGig is making progress and it will be a very complementary technology to 5G. He told the author that “5G is very high on that list.”

Specifically, AirGig could be used to extend 5G millimeter wave (mmWave) signals beyond their current range. The article says AT&T has launched a mobile 5G service in 19 markets so far using mmWave spectrum, but using that spectrum has drawbacks because it has a limited range compared to lower spectrum bands.

Air5G small cellGig technology includes a radio distributed antenna system (RDAS) and mmWave surface wave launcher. The RDAS reconstructs signals for multigigabit mobile and fixed deployments. The mmWave surface wave launchers can power themselves using inductive power devices without an electrical connection. These devices then create a high-speed signal that travels along or near the wire, providing a broadband connection.

I covered AT&T’s 2018 AirGig trial here. In that trial with Georgia Power Company, the telco used LTE as the transport technology.  Mr. Kafka explained that in 2018 suitable 5G equipment was not available. “At the time of the trial 5G equipment was large and bulky,” he said. Now that 5G is commercially deployed in some markets AT&T is working with vendors to get the right type of gear for the new trials.

Not only could AirGig potentially extend the reach of 5G, but it could also be used as a backhaul technology. “If you set up an architecture where AirGig is connecting to 5G radios, it is acting like backhaul … And you can get gigabit speeds and beyond.”

5G backhaulHe also said that commercialized AirGig would be a good fit for small cells because of the way it is architected. In other words, a wireless signal could travel down the power line and handoff to small cells or be used to backhaul wireless traffic from small cells. This could be profitable for carriers who are getting resistance from municipalities over the siting of their small cells for 5G. AirGig might allow small cells to be co-located with utility infrastructure.

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Apparently, AT&T doesn’t have plans to commercially deploy AirGig in the near term, but it has rolled out 5G service in 19 U.S. cities that could benefit from the goals of the BPL AirGig experiment including:

  • CA: Los Angeles, San Diego, San Francisco, San Jose
  • 5G cell phone userFL: Jacksonville, Orlando
  • GA: Atlanta
  • IN: Indianapolis
  • KY: Louisville
  • LA: New Orleans
  • NC: Charlotte, Raleigh
  • OK: Oklahoma City
  • TN: Nashville
  • TX: Austin, Dallas, Houston, San Antonio, Waco

Maybe AirGig is on the slow track because there aren’t any smartphones that can use it yet. The Verge points out that AT&T’s only available true 5G device is a mobile hotspot that can’t be purchased in stores.

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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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