Tag Archive for IEEE

| March 25, 2017
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Limes in Your Data Center

Limes in Your Data CenterTimes are changing in the data center. For decades data centers were wired with orange multi-mode fiber optic cable. MMF is the choice for the data center connections because it is smaller and faster than copper and cheaper and more forgiving than single-mode fiber optic cables typically used for long-haul transmissions. The orange flavor of MMF was pulled into data centers to deploy Gigabit Ethernet.

multi-mode fiber optic cableThis type of MMF would work with links up to 600 meters. MMF uses the 850 nm and 1300 nm wavelength to transmit data. The typical MMF is 62.5/125 µm which means it has a core size of 62.5 micrometers (µm) and a cladding diameter of 125 µm, OM1 (“OM” stands for optical multi-mode). The second generation of MMF is 50/125 µm (OM2). These cables used LED transmitters. Newer installations often used laser-optimized 50/125 µm multi-mode fiber (OM3). MMF that meets this designation has enough bandwidth to support 10 Gigabit Ethernet (GigE) up to 300 meters.

10 GigE is a great technology, but many organizations have outgrown it. New variants of Ethernet can reach speeds of 25 Gbps, 40 Gbps, 100 Gbps, and soon, up to 800 GigE is needed to keep up with the new requirements of enterprise and cloud data centers.

cloud data centersThe industry determined that a new type of fiber was needed to physically pass the bits back and forth at these new speeds and yet maintain backward compatibility with older installations. In October 2016, the international cabling standards development body International Organization for Standardization/International Electrotechnical Commission (ISO/IEC) decided that the new standard would be called OM5.

Cabling Installation & Maintenance magazine reports that the new OM5 standard was developed to meet the increasing bandwidth demands but keep up compatibility with older MMF installations, “The standard specifies 50/125-micron laser-optimized fiber that is optimized for enhanced performance for single-wavelength or multi-wavelength transmission systems with wavelengths in the vicinity of 850nm to 950nm.”

OM5 fiber is 50 micron core, laser optimized multimode fiber (LOMF)Sr. Fiber Product Manager at Legrand Randy Harris, explained that OM5 fiber is a new type of 50-micron core, laser-optimized multimode fiber (LOMF) designed to provide better performance for applications using wavelength division multiplexing (WDM). It operates over a wider window in the range of 850nm to 953nm to support at least four wavelengths. Swiss-based cabling provider R&M says OM5 fiber-optic cabling supports duplex transmission by sending four wavelengths over a single multimode fiber to create future bandwidths up to 200 Gbps.

Cindy Montstream explained in an article published in Cabling Installation & Maintenance magazine in September 2016,

The 40 GE SWDM4 and 100 GE SWDM4 specifications support transmission over duplex OM3, OM4, and OM5 multimode fiber types. Maximum reaches vary from 75 to 440 meters depending on data rate and fiber type. The group added that in the future, SWDM technology could be leveraged to enable 200-, 400-, and 800-Gbit/sec Ethernet traffic on multimode fiber cabling as well.

In June 2016, a Telecommunications Industry Association (TIA) TR-42 subcommittee approved the new standard, which specifies wideband multimode fiber. In February 2017, the TIA TR-42.12 Optical Fibers and Cables subcommittee approved lime green as the OM5 jacket color. At that time it also approved a project to develop Addendum 2 to the TIA-598-D standard.

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The evolution of Ethernet is driving changes in the data center. The IEEE has developed a couple of new standards for Ethernet, which I wrote about here. The new standards include IEEE 802.3by, which covers 25 Gb/s switch interconnects for data centers.

In well-done cable installations cables can be distinguished by jacket color:

  • Orange jackets indicate legacy 62.5/125 µm (OM1) and 50/125 µm (OM2) fiber-optic cabling
  • Aqua jackets show 50/125 µm “laser-optimized” OM3 and OM4 fiber fiber-optic cabling
  • Lime-green jackets  50/125 µm “laser-optimized” OM5 fiber-optic cabling
  • Yellow jackets indicate single-mode fiber-optic cabling

It took decades to install all the orange old-school MMF, it is going to take several more decades to get it all uninstalled.

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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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| September 17, 2016
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Mind Readers Can Steal Your Biometric Info

Mind Readers Can Steal Your Biometric InfoBy now, most people have come to the position that passwords suck. The momentum for alternate means of authentication is growing. Researchers are working on how to use biometric technology for mainstream login activities. As I have pointed out there is a number of emerging biometric techniques like; iris scans, facial recognition, or behavioral characteristics. All of these methods have flaws, which pose a problem for authentication non-repudiation.

passwords suckIn a post at IEEE Spectrum, Megan Scudellari writes that fingerprints can be stolen, iris scans spoofed, and facial recognition software fooled. In the wake of these flaws, researchers have turned to brain waves as the next step in biometric identification. Biometric identification is any means by which a person can be uniquely identified by evaluating one or more distinguishing biological traits. Unique identifiers include fingerprints, hand geometry, earlobe geometry, retina and iris patterns, voice waves, DNA, and signatures.

The researchers are racing to prove how accurately and accessibly they can verify a person’s identity using electroencephalograph (EEG) data. An EEG is a test that detects electrical activity in the brain using electrodes attached to the scalp. The IEEE article explains that as your eyes skim over these pixels you are reading and turn them into meaningful words, your brain cells are flickering with a pattern of electrical activity that is unique to you. These unique patterns can be used like a password or biometric identification. In fact, researchers have taken to calling them “passthoughts”.

brain cells are flickering with a pattern of electrical activity that is unique to youUsing brainwaves to authenticate people goes back a while. Back in 2012, I wrote about the Muse headband sensor which promised to “create a specific brainwave signature or a password they would never have to say out loud or type into a computer.” More recently, psychologists and engineers at Binghamton University in New York achieved 100 percent accuracy at identifying individuals using brain waves captured with a skullcap with 30 electrodes. Scientists at the University of California at Berkeley have adopted a set of earbud sensors that worked with 80 percent accuracy.

The problem is our brains don’t produce a single, clear signal that can be checked like a fingerprint. The article says our brains emit a messy, vibrant symphony of personal information, including one’s emotional state, learning ability, and personality traits. The author contends that as EEG technology becomes cheaper, portable, and more ubiquitous—not only for identity authentication, but in apps, games, and more— there’s a high likelihood that someone will tap into that concerto of information for malicious purposes. Abdul Serwadda, a cybersecurity researcher at Texas Tech University told Spectrum;

If you have these apps, you don’t know what the app is reading from your brain or what [the app’s creators are] going to use that information for, but you do know they’re going to have a lot of information

The Texas Tech team performed experiments to see if they could glean sensitive personal information from brain data captured by two popular EEG-based authentication systems. Surprise, surprise: they were able to capture sensitive personal information from brain data.

capture sensitive personal information from brain data.

Mr. Serwadda presented his results at the IEEE International Conference on Biometrics. The Texas Tech researchers examined EEG-based authentication systems that claimed high levels of authentication accuracy. One system examined was the Berkley model, and the second was based on the Binghamton model. The article explains that these EEG-based authentication systems utilize specific features, or markers, of brain activity to identify a person, like isolating the melody of a specific orchestra instrument to identify a song.

ListeningThe researchers wanted to see if those markers also contained sensitive personal information—in this case, a tendency for alcoholism. They ran old EEG scans which included alcoholics and non-alcoholics through the systems. Using the brain wave data, they were able to accurately identify 25% of the alcoholics in the sample. That’s 25% of people who just lost their privacy. Mr. Serwadda said;

We weren’t surprised, because we know the brain signal is so rich in information … But it is scary. [Wearable brain measurement] is an application that’s just about to go mainstream, and you can infer a lot of information about users.

The researcher said that malicious third parties could mine brain data to make inferences about learning disabilities, mental illnesses, and more. He told Spectrum, “Imagine if you made these things public, and insurance companies became aware of them … It would be terrible.”

IOActive senior consultant Alejandro Hernández told The Register that dangerous vulnerabilities exist in EEG kits. EEG’s security problems are depressingly familiar results of bad software design, Hernández said. EEG devices are vulnerable to man-in-the-middle attacks, as well as less-severe application vulnerabilities and ordinary crashes. Mr. Hernández says.

… some applications send the raw brain waves to another remote endpoint using the TCP/IP protocol, that by design doesn’t include security, and therefore this kind of traffic is prone to common network attacks such as man-in-the-middle where an attacker would be able to intercept and modify the EEG data sent.

steal raw EEG dataThe IOActive consultant found that components like the acquisition device, middleware, and endpoints lack authentication meaning an attacker can connect to a remote TCP port and steal raw EEG data. That same flaw lets attacks pull off the more dangerous reply attacks.

Unfortunately, the researchers do not have a solution for how to secure such information—though in the study, compromising a little on authentication accuracy did reduce the ability to detect who was an alcoholic. Mr. Serwadda hopes other research teams will now take privacy, and not just accuracy, into account when optimizing such systems. Professor Serwadda concludes, “We have to prepare for the movement of brain wave [assessment] into our daily lives.”

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Given the willingness of apps developers to sell share any info to any third party and the unwillingness of the public to take even basic steps to secure their info online, everyone’s deepest personal information can be hacked in the future.

Another problem with passthoughts UC Berkeley’s John Chuang identifies that stress, mood, alcohol, caffeine, medicine, and mental fatigue could change the electrical signals that are generated.

Despite advances in logging in with your mind, there might always be a need for an old-fashioned eight-plus character phrase with no spaces. “Passwords will never go away,” says Berkeley’s Chuang. He reasons that for a computer, a typed password may be the easiest way to verify identity, while a finger swipe may be best for a touch screen.

But we need to think beyond those to future devices—wearables, for instance—for which there will be neither a keyboard nor a touch screen. “For each device, we must figure out what are the most natural, intuitive ways to tell the device that we are who we are,” Professor Chuang says. Going directly to the brain seems like an obvious choice.

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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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| July 23, 2016
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Ethernet Marches On

Ethernet Marches OnIt has been a while since we talked about networking on the Bach Seat. So it is time to get back to my roots. Ethernet continues to dominate the world. The Institute of Electrical and Electronics Engineers (IEEE) 802.3 Ethernet Working Group, the group responsible for the Ethernet standard, recently ratified 4 new Ethernet-related standards. The committee approved IEEE 802.3bp, IEEE 802.3bq, IEEE 802.3br, and IEEE 802.3by.

IEEE 802.3br has implications for IoT and connected cars. This new standard addresses the needs of industrial control system manufacturers and the automotive market by specifying a pre-emption methodology for time-sensitive traffic. IEEE 802.3bp addresses how Ethernet operates in harsh environments found in automotive and industrial applications.

The 2 more interesting new standards to networkers are IEEE 802.3bq and IEEE 802.3by. These standards help define how 25 GB and 40 GB Ethernet will work and more importantly how products from multiple vendors should interoperate in the data center. For a summary of the rationale for the new standard here is the IEEE presentation  (PDF).

Data c enterIEEE 802.3bq, “Standard for Ethernet Amendment: Physical Layer and Management Parameters for 25 Gb/s and 40 Gb/s Operation, Types 25GBASE-T and 40GBASE-T“, opens the door to higher-speed 25 Gb/s and 40 Gb/s twisted pair solutions with auto-negotiation capabilities and Energy Efficient Ethernet (EEE) support for data center applications.

IEEE 802.3by, “Standard for Ethernet Amendment: Media Access Control Parameters, Physical Layers, and Management Parameters for 25 Gb/s Operation”, introduces cost-optimized 25 Gb/s PHY specifications for single-lane server and switch interconnects for data centers.

Siemon’s Standards Informant explains that 25GBASE-T will be backward-compatible with existing BASE T technology and both 25GBASE-T and 40GBASE-T are planned for operation over TIA category 8 cabling. The deployment opportunity for 25GBASE-T is aligned with 40GBASE-T and defined as the same 2-connector, 30-meter reach topology supporting data center edge connections (i.e., switch to server connections in row-based structured cabling or top of rack configurations).

The standard’s ratification comes shortly after the Telecommunications Industry Association (TIA) approved its standard specifications for Category 8 cabling, the twisted-pair type designed to support 25GBase-T and 40GBase-T.

Though 25 Gigabit Ethernet is only now becoming an official standard, Enterprise Networking Planet reports that multiple vendors already have technologies in the market. Among the early adopter of 25 GbE is Broadcom (AVGO) which announced back in 2014 that its StrataXGS Tomahawk silicon would support 25 GbE. In 2015, Arista (ANET) announced its lineup of 25 GbE switches. Cisco (CSCO) is also embedding 25 GbE support in some of its switches including the Nexus 9516 switch.

That is where 25-Gb/s Ethernet comes in. It uses the same LC fiber cables and the SFP28 transceiver modules are compatible with standard SFP+ modules. This means that data-center operators can upgrade from 10 GbE to 25 GbE using the existing installed optical cabling and get a 2.5X increase in performance.

The IEEE 25GbE standard seems to have come out of nowhere, (especially considering the L O N G D R A W N O U T 8 0 2 . 1 1 n process but the technology actually came into being as the natural single-lane version of the IEEE 802.3ba 100-Gb/s Ethernet standard. The 100-Gb/s Ethernet standard uses four separate 25-Gb/s lanes running in parallel, so defining a single lane makes it a straightforward and natural subset of the 100-Gb/s standard.

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IEthernetEEE P802.3by and P802.3bq were initially targeted for server connections in mega data centers like Amazon, Facebook, and Google. In the next 5 years, 25G will be the next mainstream server upgrade from 10G, even for smaller data centers. SMB data centers will be facing a connectivity crisis in the future as the pace of virtualization increases.

According to IDC, the typical virtualized server supported about 10 virtual machines (VMs) in 2014 and will support in excess of 12 VMs by 2017. In many organizations, the majority of production workloads are already virtualized and almost all new workloads are deployed on virtualized infrastructure, placing inexorable stress on server connectivity.
In order to accommodate this growth Twinax copper and short-reach MMF are included in the “by” standard, while 25GBASE-T (twisted pair) was added to the existing 40GBASE-T “bq” project making 25G possible in smaller data centers without having to re-wire the data center.
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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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| December 22, 2015
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Do Christmas Lights Slow Wi-Fi?

Do Christmas Lights Slow Wi-Fi?A new holiday tradition is to spread FUD about how your Christmas lights can interfere with your Wi-Fi signal. This year’s holiday Wi-Fi FUD spreader is the UK communications regulator Ofcom. Ofcom hinted that “Fairy Lights” may slow down your 2.4 GHz Wi-Fi signal and everyone went crazy.

Christmas lightsThe theoretical science says it does. C|Net explains that Wi-Fi uses radio waves. Christmas lights emit a very weak electromagnetic field. So theoretically, they can interfere with the radio waves being transmitted from your Wi-Fi router. The more lights, the stronger the electromagnetic field. Also, the closer the lights are to the router, the more it may interfere with the Wi-Fi.

The truth about holiday light interfere

Communications technology consultant Stuart Lipoff, told C|Net how you’re affected really comes down to what type of Christmas lights you use. The older technology that was used to make the lights blink can indeed cause radio interference. The interference could happen if the holiday lights were arranged in series with each other. The total number of lamps in the string could be such that the combined voltage of all of them was equal to the 110 volts in a typical U.S. home.

Christmas lights

However modern Christmas tree lights are based on solid-state LEDs. They often use an external electronic flashing controller and do not create radio noise. However, there are some LEDs that have an extra blink-controlled chip right inside the LED bulb. It turns out that these devices also create significant radio interference. The Wi-Fi interference occurs as this internal controller cycles the LED chip from on to off. The reason is somewhat analogous to the spark problem in incandescent blinker bulbs. When the LED is between fully on and fully off it can show negative resistance that causes it to creates radio energy.

Christmas lightsYou can simulate this by taking an AM radio. Tune the radio to a frequency, not in use in your area, and switching something on and off rapidly a few times. You should hear a staticky sound. The same thing can be heard during a lightning storm.

The real Wi-Fi killers

Alina Bradford at C|Net tested the theory and found there was a slight variance, be it ever so slight. She says “the variance isn’t a big deal.”

  • PC World says the real Wi-Fi killers are households items that are on 365 days. These will disrupt your Wi-Fi a lot more than your Christmas lights. Microwaves are the worst of the lot, as it’s basically a metal box that when turned on uses high-powered microwaves at around 2.4 GHz (the same frequency as Wi-Fi). This creates a black hole around it for Wi-Fi signals.
    washing machinesOther culprits include ovens, freezers, fridges, washing machines, dishwashers… you name it. If it’s metal and has liquid-filled pipes, it’s going to kill your Wi-Fi signal according to Panda security.
    Cordless phones are also problematic. They’re often more of an issue because you’re more likely to have a portable phone on your desk than a microwave.
    Televisions and speakers are basically just electromagnets and will hurt Wi-Fi performance when placed directly near a router.
    Your neighbor’s router. Depending on how close your router is to someone else’s, there can be a direct effect on its performance. This might prove to be even more problematic if you live in an apartment. In an apartment, you could be exposed to different signals from all sides. This means that the more interference that there is, the more your router ups it’s broadcasting, This causes your neighbor’s router to do the same… which just perpetuates the problem.
    TelevisionWater pipes can also cause interference because water absorbs radio waves.
    Walls don’t generate electromagnetic fields, but they do weaken Wi-Fi signals that pass through (up to 25 dB’s can be lost).
    Humans – Yes, you too are a problem! We, humans, are 55% – 60% water, which makes us a fantastic absorber of Wi-Fi.

Things to do improve your Wi-Fi

Panda Security also suggests a few things you can do to improve your Wi-Fi.

  • Open your doors – Closed doors could effectively block or degrade wireless signals.
  • Adjust your Wi-Fi channel – The typical default is channel 6, your router may do this automatically. If you change your Wi-Fi channel you may find that there is less interference from other routers near to you. Any two channels separated by five or more do not overlap.
  • Change your channelChange your Wi-Fi Frequency The most common Wi-Fi frequency is 2.4GHz.  2.4GHz is also the most polluted. Try using 5.0 GHz. Like changing your Wi-Fi Channel your router may do this automatically. If you change your Wi-Fi frequency you may find that there is less interference from other routers near to you. You will need to check your devices to see if they support 5.0 GHz Wi-Fi, some older devices, like Apple iPhone 4’s do not.
  • Place your router in the center of your home. A router transmits the signal in all directions, so it makes sense to have it at the center of the home. Unfortunately, this isn’t always possible due to the cables that come with it.
  • Check your cables – In general, a shorter and higher quality cable will mean a faster connection speed. It is better to use Ethernet cables from your modem to a separate router than run long phone cables.
  • Invest in a new router – There’s no need to break the bank on a new, fancy router. However, some of the newer Wi-Fi routers on the market offer a notable boost in signal and speed.
  • Turn your house into a Faraday cage. Build a Faraday cage to eliminate all outside sources of electromagnetic pollution. But would also mean no telephone or FM connections.

Of course, you should also take precautions to ensure that your Wi-Fi connection is secure by putting a strong password on your router and use a modern security setting like WPA2-PSK (AES).

 

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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| November 24, 2015
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Television Sells Your Viewing Habits

– Updated 03-26-2017 –  Vizio will pay $2.2 million to the FTC and the state of New Jersey to settle a lawsuit alleging it collected customers’ television-watching habits without their permission.

In addition to the $2.2 million in payments, Vizio will now have to get clear consent from viewers before collecting and sharing data on their viewing habits. It’ll also have to delete all data gathered by these methods before March 1st, 2016 according to the Verge.

Television Sells Your Viewing HabitsJust in time for the Black Friday consumerism orgy of spending, Help Net Security reports that you are giving away more than cash when you buy a Smart Television from Best Buy or whoever. It turns out that owners of Smart TVs manufactured by California-based consumer electronics company Vizio (VZIO) viewing habits are being tracked and sold to third parties. The Vizio privacy policy says;

Vizio logo… VIZIO will use Viewing Data together with your IP address and other Non-Personal Information in order to inform third party selection and delivery of targeted and re-targeted advertisements … delivered to smartphones, tablets, PCs or other internet-connected devices that share an IP address or other identifier with your Smart TV.

Vizio’s competitors Samsung (005930) and LG Electronics (LGLD) can also track users’ viewing habits via their smart TV offerings, ProPublica‘s Julia Angwin pointed out, but the feature has to be explicitly turned on by the users. The collection of viewing data by Vizio’s Smart TVs is turned on by default, as is the Smart Interactivity feature that manages it.

Data miningAccording to the IEEE, Vizio smart TVs can track data related to whatever TV programming and related commercials you’re watching and link such data with the time, date, channel, and TV service provider. On most of the over 15 million Smart TVs sold, Vizio will also track whether you view TV programs live or later on. Vizio knows what you’re watching even if it’s a DVD being played on a gaming console or a show being watched via cable TV. The identification tracking technology can differentiate between 100 billion data points.

While, in theory, IP addresses are not personal information, they actually can be linked to individuals if there is enough information (specific attributes like age, profession, etc.) tied to it.

Data collectionProPublica‘s Angwin’s sources, tell her that Vizio has been working with data broker Neustar to combine viewing data with this type of information about the user.

Even though users can turn off the spy technology, which will not won’t affect the device’s performance, the problem is that many, many users won’t bother reading the privacy policy or change the default settings once they set up the TV and start using them.

TechHive reports that backlash against intrusive spying has started. Two lawsuits (Reed v. Cognitive Media Network, Inc. (PDF) and David Watts et. al. v Vizio Holdings Inc et. al. (PDF)) have been filed in California against Vizio and their partners about their data collection habits.

The suits accuse Vizio and Cognitive of secretly installing tracking software on the former’s smart TVs in a way that violates various federal and state laws.

Legal systemThe suits allege that Vizio violated the Video Privacy Protection Act. The Video Privacy Protection Act prohibits any company engaged in rental, sale, or delivery of audio-visual content and not necessarily just videotapes from divulging any personally identifiable information about its customer to a third party, except where the customer has clearly consented to such data sharing.

Of course, Vizio has previously argued it’s not a videotape service provider at all, and so this particular law doesn’t apply to it.

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I pointed out as far back as 2011 that Smart TVs are a dumb idea for privacy.

Consumer Reports offers tips on how to stop your Smart TV from spying on you here.

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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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