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Intel IT Hardware Technology

USB 4 Will Support Thunderbolt and Double the Speed of USB 3.2 (engadget.com) 165

At a Taipei event earlier today, Intel revealed that USB 4 will once again utilize dual channels to achieve 40Gbps speeds, even on existing 40Gbps-certified USB-C cables. A report adds: Better yet, thanks to Intel finally offering Thunderbolt 3 to manufacturers with open licensing, USB 4 will be integrating this tech and thus effectively becoming the "new" Thunderbolt 3. In other words, USB 4 will pretty much be the mother of all wired connectivity options, and will be ready for more powerful PCIe plus DisplayPort devices. It is expected to take 18 months between the final spec of USB 4 being published in the second half of this year, and the first devices hitting the market, so don't expect to see USB 4-powered commercial devices until sometime in 2021.
Further reading, from last week: USB-IF Confusingly Merges USB 3.0 and USB 3.1 Under New USB 3.2 Branding.
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USB 4 Will Support Thunderbolt and Double the Speed of USB 3.2

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  • by jellomizer ( 103300 ) on Monday March 04, 2019 @10:29AM (#58212874)

    I Know, I know faster transmission, of data doesn't necessarily require more power. Just a higher frequency signals of the data. Which gets increasingly harder to read, and more prone to interference. But 40Gbs in a cable that most people will coil up to keep the wires organized just seems like something prone to problems. Unless USB4 cables will have a ton of insulation, to prevent the outside world from interfering with it. Or will it have more error checking thus this 40Gbs is just a theoretical speed, and it is actually much slower in real life, because it keeps on on having data loss.

    • by Anonymous Coward on Monday March 04, 2019 @10:51AM (#58212986)

      Nothing an $80 4ft cable with gold plated connectors couldnt fix!

      • yes, but what if your electrons aren't flowing in the right direction? how does monster get around that technical limitation/hurdle????

    • by jfdavis668 ( 1414919 ) on Monday March 04, 2019 @10:57AM (#58213038)
      If they do, you can rename it Firewire.
    • I once pointed out to a manager that a 1,000-feet serial cable coiled up underneath the desk was unnecessary when a 20-feet cable could have connected the PC to the modem. He said it still work and that was that.
      • I once pointed out to a manager that a 1,000-feet serial cable coiled up underneath the desk was unnecessary when a 20-feet cable could have connected the PC to the modem. He said it still work and that was that.

        That is 20 times the maximum cable length of an RS232 cable! "Cable length is one of the most discussed items in RS232 world. The standard has a clear answer, the maximum cable length is 50 feet, or the cable length equal to a capacitance of 2500 pF." https://www.lammertbies.nl/com... [lammertbies.nl]

        • If you have read the rest of that link, you can increase cable distance with a low capacitance cable or decrease data speed. Not every cable in the real world is going to be at spec.
        • by kqs ( 1038910 )

          I've seen many out-of-spec cables work. But also, RS232 is hardly the only serial protocol out there; I've installed RS422 cables to connect equipment on opposite sides of a football stadium, all well within spec.

          • The problem wasn't an out of spec cable. It was some idiot dropping 1,000 feet on the floor and adding connectors for a 20 feet run. I can't tell you how many times I pulled out a 100 foot cable when I expected a 10 foot cable because someone didn't have any 10 foot cables.
    • Comment removed based on user account deletion
    • by Anubis IV ( 1279820 ) on Monday March 04, 2019 @11:18AM (#58213158)

      Though a bit of an oversimplification, USB4 is basically just a rebranding of Thunderbolt 3. Thunderbolt 3 already does 40Gbps and has been out now for a few years. I have yet to hear reports of cables spontaneously erupting in flame or whatnot, and though USB 3.x and TB3 cables are stiffer than USB 2 cables, I don't think they're swaddled in insulation to a crazy degree. If you're curious how this will work, look back over the documentation for TB3.

      • by tlhIngan ( 30335 )

        Though a bit of an oversimplification, USB4 is basically just a rebranding of Thunderbolt 3. Thunderbolt 3 already does 40Gbps and has been out now for a few years. I have yet to hear reports of cables spontaneously erupting in flame or whatnot, and though USB 3.x and TB3 cables are stiffer than USB 2 cables, I don't think they're swaddled in insulation to a crazy degree. If you're curious how this will work, look back over the documentation for TB3.

        Except Thunderbolt requires active cabling, and always has

    • by bluefoxlucid ( 723572 ) on Monday March 04, 2019 @12:53PM (#58213646) Homepage Journal

      Unless USB4 cables will have a ton of insulation, to prevent the outside world from interfering with it. Or will it have more error checking thus this 40Gbs is just a theoretical speed, and it is actually much slower in real life, because it keeps on on having data loss.

      You have to overcome miller capacitance in the cables, so the voltages are extremely-low.

      What you do, you twist pairs of signal-carrying cables around each other, and you raise a signal cable by a few millivolts to signal. The signal pair will be e.g. 5mV apart. If you get EMI, then each cable will raise its voltage state equally, so you go from 0mV/5mV to 27mV/32mV. That's still 5mV, it's still signal, it's still clear.

      Self-shielding.

      • Oversimplification, but yes this is one of several tricks that engineers uses to improve signal quality. Another commonly used one is ... shielding. In many cases you would use both. A good example of a cable that uses both is ... a USB 3.0 cable.

        • SATA and eSATA are the same interface, but not the same cable. SATA is inside a high-EMI envelope within a computer casing; eSATA is exposed to less electromagnetic interference.

          SATA doesn't have shielding; eSATA requires shielding.

          eSATA will work without shielding; so will USB 3.0. Both will also emit large amounts of EMI outside the shielded envelope, interfering with other electronic devices and violating FCC regulations.

          USB 3.0 cables aren't shielded from outside electronics; outside electronics a

          • SATA and eSATA are the same interface, but not the same cable. SATA is inside a high-EMI envelope within a computer casing; eSATA is exposed to less electromagnetic interference.
            SATA doesn't have shielding; eSATA requires shielding.

            You description of the cables is right but the motivation behind them is quite different. Let's address them:

            Firstly the EMI envelope within a PC is controlled and far lower than what you compare it to. Short lengths of very low current very low voltage signals at high frequencies radiate but do so poorly. On the flipside you have eSATA, a standard which will be routed directly next to unshielded LV power cables of multiple devices using a standard that allows double the length of cable, and will typically

            • Firstly the EMI envelope within a PC is controlled and far lower than what you compare it to. Short lengths of very low current very low voltage signals at high frequencies radiate but do so poorly.

              The PC envelope is specifically designed to be an EMI shield due to EMI generated by the PC. It's an FCC compliance point.

              And that is not remotely true. The data lines are twisted to prevent radiation and have been for a long time.

              Twisting the data lines causes them to self-shield against near-end cross-talk (for round-trip pairs e.g. Ethernet, they'll have opposing magnetic fields which self-cancel), and also causes LVDS pairs to remain at the same base voltage when acting as antenna (these pairs don't self-shield against NEXT). It doesn't prevent them from radiating outward in an LVDS setup.

              and in fact USB 3.0 all things being equal would be less likely to cause external interference than USB 2.0 based on signalling alone.

              Oh really [intel.com]?

              With the HDD connected, the noise floor in the 2.4 GHz band is raised by nearly 20 dB. This could impact wireless device sensitivity significantly.

              With

    • Behold the magic of differential twisted-pair signaling. It's not 100% immune to the outside world, but damn close. Add some shielding, and a robust receiver circuit (like the world-beating(?) Cypress FX2LP USB2.0 receiver I designed), and you're good to go. Faster transmission can trigger a 2cd-order higher power effect in that send/receive circuits are typically lower noise when biased at higher currents. So the tighter eye diagram requirements of the higher speeds may trigger higher power in the transce
  • Naming (Score:5, Funny)

    by Kokuyo ( 549451 ) on Monday March 04, 2019 @10:37AM (#58212910) Journal

    So double the speed of 3.2... But which 3.2? Will it be equal to 3.2 2x2 or twice that?

  • by Anonymous Coward

    Bandwidth is all very good but past a certain point, latency is of more interest. John Carmack's Tech Talk went into quite some detail [youtube.com]. So, wow us with the headline figure but it's not the whole story.

    • The latency for USB 3 is something like 30 microseconds. Some people are asking how anyone achieves that because they're only able to get as low as 60-70 microseconds.

      That's like 250-550 signals per 60fps frame. Your input lag is 1/500th of an NTSC frame.

  • And USB 4 will once again be obsolete by tomorrow, when TSB 27 will be announced. TSB is not a typo, but Temporary Serial Bus fits the name so much better.
    • Isn't each new USB standard backwards compatible with the old one? If my next computer only has USB4 ports, I'm pretty sure my keyboard and mouse will still work with it. USB improvements aren't like switching from Betamax to VHS.
      • by guruevi ( 827432 )

        The cables and controllers sure aren't compatible, you need a converter from USB-x to USB-2 which typically includes a full controller on-chip. Even USB-3 to USB-2, the controllers aren't backwards compatible and thus older software that talks to OHCI/EHCI won't talk to xHCI or beyond.

        • by mlyle ( 148697 )

          ???

          > The cables and controllers sure aren't compatible, you need a converter from USB-x to USB-2 which typically includes a full controller on-chip.

          USB3 type A has a few extra contacts, but you can plug USB1.0 type A cables into it and use USB1.0 devices, or anything inbetween...

          > Even USB-3 to USB-2, the controllers aren't backwards compatible and thus older software that talks to OHCI/EHCI won't talk to xHCI or beyond.

          Yah, you need an appropriate driver and OS that knows how to talk to xHCI, but act

  • by ebonum ( 830686 ) on Monday March 04, 2019 @10:58AM (#58213044)

    One cord to rule them all!

    What I really need to know is if it will support 3 phase 480V to run my HAAS CNC?

  • At these speed, USB4 stands to be way faster than most ethernet out there. 10gbit ethernet has been taking forever due to SPF power issues and manufacturing costs. USB4 with dedicated chip/channels would be twice the speed of full duplex ethernet 10gbit.

    However it is not quite being designed for true network and storage connectivity. The need is there but the buffers/latency might hurt it a bit.

    I wonder if we'll see dedicated PCIE cards with dedicated USB4 chips so we can have nonblocking shorter-distance n
    • At these speed, USB4 stands to be way faster than most ethernet out there. 10gbit ethernet has been taking forever due to SPF power issues and manufacturing costs. USB4 with dedicated chip/channels would be twice the speed of full duplex ethernet 10gbit. However it is not quite being designed for true network and storage connectivity. The need is there but the buffers/latency might hurt it a bit. I wonder if we'll see dedicated PCIE cards with dedicated USB4 chips so we can have nonblocking shorter-distance network connectivity better than gigabit ethernet Or even USB-over-fiber next. Now that's a thought.

      At these speed, USB4 stands to be way faster than most ethernet out there. 10gbit ethernet has been taking forever due to SPF power issues and manufacturing costs. USB4 with dedicated chip/channels would be twice the speed of full duplex ethernet 10gbit. However it is not quite being designed for true network and storage connectivity. The need is there but the buffers/latency might hurt it a bit. I wonder if we'll see dedicated PCIE cards with dedicated USB4 chips so we can have nonblocking shorter-distance network connectivity better than gigabit ethernet Or even USB-over-fiber next. Now that's a thought.

      <sarcasm> Yeah, thanks to Tnunderbolt, one of those crap-ass ideas Apple came up with and never amounted to anything because they never became 'mainstream PC tech'. </sarcasm>

      Presumably all those Apple haters out there will maintain full self-consistency by boycotting any hardware incorporating USB4 since it now integrates EEEEEVIL Apple tech!

      • Presumably all those Apple haters out there will maintain full self-consistency by boycotting any hardware incorporating USB4 since it now integrates EEEEEVIL Apple tech!

        Hopefully they know Thunderbolt (Light Peak) is an Intel thing.

      • Looks like Thunderbolt was developed by Intel with collaboration from Apple. Not the other way around....

        https://en.wikipedia.org/wiki/... [wikipedia.org]

    • the usb to e-net box will need an Chip and 40 will max out the usb bus.

      Also in servers needs to be cpu pci-e bus not stacked off of the PCH.

    • by PPH ( 736903 )

      At these speed, USB4 stands to be way faster than most ethernet out there.

      Until someone plugs a slow device into the USB bus. And your 40 Gbps network has to wait for those mouse data packets. This may be why vendors aren't in a rush to adopt USB for every application. Lots of pissed off customers because they don't understand that it's the old generation junk that they keep plugged in that slows down their fanc external hard drive.

    • Using USB for networking sounds like a horrible idea. The cables will be short and expensive, the infrastructure a mess and 40G ethernet (yes it is a thing) can go up to 30 meters for copper whereas copper Thunderbolt (USB 4) is limited to 3. So its inferior and pointless. Cat8 is $40 for 20m while TB3 rated USB-C is $20 for 0.5 meters. Ethernet is considerably cheaper at $2 a meter versus $40 a meter. Unless you mean making USB 4 to ethernet adapters so you can ditch the ethernet port on your machine. I de
    • by _merlin ( 160982 )

      I've been using 10Gbps Ethernet for a decade, and 40Gbps Ethernet (effectively four bonded lanes of 10Gbps) for half a decade. 10Gbps NICs are cheap now. You can run far longer distances than USB, and switches, routers, etc. are readily available. USB3 isn't going to replace Ethernet in the datacentre any time soon.

  • Be stuck with shit on board video? so no amd high end cpu's?? Need an video loop back cable?

  • Well this is some seriously impressive backwards compatibility.
  • I have had 2 phones with usb c now (nexus 6p and xaomi mi max 2), the usb c port has lasted about 1 year before getting loose and having to be propped in a certain way to connect, It is not a good port in that respect. I wish they would make a better solution.

  • Comment removed based on user account deletion
    • as it became obvious that it's a bad idea to allow someone to plug something in that can be both a storage device and a keyboard (it doesn't take much imagination to see how that can be a security problem.)

      We used to have key-capture devices like that to slip between an AT keyboard and the port.

      There's a reason I described voting machine standards in which no physical electrical port may be accessible between polling begin and end of polling day after generating proof of ballot set. We're going to have to go into glorious battle to force vendors to accept these standards, but I'm ready for that.

  • by bjwest ( 14070 ) on Monday March 04, 2019 @12:36PM (#58213532)
    So now I need to buy another fucking cable.
    • So now I need to buy another fucking cable.

      Correct. And it will have USB-C connectors so it will look identical to a USB 3.2 cable next to it in your parts drawer. And since the 3.2 cable will probably work, albeit at a lower speed, good luck ever figuring out which is which. Yay standards?

      • Yes yay standards. I can't find my USB 3.2 cable so I can just use my thunderbolt cable. That's what standards allow.

        If you have a problem with the confusion why would you suffer by leaving obsolete crap lying around. You can just thunderbolt the world :)

        • Ha! I still have DB25 RS232 cables lying around, and I'm pretty sure I could dig up a null modem to go with them. Like I'm not going to eventually end up with every generation USB cable ever made...
    • So now I need to buy another fucking cable.

      No you don't. The first device you buy which needs this will come with the cable.

      Seriously who has ever bought a USB cable. Weird.

  • To empower consumers, USB4 will come in a variety of new flavours:
    -USB4
    -USB4 gen 1.5
    -USB gen pi
    -USB4 2x2
    -USB4 4x4
    -USB4 4x4 /w ABS
    -USB4 /w cheese
    -USB4 ultra graphics pro turbo
    -USB4 with kung-fu action grip

    Of course, you have no idea what particular flavour your cable will be and if it will be compatible with the devices you are connecting, but hey, it's progress!

    • I'm hoping they move entirely to Type-C and establish HDMI-over-type-C, audio accessory mode, Ethernet alternative mode, and high-speed charging in the base standard.

    • by heson ( 915298 )
      They will probably include some cost saving variants.
      usb4-swift = usb 1.0
      usb4-quick = usb 1.1
      usb4-brisk = usb 2.0
      usb4-express = usb 3.0
      usb4-hasty = 3.1
      usb-4-dashing = 3.2
    • you missed USB4 Electric Boogaloo [knowyourmeme.com]
  • Great. Now my keyboard can do 40 Gbps, but my LAN is still stuck at 1 Gbps. Why can't this inexpensive technology be used to give me a high speed LAN? 10GB Ethernet still costs thousands of dollars.

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