First off, Light Peak speeds remain the same as we've previously seen at 10 gigabits/s, though opportunity to scale to 100 gigabits/s remains a promise for the future. Intel had two demonstrations setup illustrating Light Peak's potential as a bus for huge amounts of traffic. First up was a Compal notebook connected to an Avid HD I/O box, which was in turn connected to two more devices. An external Western Digital dual drive solution with a Light Peak connector, and an HDMI adapter driving 1080P video content.

According to Intel, Light Peak enabled Avid to move mixing control to the Compal notebook software suite. Bandwidth is now sufficient to pass uncompressed extremely high sampling rate audio streams between the notebook and the Avid HD I/O box.

All of those white cables coming out of the Avid box on the left side are Light Peak. Note that they look a lot like USB - more on that in a moment. Light Peak connects the Avid HD I/O box and its lossless audio streams, a raw 1080P HDMI video stream, Western Digital external hard drive, and another uncompressed video played back on the Dell LCD to the left in this demo. This demo is clearly targeted at selling studio artists on Light Peak.

The Light Peak to HDMI converter box has also shrunk considerably. It's now a bit smaller in profile than a credit card: 

There's no external power adapter here either, just Light Peak to HDMI for the TV. The Compal notebook has been shown around a bit before, but the connection is again seamlessly integrated into the notebook by all appearances. Check out the gallery for all the pics from this demo:

6.15 gigabits/s uncompressed video streaming
POST A COMMENT

59 Comments

View All Comments

  • AnnonymousCoward - Friday, September 17, 2010 - link

    "fiber optics is just the way to go"

    No, COST is just the way to go. Note that whoever created DisplayPort chose to go the route of up to 4 PCIe lanes rather than fiber optics.
    Reply
  • jordanclock - Friday, September 17, 2010 - link

    One cable type means you'll have a bunch of ONE type of peripheral connector on your computer that can connect to ANY Light Peak peripheral. It doesn't care what protocol it uses, just the connector needs to be right. I really like the idea of having a dozen or so Light Peak connectors on my computer and just plugging in devices without a second thought. I don't like have a dozen connectors, only four of each variety and needing more of one type.

    Fiberoptic is the only economical way to achieve the kind of bandwidth needs we're moving toward and keep cable lengths long. Remember, Intel already demonstrated a 100Gbps version. That kind of cable could handle just about anything you can throw at it, making it perfect for everything from an audo connector, display connector, or for mass storage devices. I'd love to be able to pick up an external drive with a couple TB of storage in a RAID and be able to feed it data as fast as it could write it. And then use the same connector to hook up my HD camera to unload videos as fast as it can read them.
    Reply
  • AnnonymousCoward - Friday, September 17, 2010 - link

    "I'd love to be able to pick up an external drive with a couple TB of storage in a RAID and be able to feed it data as fast as it could write it. And then use the same connector to hook up my HD camera to unload videos as fast as it can read them."

    Well good, then you'd love to use the USB standard!

    You brought up the issue of speed, as if LP enables higher transfer speeds. It doesn't, as it uses existing protocols. And you said audio cable--that will remain analog for most people.
    Reply
  • AnnonymousCoward - Friday, September 17, 2010 - link

    To help you understand, consider this. DVI has many parallel data pins. These would be fed into a DVI-LP bridge, light would be transmitted through the cable, and there'd be another LP-DVI bridge in the monitor, where it's then spread out to the parallel pins that the monitor system is ready to handle. LP adds no speed. Reply
  • iwodo - Thursday, September 16, 2010 - link

    That is not enough for DisplayPort 1.2. Not to mention the higher resolution monitor that are coming out when Lightpeak are available, and the need for 120hz 3D Display.

    While i would love a new and improved connector. ( I hate the way USB allows you to plug in upside down ). Sticking to USB connector would make more sense given the huge amount of devices using it such as USB memory. The Cooper left inside could be used to power transmission.
    Reply
  • wisecracker - Saturday, September 18, 2010 - link

    Huh? There's a barrel maker inside each of my USB connectors? And now you are suggesting they can be put to work with LightPeak as well? Truly amazing!

    Seriously though, the confusion for many that would result from having USB connectors that aren't actually USB connectors would be too much. I doubt even color coding would suffice.
    Reply
  • ravin511 - Friday, September 17, 2010 - link

    The power is coming from the HDMI cable. The HDMI cable has 5V power inside it. Reply
  • Metaluna - Friday, September 17, 2010 - link

    "Interestingly, Intel is using an 850 nm wavelength laser for the system"

    This doesn't seem that unusual when you consider that 850nm multi-mode fiber is commonly used for 10gig Ethernet (e.g. XFP modules), so it's probably readily available and cheap. The fact that it's not entirely eye-safe is kind of interesting though for a consumer-grade product, though I'm sure it's running at very low power. I guess the fact that the entire optical path is sealed inside the cable makes it safe enough, unless you go staring into the end of a broken cable.
    Reply
  • gnesterenko - Friday, September 17, 2010 - link

    Because this is an Intel product, they may decide to cut AMD out of the picture. If AMD can't get lightpeak into its chipsets, and its as good as they say it is, that would be a heavy blow. Hopefully they can't extend that too far and will allow 3rd party chips like USB3 is now on mobos... Otherwise all I can do is yell "monopoly"...

    "The views expressed here are mine and do not reflect the official opinion of my employer or the organization through which the Internet was accessed."
    Reply
  • Guspaz - Friday, September 17, 2010 - link

    All the early LightPeak connectors are based on USB, which gave me great hope that LightPeak would be backwards compatible with USB. After all, Intel's intention is to replace all connectors with LightPeak... using a new connector will render every USB device on the market incompatible.

    Yes, I realize that there is a transition period here, where we'll get a few LightPeak connectors to start out with, but breaking backwards compatibility is just plain dumb. For one thing, some peripherals just don't NEED optical connections. Does my keyboard really need a 10Gbps optical connection, driving up costs? No! Maintaining backwards compatibility with USB would have not only allowed all existing peripherals to continue working, it would have allowed lower cost devices to avoid using optical when they don't need it.

    Look how long it's taken us to transition from PCI to PCIe. PCI-Express was introduced in 2004. SIX years ago. And even today, most motherboards still ship with regular PCI slots because there are still devices that use PCI on the market. PCI NICs are still cheaper than PCIe NICs.

    Now, PCI was never nearly as widely used as USB. Many computers didn't even have any PCI cards, since lower-end motherboards tended to build video/audio/etc into the chipset. On the other hand, everybody out there has multiple USB devices plugged into their computer. If we still haven't fully transitioned off PCI six years later, can you imagine how long killing off USB is going to take?

    This was such a great opportunity for Intel to create the successor to USB. Instead, they've decided to create the usurper. And that's very unfortunate.
    Reply

Log in

Don't have an account? Sign up now