Among the many technologies to come under the purview of the Khronos consortium have been augmented reality and virtual reality. Looking to fulfill the group’s mandate to develop open standards for new technologies, the group set about creating an open API for use with AR and VR devices, which culminated in the OpenXR standard. The initial version of that standard was released last summer, and now that the wider technology industry has finally had a chance to develop software for it, this morning Khronos is offering a status update on the state of OpenXR, along with a few choice announcements relating to projects using the new API.

First and foremost, Khronos is announcing that the first standard-conformant implementations for OpenXR are finally shipping. Starting today, both Oculus’s and Microsoft’s respective OpenXR runtimes have passed conformance testing and have been approved by the group, allowing the two companies to promote their support for OpenXR as part of Khronos’s OpenXR adopters program.

Surprisingly, both tethered and stand-alone headsets are among the newly-compliant devices. Both Microsoft and Oculus now have approved runtimes for Windows, bringing OpenXR support to Windows Mixed Reality devices along with the Oculus Rift family of HMDs. Meanwhile Oculus’s stand-alone, Android-powered headset, the Oculus Quest, has also received OpenXR support, as has Microsoft’s stand-alone HoloLens 2 AR headset. This means that in the span of a year OpenXR support has already expanded to cover the full gamut of devices OpenXR was envisioned for, with both AR and VR devices now supporting the API.

This in turn marks a major milestone for OpenXR, as it means the standard has finally resolved the bootstrapping problem that all new APIs face. With working hardware available, rank and file software developers can finally write software and test against actual devices, making the entire process much easier. Consequently, in many ways it’s this moment, rather than last year’s OpenXR 1.0 launch, that truly kicks off the lifecycle for the API, as Khronos and its members can finally reach out to developers about widespread deployment. Meanwhile, the ranks of supported headsets is slated to grow over the coming months, as Valve, Varjo, and Collabora all have OpenXR implementations currently under development.

Speaking of Valve, the game developer and increasingly ecosystem builder as well has previously announced that it is working to transition its own VR wares to OpenXR. Last month the company launched beta support for OpenXR within SteamVR, allowing SteamVR games to use compliant OpenXR runtimes. Meanwhile Valve is essentially putting development of its own OpenVR standard on hold, shifting its focus to OpenXR as any new SteamVR features are slated to be developed against Khronos’s API.

Meanwhile Microsoft is slated to be using OpenXR for some of its own projects as well, most notably a new VR version of Minecraft. Being announced today, Microsoft is adding VR support to the new RenderDragon engine, which was launched earlier this year as part of Minecraft’s ray tracing-enabled graphical overhaul. The new VR implementation will replace the older implementation, which was built against the game’s previous rendering engine and only supported Oculus and Windows MR devices.

Finally, Khronos is also offering a brief update on the state of hand and eye tracking within OpenXR. Neither of these features made it into the core 1.0 specification, but both are now being developed as cross-vendor extensions. Both of these features are up and running on the HoloLens 2, and while developers can already use them today, anyone planning on sticking to the core specification will be happy to hear that Khronos is planning to adopt these extensions into a future version of the core specification once the extensions have proven their worth.

Source: Khronos

POST A COMMENT

15 Comments

View All Comments

  • PaulHoule - Tuesday, July 28, 2020 - link

    XR is the biggest own goal in the short history of consumer VR and AR.

    When you don't have a business case for VR and AR you make up XR because you know somebody in a boardroom somewhere is dying to ask "What is our XR strategy?"

    When your CEO is in front of legislators everywhere for destroying democracy and you need some press release to look like you do something innovative once in a while, you black out the front of a magic leap (AR headset with a $2000 version of the $200,000 holographic waveguide in a F-36 helmet) and say it is a VR headset. It looks less dorky than a Magic Leap because the front is blacked out, and less dorky than most VR headsets because the optics are bent. Maybe someday they'll have more laser speckles than pixels.

    Remember Windows Mixed Reality? You had the astonishingly expensive Hololens and then a bunch of off-brand VR headsets. From a software perspective the image synthesis and user interface for AR and VR overlap a lot, but from an artistic and applications perspective you only confuse people and chase users away with labels like "XR".
    Reply
  • stephenbrooks - Tuesday, July 28, 2020 - link

    They're going to overlap in the future. For instance the usability of VR headsets is improved if you have a camera pass-through option so you can see the outside world long enough to grab a drink. Reply
  • Spunjji - Thursday, July 30, 2020 - link

    Speak for yourself - I think it makes sense. The alternative is always saying "AR and VR", or leaving one of those things out - all of which are clunky options. Reply
  • edzieba - Friday, July 31, 2020 - link

    "AR headset with a $2000 version of the $200,000 holographic waveguide in a F-36 helmet"

    No.

    Magic Leap is a near-off-the-shelf near-eye microdisplay with two waveguides stuck together. It has the same limitations of all other waveguide near-eye displays (poor FoV/eyebox tradeoff due to fundamental Etendue limits) just with two fixed focal planes. Which as research shows, isn't close enough to the number needed to be useful for dealing with accommodation without eye-tracking and actively slewed focal surfaces.
    The F-35 HMDS, like almost any HMD for pilot usage prior (it is not a new design) is a collimated optic design with a dichroic spherical-surface mirror built into the visor and a spherical-emissive projector in the brow. It works as a scaled-down version of the collimated dispalys used in flight simulators, except the use of a dichroic mirror means it reflects the light from the projector, and passes light arriving externally. beyond 'it's a display, that;s on your head', the two technologies are unrelated. It offers a very high field of view (limited only by spherical mirror solid angle coverage) and the fixed infinite focus is not a concern for the infinite-distance viewing of the external environment from a cockpit.
    Reply
  • Tomatotech - Thursday, July 30, 2020 - link

    So I have a Windows WMR headset from Lenovo, a couple of years old. TBH I haven't used it in nearly a year, thinking about selling it. I think it has external cameras, which have never been activated (no capability to do so exists.). I run it with a GTX 1060 GPU, & i3-6100, soon to be a Ryzen system with the GTX 1060.

    Is this OpenXR likely to come to my headset? Will it be of any use for such an old system?
    Reply

Log in

Don't have an account? Sign up now