July 21st, 2015
Mooly Eden steps out of the world of transistors and microprocessors for a moment. “If you want a simple explanation of what we’re doing, just look to Asimov,” the head of Intel’s Perceptual Computing push says, explaining. “Or Star Trek, Star Wars, and Avatar. The ideas have been in science fiction for years, and now they’re becoming fact.” They’re plainly taking sci-fi concepts and figuring out the road map to get there.
That’s as direct a line into Perceptual Computing as you’ll find, since the plans that Intel has shown us to this point have been fairly ambiguous. Right now, we’re seeing the vanguard arrive, with features like the eye-tracking Tobii, a Kinect-like gesture and motion sensor, and human recognition and overlay.
The long-term goals, though, are much more ambitious. “Wearable is inevitable,” Eden says, referring to Google Glass-like tech, “And implantable is probably the next step.” Imagine an implantable computer that could monitor, or even help hinder, Alzheimer’s symptoms. Or even brain-reading implants, which Eden mentioned while being very clear it was meant in a general sense, not a product announcement.
It’s the kind of project you’d expect to be off on its own, like Lucius Fox’s R&D Department, operating well away from whatever real world business Wayne Enterprises or Intel are conducting. Instead, it’s at the heart of everything Intel is doing.
That’s when Eden, part of Intel’s PC Client Group for over 30 years, and its general manager from 2009 to 2012, changed things up. Instead of focusing purely on drilling down on specs and metrics, Intel began tailoring its future goals for its microprocessors around the results from sociological studies about how people actually use their computers. But it also took cues from Mooly’s team, which anticipated things like the need for extreme power efficiency and smarter sleep states.
How is that going to manifest as a future-perfect space toy for you in the near future? Beyond the performance and efficiency benefits to today’s gadgets as Eden marshals the weaponry he needs, there are already some ideas on the table. If you have an always-on camera, for instance (you didn’t think Google Glass was the only one with its eyes on that prize, did you?) that was smart enough to know what your car looks like, you could ask it, in plain language, “Where did I leave my car?”, and it would show you a screenshot or a few seconds of footage, saving you a half hour of wandering around the parking garage like a jackass.
But how we get from here to there is a process. Instead of just hunkering down for a few years and maybe, hopefully, possibly coming out the other side with something real people will be able use someday (á la Microsoft Research), Intel’s doing the legwork on features that will be key to future uses. And then it’s implementing them now, like with the mandatory touch on next-gen PCs, or the advanced-but-still-getting-there motion sensing it showed at CES.
Intel’s teams are still plowing ahead with more traditional microprocessor tech. “We’re basically trying to defy gravity,” Mooly says of the new 22nm process used in the Haswell architecture. The transistors remain crucial as well. “If I’m trying to build the world’s greatest Lego tower,” he continues, “I need the best Lego bricks that we can possibly make.”
But while Intel talks a big game about taking these technologies further, and its goals are absolutely pointed in the right direction, a second glance at its real world efforts to this point gives you a second of pause. For all the technical advancements and achievements—dedicated hardware accelerators, impressive new architectures, faster power state shifts—it still has a problem: It’s got a long way to go in mobile before it’s on equal footing with the competition.
Clover Trail Atom processors haven’t made the splash Intel was hoping for, and the attention focused on Medfield last year seems to have shifted to Lexington, a lower cost value platform. Basically, Intel’s making a lot of claims about its place in the future of computing, but it’s still playing catchup on the present of mobile.
Further, if Intel’s going to find traction with perceptual computing, it has to nail the interface, or face the same adoption resistance that Windows 8 is staring down now. Basically, people are happy to gawk at a tech demo, but if they’re going to use something day-to-day, it has to work perfectly.
Take natural language interpretation. It’s been a white whale for engineers for years, and it doesn’t really seem to be improving at the rate we expected. Siri is a dud, and anyone else making a similar attempt has scaled back expectations considerably. Even then, those services suffer from what Eden considers the fundamental problem with speech: it just flat out gets words wrong. Before you can work on algorithms or context, you’ve got to get that right first. Those building blocks again.
Mooly, who speaks with a Hebrew accent, was able to get Intel’s speech software to recognize his “th—” sounds after repeating a calibration word just five times. Now he can say “untethered” and have it recognized with almost 100 percent accuracy. That’s how you build a voice recognition system. And piece by piece, that’s how Eden and the rest of Intel are trying to build the future, right here in front of us. [via gizmodo]