Christopher Mims reports in the Wall Street Journal:
Moore’s Law held that the number of transistors on a chip doubles every two years. It also meant that performance of those chips—and the computers they powered—increased by a substantial amount on the same timetable. As chip makers have reached the limits of atomic-scale circuitry and the physics of electrons, Moore’s law has slowed. Huang's Law describes how the silicon chips that power AI more than double in performance every two years. Its progress makes it an enabler of everything from autonomous cars, trucks, and ships to the face, voice and object recognition in our personal gadgets.During modern computing’s first epoch, one trend reigned supreme: Moore’s Law.
Actually a prediction by Intel Corp. INTC 0.01% co-founder Gordon Moore rather than any sort of physical law, Moore’s Law held that the number of transistors on a chip doubles roughly every two years. It also meant that performance of those chips—and the computers they powered—increased by a substantial amount on roughly the same timetable. This formed the industry’s core, the glowing crucible from which sprang trillion-dollar technologies that upended almost every aspect of our day-to-day existence.
As chip makers have reached the limits of atomic-scale circuitry and the physics of electrons, Moore’s law has slowed, and some say it’s over. But a different law, potentially no less consequential for computing’s next half century, has arisen.
I call it Huang’s Law, after Nvidia Corp. chief executive and co-founder Jensen Huang. It describes how the silicon chips that power artificial intelligence more than double in performance every two years. While the increase can be attributed to both hardware and software, its steady progress makes it a unique enabler of everything from autonomous cars, trucks and ships to the face, voice and object recognition in our personal gadgets.
Between November 2012 and this May, performance of Nvidia’s chips increased 317 times for an important class of AI calculations, says Bill Dally, chief scientist and senior vice president of research at Nvidia. On average, in other words, the performance of these chips more than doubled every year, a rate of progress that makes Moore’s Law pale in comparison.
Nvidia’s specialty has long been graphics processing units, or GPUs, which operate efficiently when there are many independent tasks to be done simultaneously. Central processing units, or CPUs, like the kind that Intel specializes in, are on the other hand much less efficient but better at executing a single, serial task very quickly. You can’t chop up every computing process so that it can be efficiently handled by a GPU, but for the ones you can—including many AI applications—you can perform it many times as fast while expending the same power.
Intel was a primary driver of Moore’s Law, but it was hardly the only one. Perpetuating it required tens of thousands of engineers and billions of dollars in investment across hundreds of companies around the globe. Similarly, Nvidia isn’t alone in driving Huang’s Law—and in fact its own type of AI processing might, in some applications, be losing its appeal. That’s probably a major reason it has moved to acquire chip architect Arm Holdings this month, another company key to ongoing improvement in the speed of AI, for $40 billion.
The pace of improvement in AI-specific hardware will make possible a range of applications both utopian and dystopian, from the end of automobile accidents to ubiquitous surveillance. But it’s also enabling, right now, a less fantastical application with huge implications for how we shop and the fate of millions of retail jobs: cashierless checkout.
San Francisco-based tech company Standard recently announced a deal with Circle K to turn some of its stores into “grab and go” experiences in the mold of Amazon.com Inc.’s Amazon Go stores. The three-year-old startup installs cameras throughout stores, then routes video from them to Nvidia-powered systems in the back, which perform tens of trillions of calculations a second. As shoppers grab objects off store shelves, the system tallies it all, and bills them through their mobile devices as they walk out.
For perspective, a system performing this many operations a second is faster than the most powerful supercomputer in the world was as recently as 2012, at least at AI inference tasks.
“Honestly we could do nothing and just wait and Nvidia will drop our prices every year,” says Jordan Fisher, Standard’s founder and CEO.
Another category that Huang’s Law affects is autonomous vehicles. At San Diego-based TuSimple, a rapidly expanding autonomous-trucking startup, the challenge is making a self-driving system that can fit the power and space limitations of a diesel-powered semi-trailer truck. On a typical TuSimple vehicle, that means cramming the entire system, which can’t draw more than 5 kilowatts, into an air-cooled cabinet in the sleeper cab.
Given such power constraints, what matters most is performance per watt. TuSimple is seeing performance double every year on its Nvidia-powered systems, says Xiaodi Hou, the company’s co-founder and chief technology officer.
Similar boosts in performance have been occurring since the mid-2000s in a very different area of AI: our mobile phones.
In 2017, Apple introduced the iPhone 8, which included its Neural Engine. Apple designed the chip specifically to run machine-learning tasks, which are important to many kinds of AI. (Its chip-manufacturing partner is Taiwan Semiconductor Manufacturing Co.)
SHARE YOUR THOUGHTS
What excites you most about the pace of improvement in AI? What scares you? Join the conversation below.
Apple’s decision to make the chip accessible to any app on the phone—as well as the introduction of comparable chips and software on Android phones—allowed for new kinds of AI businesses, says Bruno Fernandez-Ruiz, co-founder and chief technology officer of Nexar, a company that makes AI-powered dashboard cameras for cars. By processing on users’ phones streams of video captured by dashboard cameras, Nexar’s technology can alert drivers to imminent hazards.
Uses of mobile AI are multiplying, in phones and smart devices ranging from dishwashers to door locks to lightbulbs, as well as the millions of sensors making their way to cities, factories and industrial facilities. And chip designer Arm Holdings—whose patents Apple, among many tech companies large and small, licenses for its iPhone chips—is at the center of this revolution.
Over the last three to five years, machine-learning networks have been increasing by orders of magnitude in efficiency, says Dennis Laudick, vice president of marketing in Arm’s machine-learning group. “Now it’s more about making things work in a smaller and smaller environment,” he adds. Arm’s smallest and most energy-sipping chips, tiny enough to be powered by a watch battery, can now enable cameras to recognize objects in real time.
This movement of AI processing from the cloud to the “edge”—that is, on the devices themselves—explains Nvidia’s desire to buy Arm, says Nexar co-founder and CEO Eran Shir. Nvidia has a near monopoly on AI processing in the cloud. But where two years ago, Nexar performed 40% of its data processing in the cloud, Arm-based chips have enabled it to do much more of that processing in mobile devices, and faster, since it doesn’t have to be transmitted over the internet first. Today, the cloud is doing only 15% of the work. In addition, some functions, like a vision-based parking assistant, were not even possible until recently, when the chips in phones became much more capable.
Experts agree that the phenomenon I’ve labeled Huang’s Law is advancing at a blistering pace. However, its exact cadence can be difficult to nail down. The nonprofit Open AI says that, based on a classic AI image-recognition test, performance doubles roughly every year and a half. But it’s been a challenge even agreeing on the definition of “performance.” A consortium of researchers from Google, Baidu, Harvard, Stanford and practically every other major tech company are collaborating on an effort to better and more objectively measure it.
Another caveat for Huang’s Law is that it describes processing power that can’t be thrown at every application. Even in a stereotypically AI-centric task like autonomous driving, most of the code the system is running requires the CPU, says TuSimple’s Mr. Hou. Dr. Dally of Nvidia acknowledges this problem, and says that when engineers radically speed up one part of a calculation, whatever remains that can’t be sped up naturally becomes the bottleneck.
It’s also possible that, like Moore’s Law before it, Huang’s Law will run out of steam. That could happen within a decade, says Steve Roddy, vice president of product marketing in Arm’s machine-learning group. But it could enable much in that relatively short time, from driverless cars to factories and homes that sense and respond to their environments.
1 comments:
HAVE YOU LOST YOUR HARD EARNED FUNDS TO THE WRONG HANDS?
MEET THE PROFESSIONAL HACKERS FOR HIRE TODAY.
[⏱️ 2min Read]
📁 Hiring a professional hacker has been one of the world's most technical valued navigating information.
Regarding:
•RECOVERY OF LOST FUNDS,
•MOBILE PHONE HACKS.(Catching A Cheating Spouse).
•CREDIT SCORE UPGRADE,
•PENETRATION OF WEBSITES AND DATABASE.
VARIOUS HACKTIVITIES via
leroysteckler@gmail.com
High prolific information and Priviledges comes rare as it has been understood that what people do not see, they will never know. The affirmative ability to convey a profitable information Systematically is the majoy factor to success.
Welcome to the Global KOS hacking agency where every request on hacking related issues are fixed within a short period of time.
When you wonder “which hacking company should I hire, the first aspect that should concern you is Sincerity. Secondly, Rapid response. Clearly, you want to embark for services that povides swift response. With our astonishing Hackers, you will be glad to find out that our services Implies precision and action.
This post is definitely for those who are willing to turn their lives around for the better, either financial-wise, relationship-wise or businesses.
The manual Operation of this hackers is to potentially deploy a distinguished hacking techniques to penetrating computers.
If your shoe fits in any of the services below, you will be assigned to a designated professional hacker who is systematically known for operating on a dark web V-link protocol.
Providing value added services to clients as a hacker has been our sustaining goal.
Are you faced with cyber challenges like
💰Recovery of lost funds:✅(BITCOIN INVESTMENTS, BINARY OPTIONS, LOAN AND TRADING FOREX WITH FORGERY BROKERS.) 🖥️I would try my possible best to shortly explain this in particular.
This shocking study points to one harsh reality we all face today. It saddens our mind when client expresses annoyance or dissatisfaction of unethical behaviours of scammers. We have striven to make tenacious efforts to help those who are victims of this flees get off their traumatic feeling of loss. The cyber security technique used to retrieving back the victims stolen funds is the application of a diverse intercall XX breacher software enables you track the data location of a scammer. Extracting every informations on the con database. Every information required by the Global KOS would be used to tracking every transaction, time and location of the scammer. This is acheived using the systematic courier tracking base method•
However, there are secret cyber infiltrators called brokers and doom. The particular system used by this scammers permeates them to manupulate targets digital trading system or monetary fund based accounts. Strictly using a dark web rob to diverting successful trades into a negative outcome. This process bends to thier advantage while investors results to losing massive amount of money. An act of gaining access to an organization or databased system to cause damages. We have worked so hard to ensure our services gives you a 100% trading success to recover all your losses•
📲 HACKING A MOBILE PHONE:.✅ Do you think you are being cheated on? Curious to know what your lover is up to online? This type of hack helps you track every movement of your cheater as we are bent on helping you gain full remote access into the cheater's mobile phone using a Trojan breach cracking system to penetrate their social media platforms like Facebook, whatsapp, snapchat etc.
The company is large enough to provide comprehensive range of services such as•
• EMAIL HACKS📲
• HACKING A FRAUDULENT WEBSITE.📲
• UBER FREE PAYMENT LICENCE.📲
Our strength is based on the ability to help fix cyber problems by bringing together active cyber hacking professionals in the GlobalkOS to work with.
Contact:
✉️Email: theglobalkos@gmail.com
Leroysteckler@gmail.com
®Global KOS™
2020...
Post a Comment