Intel’s new chip puts a teraflop in your desktop. Here’s what that means

It’s as fast as a turn-of-the-century supercomputer.

Intel chip

Intel’s Core i9 Extreme Edition processor costs about $2,000.

Intel Corporation

Earlier this week in Taipei, Intel announced the most powerful desktop chip for consumers that it has ever sold. With 18 cores and a price tag of $1,999, the processor is known as a teraflop chip, meaning it can accomplish a trillion computational operations every second.

Called the Core i9 Extreme Edition processor, the chip is not for the average computer user, someone who just wants to check email, read the news, and watch “House of Cards.” Instead, the processor is for people who want to do extreme stuff, like playing a game in 4K while simultaneously livestreaming it—oh, and also doing two other things at the same time. In a cute turn of phrase, Intel calls this “mega-tasking.”

This is Intel’s first time making a consumer desktop chip that breaks the teraflop barrier, and Gregory Bryant, an Intel senior vice president, calls it “by far the most extreme desktop processor ever introduced.”

From megaflops to teraflops to petaflops

To get a sense of what a teraflop can do, it helps to know what FLOPS, a unit of computing speed, are. FLOPS stands for floating-point operation per second; one floating-point operation means taking two numbers that have a decimal point in them and doing some math on them, like multiplying them together. One teraflop is a trillion floating-point operations every second.

“There was a time, when if someone said ‘teraflop,’” says Brandon Lucia, an assistant professor of electrical and computer engineering at Carnegie Mellon University, “you would expect them to be talking about a supercomputer that had many, many processor chips.”

In fact, if you wind back the clock to 1976, the Cray-1 supercomputer could do just 160 megaflops (that’s a million FLOPS), meaning this singular new Intel chip is about 6,000 times as fast as that machine, says Steve Scott, a senior vice president and chief technology officer at Cray, Inc.


The Cray-1.

Cray Inc

In the late 1990s and 2000s, supercomputers were still measured in teraflops, and an important machine called ASCI Red at Sandia National Laboratory reigned as the fastest machine in the world from 1997 to 2000. It could do over a teraflop.

Today, these powerful machines are measured in petaflops (that’s a thousand trillion FLOPS). As just one example, Mira, the supercomputer at Argonne National Laboratory, is a 10-petaflop machine that has been used to model complex scenarios like a potential Ebola outbreak in the United States.

“Supercomputing technologies have now filtered down into the consumer space,” Scott says. “If you can build a petaflop system for many millions of dollars, that means you can build 10 teraflop systems that companies or smaller organizations can afford to buy, or one teraflop systems that individual consumers can afford to buy.”

When a chip like the new Intel processor is doing floating-point operations, the math is not done just for the sake of doing math—it’s the computation powering the software you’re running.

“This isn’t just to make the computer into a calculator,” Lucia, of Carnegie Mellon, says. “Those floating point numbers represent the kind of important workloads that we care about, whether it’s video editing or virtual-reality environments.”

In short: a powerful chip like this can make virtual reality, gaming, streaming 4K video, or video editing all go faster and more smoothly. A PlayStation 4 has a graphics processing unit that can do over a teraflop, if you’re keeping score at home.


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