Intel Working on New Discrete GPUs, Codenamed Arctic Sound

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When Intel hired Raja Koduri last year, it was clear the company was serious about graphics. Koduri has spent much of his professional career in graphics for AMD and ATI; bringing him on-board was a signal that Intel intended to invest into GPUs more aggressively than it had done before.

Intel’s Arctic Sound reportedly began life as a video streaming app processor intended for data centers before being repurposed by Raja as a full-on discrete GPU.

We’ve heard rumors of at least two solutions — a discrete GPU and a new integrated part. This last suggests that Intel’s partnership with AMD could be short-lived and that it may have served a near-term need for both companies. Intel wants to demonstrate it’s serious about building graphics solutions; AMD wanted more GPU sales.

Why Intel Wants to Build a GPU

Intel has good reason to be interested in the GPU market. When Nvidia invented CUDA nearly ten years ago, it wasn’t clear if programmable GPUs would actually make a meaningful dent in a very CPU-centric industry. Today, GPUs dominate in many fields, from traditional applications like 3D and video rendering, to machine learning, artificial intelligence, and self-driving cars. While some companies, like Google, build their own custom TensorFlow processing units, most firms can’t afford these kinds of costs.

Intel has redefined its own focus to emphasize the cloud, exascale computing, and data centers. Having a GPU in-house strengthens all of those pillars, while simultaneously giving the company an opportunity to compete for a larger share of the profits in desktops and notebooks that ship with an attached GPU. With CPU performance increasing only marginally year-on-year, investing in GPUs also would give Intel a more exciting topic to talk about.

Can Intel Build a GPU?

Yes. That’s going to be a somewhat controversial statement, given Intel’s less-than-illustrious historic performance in this market. The original Intel i740 was supposed to showcase the performance of AGP, but the card offered abysmal performance and was withdrawn from the market in August 1999. Intel’s next discrete GPU, codenamed Larrabee, was an attempt to create a hybrid CPU-GPU that would’ve been programmed in x86 and would’ve used very little specialized graphics hardware. Larrabee never even made it to market; the chip was instead repurposed as Knights Ferry, a prototype MIC (Many Integrated Core) architecture.

Slide_convergence

This is what Larrabee was supposed to deliver. It didn’t quite play out that way.

Then, of course, there’s the legion of terrible Intel integrated GPUs. Intel’s first decent integrated GPU was Sandy Bridge in 2011. From 2011-2015, each generation of Intel GPU improved markedly on the latter. Post-Skylake, however, Intel has marched in place. The company has never fielded a competitive desktop GPU and its integrated solutions have never lit the world on fire, either. It’s easy to look at the company’s past and think Intel simply can’t pull off a GPU.

That, however, would be a mistake. Intel’s unwillingness to commit to winning a market has unquestionably harmed it before. But if Chipzilla is actually throwing its hat into the GPU ring, it’s got the cash reserves to hire engineers and the expertise to build its own parts. If Intel is serious about entering this market and is willing to play a long game, it could emerge as a potent competitor to Nvidia and AMD. Intel can afford to spin multiple parts for multiple market segments, it can pay to jump-start a GPU design from scratch, and it can tailor its own GPUs to match its manufacturing nodes.

There’s no guarantee of an Intel victory in this business. But it’s definitely got the chops to contend for the title.

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