In an IDC interview Intel’s data center boss said that Nvidia gained an early lead in the market for accelerated HPC workloads when it positioned its GPUs for that task several years ago. However there is a perception that processors used for machine learning today are GPUs like those from Nvidia and AMD.

Bryant was a bit miffed when she was asked how Intel can compete in this market without a GPU. She said that the general purpose GPU, or GPGPU was just another type of accelerator and not one that’s uniquely suited to machine learning.
It is better to look at Knights Landing which is a coprocessor, but it’s an accelerator for floating point operations, and that’s what a GPGPU too.

She said that since the release of the first Xeon Phi in 2014, Intel now clawed back 33 percent of the market for HPC workloads that use a floating point accelerator.

“So we’ve won share against Nvidia, and we’ll continue to win share,” she said.

She said that Intel’s share of the machine learning business may be much smaller, but the market is still young.

“Less than one percent of all the servers that shipped last year were applied to machine learning, so to hear Nvidia is beating us in a market that barely exists yet makes me a little crazy,” she says.

Intel will continue to evolve Xeon Phi to make it better at machine learning tasks. She said that there are two aspects to machine learning – training the algorithmic models, and applying those models to the real world in front-end applications. Intel’s FPGAs and its Xeon processors mean Intel has both sides of the equation covered.

But Nvidia’s GPUs are harder for programmers to work with which could give Intel an edge as ordinary businesses need to adopt machine learning. Knights Landing is “self-booting,” which means customers don’t need to pair it with a regular Xeon to boot an OS.
However Intel’s newest Xeon Phi has a floating point performance of about 3 teraflops, which is a little slow compared to the five teraflops for Nvidia’s new GP100.

Courtesy-Fud

Our well-placed sources are confident that the PC group will be the hardest hit. This is all because the PC market has stopped growing and Intel has to find its way to new markets to supplement loss of this business.

Latest research data from IDC indicates that in 2016 PC market will decline from 275.8 million units in 2015 to 260.8 million units in 2016 and the current projections for 2017 show the PC market slightly decreasing to 257.9 million units. At its peak PC market was at 364.0 million units, but this was in 2011 when things were rosier, kids were polite to their parents, and rock stars played decent music. These times are clearly behind us and Intel knows it.

The PC group downsize is being supervised by Dr. Venkata “Murthy” Renduchintala who is Intel’s number two. He is the bloke who was paid $25 million dollars to defect from Qualcomm. Murthy has already done a high level clean up at PC client group and is believed to be thinking about dusting the top of the corporate bookshelf next.

Another team which will be pummeled is Rene James’s old software outfit. People from software services and the security division formerly known as McAfee are expected to mostly go the same way as the artist formerly known as Prince.

Murthy’s also wants to get Intel to the right course with IoT market. Marketing for that area is expected to grow from $655.8 billion in 2014 to $1.7 trillion in 2020. Intel wants the piece of that cake, and perhaps a few tea and biscuits to go with it and it will be interesting to look the fight in this promising land market.

There is still no killer app to help the IoT market which defines it. IoT right now is nothing and everything.

Courtesy-Fud

According to Intel the drivers provide beta support for the Vulkan 1.0 API for 6th Generation Intel Core and related processors.

Vulkan 1.0 was introduced last month by industry consortium Khronos Group and is supposed to replace the OpenGL, which was first introduced in 1991 by Silicon Graphics. Vulkan is supposed to exploit powerful GPUs and multicore CPUs, but it is still a long way behind Direct X 12 – at least in its beta condition.

With Intel’s drivers developers will be able to exploit features on Intel GPUs, like the Iris Pro, that are integrated in chips alongside CPUs. Intel’s rival AMD has already released Vulkan drivers for Radeon graphics processors.

Vulkan 1.0 APIs will also work with Linux-based PCs like Steam Machines. Intel has made available open-source Vulkan drivers for Linux PCs running on chips code-named Broadwell and Skylake.

Courtesy-Fud

Guru 3D found a slide which suggest that Chipzilla will not be sticking to its traditional “tick-tock model.” To be fair Intel has been using the 14nm node for two generations so far – Broadwell and Skylake. Kaby Lake processor architecture that is due later this year, will also use 14nm .

The slide tells us pretty much what we expected. The first processor family to be manufactured on a 10nm node will be Cannonlake, expected to launch in the year 2017. The following year, Intel will reportedly launch Icelake processors, again using the same 10nm node. Icelake will be succeeded by Tigerlake in 2019, the third generation of Intel processors using a 10nm silicon fab process. The codename for Tigerlake’s successor is unknown.  When it comes out in 2020 it will use 5nm.

Courtesy-Fud