Embedded versions of AMD's EPYC and Ryzen processors have landed, taking the Zen architecture to new places, filling out the company's processor portfolio, and putting even more pressure on Intel.

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The past year or so has been a busy time for AMD. Since the launch of Zen in August 2016, we've seen the launch of: Ryzen in December 2016; EPYC and Radeon Vega graphics in June 2017; Ryzen Threadripper in August 2017; the first Ryzen with Vega graphics mobile parts in October 2017; and Ryzen with Vega desktop parts earlier this month.

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And the momentum continues into 2018.

While AMD has the desktop, laptop, and the server market well covered with this broad range of silicon, there are gaps. And it's these gaps that the Sunnyvale chipmaker is filling in with embedded versions of its EPYC and Ryzen processors. These parts expand these chips into diverse areas such as casino and arcade gaming, thin client, 5G cellular, medical imaging, IoT gateways, and router.

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EPYC Embedded

Let's start with the new embedded EPYC parts: The EPYC 3000-series parts. And the highlights are impressive:

All this in integrated into a SoC package, which means no chipset, and has built-in Secure Memory Encryption (according to AMD, this only adds some 1- to 2-percent overhead), Secure Encrypted Virtualization, and Hardware Root-of-Trust.

This series ranges from low-power 4-core/4-thread parts with a TDP of 35 Watts, to monster 16-core/32-thread 100 Watt TDP aimed at some serious heavy data lifting.

The complete line up of EPYC 3000-series processors is very strong, hitting all the wave crests of price and performance points:

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When the EPYC Embedded 3451 and 3251 are pitted against Intel's Xeon D-1587, and D-1540 (both older Broadwell parts, with Intel having rejigged its line up over the past few weeks), the AMD parts offers up to 50 percent more performance and up to 2.7 times the performance per dollar.

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Even when pitted against Intel's newer Skylake chips, when embedded EPYC parts are compared to Intel hardware -- such as the EPYC Embedded 3451 vs. Xeon D-2191 ($800 vs. $2,407) or the EPYC Embedded 3301 vs. Xeon D-2152IT ($450 vs. $438) -- the AMD parts consistently offer more, in the form of cores, cache, memory capacity, memory speed, PCIe lanes, and more 10GB Ethernet either for the same amount of money, or a lot less.

AMD continues with the familiar drumbeat: More scale. More expansion. More memory bandwidth.

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The embedded EPYC parts support a broad range of operating systems - RedHat's RHEL, Canonical's Ubuntu, Mentor's MEL, Wind's WindRiver, and Yocto Project's Yocto.

Ryzen Embedded

Next up, the embedded Ryzen silicon: The Ryzen V1000-series APU.

Here are the highlights:

Up to 4-core/8-thread 14-nanometer "Zen" cores with Radeon Vega graphics

Dual-channel 64-bit DDR4

Socket FP5

Up to 3.6 TFLOPS performance

2x the performance compared to previous generation AMD R-series Embedded SoC

Support for four 4K displays, along with 5K support

26 percent smaller footprint than corresponding Intel silicon packages

4K/60fps H.265 encode and decode and VP9 decode support

Up to two 10Gb Ethernet ports

HDMI 2.0b, eDP1.4 and DP1.4 support

12 to 54 Watt TDP range

Product availability for 10 years

These APUs also feature Secure Memory Encryption, Secure Encrypted Virtualization, and Secure Boot.

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In benchmark tests (Cinebench nT and 3DMark 11 P) compared to equivalent Intel hardware, the V1000-series parts offer up to 46 percent better multi-threaded performance (although at the upper end the difference between the V1807B is pretty similar to Intel's i7-7700HQ) and up to three-times better GPU performance.

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The Ryzen Embedded V1000-series chips support the following platforms: Microsoft's Windows 10, Canonical's Ubuntu, Mentor's MEL, Wind's WindRiver Linux, and Yocto Project's Yocto.

The other day I had the chance to speak to Andrej Dvorak, CTO of Esaote, a maker of diagnostic ultrasound systems, and one of AMD's partners that has adopted embedded Ryzen chips to find out what attracted the company to the new silicon. Along with having a deep and infectious knowledge of medical devices, Dvorak had no problems rattling off a long and diverse list of reasons why Esaote turned to AMD for Ryzen Embedded V1000 APUs to power its new MyLab 9 platform:

High performance for real-time processing of imaging, taking advantage of the rapid hardware innovation seen in the consumer space

Lots of performance, with plenty of overhead for new features

For smaller devices, more power, while for larger devices, the ability to make cooler, quieter machines

Rapid boot times -- down from minutes to seconds (vital for machines that need to be moved around and put into use rapidly)

A software designed architecture means greater flexible and the ability to be more responsive to market needs

Future proofing, with the long 10 years lifecycle being of vital importance for medical customers

"As one of the top global providers of diagnostic ultrasound systems, it is imperative that Esaote partners with technology leaders that support the sophisticated signal and image processing needs as well as graphics display capabilities that doctors and technicians rely on to make critical diagnostic decisions," said Dvorak. "Not only does the new AMD Ryzen Embedded V1000 enable us to deliver world-class performance and crystal clear diagnostic images, the degree of integration allows us to develop more compact ultrasound systems that pack the performance punch of much larger machines, improving TCO for our customers and a better experience for patients, doctors and medical staff."

There are no shortage of other customers and partners leveraging embedded Ryzen parts, ranging from Seagate and ASRock to Asus and Sintrones.

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