AMDâs multiple successful launches of its Ryzen and EPYC processors last year mark the companyâs return to competitive footing versus its archrival Intel in X86 processor solutions, and a resoundingly positive market reception for its new Zen architecture that underpins its new families of CPUs. From the desktop to notebooks and data center servers, AMDâs Ryzen and EPYC families offer compelling alternatives versus Intelâs bread and butter Core and Xeon processor families. Today, however, AMD has announced the next evolution for its Ryzen and EPYC processors as embedded solutions. From core networking and storage applications, to edge usage models in a wide variety of markets - like Military and Aerospace, Casino and Gaming, Retail, Medical and Industrial â AMD seems positioned well to bring the Zen architecture to many more applications beyond just PCs and Servers.
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In a release this morning, AMD noted, âToday we extend the high-performance x86 âZenâ architecture from PCs, laptops and the datacenter to networking, storage and industrial solutions with the AMD EPYC Embedded and AMD Ryzen Embedded product families, delivering transformative performance from the core to the edge,â said Scott Aylor, corporate vice president and general manager, Datacenter and Embedded Solutions Business Group, AMD. âAMD EPYC Embedded 3000 raises the bar in performance for next-generation NFV, SDN and networked storage applications. AMD Ryzen Embedded V1000 brings together âZenâ core architecture and âVegaâ graphics architecture to deliver brilliant graphics in a single chip that provides space and power savings in medical imaging, gaming and industrial systems. With these high-performance products, AMD is ushering in a new age for embedded processors.â
Ryzen Embedded V1000 is especially interesting for a wide variety of applications since the family brings with it on-chip Vega graphics, whereas EPYC Embedded 3000 brings many-core solutions with up to 16 core and 32-thread chips that sport a fat 32MB of L3 cache. Hereâs what both families look like from speeds, feeds, core-count and power standpointâ¦
Notable features of AMD EPYC Embedded are its wealth of PCI Express connectivity options with up to 64 PCIe Gen 3 lanes, while it also maintains the up to quad-channel memory configuration of traditional EPYC server-class chips. These features give the EPYC Embedded family a considerable advantage over Intel Xeon solutions where IO connectivity and bandwidth can be limiting factors. AMD is also claiming up to 50% more performance versus Intelâs quad-core and octal-core Xeon D family, though that performance gap will close when compared to newer Intel Skylake-based Xeon D-2000 series solutions that range up to 18-core offerings. At the high-end, AMD is claiming significantly better cost efficiency and performance-per-dollar metrics, with an EPYC Embedded 3415 16-core chip listing for $880 versus Intelâs Xeon D-2191 18-core that lists for approximately $2400
With Ryzen Embedded V1000, AMD is comparing its quad-core and dual-core solutions versus Intel 8th and 7th Gen Core series 15 Watt and 45 Watt chips. Here, Sunnyvale claims up to 46% better multi-threaded throughput and dramatically faster graphics performance on its integrated Vega M core at up to 3x over what Intel can deliver.
Both families of chips also have arguably more advanced security features over Intel offerings as well, with Secure Memory Encryption, Secure Encrypted Virtualization, and Secure Boot technologies on board. Other than specific A/B comparisons, official pricing and availability for all chips has not been disclosed at this time, though several ecosystem partners from industrial distributors to end customers deploying embedded Ryzen and EPYC solutions are noted in the release, in what appears to be near-term deployments.
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AMDâs multiple successful launches of its Ryzen and EPYC processors last year mark the companyâs return to competitive footing versus its archrival Intel in X86 processor solutions, and a resoundingly positive market reception for its new Zen architecture that underpins its new families of CPUs. From the desktop to notebooks and data center servers, AMDâs Ryzen and EPYC families offer compelling alternatives versus Intelâs bread and butter Core and Xeon processor families. Today, however, AMD has announced the next evolution for its Ryzen and EPYC processors as embedded solutions. From core networking and storage applications, to edge usage models in a wide variety of markets - like Military and Aerospace, Casino and Gaming, Retail, Medical and Industrial â AMD seems positioned well to bring the Zen architecture to many more applications beyond just PCs and Servers.
In a release this morning, AMD noted, âToday we extend the high-performance x86 âZenâ architecture from PCs, laptops and the datacenter to networking, storage and industrial solutions with the AMD EPYC Embedded and AMD Ryzen Embedded product families, delivering transformative performance from the core to the edge,â said Scott Aylor, corporate vice president and general manager, Datacenter and Embedded Solutions Business Group, AMD. âAMD EPYC Embedded 3000 raises the bar in performance for next-generation NFV, SDN and networked storage applications. AMD Ryzen Embedded V1000 brings together âZenâ core architecture and âVegaâ graphics architecture to deliver brilliant graphics in a single chip that provides space and power savings in medical imaging, gaming and industrial systems. With these high-performance products, AMD is ushering in a new age for embedded processors.â
Ryzen Embedded V1000 is especially interesting for a wide variety of applications since the family brings with it on-chip Vega graphics, whereas EPYC Embedded 3000 brings many-core solutions with up to 16 core and 32-thread chips that sport a fat 32MB of L3 cache. Hereâs what both families look like from speeds, feeds, core-count and power standpointâ¦
Notable features of AMD EPYC Embedded are its wealth of PCI Express connectivity options with up to 64 PCIe Gen 3 lanes, while it also maintains the up to quad-channel memory configuration of traditional EPYC server-class chips. These features give the EPYC Embedded family a considerable advantage over Intel Xeon solutions where IO connectivity and bandwidth can be limiting factors. Outlook hangs loading profile 2010. AMD is also claiming up to 50% more performance versus Intelâs quad-core and octal-core Xeon D family, though that performance gap will close when compared to newer Intel Skylake-based Xeon D-2000 series solutions that range up to 18-core offerings. At the high-end, AMD is claiming significantly better cost efficiency and performance-per-dollar metrics, with an EPYC Embedded 3415 16-core chip listing for $880 versus Intelâs Xeon D-2191 18-core that lists for approximately $2400
With Ryzen Embedded V1000, AMD is comparing its quad-core and dual-core solutions versus Intel 8th and 7th Gen Core series 15 Watt and 45 Watt chips. Here, Sunnyvale claims up to 46% better multi-threaded throughput and dramatically faster graphics performance on its integrated Vega M core at up to 3x over what Intel can deliver.
Both families of chips also have arguably more advanced security features over Intel offerings as well, with Secure Memory Encryption, Secure Encrypted Virtualization, and Secure Boot technologies on board. Other than specific A/B comparisons, official pricing and availability for all chips has not been disclosed at this time, though several ecosystem partners from industrial distributors to end customers deploying embedded Ryzen and EPYC solutions are noted in the release, in what appears to be near-term deployments.
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Technical Specifications Read the product briefEssentials
Mobile
i7-8809G
Announced
Q1'18
14 nm
Performance
4
8
3.10 GHz
4.20 GHz
8 MB
8 GT/s DMI
Supplemental Information
No
100W Package TDP
Memory Specifications
64 GB
DDR4-2400
2
Intel Embedded Cpu
37.5 GB/s
No
Radeon⢠RX Vega M GH Graphics
1190 MHz
1063 MHz
24
204.8 GB/s
1024 bit
eDP 1.4, DP 1.4 w/ HDR, HDMI 2.0b, DVI
Yes, at 60Hz
4096 x 2160@60Hz
4096 x 2160@60Hz
4096 x 2160@60Hz
12
Yes
4.5
Yes
Yes, 10-bit
6
Graphics Specifications
Intel® HD Graphics 630
350 MHz
1.10 GHz
64 GB
eDP 1.4, DP 1.2, HDMI 1.4, DVI
Yes, at 60Hz
4096 x 2160 @30Hz
4096 x 2160 @60Hz
4096 x 2160 @60Hz
12
4.4
Yes
Yes
Yes
Yes
3
Expansion Options
3.0
Up to 1x8, 2x4
8
Package Specifications
BGA2270
1
100°C
31mm x 58.5mm
See MDDS
Advanced Technologies
Yes
2.0
No
Yes
Yes
Intel® Virtualization Technology for Directed I/O (VT-d) â¡
Yes
No
Yes
64-bit
Intel® SSE4.1, Intel® SSE4.2, Intel® AVX2
Yes
Yes
Yes
Yes
Yes
Yes
No
Yes
Security & Reliability
Yes
Yes
Yes with Intel® ME
Intel® Memory Protection Extensions (Intel® MPX)
Yes
No
Yes
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