AMD prezintă noi produse CPU și GPU cu performante ridicate în cadrul CES 2018

– Noua generație Ryzen CPU, Noile Ryzen APU, Noile Radeon Vega Mobile GPU disponibile in 2018 –

 

Las Vegas – 2018 CES – January 8, 2018 — În urma succesului înregistrat in 2017 de procesoarele Ryzen™ și plăcile grafice Radeon™, AMD (NASDAQ: AMD) a detaliat astăzi planurile pentru viitoarele produse din categoriile CPU și GPU cu performanțe ridicate în cadrul unui eveniment desfășurat in Las Vegas, inainte de deschiderea CES 2018. Alături de primele procesoare desktop Ryzen™ cu grafică integrată Radeon™ Vega, AMD a prezentat și o gamă completă de procesoare Ryzen™ mobile APU ce includ și noile Ryzen™ PRO și Ryzen™ 3, oferind o primă incursiune asupra performanțelor viitoarei generatii de procesoare fabricate in tehnologie 12nm – 2nd generation Ryzen™ desktop CPU, pregătită pentru lansare in luna Aprilie.

 

Update-uri tehologice

  • Procesoare x86
    • “Zen” core, disponibil acum pentru procesoare Ryzen desktop și mobile, este în producție atât în 14nm dar și în 12nm.
    • Design-ul “Zen 2” este complet și va oferi îmbunătățiri multiple față de primul design “Zen”.
  • Procesoare grafice
    • AMD va extinde familia de produse “Vega” în 2018 cu procesorul grafice Radeon Vega Mobile pentru laptopuri ultrathin.
    • AMD are în plan să introducă primul produs fabricat în 7nm cu un GPU Radeon “Vega” creat special pentru aplicații machine learning.
    • “Navi”, viitoarea architectură grafică va fi produsă în proces tehnologic 7nm

 

Ryzen™ Desktop Processor cu grafică integrată Radeon™ Vega:

Model CPU Cores Threads Max Boost Clock (GHz) Graphics Compute Units[iii] Max GPU Clock (MHz) L2/L3 Cache (MB) cTDP (Watts)
Ryzen™ 5 2400G

with Radeon™ RX Vega11Graphics

4 8 3.9 11 1250 6 45-65W
Ryzen™ 3 2200G

with Radeon™ Vega8 Graphics

4 4 3.7 8 1100 6 45-65W

 

  • 2nd generation Ryzen™ desktop CPU
    • Primul processor AMD’s pe 12nm cu tehnologie Precision Boost 2.
    • Lansare programată in Aprilie 2018.

 

 

Ryzen™ mobile processors with Radeon™ Vega Graphics:

Model CPU Cores Threads Max Clock (GHz) Graphics Compute Unitsiii Max GPU Clock (MHz) L2/L3 Cache (MB) cTDP (Watts)
Ryzen™ 7 2700U with Radeon™ Vega10Graphics 4 8 3.8 10 1300 6 15W Nominal
Ryzen™ 5 2500U with Radeon™ Vega8 Graphics 4 8 3.6 8 1100 6 15W Nominal
Ryzen™ 3 2300U with Radeon™ Vega6 Graphics 4 4 3.4 6 1100 6 15W Nominal
Ryzen™ 3 2200U with Radeon™ Vega3 Graphics 2 4 3.4 3 1000 5 15W Nominal

 

Resurse

 

About AMD

For more than 45 years, AMD has driven innovation in high-performance computing, graphics, and visualization technologies ― the building blocks for gaming, immersive platforms, and the datacenter. Hundreds of millions of consumers, leading Fortune 500 businesses, and cutting-edge scientific research facilities around the world rely on AMD technology daily to improve how they live, work, and play. AMD employees around the world are focused on building great products that push the boundaries of what is possible. For more information about how AMD is enabling today and inspiring tomorrow, visit the AMD (NASDAQ: AMD) websiteblogFacebook and Twitter pages.

 

AMD, the AMD logo, Ryzen, Radeon, Threadripper, and combinations thereof, are trademarks of Advanced Micro Devices, Inc.

[i] Testing by AMD Performance labs as of 12/08/2017 for the Ryzen 5 2400G, and 09/04/2015 for the Core i7-5775c on the following systems. PC manufacturers may vary configurations yielding different results. Results may vary based on driver versions used.

System Configs:  All systems equipped with Samsung 850 PRO 512GB SSD, Windows 10 RS2 operating system. Socket AM4 System: Ryzen 52400G processor, 16B (2 x 8GB) DDR4-2667 RAM, Graphics Driver 1710181048-17.40-171018a-319170E 23.20.768.0 :: 12/08/2017. Socket LGA1150 System: Core i7-5775c processor, 8GB (2x4GB) DDR3-1867 MHz RAM, graphics driver 10.18.15.4256:: 09/04/2015. 3DMark 11 Performance benchmark used to represent graphics power. The following processors achieved the following scores in 3DMark 11 ‘performance’ benchmark v1.0.132.0: The Ryzen 5 2400G: 5042.  Also in v1.0.132.0, .The Core i7-5775c, the Intel desktop processor with the highest Intel desktop graphics performance, achieved 3094. RZG-01

[ii] FreeSync 2 does not require HDR capable monitors; driver can set monitor in native mode when FreeSync 2 supported HDR content is detected. Low-latency HDR only attainable when using a FreeSync 2 API enabled game or video player and content that uses at least 2x the perceivable brightness and color range of sRGB, and using a FreeSync 2 qualified monitor. Based on AMD internal testing as of November 2016. GD-105.

[iii] AMD Radeon™ and FirePro™ GPUs based on the Graphics Core Next architecture consist of multiple discrete execution engines known as a Compute Unit (“CU”). Each CU contains 64 shaders (“Stream Processors”) working together. GD-78

[iv] “Processor for ultrathin notebooks” defined as 15W nominal processor TDP. Based on testing of the AMD Ryzen™ 7 PRO 2700U, AMD Ryzen™ 5 PRO 2500U, and Core i7-8550U mobile processors as of 10/6/2017 Performance based on Cinebench R15 nT and 3DMark® TimeSpy in order of AMD Ryzen™ 7 PRO 2700U and Intel 8550U. Cinebench R15 nT results: 660.5, 498.2; 3DMark TimeSpy results: 978, 350. 50:50 CPU:GPU weighted relative performance with i7 baseline: Intel i7-8650U = (498.2/498.2*.5) + (350/350*.5) = 100%; AMD Ryzen 7 PRO 2700U = (660.5/498.2*.5) + (978/350*.5) = 206%.AMD Ryzen™ 7 PRO 2700U Processor: HP 83C6, AMD Ryzen™ 7 PRO 2700U Processor with Radeon™ Vega 10 Graphics, 8GB Dual Channel (2x4GB) DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.0, 12-Sep-2017. i7-8550U: KBL Woody_KL, i7-8550U with Intel UHD Graphics 620, 8GB Dual Channel (2x4GB) DDR4-2400 RAM, MTFDDAV256TBN – M.2 Sata, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Different configurations and drivers may yield different results. RPM-6

[v] Testing by AMD Performance labs. PCMark 10 Extended is used to simulate productivity performance; the AMD Ryzen™ 7 PRO 2700U scored 3102, while the Intel i7-8550U scored 2533 for a benchmark score comparison of 3102/2533 = 1.22X or 22% faster. AMD Ryzen™ 7 PRO 2700U: HP 83C6, AMD Ryzen™ 7 PRO 2700U with Radeon™ Vega 10 Processor Graphics, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.2, 06-Sep-2017. Core i7-8550U: Acer Spin 5, Core i7-8550U with Intel UHD Graphics 620, 8GB DDR4-2400 RAM, MTFDDAV256TBN – M.2 Sata SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Different configurations and drivers may yield different results. RPM-2

[vi] Testing by AMD Performance labs. 3DMark® 11 Performance is used to simulate system performance; the AMD Ryzen™ 7 PRO 2700U scored 4357, while the Intel i7-8550U scored 1937 for a benchmark score comparison of 4357/1937 = 2.25X or 125% faster and the Intel i7-7500U scored 1743 for benchmark score comparison of 4357/1743 = 2.50X or 150% faster. AMD Ryzen™ 7 PRO 2700U: HP Envy x360 @25W, AMD Ryzen™ 7 PRO 2700U Processor with Radeon™ Vega 10 Graphics, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.2, 06-Sep-2017. Intel Core i7-8550U: Acer Swift 3, Intel Core i7-8550U with Intel UHD Graphics 620 @15W, 16GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Intel Core i7-7500U: HP Envy x360, Intel Core i7-7500U with Intel HD Graphics 620 @15W, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4691 , 01-Jun-2017. Different configurations and drivers may yield different results. RPM-1

[vii] Based on AMD testing as of 10/11/2017. Battery life targets for the AMD Ryzen™ PRO Processor with Radeon™ Graphics assume a fully power-optimized software/hardware solution stack , and the following system configuration: AMD Reference Platform, AMD Ryzen™ 7 PRO 2700U, 2x4GB DDR4-2400, graphics driver 17.30.1025, Windows 10 x64 (1703). Assuming a 50 Wh battery capacity, MobileMark 14 battery life for the Ryzen 7 PRO 2700U playback is estimated at 13.5 hours. Different configurations and drivers may yield different results. RPM-5

[viii] AMD SenseMI technology is built into all Ryzen processors, but specific features and their enablement may vary by product and platform. Learn more athttp://www.amd.com/en/technologies/sense-mi. mXFR enablement must meet AMD requirements. Not enabled on all notebook designs. Check with manufacturer to confirm “amplified mXFR performance” support.

[ix] mXFR enablement must meet AMD requirements. Not enabled on all notebook designs. Check with manufacturer to confirm “amplified mXFR performance” support.

[i] Testing by AMD Performance labs as of 12/08/2017 for the Ryzen 5 2400G, and 09/04/2015 for the Core i7-5775c on the following systems. PC manufacturers may vary configurations yielding different results. Results may vary based on driver versions used.

System Configs:  All systems equipped with Samsung 850 PRO 512GB SSD, Windows 10 RS2 operating system. Socket AM4 System: Ryzen 52400G processor, 16B (2 x 8GB) DDR4-2667 RAM, Graphics Driver 1710181048-17.40-171018a-319170E 23.20.768.0 :: 12/08/2017. Socket LGA1150 System: Core i7-5775c processor, 8GB (2x4GB) DDR3-1867 MHz RAM, graphics driver 10.18.15.4256:: 09/04/2015. 3DMark 11 Performance benchmark used to represent graphics power. The following processors achieved the following scores in 3DMark 11 ‘performance’ benchmark v1.0.132.0: The Ryzen 5 2400G: 5042.  Also in v1.0.132.0, .The Core i7-5775c, the Intel desktop processor with the highest Intel desktop graphics performance, achieved 3094. RZG-01

[ii] FreeSync 2 does not require HDR capable monitors; driver can set monitor in native mode when FreeSync 2 supported HDR content is detected. Low-latency HDR only attainable when using a FreeSync 2 API enabled game or video player and content that uses at least 2x the perceivable brightness and color range of sRGB, and using a FreeSync 2 qualified monitor. Based on AMD internal testing as of November 2016. GD-105.

[iii] AMD Radeon™ and FirePro™ GPUs based on the Graphics Core Next architecture consist of multiple discrete execution engines known as a Compute Unit (“CU”). Each CU contains 64 shaders (“Stream Processors”) working together. GD-78

[iv] “Processor for ultrathin notebooks” defined as 15W nominal processor TDP. Based on testing of the AMD Ryzen™ 7 PRO 2700U, AMD Ryzen™ 5 PRO 2500U, and Core i7-8550U mobile processors as of 10/6/2017 Performance based on Cinebench R15 nT and 3DMark TimeSpy in order of AMD Ryzen™ 7 PRO 2700U and Intel 8550U. Cinebench R15 nT results: 660.5, 498.2; 3DMark TimeSpy results: 978, 350. 50:50 CPU:GPU weighted relative performance with i7 baseline: Intel i7-8650U = (498.2/498.2*.5) + (350/350*.5) = 100%; AMD Ryzen 7 PRO 2700U = (660.5/498.2*.5) + (978/350*.5) = 206%.AMD Ryzen™ 7 PRO 2700U Processor: HP 83C6, AMD Ryzen™ 7 PRO 2700U Processor with Radeon™ Vega 10 Graphics, 8GB Dual Channel (2x4GB) DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.0, 12-Sep-2017. i7-8550U: KBL Woody_KL, i7-8550U with Intel UHD Graphics 620, 8GB Dual Channel (2x4GB) DDR4-2400 RAM, MTFDDAV256TBN – M.2 Sata, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Different configurations and drivers may yield different results. RPM-6

[v] Testing by AMD Performance labs. PCMark 10 Extended is used to simulate productivity performance; the AMD Ryzen™ 7 PRO 2700U scored 3102, while the Intel i7-8550U scored 2533 for a benchmark score comparison of 3102/2533 = 1.22X or 22% faster. AMD Ryzen™ 7 PRO 2700U: HP 83C6, AMD Ryzen™ 7 PRO 2700U with Radeon™ Vega 10 Processor Graphics, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.2, 06-Sep-2017. Core i7-8550U: Acer Spin 5, Core i7-8550U with Intel UHD Graphics 620, 8GB DDR4-2400 RAM, MTFDDAV256TBN – M.2 Sata SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Different configurations and drivers may yield different results. RPM-2

[vi] Testing by AMD Performance labs. 3DMark 11 Performance is used to simulate system performance; the AMD Ryzen™ 7 PRO 2700U scored 4357, while the Intel i7-8550U scored 1937 for a benchmark score comparison of 4357/1937 = 2.25X or 125% faster and the Intel i7-7500U scored 1743 for benchmark score comparison of 4357/1743 = 2.50X or 150% faster. AMD Ryzen™ 7 PRO 2700U: HP Envy x360 @25W, AMD Ryzen™ 7 PRO 2700U Processor with Radeon™ Vega 10 Graphics, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.2, 06-Sep-2017. Intel Core i7-8550U: Acer Swift 3, Intel Core i7-8550U with Intel UHD Graphics 620 @15W, 16GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Intel Core i7-7500U: HP Envy x360, Intel Core i7-7500U with Intel HD Graphics 620 @15W, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4691 , 01-Jun-2017. Different configurations and drivers may yield different results. RPM-1

[vii] Based on AMD testing as of 10/11/2017. Battery life targets for the AMD Ryzen™ PRO Processor with Radeon™ Graphics assume a fully power-optimized software/hardware solution stack , and the following system configuration: AMD Reference Platform, AMD Ryzen™ 7 PRO 2700U, 2x4GB DDR4-2400, graphics driver 17.30.1025, Windows 10 x64 (1703). Assuming a 50 Wh battery capacity, MobileMark 14 battery life for the Ryzen 7 PRO 2700U playback is estimated at 13.5 hours. Different configurations and drivers may yield different results. RPM-5

[viii] AMD SenseMI technology is built into all Ryzen processors, but specific features and their enablement may vary by product and platform. Learn more at http://www.amd.com/en/technologies/sense-mi. mXFR enablement must meet AMD requirements. Not enabled on all notebook designs. Check with manufacturer to confirm “amplified mXFR performance” support.

[ix] mXFR enablement must meet AMD requirements. Not enabled on all notebook designs. Check with manufacturer to confirm “amplified mXFR performance” support.

 

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