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Difference between revisions of "amd/cores/naples"
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'''Naples''' is the name of the core for [[AMD]]'s highest-performance servers [[multiprocessors]] based on the {{amd|Zen|l=arch}} microarchitecture. Naples processors are fabricated on GlobalFoundries [[14 nm process]].
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'''Naples''' is the name of the cores for [[AMD]]'s highest-performance servers [[multiprocessors]] based on the {{amd|Zen|l=arch}} microarchitecture. Naples processors are fabricated on GlobalFoundries [[14 nm process]].
  
 
Naples processors are set to be introduced in the 2nd quarter of 2017.
 
Naples processors are set to be introduced in the 2nd quarter of 2017.
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== Overview ==
 
== Overview ==
 
[[File:amd naples 2 sock.jpg|right|thumb]]
 
[[File:amd naples 2 sock.jpg|right|thumb]]
AMD Naples [[system on chips]] are a series of high-performance [[multiprocessors]] designed by [[AMD]] based on their {{amd|Zen|l=arch}} microarchitecture. Naples SoCs support both single and 2-way multiprocessing with up to a maximum of 32 cores (and 64 threads) per processor for a total of up to 64 cores (and 128 threads) for a 2-way MP system. Communication between the two chips is done via AMD's {{amd|Infinity Fabric}} protocol over 64 [[PCIe]] lanes. Sporting 128 PCIe lanes in total, this leaves 64 additional lanes for the rest of the system.
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AMD Naples [[system on chips]] are a series of high-performance [[multiprocessors]] designed by [[AMD]] based on their {{amd|Zen|l=arch}} microarchitecture. Naples SoCs support both single and 2-way multiprocessing with up to a maximum of 32 cores (and 64 threads) per processor for a total of up to 64 cores (and 128 threads) for a 2-way MP system. Those SoCs sports 128 PCIe lanes each, however half of them are lost when in 2-way MP (leaving the system with the same overall lanes count as a single socket solution). Communication between the two chips is done via AMD's {{amd|Infinity Fabric}} protocol over the 64 [[PCIe]] reserved lanes.
  
 
=== Common Features ===
 
=== Common Features ===

Revision as of 19:16, 8 March 2017

Edit Values
Naples
amd naples.png
General Info
DesignerAMD
ManufacturerGlobalFoundries
IntroductionMarch 7, 2017 (announced)
Microarchitecture
ISAx86-64
MicroarchitectureZen
Word Size
8 octets
16 nibbles
64 bit
Process14 nm
0.014 μm
1.4e-5 mm
TechnologyCMOS

Naples is the name of the cores for AMD's highest-performance servers multiprocessors based on the Zen microarchitecture. Naples processors are fabricated on GlobalFoundries 14 nm process.

Naples processors are set to be introduced in the 2nd quarter of 2017.

Overview

amd naples 2 sock.jpg

AMD Naples system on chips are a series of high-performance multiprocessors designed by AMD based on their Zen microarchitecture. Naples SoCs support both single and 2-way multiprocessing with up to a maximum of 32 cores (and 64 threads) per processor for a total of up to 64 cores (and 128 threads) for a 2-way MP system. Those SoCs sports 128 PCIe lanes each, however half of them are lost when in 2-way MP (leaving the system with the same overall lanes count as a single socket solution). Communication between the two chips is done via AMD's Infinity Fabric protocol over the 64 PCIe reserved lanes.

Common Features

All Naples processors have the following:


Summit Ridge Processors

 List of Naples Processors
 ProcessorFeatures
ModelFamilyPriceProcessLaunchedCTFreqTurboTDPMax MemAMD-VXFR
7251EPYC$ 574.00
€ 516.60
£ 464.94
¥ 59,311.42
14 nm
0.014 μm
1.4e-5 mm
20 June 20178162.1 GHz
2,100 MHz
2,100,000 kHz
2.9 GHz
2,900 MHz
2,900,000 kHz
120 W
120,000 mW
0.161 hp
0.12 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7261EPYC14 nm
0.014 μm
1.4e-5 mm
14 June 20188162.5 GHz
2,500 MHz
2,500,000 kHz
2.9 GHz
2,900 MHz
2,900,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7281EPYC$ 650.00
€ 585.00
£ 526.50
¥ 67,164.50
14 nm
0.014 μm
1.4e-5 mm
20 June 201716322.1 GHz
2,100 MHz
2,100,000 kHz
2.7 GHz
2,700 MHz
2,700,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7301EPYC$ 825.00
€ 742.50
£ 668.25
¥ 85,247.25
14 nm
0.014 μm
1.4e-5 mm
20 June 201716322.2 GHz
2,200 MHz
2,200,000 kHz
2.7 GHz
2,700 MHz
2,700,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7351EPYC$ 1,100.00
€ 990.00
£ 891.00
¥ 113,663.00
14 nm
0.014 μm
1.4e-5 mm
20 June 201716322.4 GHz
2,400 MHz
2,400,000 kHz
2.9 GHz
2,900 MHz
2,900,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7351PEPYC$ 750.00
€ 675.00
£ 607.50
¥ 77,497.50
14 nm
0.014 μm
1.4e-5 mm
20 June 201716322.4 GHz
2,400 MHz
2,400,000 kHz
2.9 GHz
2,900 MHz
2,900,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7371EPYC$ 1,550.00
€ 1,395.00
£ 1,255.50
¥ 160,161.50
14 nm
0.014 μm
1.4e-5 mm
201916323.1 GHz
3,100 MHz
3,100,000 kHz
3.8 GHz
3,800 MHz
3,800,000 kHz
200 W
200,000 mW
0.268 hp
0.2 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7401EPYC$ 1,850.00
€ 1,665.00
£ 1,498.50
¥ 191,160.50
14 nm
0.014 μm
1.4e-5 mm
20 June 201724482 GHz
2,000 MHz
2,000,000 kHz
3 GHz
3,000 MHz
3,000,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7401PEPYC$ 1,075.00
€ 967.50
£ 870.75
¥ 111,079.75
14 nm
0.014 μm
1.4e-5 mm
20 June 201724482 GHz
2,000 MHz
2,000,000 kHz
3 GHz
3,000 MHz
3,000,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7451EPYC$ 2,400.00
€ 2,160.00
£ 1,944.00
¥ 247,992.00
14 nm
0.014 μm
1.4e-5 mm
20 June 201724482.3 GHz
2,300 MHz
2,300,000 kHz
3.2 GHz
3,200 MHz
3,200,000 kHz
180 W
180,000 mW
0.241 hp
0.18 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7501EPYC$ 3,400.00
€ 3,060.00
£ 2,754.00
¥ 351,322.00
14 nm
0.014 μm
1.4e-5 mm
20 June 201732642 GHz
2,000 MHz
2,000,000 kHz
3 GHz
3,000 MHz
3,000,000 kHz
155 W
155,000 mW
0.208 hp
0.155 kW
170 W
170,000 mW
0.228 hp
0.17 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7551EPYC$ 3,400.00
€ 3,060.00
£ 2,754.00
¥ 351,322.00
14 nm
0.014 μm
1.4e-5 mm
20 June 201732642 GHz
2,000 MHz
2,000,000 kHz
3 GHz
3,000 MHz
3,000,000 kHz
180 W
180,000 mW
0.241 hp
0.18 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7551PEPYC$ 2,100.00
€ 1,890.00
£ 1,701.00
¥ 216,993.00
14 nm
0.014 μm
1.4e-5 mm
20 June 201732642 GHz
2,000 MHz
2,000,000 kHz
3 GHz
3,000 MHz
3,000,000 kHz
180 W
180,000 mW
0.241 hp
0.18 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
7601EPYC$ 4,200.00
€ 3,780.00
£ 3,402.00
¥ 433,986.00
14 nm
0.014 μm
1.4e-5 mm
20 June 201732642.2 GHz
2,200 MHz
2,200,000 kHz
3.2 GHz
3,200 MHz
3,200,000 kHz
180 W
180,000 mW
0.241 hp
0.18 kW
2,048 GiB
2,097,152 MiB
2,147,483,648 KiB
2,199,023,255,552 B
2 TiB
 There are currently no known Naples processors
Count: 14

See also

Facts about "Naples - Cores - AMD"
designerAMD +
first announcedMarch 7, 2017 +
instance ofcore +
isax86-64 +
main imageFile:amd naples.png +
manufacturerGlobalFoundries +
microarchitectureZen +
nameNaples +
process14 nm (0.014 μm, 1.4e-5 mm) +
technologyCMOS +
word size64 bit (8 octets, 16 nibbles) +