Intel® Networking Products

Intel® LAN Controllers

Product #

 

Code Name

 

Release

EOL

Socket

 

Embedded Option

 

Lithography

 

Max TDP

 

# of Ports

 

Interface Type

INTEL® 10 GIGABIT ETHERNET NETWORK CONNECTION

 

 

 

 

 

 

 

 

 

 

 

 

X540-BT2

 

Twinville

 

Q4’12

 

FCBGA576

 

Yes

 

40 nm

 

14 W

 

Dual

 

PCIe v2.1 (5.0 GT/s)

 

 

 

 

 

 

 

 

X540-AT2

 

Twinville

 

Q1’12

 

FCBGA576

 

Yes

 

40 nm

 

12.5 W

 

Dual

 

PCIe v2.1 (5.0 GT/s)

82599EN

 

Niantic

 

Q4’11

 

FCBGA576

 

Yes

 

65 nm

 

 

 

Single

 

PCIe v2.0 (5.0 GT/s)

82599EB

 

Niantic

 

Q2’09

 

FCBGA576

 

Yes

 

65 nm

 

 

 

Dual

 

PCIe v2.0 (5.0 GT/s)

82599ES

 

Niantic

 

Q2’09

 

FCBGA576

 

Yes

 

65 nm

 

 

 

Dual

 

PCIe v2.0 (5.0 GT/s)

82598EB

 

Oplin

 

Q3’07

Q1’15

FCBGA883

 

Yes

 

90 nm

 

6.5 W

 

Dual

 

PCIe v2.0 (2.5 GT/s)

INTEL® GIGABIT ETHERNET NETWORK CONNECTION

 

 

 

 

 

 

 

 

 

 

 

 

I218-LM

 

Clarkville

 

Q1’13

 

QFN48

 

Yes

 

40 nm

 

0.5 W

 

Single

 

 

 

 

 

 

 

 

 

 

 

I218-V

 

Clarkville

 

Q1’13

Q1’21

QFN48

 

Yes

 

40 nm

 

0.5 W

 

Single

 

 

I217-LM

 

Clarkville

 

Q4’12

Q1’20

QFN48

 

No

 

40 nm

 

0.5 W

 

Single

 

 

I217-V

 

Clarkville

 

Q4’12

Q1’20

QFN48

 

Yes

 

40 nm

 

0.5 W

 

Single

 

 

I210-AT

 

Springville

 

Q4’12

 

PQFN64

 

Yes

 

 

 

 

 

Single

 

PCIe v2.1 (2.5 GT/s)

I210-IS

 

Springville

 

Q4’12

 

PQFN64

 

Yes

 

 

 

 

 

Single

 

PCIe v2.1 (2.5 GT/s)

I210-IT

 

Springville

 

Q4’12

 

PQFN64

 

Yes

 

 

 

 

 

Single

 

PCIe v2.1 (2.5 GT/s)

I211-AT

 

Pearsonville

 

Q4’12

 

PQFN64

 

Yes

 

 

 

 

 

Single

 

PCIe v2.1 (2.5 GT/s)

I347-AT4

 

 

 

Q4’11

 

BGA196

 

Yes

 

 

 

 

 

Quad

 

SGMII

I350-BT2

 

Powerville

 

Q2’11

 

PBGA576

 

Yes

 

 

 

2.8 W

 

Dual

 

PCIe v2.0 (5.0 GT/s)

I350-AM2

 

Powerville

 

Q2’11

 

PBGA256

 

Yes

 

 

 

2.8 W

 

Dual

 

PCIe v2.0 (2.5 GT/s)

I350-AM4

 

Powerville

 

Q2’11

 

PBGA256

 

Yes

 

 

 

4 W

 

Quad

 

PCIe v2.0 (2.5 GT/s)

82579LM

 

Lewisville

 

Q1’11

Q1’19

QFN48

 

Yes

 

90 nm

 

0.66 W

 

Single

 

PCIe v1.1 (2.5 GT/s)

82579V

 

Lewisville

 

Q1’11

Q1’19

QFN48

 

Yes

 

90 nm

 

0.66 W

 

Single

 

PCIe v1.1 (2.5 GT/s)

82580DB

 

Barton Hills

 

Q1’10

Q1’19

PBGA256

 

Yes

 

90 nm

 

 

 

Dual

 

PCIe v2.0 (5.0 GT/s)

82580EB

 

Barton Hills

 

Q1’10

Q1’19

PBGA256

 

Yes

 

90 nm

 

3.5 W

 

Quad

 

PCIe v2.0 (5.0 GT/s)

82583V

 

Colleyville

 

Q2’09

Q1’18

PQFN64

 

Yes

 

 

 

 

 

Single

 

PCIe v1.0a (2.5 GT/s)

82574IT

 

Hartwell

 

Q2’08

Q1’18

PQFN64

 

Yes

 

90 nm

 

0.727 W

 

Single

 

PCIe v1.1 (2.5 GT/s)

82574L

 

Hartwell

 

Q2’08

Q1’18

PQFN64

 

Yes

 

90 nm

 

0.727 W

 

Single

 

PCIe v1.1 (2.5 GT/s)

82576EB

 

Kawela

 

Q1’09

Q1’17

BGA576

 

Yes

 

90 nm

 

2.8 W

 

Dual

 

PCIe v2.0 (2.5 GT/s)

82575EB

 

Zoar

 

Q2’07

Q1’17

BGA576

 

Yes

 

90 nm

 

2.8 W

 

Dual

 

PCIe v2.0 (2.5 GT/s)

82573V

 

Tekoa

 

Q2’05

Q1’14

TBGA196

 

Yes

 

130 nm

 

1.4 W

 

Single

 

PCIe v1.0a (2.5 GT/s)

82573L

 

Vidalia

 

Q3’05

Q1’15

TBGA196

 

Yes

 

130 nm

 

1.3 W

 

Single

 

PCIe v1.0a (2.5 GT/s)

82573E

 

Tekoa

 

Q2’05

Q1’14

TBGA196

 

Yes

 

130 nm

 

1.3 W

 

Single

 

PCIe v1.0a (2.5 GT/s)

82572EI

 

Rimon

 

Q4’05

Q1’16

BGA256

 

Yes

 

90 nm

 

2.14 W

 

Single

 

PCIe v1.0a (2.5 GT/s)

82571EB

 

Ophir

 

Q3’05

Q1’16

BGA256

 

Yes

 

90 nm

 

3.43 W

 

Dual

 

PCIe v1.0a (2.5 GT/s)

82577LM

 

Hanksville

 

Q2’09

Q1’17

QFN48

 

No

 

90 nm

 

0.66 W

 

Single

 

PCIe v1.1 (2.5 GT/s)

82567V

 

Boazman

 

Q2’08

Q1’17

QFN56

 

Yes

 

90 nm

 

0.64 W

 

Single

 

GLCI/LCI

82567LM

 

Boazman

 

Q1’08

Q1’17

QFN56

 

Yes

 

90 nm

 

0.64 W

 

Single

 

GLCI/LCI

82563EB

 

Gilgal 2

 

Q1’06

Q1’15

TQFP100

 

Yes

 

150 nm

 

2.6 W

 

Dual

 

GLCI/LCI

82546GB

 

Anvik II

 

Q3’03

Q1’16

PBGA364

 

Yes

 

150 nm

 

 

 

Dual

 

PCI-X

82545GM

 

ATTLA

 

Q3’03

Q1’14

T-PBGA364

 

Yes

 

150 nm

 

1.5 W

 

Single

 

PCI-X

82541PI

 

Tabor 3

 

Q1’04

Q1’14

PBGA196

 

Yes

 

130 nm

 

1 W

 

Single

 

PCI

82541ER

 

Tabor

 

Q1’04

Q1’14

PBGA196

 

Yes

 

130 nm

 

 

 

Single

 

PCI

82540EP

 

Kenai 32

 

Q3’06

Q3’13

T-PBGA196

 

Yes

 

150 nm

 

 

 

Single

 

PCI

82540EM

 

Kenai 32

 

Q3’02

Q3’13

T-PBGA196

 

Yes

 

150 nm

 

1.4 W

 

Single

 

PCI

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

MSI

VT-c

NCSI

RSS

FCoE

JFS

1000BT

MACsec

vPro

TSPI

IEEE

DDIO

IntOff

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

+

+

 

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+

 

 

 

 

 

 

 

 

 

 

 

 

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+ +

+ +

+

Tape/Tray Part #

JLX540BT2

JLX540AT2

JL82599EN

JL82599EB

JL82599ES

JL82598EB

WGI218LM

WGI218V

WGI217LM

WGI217V

WGI210IT

WGI210AS

WGI210AT

WGI211AT

PCI347AT4

NHI350BT2

NHI350AM2

NHI350AM4

WG82579LM

WG82579V

NH82580DB

NH82580EB

WG82583V

WG82574IT

WG82574L

JL82576EB

JL82575EB

RC82573V

PC82573L

PC82573E

JL82572EI

JL82571EB

WG82577LM

WG82567V

WG82567LM

HY82563EB

FW82546GB

PC82545GM

GD82541PI

LU82541ER

RC82540EP

RC82540EM

Q4 INTEL PRODUCT GUIDE

8

 

 

Page 9
Image 9
Intel BX80647I74800MQ, BV80605001908AK manual Intel LAN Controllers

BX80647I74800MQ, BV80605001908AK specifications

The Intel BX80647I74800MQ and BV80605001908AK are two CPUs from Intel’s diverse processor lineup, designed to cater to different segments of computing needs.

The Intel BX80647I74800MQ is part of the Intel Core i7 family, specifically developed for mobile platforms. This processor features a quad-core architecture, which allows it to handle multiple tasks efficiently, making it suitable for demanding applications like gaming, video editing, and data analysis. With a base frequency of 2.3 GHz and the capability to reach up to 3.7 GHz with Turbo Boost technology, it offers an excellent balance between performance and energy efficiency. The processor is built on the 22nm manufacturing process, which not only reduces power consumption but also improves thermal performance.

One of the key features of the i7-4800MQ is its support for Intel Hyper-Threading technology, allowing each core to handle two threads simultaneously. This significantly enhances multitasking abilities and facilitates smoother operation of resource-intensive applications. Additionally, it boasts a robust 8MB Intel Smart Cache, which improves data access speed and enhances overall performance during demanding tasks.

On the other hand, the BV80605001908AK refers to the Intel Core i5-5005U processor, designed for ultra-thin laptops and energy-efficient devices. This dual-core processor operates at a base frequency of 2.0 GHz, with a Turbo Boost capability of up to 2.8 GHz. Although it contains fewer cores compared to the i7-4800MQ, it is still engineered to provide reliable performance for everyday computing tasks, multimedia consumption, and light gaming.

The Core i5-5005U also integrates Intel HD Graphics 5500, enabling decent graphical performance for casual gaming and efficient video playback. Its power-efficient design results in lower thermal output, making it an ideal choice for portable devices where battery life is paramount.

Both processors utilize Intel's advanced technologies, including Intel VT-x for virtualization, which aids in running multiple operating systems on a single machine efficiently. They also support Intel 64 architecture, enhancing 64-bit processing capabilities and improving overall computing performance.

In summary, the Intel BX80647I74800MQ and BV80605001908AK processors serve distinct purposes within the Intel Core lineup, catering to both mobile computing enthusiasts and users requiring robust performance in ultra-thin systems. Each offers unique characteristics that cater to the diverse needs of modern users, ensuring they remain relevant in an ever-evolving technological landscape.