All Core 2 Models
By Rafael Otto Coelho e Gabriel Torres on December 21, 2009


Introduction

Core 2 Solo, Core 2 Duo, Core 2 Quad and Core 2 Extreme processors are based on the new Core microarchitecture, released to replace Netburst microarchitecture, used on Pentium 4 and CPU's based on it. In this tutorial we will list all models from these processors released so far together with their main technical specs.

Core 2 family comes in four flavors: Core 2 Solo, a single-core mobile CPU that replaces Pentium M; Core 2 Duo, a dual-core CPU that replaces Pentium 4 and Pentium D; Core 2 Quad, which is a quad-core Core 2 Duo; and Core 2 Extreme, which replaces Pentium Extreme Edition and has models with two and four cores. Core 2 Extreme runs at higher clock rates and has its clock multiplier unlocked, which allows you to overclock the CPU by changing the CPU clock multiplier.

Pay attention to not confuse Core 2 Duo with Core Duo. Core Duo is the commercial name for a Pentium M manufactured using 65 nm process, codenamed Yonah, while Core 2 Duo is the commercial name for the CPU codenamed Merom (for laptops) or Conroe (for desktops), which uses the new Intel Core microarchitecture. For an in-depth discussion on this new microarchitecture, read our Inside Intel Core Microarchitecture and Penryn Core New Features tutorials.

Here is a summary of the main Core 2 family features:

Now let’s talk about Core 2 Solo, Core 2 Duo, Core 2 Quad and Core 2 Extreme desktop and mobile models launched so far.

Core 2 Duo Models

In the table below we list all Core 2 Duo models released so far.

sSpec

Model

Internal Clock

External Clock

L2 Cache

Tech.

TDP (W)

Max. Temp. (° C)

Voltage

SLB9L E8600 3.33 GHz 1,333 MHz 6 MB 45 nm 65 72.40.85V - 1.3625V
SLB9K E8500 3.16 GHz 1,333 MHz 6 MB 45 nm 65 74.10.85 V - 1.3625 V
SLAPK E85003.16 GHz 1,333 MHz 6 MB 45 nm 65 72.40.85 V – 1.3625 V
SLB9J E8400 3.00 GHz 1,333 MHz 6 MB 45 nm 65 74.10.85 V - 1.3625 V
SLAPL E8400 3.00 GHz 1,333 MHz 6 MB 45 nm 65 72.40.85 V – 1.3625 V
SLAPJ E8300 2.83 GHz 1,333 MHz 6 MB 45 nm 65 72.40.85 V – 1.3625 V
SLAQR E8190 2.66 GHz 1,333 MHz 6 MB 45 nm 65 72.40.85 V – 1.3625 V
SLAPP E8200 2.66 GHz 1,333 MHz 6 MB 45 nm 65 72.40.85 V – 1.3625 V
SLGTDE76003.06 GHz1,066 MHz3 MB45 nm6574.10.85 V - 1.3625 V
SLB9ZE75002.93 GHz1,066 MHz3 MB45 nm6574.10.85 V - 1.3625 V
SLB9Y E7400 2.80 GHz 1,066 MHz 3 MB 45 nm 65 74.1 0.85 V - 1.3625 V
SLB9X E7300 2.66 GHz 1,066 MHz 3 MB 45 nm 65 74.1 0.85 V - 1.3625 V
SLAPBE7300 2.66 GHz 1,066 MHz 3 MB 45 nm 65 74.1 0.85 V - 1.3625V
SLAPC E7200 2.53 GHz 1,066 MHz 3 MB 45 nm 65 74.1 0.85 V – 1.3625 V
SLAVN E7200 2.53 GHz1,066 MHz3 MB45 nm 6574.1 0.85 V – 1.3625 V

SLA9U

E6850

3.00 GHz

1,333 MHz

4 MB

65 nm

65

72

0.962 V – 1.35 V

SLA9V

E6750

2.66 GHz

1,333 MHz

4 MB

65 nm

65

72

0.962 V – 1.35 V

SL9ZF

E6700

2.66 GHz

1,066 MHz

4 MB

65 nm

65

60.1

0.85 V – 1.5 V

SL9S7

E6700

2,66 GHz

1,066 MHz

4 MB

65 nm

65

60.1

0.85 V – 1.35 V

SL9ZL

E6600

2.40 GHz

1,066 MHz

4 MB

65 nm

65

60.1

1.18 V – 1.32 V

SL9S8

E6600

2.40 GHz

1,066 MHz

4 MB

65 nm

65

60.1

0.85 V – 1.35 V

SLA9X

E6550

2.33 GHz

1,333 MHz

4 MB

65 nm

65

72

0.962 V – 1.35 V

SLAA5

E6540

2.33 GHz

1,333 MHz

4 MB

65 nm

65

72

0.962 V – 1.35 V

SLA4T

E6420

2.13 GHz

1,066 MHz

4 MB

65 nm

65

60.1

0.85 V – 1.5 V

SL9T9

E6400

2.13 GHz

1,066 MHz

2 MB

65 nm

65

61.4

1.22 V – 1.32 V

SL9S9

E6400

2.13 GHz

1,066 MHz

2 MB

65 nm

65

61.4

0.85 V – 1.35 V

SLA4U

E6320

1.86 GHz

1,066 MHz

4 MB

65 nm

65

60.1

0.85 V – 1.5 V

SL9TA

E6300

1.86 GHz

1,066 MHz

2 MB

65 nm

65

61.4

1.22 V – 1.32 V

SL9SA

E6300

1.86 GHz

1,066 MHz

2 MB

65 nm

65

61.4

0.85 V – 1.35 V

SLALT E47002.6 GHz800 MHz2 MB65 nm 65 73.31.162 V – 1.312 V
SLA94E4600 2.4 GHz800 MHz 2 MB65 nm 65 73.31.162 V – 1.312 V

SLA95

E4500

2.2 GHz

800 MHz

2 MB

65 nm

65

73.3

0.962 V – 1.35 V

SL93F

E4400

2.0 GHz

800 MHz

2 MB

65 nm

65

61.4

1.16 V – 1.31 V

SLA98

E4400

2.0 GHz

800 MHz

2 MB

65 nm

65

73.3

1.16 V – 1.31 V

SL9TB

E4300

1.8 GHz

800 MHz

2 MB

65 nm

65

61.4

0.85 V – 1.35 V

TDP stands for Thermal Design Power and indicates the CPU maximum thermal dissipation, i.e., the CPU cooler must be able to dissipate at least this amount of heat.

Core 2 Quad Models

In the table below we list all Core 2 Quad models released so far.

sSpec

Model

Internal Clock

External Clock

L2 Cache

Tech.

TDP (W)

Max. Temp. (° C)

Voltage

SLB8W Q9650 3.00 GHz 1,333 MHz 12 MB 45 nm 95 71.40.85 V - 1.3625 V
SLGAE Q9550S 2.83 GHz 1,333 MHz 12 MB 45 nm 65 76.3 0.85 V - 1.3625 V
SLB8V Q9550 2.83 GHz 1,333 MHz 12 MB 45 nm 95 71.4 0.85 V - 1.3625 V
SLAWQ Q9550 2.83 GHz1,333 MHz 12 MB45 nm9571.40.85 V – 1.3625 V
SLGYZQ9505S2.83 GHz1,333 MHz6 MB45 nm6576.30.85 V – 1.3625 V
SLGYYQ95052.83 GHz1,333 MHz6 MB45 nm9571.40.85 V – 1.3625 V
SLAWR Q9450 2.66 GHz 1,333 MHz12 MB 45 nm 9571.40.85 V – 1.3625 V
SLG9U Q9400S 2.66 GHz 1,333 MHz 6 MB 45 nm 65 76.3 0.85 V - 1.3625 V
SLB6B Q9400 2.66 GHz 1,333 MHz 6 MB 45 nm 95 71.4 0.85 V - 1.3625 V
SLAWE Q93002.50 GHz 1,333 MHz6 MB 45 nm 95 71.4 0.85 V – 1.3625 V
SLGT7 Q8400S 2.66 GHz 1,333 MHz 4 MB 45 nm 65 76.3 0.85 V - 1.3625 V
SLGT6 Q8400 2.66 GHz 1,333 MHz 4 MB 45 nm 95 71.4 0.85 V - 1.3625 V
SLGURQ83002.50 GHz1,333 MHz4 MB45 nm9571.40.85 V - 1.3625 V
SLB5W Q8300 2.50 GHz 1,333 MHz 4 MB 45 nm 9571.40.85 V - 1.3625 V
SLG9TQ8200S 2.33 GHz 1,333 MHz 4 MB 45 nm 65 76.3 0.85 V - 1.3625 V
SLG9S Q8200 2.33 GHz 1,333 MHz 4 MB 45 nm 95 71.4 0.85 V - 1.3625 V
SLB5M Q8200 2.33 GHz 1,333 MHz 4 MB 45 nm 9571.4 0.85 V - 1.3625 V
SLACQ Q6700 2.66 GHz1,066 MHz 8 MB 65 nm 95 71 0.85 V - 1.5 V

SL9UM

Q6600

2.40 GHz

1,066 MHz

8 MB

65 nm

105

62.2

1.10 V - 1.37 V

SLACR

Q6600

2.40 GHz

1,066 MHz

8 MB

65 nm

95

71

0.85 V - 1.5 V

TDP stands for Thermal Design Power and indicates the CPU maximum thermal dissipation, i.e., the CPU cooler must be able to dissipate at least this amount of heat.

Core 2 Extreme Models

In the table below we list all Core 2 Extreme models released so far.

sSpec

Model

Internal Clock

External Clock

L2 Cache

Tech.

TDP (W)

Max. Temp. (° C)

Voltage

Cores

Socket

SLANY

QX9775

3.2 GHz

1,600 MHz

12 MB

45 nm

150

63

1.212 V

4

771

SLAWM

QX9770

3.2 GHz

1,600 MHz

12 MB

45 nm

136

55.5

0.85 V – 1.3625 V

4

775

SLAWN QX9650 3 GHz 1,333 MHz 12 MB 45 nm 130 64.50.85 V - 1.3625 V 4 775

SLAN3

QX9650

3 GHz

1,333 MHz

12 MB

45 nm

130

64.5

0.85 V – 1.3625 V

4

775

SLAFN

QX6850

3 GHz

1,333 MHz

8 MB

65 nm

130

64.5

1.10 V – 1.37 V

4

775

SL9UK

QX6800

2.93 GHz

1,066 MHz

8 MB

65 nm

130

64.5

1.10 V – 1.37 V

4

775

SL9S5

X6800

2.93 GHz

1,066 MHz

4 MB

65 nm

75

60.4

0.85 V – 1.35 V

2

775

SLACP

QX6800

2.93 GHz

1,066 MHz

8 MB

65 nm

130

64.5

1.10 V – 1.37 V

4

775

SLA33

X7900

2.80 GHz

800 MHz

4 MB

65 nm

44

100

2

775

SLAF4

X7900

2.80 GHz

800 MHz

4 MB

65 nm

44

100

1.125 V – 1.325 V

2

775

SL9UL

QX6700

2.66 GHz

1,066 MHz

8 MB

65 nm

130

65

1.10 V – 1.37 V

4

775

SLA6Z

X7800

2.60 GHz

800 MHz

4 MB

65 nm

44

100

2

775

TDP stands for Thermal Design Power and indicates the CPU maximum thermal dissipation, i.e., the CPU cooler must be able to dissipate at least this amount of heat.

Core 2 Solo Models

In the table below we list all Core 2 Solo (which is a Core 2 Duo with only one processing core, targeted on mobile computers, replacing Pentium M) models released so far.

sSpec

Model

Internal Clock

External Clock

L2 Cache

Tech.

TDP (W)

Max. Temp. (° C)

Voltage (V)

SLGFM

SU3500

1.4 GHz

800 MHz

3 MB

45 nm

5.5

100

1.05 - 1.15

SLGAR

SU3300

1.2 GHz

800 MHz

3 MB

45 nm

5.5

-

1.05 - 1.15

SLAGL

U2200

1.2 GHz

533 MHz

1 MB

65 nm

5.5

100

0.86 - 0.975

SLAGM

U2100

1.06 GHz

533 MHz

1 MB

65 nm

5.5

100

0.86 - 0.975

TDP stands for Thermal Design Power and indicates the CPU maximum thermal dissipation, i.e., the CPU cooler must be able to dissipate at least this amount of heat.

Core 2 Duo Mobile Models

On mobile models the first letter from the model name shows us the maximum power dissipation from the CPU. "T" stands for TDP between 30W and 39W; "P" models have a 20 W - 29 W TDP. "L" represents models with TDP from 12 W to 19 W, and "U" identifies processors with TDP under 12 W. The "S" letter, by the way, identifies models with a smaller BGA package (22 x 22 mm), aimed to ultra-compact laptops. TDP stands for Thermal Design Power and indicates the CPU maximum thermal dissipation, i.e., the CPU cooler must be able to dissipate at least this amount of heat.

In the table below we list all Core 2 Duo Mobile models released so far.

sSpec

Model

Internal Clock

External Clock

L2 Cache

Tech.

TDP (W)

Max. Temp. (° C)

Voltage (V)

SLGQSP97002.8 GHz1,066 MHz6 MB45 nm28 1051.012 - 1.175

SLGE6

P9600

2.66 GHz

1,066 MHz

6 MB

45 nm

25

105

1.05 – 1.212

SLGE8

P9500

2.53 GHz

1,066 MHz

6 MB

45 nm

25

105

1.05 – 1.212

SLB4E

P9500

2.53 GHz

1,066 MHz

6 MB

45 nm

25

105

1.05 – 1.162

SLGFE

P8700

2.53 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLGA4

P8600

2.4 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLB4N

P8600

2.4 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLGFD

P8600

2.4 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLB3S

P8600

2.4 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLB3Q

P8400

2.26 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLB3R

P8400

2.26 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLB4M

P8400

2.26 GHz

1,066 MHz

3 MB

45 nm

25

105

1.0 – 1.25

SLB54

P7450

2.13 GHz

1,066 MHz

3 MB

45 nm

25

90

1.0 – 1.25

SLG8X

P7370

2.0 GHz

1,066 MHz

3 MB

45 nm

25

90

1.0 – 1.25

SLB53

P7350

2.0 GHz

1,066 MHz

3 MB

45 nm

25

90

1.0 – 1.25

SLGKHT99003.06 GHz1,066 MHz6 MB45 nm351051.05 - 1.212
SLGEET99003.06 GHz1,066 MHz6 MB45 nm351051.05 - 1.212

SLGES

T9800

2.93 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.212

SLG9FT96002.8 GHz1,066 MHz6 MB45 nm351051.05 - 1.212

SLGEM

T9600

2.8 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.212

SLB43

T9600

2.8 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.162

SLB47

T9600

2.8 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.162

SLGE4

T9550

2.66 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.212

SLAPW

T9500

2.6 GHz

800 MHz

6 MB

45 nm

35

105

1.0 – 1.25

SLAZA

T9500

2.6 GHz

800 MHz

6 MB

45 nm

35

105

1.0 – 1.25

SLAQH

T9500

2.6 GHz

800 MHz

6 MB

45 nm

35

105

1.062 – 1.15

SLAYX

T9500

2.6 GHz

800 MHz

6 MB

45 nm

35

105

1.05 – 1.137

SLGEK

T9400

2.53 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.212

SL3BX

T9400

2.53 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.162

SLGE5

T9400

2.53 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.212

SLB46

T9400

2.53 GHz

1,066 MHz

6 MB

45 nm

35

105

1.05 – 1.162

SLAPV

T9300

2.5 GHz

800 MHz

6 MB

45 nm

35

105

1.0 – 1.25

SLAQG

T9300

2.5 GHz

800 MHz

6 MB

45 nm

35

105

1.062 – 1.15

SLAZB

T9300

2.5 GHz

800 MHz

6 MB

45 nm

35

105

1.0 – 1.25

SLAYY

T9300

2.5 GHz

800 MHz

6 MB

45 nm

35

105

1.05 – 1.137

SLAPU

T8300

2.4 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAYQ

T8300

2.4 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAPA

T8300

2.4 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAZC

T8300

2.4 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAPR

T8300

2.4 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAXG

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAYP

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAYZ

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.05 – 1.137

SLAZD

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAVJ

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAPT

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAPS

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAP9

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.0 – 1.25

SLAUU

T8100

2.1 GHz

800 MHz

3 MB

45 nm

35

105

1.05 – 1.237

SLAF6

T7800

2.6 GHz

800 MHz

4 MB

65 nm

35

100

-

SLA75

T7800

2.6 GHz

800 MHz

4 MB

65 nm

35

100

-

SLADL

T7700

2.4 GHz

800 MHz

4 MB

65 nm

35

100

-

SLAF7

T7700

2.4 GHz

800 MHz

4 MB

65 nm

35

100

-

SLA3M

T7700

2.4 GHz

800 MHz

4 MB

65 nm

35

100

1.0375 – 1.3

SLA43

T7700

2.4 GHz

800 MHz

4 MB

65 nm

35

100

1.0375 – 1.3

SL9SJ

T7600

2.33 GHz

667 MHz

4 MB

65 nm

34

100

1.0375 – 1.3

SL9SD

T7600

2.33 GHz

667 MHz

4 MB

65 nm

34

100

1.0375 – 1.3

SLAF8

T7500

2.2 GHz

800 MHz

4 MB

65 nm

35

100

-

SLADM

T7500

2.2 GHz

800 MHz

4 MB

65 nm

35

100

-

SLA44

T7500

2.2 GHz

800 MHz

4 MB

65 nm

35

100

1.0375 – 1.3

SLA3N

T7500

2.2 GHz

800 MHz

4 MB

65 nm

35

100

1.0375 – 1.3

SL9SK

T7400

2.16 GHz

667 MHz

4 MB

65 nm

34

100

1.0375 – 1.3

SL9SE

T7400

2.16 GHz

667 MHz

4 MB

65 nm

34

100

1.0375 – 1.3

SLA45

T7300

2.0 GHz

800 MHz

4 MB

65 nm

35

100

1.0375 – 1.3

SLA3P

T7300

2.0 GHz

800 MHz

4 MB

65 nm

35

100

1.0375 – 1.3

SLAXH

T7250

2.0 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLA3T

T7250

2.0 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLA49

T7250

2.0 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SL9SL

T7200

2.0 GHz

667 MHz

4 MB

65 nm

34

100

1.0375 – 1.3

SL9SF

T7200

2.0 GHz

667 MHz

4 MB

65 nm

34

100

1.0375 – 1.3

SLA4A

T7100

1.8 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLA3U

T7100

1.80 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLGF5T66002.2 GHz800 MHz2 MB45 nm35901.0 - 1.25

SLGLL

T6570

2.1 GHz

800 MHz

2 MB

45 nm

35

100

1.0 – 1.25

SLGF4T65002.1 GHz800 MHz2 MB45 nm351051.0 - 1.25

SJGJ4

T6400

2.0 GHz

800 MHz

2 MB

45 nm

35

90

1.0 – 1.25

SLB6D

T5900

2.2 GHz

800 MHz

2 MB

65 nm

35

85

1.075 – 1.175

SLAZR

T5870

2.0 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLA4C

T5850

2.16 GHz

667 MHz

2 MB

65 nm

35

85

1.075 – 1.175

SLB6E

T5800

2.0 GHz

800 MHz

2 MB

65 nm

35

85

1.075 – 1.175

SLA4D

T5750

2.0 GHz

667 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLAJ5

T5670

1.8 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SL9U7

T5600

1.83 GHz

667 MHz

2 MB

65 nm

34

100

-

SL9SP

T5600

1.83 GHz

667 MHz

2 MB

65 nm

34

100

1.0375 – 1.3

SL9SG

T5600

1.83 GHz

667 MHz

2 MB

65 nm

34

100

1.0375 – 1.3

SL9U3

T5600

1.83 GHz

667 MHz

2 MB

65 nm

34

100

-

SLA4E

T5550

1.83 GHz

667 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SL9SQ

T5500

1.66 GHz

667 MHz

2 MB

65 nm

34

100

1.0375 – 1.3

SL9SH

T5500

1.66 GHz

667 MHz

2 MB

65 nm

34

100

1.0375 – 1.3

SL9U4

T5500

1.66 GHz

667 MHz

2 MB

65 nm

34

100

-

SL9U8

T5500

1.66 GHz

667 MHz

2 MB

65 nm

-

100

-

SLAEB

T5470

1.6 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLA4F

T5450

1.66 GHz

667 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SL9WE

T5300

1.73 GHz

533 MHz

2 MB

65 nm

34

100

-

SLALK

T5270

1.4 GHz

800 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SLA9S

T5250

1.5 GHz

667 MHz

2 MB

65 nm

35

100

1.075 – 1.175

SL9VP

T5200

1.6 GHz

533 MHz

2 MB

65 nm

34

100

1.075 – 1.250

SLGER

SP9600

2.53 GHz

1,066 MHz

6 MB

45 nm

25

105

1.05 – 1.15

SLB64

SP9400

2.40 GHz

1,066 MHz

6 MB

45 nm

25

-

1.05 – 1.15

SLB63

SP9300

2.26 GHz

1,066 MHz

6 MB

45 nm

25

-

1.05 – 1.15

SLGEQ

SL9600

2.13 GHz

1,066 MHz

6 MB

45 nm

17

105

1.05 – 1.15

SLB66

SL9400

1.86 GHz

1,066 MHz

6 MB

45 nm

17

-

1.05 – 1.15

SLB65

SL9300

1.6 GHz

1,066 MHz

6 MB

45 nm

17

-

1.05 – 1.15

SLGFN

SU9600

1.60 GHz

800 MHz

3 MB

45 nm

10

105

1.05 – 1.15

SLGHN

SU9400

1.40 GHz

800 MHz

3 MB

45 nm

10

-

1.05 – 1.15

SLB5Q

SU9300

1.20 GHz

800 MHz

3 MB

45 nm

10

-

1.05 – 1.15

SLA3R

L7500

1.6 GHz

800 MHz

4 MB

65 nm

17

100

0.975 – 1.062

SL9SM

L7400

1.5 GHz

667 MHz

4 MB

65 nm

17

100

0.975 – 1.062

SLGFX

L7400

1.5 GHz

667 MHz

4 MB

65 nm

17

100

0.975 – 1.062

SLA3S

L7300

1.4 GHz

800 MHz

4 MB

65 nm

17

100

0.975 – 1.062

SL9SN

L7200

1.33 GHz

667 MHz

4 MB

65 nm

17

100

0.975 – 1.062

SLV3W

U7600

1.33 GHz

533 MHz

2 MB

65 nm

10

100

0.8 – 0.975

SLA2U

U7600

1.2 GHz

533 MHz

2 MB

65 nm

10

100

0.8 – 0.975

SLV3X

U7500

1.2 GHz

533 MHz

2 MB

65 nm

10

100

0.8 – 0.975

SLA2V

U7500

1.06 GHz

533 MHz

2 MB

65 nm

10

100

0.8 – 0.975

Core 2 Quad Mobile Models

In the table below we list all Core 2 Quad Mobile models released so far.

sSpec

Model

Internal Clock

External Clock

L2 Cache

Tech.

TDP (W)

Max. Temp. (° C)

Voltage (V)

SLB5G

Q9100

2.26 GHz

1066 MHz

12 MB

45 nm

45

-

1.05 - 1.175

SLGEJ

Q9000

2.0 GHz

1066 MHz

6 MB

45 nm

45

100

1.05 - 1.175

TDP stands for Thermal Design Power and indicates the CPU maximum thermal dissipation, i.e., the CPU cooler must be able to dissipate at least this amount of heat.

 

Core 2 Extreme Mobile Models

In the table below we list all Core 2 Extreme Mobile models released so far.

sSpec

Model

Internal Clock

External Clock

L2 Cache

Cores

Tech.

TDP (W)

Max. Temp. (° C)

Voltage (V)

SLB5J

QX9300

2.53 GHz

1,066 MHz

12 MB

4

45 nm

45

-

1.05 - 1.175

SLB48

X9100

3.06 GHz

1,066 MHz

6 MB

2

45 nm

45

105

1.05 - 1.162

SLAZ3

X9000

2.8 GHz

800 MHz

6 MB

2

45 nm

44

105

1.062 - 1.15

SLAQJ

X9000

2.8 GHz

800 MHz

6 MB

2

45 nm

44

105

1.062 - 1.15

SLA33

X7900

2.8 GHz

800 MHz

4 MB

2

65 nm

44

100

-

SLAF4

X7900

2.8 GHz

800 MHz

4 MB

2

65 nm

44

100

1.125 - 1.325

SLA6Z

X7800

2.6 GHz

800 MHz

4 MB

2

65 nm

44

100

-

TDP stands for Thermal Design Power and indicates the CPU maximum thermal dissipation, i.e., the CPU cooler must be able to dissipate at least this amount of heat.

Originally at http://www.hardwaresecrets.com/article/All-Core-2-Models/366


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