Core 2 duo processor list: Intel Core 2 Duo Processors List

Intel Core 2 Duo Processors List

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Name	Cores / Threads	Clock	Socket	L3 Cache	TDP	Released
Intel Core 2 Duo E7600 Core 2 Duo (Wolfdale)	2 / 2	3.067 GHz	Intel Socket 775	—	65 W	10 May 2009
Intel Core 2 Duo E7500 Core 2 Duo (Wolfdale)	2 / 2	2.933 GHz	Intel Socket 775	—	65 W	10 January 2009
Intel Core 2 Duo E7400 Core 2 Duo (Wolfdale)	2 / 2	2.8 GHz	Intel Socket 775	—	65 W	10 October 2008
Intel Core 2 Duo E7300 Core 2 Duo (Wolfdale)	2 / 2	2. 667 GHz	Intel Socket 775	—	65 W	10 August 2008
Intel Core 2 Duo E8600 Core 2 Duo (Wolfdale)	2 / 2	3.333 GHz	Intel Socket 775	—	65 W	8 August 2008
Intel Core 2 Duo E7200 Core 2 Duo (Wolfdale)	2 / 2	2.533 GHz	Intel Socket 775	—	65 W	20 April 2008
Intel Core 2 Duo E8300 Core 2 Duo (Wolfdale)	2 / 2	2.833 GHz	Intel Socket 775	—	65 W	1 April 2008
Intel Core 2 Duo E4700 Core 2 Duo (Allendale)	2 / 2	2.6 GHz	Intel Socket 775	—	65 W	2 March 2008
Intel Core 2 Duo U7500 Core 2 Duo (Merom)	2 / 2	1073 MHz	Intel Socket P	—	10 W	27 February 2008
Intel Core 2 Duo U7700 Core 2 Duo (Merom)	2 / 2	1333 MHz	Intel Socket P	—	10 W	27 February 2008
Intel Core 2 Duo E8500 Core 2 Duo (Wolfdale)	2 / 2	3. 166 GHz	Intel Socket 775	—	65 W	1 January 2008
Intel Core 2 Duo E8400 Core 2 Duo (Wolfdale)	2 / 2	3 GHz	Intel Socket 775	—	65 W	1 January 2008
Intel Core 2 Duo E8200 Core 2 Duo (Wolfdale)	2 / 2	2.667 GHz	Intel Socket 775	—	65 W	1 January 2008
Intel Core 2 Duo E8190 Core 2 Duo (Wolfdale)	2 / 2	2.667 GHz	Intel Socket 775	—	65 W	1 January 2008
Intel Core 2 Duo U7700 Core 2 Duo (Merom)	2 / 2	1333 MHz	Intel Socket M	—	10 W	27 December 2007
Intel Core 2 Duo E4600 Core 2 Duo (Allendale)	2 / 2	2.4 GHz	Intel Socket 775	—	65 W	21 October 2007
Intel Core 2 Duo T7800 Core 2 Duo (Merom)	2 / 2	2. 6 GHz	Intel Socket P	—	35 W	27 September 2007
Intel Core 2 Duo T7250 Core 2 Duo (Merom)	2 / 2	2000 MHz	Intel Socket P	—	35 W	27 September 2007
Intel Core 2 Duo E4400 Core 2 Duo (Allendale)	2 / 2	2000 MHz	Intel Socket 775	—	65 W	22 July 2007
Intel Core 2 Duo E4500 Core 2 Duo (Allendale)	2 / 2	2.2 GHz	Intel Socket 775	—	65 W	22 July 2007
Intel Core 2 Duo E6550 Core 2 Duo (Conroe)	2 / 2	2.333 GHz	Intel Socket 775	—	65 W	1 July 2007
Intel Core 2 Duo E6750 Core 2 Duo (Conroe)	2 / 2	2.667 GHz	Intel Socket 775	—	65 W	1 July 2007
Intel Core 2 Duo E6850 Core 2 Duo (Conroe)	2 / 2	3 GHz	Intel Socket 775	—	75 W	1 July 2007
Intel Core 2 Duo T7100 Core 2 Duo (Merom)	2 / 2	1800 MHz	Intel Socket P	—	35 W	27 May 2007
Intel Core 2 Duo T7700 Core 2 Duo (Merom)	2 / 2	2. 4 GHz	Intel Socket P	—	35 W	27 May 2007
Intel Core 2 Duo T7500 Core 2 Duo (Merom)	2 / 2	2.2 GHz	Intel Socket P	—	35 W	27 May 2007
Intel Core 2 Duo U7500 Core 2 Duo (Merom)	2 / 2	1073 MHz	Intel Socket M	—	10 W	27 April 2007
Intel Core 2 Duo U7600 Core 2 Duo (Merom)	2 / 2	1200 MHz	Intel Socket P	—	10 W	27 April 2007
Intel Core 2 Duo U7600 Core 2 Duo (Merom)	2 / 2	1200 MHz	Intel Socket M	—	10 W	27 April 2007
Intel Core 2 Duo E6420 Core 2 Duo (Conroe)	2 / 2	2.133 GHz	Intel Socket 775	—	65 W	1 April 2007
Intel Core 2 Duo E6320 Core 2 Duo (Conroe)	2 / 2	1860 MHz	Intel Socket 775	—	65 W	1 April 2007
Intel Core 2 Duo T7600G Core 2 Duo (Merom)	2 / 2	2. 333 GHz	Intel Socket M	—	35 W	27 December 2006
Intel Core 2 Duo E6300 Core 2 Duo (Conroe)	2 / 2	1866 MHz	Intel Socket 775	—	65 W	27 July 2006
Intel Core 2 Duo E6400 Core 2 Duo (Conroe)	2 / 2	2.133 GHz	Intel Socket 775	—	65 W	27 July 2006
Intel Core 2 Duo E6600 Core 2 Duo (Conroe)	2 / 2	2.4 GHz	Intel Socket 775	—	65 W	27 July 2006
Intel Core 2 Duo E6700 Core 2 Duo (Conroe)	2 / 2	2.667 GHz	Intel Socket 775	—	65 W	27 July 2006
Intel Core 2 Duo T5200 Core 2 Duo (Merom)	2 / 2	1600 MHz	Intel Socket 479	—	35 W	27 July 2006
Intel Core 2 Duo T5500 Core 2 Duo (Merom)	2 / 2	1667 MHz	Intel Socket M	—	35 W	27 July 2006
Intel Core 2 Duo T5600 Core 2 Duo (Merom)	2 / 2	1833 MHz	Intel Socket 479	—	35 W	27 July 2006
Intel Core 2 Duo T7200 Core 2 Duo (Merom)	2 / 2	2000 MHz	Intel Socket 479	—	35 W	27 July 2006
Intel Core 2 Duo T7300 Core 2 Duo (Merom)	2 / 2	2000 MHz	Intel Socket 479	—	35 W	27 July 2006
Intel Core 2 Duo T7400 Core 2 Duo (Merom)	2 / 2	2. 166 GHz	Intel Socket 479	—	35 W	27 July 2006
Intel Core 2 Duo T7600 Core 2 Duo (Merom)	2 / 2	2.333 GHz	Intel Socket 479	—	35 W	27 July 2006
Intel Core 2 Duo E4300 Core 2 Duo (Allendale)	2 / 2	1800 MHz	Intel Socket 775	—	65 W	27 July 2006

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List of Intel Core 2 Duo processors

List of Intel Core 2 Duo processors

Here is the list of chips for the group of processors Intel Core 2 Duo with the basic technical details. As well as a link to their respective global characteristics.

Note: Commissions may be earned from the link above.

Processors:

Intel Core 2 Duo T9600	2008 Q3	45 nm	2	2	2800	2800	6000	4000		35
Intel Core 2 Duo T9400	2008 Q3	45 nm	2	2	2530	2530	6000	4000		35
Intel Core 2 Duo T9300	2008 Q1	45 nm	2	2	2500	2500	6000	4000		35
Intel Core 2 Duo T8100	2008 Q1	45 nm	2	2	2100	2100	3000	4000		35
Intel Core 2 Duo T7250	2007 Q3	65 nm	2	2	2000	2000	2000	4000		35
Intel Core 2 Duo T7200	2006 Q3	65 nm	2	2	2000	2000	4000	4000		34
Intel Core 2 Duo T6600	2009 Q1	45 nm	2	2	2200	2200	2000	4000		35
Intel Core 2 Duo T5600	2006 Q3	65 nm	2	2	1830	1830	2000	4000		34
Intel Core 2 Duo P8700	2008 Q4	45 nm	2	2	2530	2530	3000	8000	16	25
Intel Core 2 Duo P8600	2008 Q3	45 nm	2	2	2400	2400	3000	8000	16	25
Intel Core 2 Duo P8400	2008 Q3	45 nm	2	2	2260	2260	3000	8000	16	25
Intel Core 2 Duo P7350	2008 Q3	45 nm	2	2	2000	2000	3000	8000	16	25
Intel Core 2 Duo E8600	2008 Q3	45 nm	2	2	3330	3330	6000	8000	16	65
Intel Core 2 Duo E8500	2008 Q1	45 nm	2	2	3160	3160	6000	8000	16	65
Intel Core 2 Duo E8400	2008 Q1	45 nm	2	2	3000	3000	6000	8000	16	65
Intel Core 2 Duo E8300	2008 Q2	45 nm	2	2	2830	2830	6000	8000	16	65
Intel Core 2 Duo E8200	2008 Q1	45 nm	2	2	2660	2660	6000	8000	16	65
Intel Core 2 Duo E7600	2009 Q2	45 nm	2	2	3060	3060	3000	8000	16	65
Intel Core 2 Duo E7500	2009 Q1	45 nm	2	2	2930	2930	3000	8000	16	65
Intel Core 2 Duo E7400	2008 Q1	45 nm	2	2	2930	2800	3000	8000	16	65
Intel Core 2 Duo E7300	2008 Q2	45 nm	2	2	2660	2660	3000	8000	16	65
Intel Core 2 Duo E7200	2008 Q2	45 nm	2	2	2530	2530	3000	8000	16	65
Intel Core 2 Duo E6850	2007 Q3	65 nm	2	2	3000	3000	4000	8000	16	65
Intel Core 2 Duo E6750	2007 Q3	65 nm	2	2	2660	2660	4000	8000	16	65
Intel Core 2 Duo E6700	2006 Q3	65 nm	2	2	2660	2660	4000	4000	16	65
Intel Core 2 Duo E6600	2006 Q3	65 nm	2	2	2400	2400	4000	4000	16	65
Intel Core 2 Duo E6550	2007 Q3	65 nm	2	2	2330	2330	4000	8000	16	65
Intel Core 2 Duo E6400	2006 Q3	65 nm	2	2	2130	2130	2000	4000	16	65
Intel Core 2 Duo E6300	2006 Q3	65 nm	2	2	1860	1860	2000	4000	16	65
Intel Core 2 Duo E4600	2007 Q3	65 nm	2	2	2400	2400	2000	8000	16	65
Intel Core 2 Duo E4500	2007 Q3	65 nm	2	2	2200	2200	2000	8000	16	65
Intel Core 2 Duo E4400	2007 Q2	65 nm	2	2	2000	2000	2000	8000	16	65
Intel Core 2 Duo E4300	2006 Q3	65 nm	2	2	1800	1800	2000	8000	16	65

Specifications and performance of the Intel Core 2 Duo processors

Processor Intel Core 2 Duo P7570

Processor search

Core 2 Duo P7570

Compare Core 2 Duo P7570

Main information

Brand

Intel

Family

Processor 2 Duo

9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000m $52

Processor type

Mobile

Use

Notebook

Release date

October 1, 2009

Main Harcatericism

Number

2 Nuclei frequency

2267 MHz

Auto overclock

No

Free processor multiplier

No

Processor

Technological process

45 nm

transistors (millions)

410 million

Crystal size

107

TDP

Maximum temperature

105 ° C

9000

L1 L1 Cache

2×32 + 2×32 KB

L2 L2 Cache

3072 KB

L3 L3 Cache

n/a

RAM

0003

RAM controller

Uses motherboard controller

Core 2 Duo P7570 speed rating

Attention! The general rating calculation method is chosen, which means that the rating percentage is calculated relative to the most powerful processor participating on our site.

Rating calculation method:
Overall ratingBy Penryn-3M architectureBy PGA478 socketAmong Intel processorsAmong AMD processorsAmong mobile processorsAmong Core family processorsAmong Core 2 Duo processorsAmong 2-core processorsAmong 2009 processorsyears

General performance rating

902.54

(0.85%)

Passmark CPU Mark

747

(0.85%)

Cinebench 10 (32 bits) Single -seating test 9000 2470 9000 9000 9000 23.42%)

Cinebench 10 (32-bit) Multi-threaded test

4600

(7.42%)

Cinebench 11.5 (64-bit) Multi-threaded test

4 1.04

1.04

Cinebench 11.5 (64-bit) Single Thread Benchmark

0.49

(5.66%)

Cinebench 15 (64-bit) Multipotive test

96.06

(0.91%)

Cinebench 15 (64-bit) Single-seating test

9000 44.02

( 13.13%)

Geekbench 4. 0 (64-bit) Multi-threaded test

2598

(1.4%)

Geekbench 4.0 (64-bit) Single-threaded test

1585

% (1585

%) 90.13%)

X264 HD 4.0 Pass 1

26.07

(1.01%)

X264 HD 4.0 Pass 2

5.81

(0.94%)

3DMark06 CPU

2050

(1.43%)

Winrar 4.0

728.91

(1.22%)

Positions in the ranking

Attention! The general rating calculation method is chosen, which means that the rating percentage is calculated relative to the most powerful processor participating on our site.

Rating calculation method:
Overall ratingBy Penryn-3M architectureBy PGA478 socketAmong Intel processorsAmong AMD processorsAmong mobile processorsAmong Core family processorsAmong Core 2 Duo processorsAmong 2-core processorsAmong 2009 processorsyears

The total performance rating
The ranking is participated in the rating 3291 processor

730 place

(out of 3291)

Passmark CPU Mark
in the ranking 3279 processors 9000,0004 778 9000 9000 bit) Single-threaded test
739 processors

275th place

(out of 739)

Cinebench 10 (32 bit) Multi-threaded test
723 processors 9 participate in the rating0005

208 place

(out of 723)

Cinebench 11. 5 (64-bit) Multipotive test
In the ranking 3221 processor

723 place

(of 3221)

Cinebench 11.5 (64-bit) single-circuit tag
The rating is participated in 3215 processors

912 place

(out of 3215)

Cinebench 15 (64-bit) multipropoped test
In the ranking 3218 processors

766 place

(of 3218)

Cinebench 15 (64-host) Single thread test
The ranking is involved in 3217 processors

834 place

(out of 3217)

Geekbench 4.0 (64-bit) Multipoque test
In the ranking 3209 processors

(out of 3209)

9000 Geekbench 4.0 bit) Single-threaded test
3209 processors participate in the rating

1073 place

(out of 3209)

X264 HD 4.0 Pass 1
3211 processors participate in the rating

90 021 place0005

x264 HD 4.0 Pass 2
The ranking is involved in 3211 processors

738 place

(out of 3211)

3DMARK06 CPU
The ranking is participated in the rating 3242 processors

1101 place

(of 3242)

9000 Winrar 3212 processors

785 place

(out of 3212)

nine0331 Meaning

Auto-overclocking and processor power increase technologies

Technology or instruction name	Short description
Turbo Boost		Intel Auto Overclocking Technology.

Energy saving technologies

Technology or instruction name	Meaning	Short description
EIST (Enhanced Intel SpeedStep)		Enhanced Intel SpeedStep Energy Saving Technology. nine0340
Thermal Monitoring		Temperature monitoring.
Idle States		Idle states.

Standard extension set

Technology or instruction name	Meaning	Short description
MMX (Multimedia Extensions)		Multimedia extensions. nine0340
SSE (Streaming SIMD Extensions)		Processor streaming SIMD extension.
SSE2 (Streaming SIMD Extensions 2)		Streaming SIMD Processor Extension 2.
SSE3 (Streaming SIMD Extensions 3)		Streaming SIMD Processor Extension 3.
SSSE3 (Supplemental Streaming SIMD Extension 3)		Additional SIMD extensions for streaming 3.
EM64T (Extended Memory 64-bit Technology)		64-bit extended memory technology.
NX (Execute disable bit)		Execution inhibit bit.
SSE4.1 (Streaming SIMD Extensions 4.1)		Processor 4.1 streaming SIMD extension. nine0340

Safety technology

Technology or instruction name	Meaning	Short description
TXT (Trusted Execution Technology)		Trusted execution technology.
EDB (Execute Disable Bit)		Execute trip bit.

nine0330

Virtualization technologies

Technology or instruction name	Meaning	Short description
VT-x (Virtualization technology)		Virtualization technology.

Other technologies and instructions

Technology or instruction name	Meaning	Short description
Hyper-Threading		Hyperthreading technology. nine0340
Dynamic FSB frequency switching		Dynamic FSB switching.

Intel Core 2 Duo P7570 Processor Overview

Intel’s Core 2 Duo P7570 is a central processing unit designed for laptops and netbooks, which was created using the Penryn-3M architecture. Began to appear on the market since October 1, 2009.

System bus performance will be 1066 MHz. The temperature under load can be 105 degrees. With a manufacturing process of 45 nanometers — the total number of transistors is 410 million. This processor is installed only on boards with a PGA478 connector. nine0005

Budget processor in its price group, can be useful for everyday tasks and work.

Competitors and analogues

On the PGA478 socket, among other processors, solutions from Intel should be noted: Core 2 Extreme X7900 of 2007, Core 2 Duo E8435 on the Penryn microarchitecture, T9800 model on the PGA478 socket from the Core 2 Duo processor series, model X9100 on a PGA478 socket from the Core 2 Extreme processor family, Core 2 Duo E8335 2009, Core 2 Extreme X9000 2008 release. Among the competitors from AMD today we can note the P560 model on the Socket S1 socket among the Turion II series, the M620 model on the socket S1 socket among the Turion II UltraMobile series, the N370 model among the Athlon II processor line, the M660 model from the Turion II UltraMobile processor series, the P540 model among the Turion II processor line, and the N550 model from the Turion II line can also be included in this list.

If we cover the entire Core series, then the P7570 occupies the 59th position among them. The processor models closest in terms of technical characteristics under the Intel brand are Celeron T3500, Core 2 Duo P7370, Celeron T3300, Pentium T4400, Core 2 Duo T6570, Core 2 Duo T6500, Core 2 Duo T6400. They run on the same PGA478 socket and the same Penryn-3M microarchitecture. nine0005

Technology and instructions

The processor supports many top technologies and instructions.

This model has built-in energy saving technologies and instructions, such as: EIST, Thermal Monitoring, Idle States. The usual extension instructions Streaming SIMD Extensions 2, Streaming SIMD Extensions 4.1, SSE (Streaming SIMD Extensions), SSE3, NX (Execute disable bit), Extended Memory 64-bit Technology, SSSE3 (Supplemental Streaming SIMD Extension 3), MMX are used. nine0005

Similar processors

Atom Z3770

Core i5-430UM

Celeron 867

Turion X2 Ultra ZM-84

A4-3300M

Core 2 Duo T7300

Pentium 977

Core 2 Duo T8100

Celeron P4500

Core i3-380UM

Core 2 Duo T7200

nine0004 E2-3000

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Comparison Intel Celeron E1600 vs Intel Core 2 Duo E8400 which is better?

nine0339 Wolfdale

nine0337

General
Type
Desktop	Desktop
Architecture code name
Allendale
Cores A large number of cores improves performance in multi-threaded applications. At the moment, increasing the number of processor cores is one of the priorities for increasing performance.
2	2
Threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). nine0005
2	2
Process
65 nm	45 nm -20 nm (-30. 8%) better than
Chip size
77 mm2	104 mm2
Number of transistors
105 million	410 million 305 million (290.5%) better than
Maximum frequency Faster clocked processors perform more calculations per second and thus provide better performance.
2.4GHz	3 GHz Better than at 0.6 GHz (25%) nine0340
Support 64 bit
Max. number of processors per configuration
1	1
Socket
LGA775	LGA775
Value for money The sum of all the benefits of the device divided by its price. The more%, the better the quality per unit price in comparison with all analogues.
n/a	96.7%
Maximum core temperature
73 °C	72°C -1 °C (-1.4%) better than
TXT Intel’s Trusted Execution Technology for hardware-based computer protection against malware. For each protected program, the processor allocates its own isolated section of RAM.
Demand Based Switching
—	—
FSB parity
—	—
Level 1 Cache The fastest level of cache that works directly with the core. The larger the cache, the better the performance.
64 KB (per core)	64K (per core)
Level 2 cache
512 KB (total)	6 MB (total)
Maximum case temperature (TCase)
n/a	72 °C
Power Demand (TDP) Calculated thermal power shows the average heat dissipation in load operation, the larger the value, the more the requirements for cooling and power consumption increase.
65W	65W
EDB
+	+
Permissible core voltage
0.85V-1.5V	0.85V-1.3625V

nine0337

Technology and additional instructions
Turbo Boost		—
Idle States
Enhanced SpeedStep (EIST) Technology from Intel that reduces the processor frequency to a minimum to save power when the processor is idle.
Thermal Monitoring
Hyper-Threading Intel hardware technology that allows multiple threads to be processed on each processor core. For server applications, the performance improvement is up to 30%.