The expansion of Intel Processors(Desktop)
2: Pentium 2 (PII)
(P6-Micro Architecture)
(223-450 MHz)
(P6-Micro Architecture)
(223-450 MHz)

4: Pentium 4(P4)
(Netburst-Micro Architecture)
(1.3-3.8 GHz)
(Netburst-Micro Architecture)
(1.3-3.8 GHz)
5: Pentium 4 Extreme Edition(P4EE)
(Netburst-Micro Architecture)
(3.2-3.73 GHz)
(Netburst-Micro Architecture)
(3.2-3.73 GHz)

9:Intel Core 2 Duo(C2D)
(Core/Penryn-Micro Architecture)
(1.8-3.33GHz)
(Core/Penryn-Micro Architecture)
(1.8-3.33GHz)

10:Core 2 Quad(C2Q)
(Core/Penryn-Micro Architecture)
(2.4-3.0 GHz)
11:Core 2 Extreme(C2E)
(Core/Penryn-Micro Architecture)
(2.6-3.2GHz)
(Core/Penryn-Micro Architecture)
(2.4-3.0 GHz)

11:Core 2 Extreme(C2E)
(Core/Penryn-Micro Architecture)
(2.6-3.2GHz)

12:Intel Core i7
(Nehalem-Micro Architecture)
(2.66-2.93GHz)

Upcoming -->>
Nehalem(2008/09)>>Westmere(2009)>>SandyBrige(2010)>>
Ivy Brige(2011)>> Haswell(2012)
Details:-
1)Pentium 1
- Bus width 64 bits
- System bus speed 60 or 66 MHz
- Address bus 32 bits
- Address 4GB memory
- Runs on 5 volts
- Used in desktops
- 16 KB of L1 cache
- P5 - 0.8 µm process technology
* Number of transistors 3.1 million
* Socket 4 273 pin PGA processor package
* Package dimensions 2.16" x 2.16"
* Family 5 model 1
* Variants
o 60 MHz with 100 MIPS (70.4 SPECint92, 55.1 SPECfp92 on Xpress 256 KB L2)
o 66 MHz with 112 MIPS (77.9 SPECint92, 63.6 SPECfp92 on Xpress 256 KB L2)
- P54 - 0.6 µm process technology
* Socket 7 296/321 pin PGA package
* Number of transistors 3.2 million
* Variants
o 75 MHz Introduced October 10, 1994
o 90 MHz Introduced March 7, 1994
o 100 MHz Introduced March 7, 1994
o 120 MHz Introduced March 27, 1995
- P54C - 0.35 µm process technology
* 90 mm² die size
* Family 5 model 2
* Variants
o 120 MHz Introduced March, 1995
o 133 MHz Introduced June, 1995
o 150 MHz Introduced January 4, 1996
o 166 MHz Introduced January 4, 1996
o 200 MHz Introduced June 10, 1996
2) Pentium 2
- Introduced May 7, 1997
- Pentium Pro with MMX and improved 16-bit performance
- 242-pin Slot 1 (SEC) processor package
- Address 64GB memory
- Number of transistors 7.5 million
- 32 KB L1 cache
- 512 KB ½ speed external L2 cache
- Klamath - 0.35 µm process technology (233, 266, 300 MHz)
* Family 6 model 3
* Variants
o 233 MHz Introduced May 7, 1997
o 266 MHz Introduced May 7, 1997
o 300 MHz Introduced May 7, 1997
- Deschutes - 0.25 µm process technology (333, 350, 400, 450 MHz)
* Introduced January 26, 1998
* 66 MHz system bus speed (333 MHz variant), 100 MHz system bus speed for all models after
* Family 6 model 5
* Variants
o 333 MHz Introduced January 26, 1998
o 350 MHz Introduced April 15, 1998
o 400 MHz Introduced April 15, 1998
o 450 MHz Introduced August 24, 1998
3)Pentium 3
- Katmai - 0.25 µm process technology
* Improved PII, i.e. P6-based core, now including Streaming SIMD Extensions (SSE)
* Number of transistors 9.5 million
* 512 KB ½ speed L2 External cache
* 242-pin Slot 1 SECC2 (Single Edge Contact cartridge 2) processor package
* System Bus Speed 100 MHz, 133 MHz (B-models)
* Variants
o 450 MHz Introduced February 26, 1999
o 500 MHz Introduced February 26, 1999
o 550 MHz Introduced May 17, 1999
o 600 MHz Introduced August 2, 1999
o 533 MHz Introduced (133 MHz bus speed) September 27, 1999
o 600 MHz Introduced (133 MHz bus speed) September
- Coppermine - 0.18 µm process technology
* Introduced October 25, 1999
* Number of transistors 28.1 million
* 256 KB Advanced Transfer L2 Cache (Integrated)
* 242-pin Slot-1 SECC2 (Single Edge Contact cartridge 2) processor package, 370-pin FC-PGA
* System Bus Speed 100 MHz (E-models), 133 MHz (EB models)
* Slot 1, Socket 370
* Variants
o 500 MHz (100 MHz bus speed)
o 533 MHz(100 MHz bus speed)
o 550 MHz (100 MHz bus speed)
o 600 MHz(100 MHz bus speed)
o 600 MHz (100 MHz bus speed)
o 650 MHz (100 MHz bus speed) Introduced October 25, 1999
o 667 MHz Introduced October 25, 1999
o 700 MHz (100 MHz bus speed) Introduced October 25, 1999
o 733 MHz Introduced October 25, 1999
o 750 MHz (100 MHz bus speed) Introduced 10, 1999
o 800MHz (100 MHz bus speed) Introduced December 20, 1999
o 850 MHz (100 MHz bus speed)
o 866 MHz Introduced March 20, 2000
o 933 MHz Introduced May 24, 2000
o 1000 MHz Introduced March 8, 2000
o 1133 MHz (first version recalled, later re-released)
# Tualatin - 0.13 µm process technology
* Introduced July 2001
* Number of transistors 28.1 million
* 32 KB L1 cache
* 256 KB or 512 KB Advanced Transfer L2 cache (Integrated)
* 370-pin FC-PGA2 (Flip-chip pin grid array) package
* 133 MHz system bus speed
* Socket 370
* Family 6 model 11
* Variants
o 1133 MHz (256 KB L2)
o 1200 MHz(512 KB L2)
o 1266 MHz (512 KB L2)
o 1333 MHz(512 KB L2)
o 1400 MHz (512 KB L2)
4) Pentium 4/Pentium 4 HT
- 0.18-0.065 µm process technology
- Introduced November 20, 2000
- L2 cache was 256-2048 KB Advanced Transfer Cache (Integrated)
- System Bus Speed 400-800 MHz
- Number of Transistors 42-70 million
- Processor Package was PGA423, PGA478 ,LGA 775
- P4 Willamette
- P4 Northwood
- P4 Prescott
- P4 HT Northwood
- P4 HT Prescott
- P4 HT Cedar Mill
(Click "Spec" code in the chart to get full info about the Processor from Intel.com .
ex:SL8J7 = P4 HT 3.8GHZ processor)
| Spec | CPU Speed | Proce- ssor | Bus Speed | Mfg Tech | Cache Size | PackageType........................................ | |||
|---|---|---|---|---|---|---|---|---|---|
| SL8J7 | 3.80 GHz | 571 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8PY | 3.80 GHz | 670 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL7P2 | 3.80 GHz | N/A | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7Z3 | 3.80 GHz | 670 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL8Q9 | 3.80 GHz | 672 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL82U | 3.80 GHz | 570J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7KN | 3.60 GHz | 560 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL96H | 3.60 GHz | 661 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL8PZ | 3.60 GHz | 660 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL7Z5 | 3.60 GHz | 660 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL94V | 3.60 GHz | 661 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL7L9 | 3.60 GHz | 560 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7J9 | 3.60 GHz | 560 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8UP | 3.60 GHz | 662 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL8QB | 3.60 GHz | 662 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL7NZ | 3.60 GHz | 560 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8WF | 3.60 GHz | 661 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL8J6 | 3.60 GHz | 561 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL84X | 3.60 GHz | 560J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7Q2 | 3.60 GHz | 560J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8Q5 | 3.40 GHz | 650 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL8K4 | 3.40 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7E6 | 3.40 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7KD | 3.40 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7KM | 3.40 GHz | 550 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8PS | 3.40 GHz | 551 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7B9 | 3.40 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL833 | 3.40 GHz | 550J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7PZ | 3.40 GHz | 550 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7PY | 3.40 GHz | 550J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL96J | 3.40 GHz | 651 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL9C5 | 3.40 GHz | 551 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7PP | 3.40 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7J8 | 3.40 GHz | 550 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8J5 | 3.40 GHz | 551 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL9KE | 3.40 GHz | 651 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL7Z7 | 3.40 GHz | 650 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL8WG | 3.40 GHz | 651 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL88L | 3.40 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL793 | 3.40 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7AJ | 3.40E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7L8 | 3.40 GHz | N/A | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL94W | 3.40 GHz | 651 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL88K | 3.20E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7KC | 3.20E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7PX | 3.20 GHz | 540 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7LA | 3.20 GHz | N/A | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7PN | 3.20E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7PW | 3.20 GHz | 540J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL82Z | 3.20 GHz | 540J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7KL | 3.20 GHz | 540 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7Z8 | 3.20 GHz | 640 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL7L5 | 3.20 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL79M | 3.20E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL8WH | 3.20 GHz | 641 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL94X | 3.20 GHz | 641 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL8PR | 3.20 GHz | 541 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8Q6 | 3.20 GHz | 640 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL7B8 | 3.20E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6WG | 3.20 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL9KF | 3.20 GHz | 641 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL6WE | 3.20 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL792 | 3.20 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL96K | 3.20 GHz | 641 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL9C6 | 3.20 GHz | 541 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7J7 | 3.20 GHz | 540 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7E5 | 3.20E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL8K2 | 3.20E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL8J2 | 3.20 GHz | 541 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8ZZ | 3.06 GHz | 524 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6QC | 3.06 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL8JA | 3.06 GHz | 519K | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6S5 | 3.06 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL9CA | 3.06 GHz | 524 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6PG | 3.06 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6K7 | 3.06 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6JJ | 3.06 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL8PN | 3.06 GHz | 519K | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL87L | 3.06 GHz | 519 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6SM | 3.06 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7KB | 3E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6WK | 3 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6WU | 3 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7PM | 3E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7L4 | 3 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7BK | 3 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7E4 | 3E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7KK | 3 GHz | 530 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL78Z | 3 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7J6 | 3 GHz | 530 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL79L | 3E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL94Y | 3 GHz | 631 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL88J | 3E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL96L | 3 GHz | 631 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL82X | 3 GHz | 530J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL9CB | 3 GHz | 531 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8PQ | 3 GHz | 531 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8JZ | 3 GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL8Q7 | 3 GHz | 630 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL8WJ | 3 GHz | 631 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL8HZ | 3 GHz | 531 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7Z9 | 3 GHz | 630 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL9KG | 3 GHz | 631 | 800 MHz | 65 nm | 2 MB | LGA775 | |||
| SL7PU | 3 GHz | 530J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8ZY | 2.93 GHz | 517 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8PM | 2.93 GHz | 516 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8J9 | 2.93 GHz | 516 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7YV | 2.93 GHz | 515 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL85V | 2.93 GHz | 515 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL9CD | 2.93 GHz | 517 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8PP | 2.80 GHz | 521 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL9CJ | 2.80 GHz | 511 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6WJ | 2.80 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7E3 | 2.80E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7E2 | 2.80 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7D8 | 2.80A GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL8U4 | 2.80 GHz | 511 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6S4 | 2.80 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL79K | 2.80E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6WT | 2.80 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SL | 2.80 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL8U5 | 2.80 GHz | 511 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6Z5 | 2.80 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL78Y | 2.80C GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL9CG | 2.80 GHz | 521 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7KH | 2.80 GHz | 520 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7KJ | 2.80 GHz | 520 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL88H | 2.80E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7KA | 2.80E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL8AB | 2.80 GHz | 620 | 800 MHz | 90 nm | 2 MB | LGA775 | |||
| SL88G | 2.80 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7PT | 2.80 GHz | 505 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6PF | 2.80 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7PK | 2.80E GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6K6 | 2.80 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL82V | 2.80 GHz | 521 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7EY | 2.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7PL | 2.80E GHz | N/A | 800 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6QB | 2.80 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7PR | 2.80 GHz | 520J | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8JX | 2.80 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6HL | 2.80 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL8HX | 2.80 GHz | 521 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7K9 | 2.80A GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL7J5 | 2.80 GHz | 520 | 800 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7J4 | 2.80 GHz | 520 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6DX | 2.66 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6S3 | 2.66 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6EH | 2.66 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6QA | 2.66 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SK | 2.66 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6PE | 2.66 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL8PL | 2.66 GHz | 506 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8J8 | 2.66 GHz | 506 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL8B3 | 2.66 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL85U | 2.66 GHz | 505J | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7YU | 2.66 GHz | 505 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL7E9 | 2.66 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL9CK | 2.66 GHz | 506 | 533 MHz | 90 nm | 1 MB | LGA775 | |||
| SL6HB | 2.60 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6PP | 2.60 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6QR | 2.60 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6GU | 2.60 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6WS | 2.60 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6WH | 2.60 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SB | 2.60 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6S2 | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6Q9 | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6EG | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6EV | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SJ | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL685 | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6PD | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL682 | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6D8 | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6DW | 2.53 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6PN | 2.50 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6GT | 2.50 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6EB | 2.50 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SA | 2.50 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6QQ | 2.50 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL88F | 2.40 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6PC | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL67Z | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL684 | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL68T | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL65R | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL66T | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL67R | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6EF | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6EU | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6GS | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6D7 | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6DV | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6E9 | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6Z3 | 2.40 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7E8 | 2.40A GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6Q8 | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7FY | 2.40 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6RZ | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6QP | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL79B | 2.40B GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6WF | 2.40 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SR | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6S9 | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6WR | 2.40 GHz | N/A | 800 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7YP | 2.40 GHz | N/A | 533 MHz | 90 nm | 1 MB | 478 pin | |||
| SL6SH | 2.40 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6PM | 2.40 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6RY | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7D7 | 2.26 GHz | N/A | 533 MHz | 90 nm | 512KB | 478 pin | |||
| SL6DU | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6D6 | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL683 | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL67Y | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6Q7 | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6ET | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6PB | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL7V9 | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6EE | 2.26 GHz | N/A | 533 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5ZU | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6PL | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6QN | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL68S | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6S8 | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6GR | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5YS | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6E8 | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL66S | 2.20 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5YR | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL66R | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SP | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5ZT | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL62Q | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL68R | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6E7 | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5SZ | 2 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL6S7 | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6QM | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5UH | 2 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL6PK | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5TQ | 2 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL6GQ | 2 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5TL | 2 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5WH | 1.90 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5WG | 1.90 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5VN | 1.90 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL6BF | 1.90 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL67C | 1.90 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5VK | 1.90 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL62P | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5UT | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5UM | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5VJ | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5UV | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5VM | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL4X5 | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5UK | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL4WV | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL6QL | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL68Q | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL67B | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL6PQ | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6BE | 1.80 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL6E6 | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6LA | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL66Q | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6S6 | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL63X | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL6SN | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL62R | 1.80 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5TP | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5UG | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL57V | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5N9 | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL59X | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5SY | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5TK | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL57W | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL6BD | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL67A | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL62Z | 1.70 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL679 | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5VH | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5VL | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL4X4 | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL62S | 1.60 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL4WU | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL668 | 1.60 GHz | N/A | 400 MHz | 0.13 micron | 512KB | 478 pin | |||
| SL5UL | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5US | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL6BC | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5UJ | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5UW | 1.60 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL59V | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL4X3 | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL62Y | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5UF | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL4WT | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5TN | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5SX | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL6BA | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL4SH | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5TJ | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL4TY | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5N8 | 1.50 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL4WS | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL4SG | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5N7 | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5TG | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL5UE | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL59U | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 478 pin | |||
| SL4SC | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL4X2 | 1.40 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL4QD | 1.30 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL4SF | 1.30 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5GC | 1.30 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin | |||
| SL5FW | 1.30 GHz | N/A | 400 MHz | 0.18 micron | 256KB | 423 pin |
5) Pentium 4 Extreme Edition
- Introduced September 2003
- P4EE EE= "Extreme Edition"
- Built from the Xeon's "Gallatin" core, but with 2 MB cache-
- Gallatin
- Prescott-2M
| sSpec | CPU Speed | Proc- essor | Cores | Bus Speed | Mfg Tech | Ste- pping | Cache Size | Package | .................... .......... |
|---|---|---|---|---|---|---|---|---|---|
| SL7Z4 | 3.73 GHz | N/A | 1 | 1066 MHz | 90 nm | N0 | 2 MB | LGA775 | 04B |
| SL7NF | 3.46 GHz | N/A | 1 | 1066 MHz | 0.13 micron | M0 | 512 KB | LGA775 | 04B |
| SL7RT | 3.46 GHz | N/A | 1 | 1066 MHz | 0.13 micron | M0 | 2 MB | LGA775 | 04B |
| SL7CH | 3.40 GHz | N/A | 1 | 800 MHz | 0.13 micron | M0 | 2 MB | 478 pin | N/A |
| SL7GD | 3.40 GHz | N/A | 1 | 800 MHz | 0.13 micron | M0 | 2 MB | LGA775 | N/A |
| SL7RR | 3.40 GHz | N/A | 1 | 800 MHz | 0.13 micron | M0 | 2 MB | LGA775 | N/A |
| SL7AA | 3.20 GHz | N/A | 1 | 800 MHz | 0.13 micron | M0 | 512 KB | 478 pin | N/A |
(Click "Spec" code in the chart to get full info about the Processor from Intel.com .
ex:SL8J7 = P4 HT 3.8GHZ processor)
6)Pentium Dual Core
- Allendale - 65 nm process technology
* Desktop CPU (SMP support restricted to 2 CPUs)
* Two CPUs on one die
* Introduced January 21, 2007
* SSSE3 SIMD instructions
* Number of Transistors 167 Million
* LaGrande Technology, enhanced security hardware extensions
* Execute Disable Bit
* EIST (Enhanced Intel SpeedStep Technology)
* iAMT2 (Intel Active Management Technology), remotely manage computers
* LGA775
- Wolfdale 45nm process technology
* Two CPUs on one die
* 45nm tech
* 2MB cache L2
* SSSE 4.1
* Execute Disable Bit
* EIST (Enhanced Intel SpeedStep Technology)
* iAMT2 (Intel Active Management Technology), remotely manage computers
* LGA775
| Spec | CPU Speed | Proc- essor | C# | Bus Speed | Mfg Tech | Step. | Cache size | Package | ........................................... |
|---|---|---|---|---|---|---|---|---|---|
| SLAY7 | 2.5 GHz | E5200 | 2 | 800 MHz | 45 nm | M0 | 2 MB | LGA775 | 06 |
| SLA8W | 2.40 GHz | E2220 | 2 | 800 MHz | 65 nm | M0 | 1 MB | LGA775 | 06 |
| SLA8X | 2.20 GHz | E2200 | 2 | 800 MHz | 65 nm | M0 | 1 MB | LGA775 | 06 |
| SLA8Y | 2.00GHz | E2180 | 2 | 800 MHz | 65 nm | M0 | 1 MB | LGA775 | 06 |
| SLA9Z | 1.80 GHz | E2160 | 2 | 800 MHz | 65 nm | G0 | 1 MB | LGA775 | 06 |
| SLA3H | 1.80 GHz | E2160 | 2 | 800 MHz | 65 nm | L2 | 1 MB | LGA775 | 06 |
| SLA8Z | 1.80 GHz | E2160 | 2 | 800 MHz | 65 nm | M0 | 1 MB | LGA775 | 06 |
| SLALS | 1.60 GHz | E2140 | 2 | 800 MHz | 65 nm | G0 | 1 MB | LGA775 | 06 |
| SLA3J | 1.60 GHz | E2140 | 2 | 800 MHz | 65 nm | L2 | 1 MB | LGA775 | 06 |
| SLA93 | 1.60 GHz | E2140 | 2 | 800 MHz | 65 nm | M0 | 1 MB | LGA775 | 06 |
(Click "Spec" code in the chart to get full info about the Processor from Intel.com .
ex:SL8J7 = P4 HT 3.8GHZ processor)
7) Pentium D
* Dual Core Microproccessor
* No Hyper-Threading
* 800(4x200) MHz front side bus
- Smithfield - 90 nm process technology (2.66–3.2 GHz)
o Introduced May 26, 2005
o 2.66–3.2 GHz (model numbers 805-840)
o Number of Transistors 230 million
o 1 MB x 2 (non-shared, 2 MB total) L2 cache
o Cache coherency between cores requires communication over the FSB
o Performance increase of 60% over similarly clocked Prescott
o 2.66 GHz (533 MHz FSB) Pentium D 805 introduced December 2005
o Contains 2x Prescott dies in one package
- Presler - 65 nm process technology (2.8–3.6 GHz)
o 2.8–3.6 GHz (model numbers 915-960)
o Number of Transistors 376 million
o 2 MB x 2 (non-shared, 4 MB total) L2 cache
o Contains 2x Cedar Mill dies in one package
| sSpec | CPU Speed | Proc- essor | C# | Bus Speed | Mfg Tech | Step | Cache | Package | ........................................... |
|---|---|---|---|---|---|---|---|---|---|
| SL9AP | 3.60 GHz | 960 | 2 | 800 MHz | 65 nm | C1 | 4MB(2x2) | LGA775 | 05B |
| SL9K7 | 3.60 GHz | 960 | 2 | 800 MHz | 65 nm | D0 | 4MB(2x2) | LGA775 | 05A |
| SL95V | 3.40 GHz | 950 | 2 | 800 MHz | 65 nm | C1 | 4MB(2x2) | LGA775 | 05A |
| SL94P | 3.40 GHz | 950 | 2 | 800 MHz | 65 nm | B1 | 4MB(2x2) | LGA775 | 05B |
| SL9K8 | 3.40 GHz | 950 | 2 | 800 MHz | 65 nm | D0 | 4MB | LGA775 | 05A |
| SL9QQ | 3.40 GHz | 945 | 2 | 800 MHz | 65 nm | D0 | 4MB(2x2) | LGA775 | 05A |
| SL9QB | 3.40 GHz | 945 | 2 | 800 MHz | 65 nm | C1 | 4MB(2x2) | LGA775 | 05A |
| SL95W | 3.20 GHz | 940 | 2 | 800 MHz | 65 nm | C1 | 4MB(2x2) | LGA775 | 05A |
| SL94Q | 3.20 GHz | 940 | 2 | 800 MHz | 65 nm | B1 | 4MB(2x2) | LGA775 | 05B |
| SL8CM | 3.20 GHz | 840 | 2 | 800 MHz | 90 nm | B0 | 2MB | LGA775 | 05B |
| SL88R | 3.20 GHz | 840 | 2 | 800 MHz | 90 nm | A0 | 2MB | LGA775 | 05B |
| SL9QR | 3.20 GHz | 935 | 2 | 800 MHz | 65 nm | D0 | 4MB | LGA775 | 05A |
| SL88S | 3 GHz | 830 | 2 | 800 MHz | 90 nm | A0 | 2MB | LGA775 | 05B |
| SL8CN | 3 GHz | 830 | 2 | 800 MHz | 90 nm | B0 | 2MB | LGA775 | 05B |
| SL8WR | 3 GHz | 930 | 2 | 800 MHz | 65 nm | B1 | 4MB | LGA775 | 05A |
| SL9KA | 3 GHz | 925 | 2 | 800 MHz | 65 nm | D0 | 4MB(2x2) | LGA775 | 05A |
| SL95X | 3 GHz | 930 | 2 | 800 MHz | 65 nm | C1 | 4MB(2x2) | LGA775 | 05A |
| SL9D9 | 3 GHz | 925 | 2 | 800 MHz | 65 nm | C1 | 4MB(2x2) | LGA775 | 05A |
| SL94R | 3 GHz | 930 | 2 | 800 MHz | 65 nm | B1 | 4MB(2x2) | LGA775 | 05A |
| SL94S | 2.80 GHz | 920 | 2 | 800 MHz | 65 nm | B1 | 4MB(2x2) | LGA775 | 05A |
| SL88T | 2.80 GHz | 820 | 2 | 800 MHz | 90 nm | A0 | 2MB | LGA775 | 05A |
| SL9DA | 2.80 GHz | 915 | 2 | 800 MHz | 65 nm | C1 | 4MB(2x2) | LGA775 | 05A |
| SL9KB | 2.80 GHz | 915 | 2 | 800 MHz | 65 nm | D0 | 4MB(2x2) | LGA775 | 05A |
| SL8CP | 2.80 GHz | 820 | 2 | 800 MHz | 90 nm | B0 | 2MB | LGA775 | 05A |
| SL8WS | 2.80 GHz | 920 | 2 | 800 MHz | 65 nm | B1 | 4MB | LGA775 | 05A |
| SL8ZH | 2.66 GHz | 805 | 2 | 533 MHz | 90 nm | B0 | 2MB | LGA775 | 05A |
8) Pentium Extreme Edition
* Dual-core microprocessor
* Enabled Hyper-Threading
* 800(4x200)-1066(2x266) MHz front side bus
- Smithfield - 90 nm process technology (3.2 GHz)
- Presler - 65 nm process technology (3.46, 3.73)
| sSpec | CPU Speed | Proc- essor | Cores | Bus Speed | Mfg Tech | Step | Cache Size | Package | ............................................ |
|---|---|---|---|---|---|---|---|---|---|
| SL9AN | 3.73 GHz | 965 | 2 | 1066 MHz | 65 nm | C1 | 4 MB | LGA775 | 05B |
| SL8WM | 3.46 GHz | 955 | 2 | 1066 MHz | 65 nm | B1 | 4 MB | LGA775 | 05B |
| SL94N | 3.46 GHz | 955 | 2 | 1066 MHz | 65 nm | B1 | 4 MB | LGA775 | 05B |
| SL8FK | 3.20 GHz | 840 | 2 | 800 MHz | 90 nm | A0 | 2 MB | LGA775 | 05B |
9) Intel Core 2 Duo
- Conroe - 65 nm process technology
* Desktop CPU (SMP support restricted to 2 CPUs)
* Two cores on one die
* Introduced July 27, 2006
* SSSE3 SIMD instructions
* Number of Transistors 291 Million
* Intel Virtualization Technology, multiple OS support
* LaGrande Technology, enhanced security hardware extensions
* Execute Disable Bit
* EIST (Enhanced Intel SpeedStep Technology)
* iAMT2 (Intel Active Management Technology), remotely manage computers
* LGA775
- Allendale - 65 nm process technology
* Desktop CPU (SMP support restricted to 2 CPUs)
* Two CPUs on one die
* Introduced January 21, 2007
* SSSE3 SIMD instructions
* Number of Transistors 167 Million
* LaGrande Technology, enhanced security hardware extensions
* Execute Disable Bit
* EIST (Enhanced Intel SpeedStep Technology)
* iAMT2 (Intel Active Management Technology), remotely manage computers
* LGA775
- Wolfdale - 45 nm process technology
* Die shrink of Conroe
* Same features as Conroe with the addition of:-
o 50% more cache, 6 MB as opposed to 4 MB
o Intel Trusted Execution Technology
o SSE4 SIMD instructions
* Number of Transistors 410 Million
| sSpec | CPU Speed | Proc- essor | Cores | Bus Speed | Mfg Tech | Step | Cache Size | Package | ............................................ |
|---|---|---|---|---|---|---|---|---|---|
| SLB9L | 3.33 GHz | E8600 | 2 | 1333 MHz | 45 nm | E0 | 6 MB | LGA775 | 06 |
| SLB9K | 3.16 GHz | E8500 | 2 | 1333 MHz | 45 nm | E0 | 6 MB | LGA775 | 06 |
| SLAPK | 3.16 GHz | E8500 | 2 | 1333 MHz | 45 nm | C0 | 6 MB | LGA775 | 06 |
| SLAPL | 3 GHz | E8400 | 2 | 1333 MHz | 45 nm | C0 | 6 MB | LGA775 | 06 |
| SLA9U | 3 GHz | E6850 | 2 | 1333 MHz | 65 nm | G0 | 4 MB | LGA775 | 06 |
| SLB9J | 3 GHz | E8400 | 2 | 1333 MHz | 45 nm | E0 | 6 MB | LGA775 | 06 |
| SLAPJ | 2.83 GHz | E8300 | 2 | 1333 MHz | 45 nm | C0 | 6 MB | LGA775 | 06 |
| SLA9V | 2.66 GHz | E6750 | 2 | 1333 MHz | 65 nm | G0 | 4 MB | LGA775 | 06 |
| SL9S7 | 2.66 GHz | E6700 | 2 | 1066 MHz | 65 nm | B2 | 4 MB | LGA775 | 06 |
| SL9ZF | 2.66 GHz | E6700 | 2 | 1066 MHz | 65 nm | B2 | 4 MB | LGA775 | 06 |
| SLB9X | 2.66 GHz | E7300 | 2 | 1066 MHz | 45 nm | M0 | 3 MB | LGA775 | 06 |
| SLAPB | 2.66 GHz | E7300 | 2 | 1066 MHz | 45 nm | M0 | 3 MB | LGA775 | 06 |
| SLAQR | 2.66 GHz | E8190 | 2 | 1333 MHz | 45 nm | C0 | 6 MB | LGA775 | 06 |
| SLAPP | 2.66 GHz | E8200 | 2 | 1333 MHz | 45 nm | C0 | 6 MB | LGA775 | 06 |
| SLALT | 2.60 GHz | E4700 | 2 | 800 MHz | 65 nm | G0 | 2 MB | LGA775 | 06 |
| SLAVN | 2.53 GHz | E7200 | 2 | 1066 MHz | 45 nm | M0 | 3 MB | LGA775 | 06 |
| SLAPC | 2.53 GHz | E7200 | 2 | 1066 MHz | 45 nm | M0 | 3 MB | LGA775 | 06 |
| SLA94 | 2.40 GHz | E4600 | 2 | 800 MHz | 65 nm | M0 | 2 MB | LGA775 | 06 |
| SL9ZL | 2.40 GHz | E6600 | 2 | 1066 MHz | 65 nm | B2 | 4 MB | LGA775 | 06 |
| SL9S8 | 2.40 GHz | E6600 | 2 | 1066 MHz | 65 nm | B2 | 4 MB | LGA775 | 06 |
| SLA9X | 2.33 GHz | E6550 | 2 | 1333 MHz | 65 nm | G0 | 4 MB | LGA775 | 06 |
| SLAA5 | 2.33 GHz | E6540 | 2 | 1333 MHz | 65 nm | G0 | 4 MB | LGA775 | 06 |
| SLA95 | 2.20 GHz | E4500 | 2 | 800 MHz | 65 nm | M0 | 2 MB | LGA775 | 06 |
| SL9T9 | 2.13 GHz | E6400 | 2 | 1066 MHz | 65 nm | L2 | 2 MB | LGA775 | 06 |
| SL9S9 | 2.13 GHz | E6400 | 2 | 1066 MHz | 65 nm | B2 | 2 MB | LGA775 | 06 |
| SLA4T | 2.13 GHz | E6420 | 2 | 1066 MHz | 65 nm | B2 | 4 MB | LGA775 | 06 |
| SLA98 | 2 GHz | E4400 | 2 | 800 MHz | 65 nm | M0 | 2 MB | LGA775 | 06 |
| SLA3F | 2 GHz | E4400 | 2 | 800 MHz | 65 nm | L2 | 2 MB | LGA775 | 06 |
| SL9SA | 1.86 GHz | E6300 | 2 | 1066 MHz | 65 nm | B2 | 2 MB | LGA775 | 06 |
| SL9TA | 1.86 GHz | E6300 | 2 | 1066 MHz | 65 nm | L2 | 2 MB | LGA775 | 06 |
| SLA4U | 1.86 GHz | E6320 | 2 | 1066 MHz | 65 nm | B2 | 4 MB | LGA775 | 06 |
| SL9TB | 1.80 GHz | E4300 | 2 | 800 MHz | 65 nm | L2 | 2 MB | LGA775 | 06 |
10) Intel Core 2 Quad
- Kentsfield - 65 nm process technology
* Two dual-core cpu dies in one package.
* Desktop CPU Quad Core (SMP support restricted to 4 CPUs)
* Introduced December 13, 2006
* same features as Conroe but with 4 CPU Cores
* Number of Transistors 586 Million
* Socket 775
- Yorkfield - 45 nm process technology
* Quad core CPU
* Die shrink of Kentsfield
* Contains 2x Wolfdale dual core dies in one package
* Same features as Wolfdale
* Number of Transistors 820 Million
| sSpec | CPU Speed | Proc- essor | Co- res | Bus Speed | Mfg Tech | Step | Cache Size | Package | .......................................... |
|---|---|---|---|---|---|---|---|---|---|
| SLB8W | 3 GHz | Q9650 | 4 | 1333 MHz | 45 nm | E0 | 12 MB | LGA775 | 05A |
| SLB8V | 2.83 GHz | Q9550 | 4 | 1333 MHz | 45 nm | E0 | 12 MB | LGA775 | 05A |
| SLAWQ | 2.83 GHz | Q9550 | 4 | 1333 MHz | 45 nm | C1 | 12 MB | LGA775 | 05A |
| SLACQ | 2.66 GHz | Q6700 | 4 | 1066 MHz | 65 nm | G0 | 8 MB | LGA775 | 05A |
| SLAWR | 2.66 GHz | Q9450 | 4 | 1333 MHz | 45 nm | C1 | 12 MB | LGA775 | 05A |
| SLB6B | 2.66 GHz | Q9400 | 4 | 1333 MHz | 45 nm | R0 | 6 MB | LGA775 | 05A |
| SLAWE | 2.50 GHz | Q9300 | 4 | 1333 MHz | 45 nm | M1 | 6 MB | LGA775 | 05A |
| SLACR | 2.40 GHz | Q6600 | 4 | 1066 MHz | 65 nm | G0 | 8 MB | LGA775 | 05A |
| SL9UM | 2.40 GHz | Q6600 | 4 | 1066 MHz | 65 nm | B3 | 8 MB | LGA775 | 05B |
| SLG9S | 2.33 GHz | Q8200 | 4 | 1333 MHz | 45 nm | R0 | 4 MB | LGA775 | 05A |
| SLB5M | 2.33 GHz | Q8200 | 4 | 1333 MHz | 45 nm | M1 | 4 MB | LGA775 | 05A |
11)Intel Core 2 Extreme
- Conroe XE - 65 nm process technology
* Desktop Extreme Edition CPU (SMP support restricted to 2 CPUs)
* Introduced July 27, 2006
* same features as Conroe
* LGA775
- Kentsfield XE - 65 nm process technology
* Two dual-core cpu dies in one package.
* Desktop CPU Quad Core (SMP support restricted to 4 CPUs)
* Introduced December 13, 2006
* same features as Conroe but with 4 CPU Cores
* Number of Transistors 586 Million
* Socket 775
- Yorkfield - 45 nm process technology
* Quad core CPU
* Die shrink of Kentsfield
* Contains 2x Wolfdale dual core dies in one package
* Same features as Wolfdale
* Number of Transistors 820 Million
| Spec | CPU Speed | Proc- cessor | Co- res | Bus Speed | Mfg Tech | Cache Size | Package | ....................................... | |
|---|---|---|---|---|---|---|---|---|---|
| SLAWM | 3.20 GHz | QX9770 | 4 | 1600 MHz | 45 nm | 12 MB | LGA775 | 05B | |
| SLANY | 3.20 GHz | QX9775 | 4 | 1600 MHz | 45 nm | 12 MB | LGA771 | N/A | |
| SLAFN | 3 GHz | QX6850 | 4 | 1333 MHz | 65 nm | 8 MB | LGA775 | 05B | |
| SLAN3 | 3 GHz | QX9650 | 4 | 1333 MHz | 45 nm | 12 MB | LGA775 | 05B | |
| SLAWN | 3 GHz | QX9650 | 4 | 1333 MHz | 45 nm | 12 MB | LGA775 | 05B | |
| SL9UK | 2.93 GHz | QX6800 | 4 | 1066 MHz | 65 nm | 8 MB | LGA775 | N/A | |
| SL9S5 | 2.93 GHz | X6800 | 2 | 1066 MHz | 65 nm | 4 MB | LGA775 | 05B | |
| SLACP | 2.93 GHz | QX6800 | 4 | 1066 MHz | 65 nm | 8 MB | LGA775 | 05B | |
| SL9UL | 2.66 GHz | QX6700 | 4 | 1066 MHz | 65 nm | 8 MB | LGA775 | 05B |
12) Intel Core i7/Core i7 Extreme
| Model | Process | Cores/ Threads | Speed | Price | Cache | Memory Contoller | Bus Interface | TDP | Socket | Release date |
|---|---|---|---|---|---|---|---|---|---|---|
| Core i7 965 Extreme Edition | 45nm | 4/8 | 3.2 GHz | $999 | 256 KB L2/core 8 MB shared L3 | Triple channel DDR3 800 /1066 /1333 MHz | 1x 6.4 GT/s QuickPath | 130W | LGA1366 | Oct 2008 |
| Core i7 930 | 2.93 GHz | $562 | 1x 4.8 GT/s QuickPath | |||||||
| Core i7 800 | 2.66 GHz | $284 |
Core i7
The Core i7 brand refers to an upcoming range of Intel's consumer 64-bit quad-core CPUs with the x86-64 instruction set, based on the Intel Nehalem microarchitecture. These chips will also feature simultaneous multithreading, which will allow the quad core chips to work on eight threads simultaneously.According to an Intel spokesperson, the Core i7 identifier applies to the initial family of processors, Bloomfield, due to be launched in Q4 2008. According to Intel representatives, the moniker Core i7 does not have a deeper meaning.(wiki)
Products based on the new microarchitecture will deliver high performance and energy efficiency. This "best of both worlds" approach is expected to extend Intel's processor leadership in future mobile, desktop and server market segments.
Launch
Originally scheduled to launch in November or December this year, Intel's Nehalem-based Bloomfield processors will now launch in September along with X58 chipsets, sources at motherboard makers have revealed.However, the sources pointed out that CPUs and motherboards will not officially appear in the channel until early October.
Performance
A 2.93 GHz Core i7 900 system has been used to run a 3DMark Vantage benchmark and gave a CPU score of 17,966.The 2.66 GHz Core i7 800 scores 16,294. A 2.4 GHz Core 2 Duo E6600 scores 4,300.
AnandTech tested the Intel QuickPath Interconnect (4.8 GT/s version) and found the copy bandwidth using triple-channel 1066 MHz DDR3 was 12.0 GB/s. A 3.0 GHz Core 2 Quad system using dual-channel 1066 MHz DDR3 achieved 6.9 GB/s.
Overclocking
Overclocking will be possible with the 800 and 900 series and a motherboard equipped with the X58 chipset. The Lynnfield and Havendale processors will use a PCH removing the need for a northbridge chipset and requiring a different motherboard design.
QuickPath to replace FSB(Front Side Bus)
With X58,QuickPath to replace FSB. Those who are accustomed to overclocking their motherboards using the FSB, will have to start over and learn the new system. Similar to AMD’s HyperTransport, the QuickPath architecture will feature an integrated memory controller on the CPU and provide direct links between the CPU and system memory.
X58 chipset Motherboard(Codename 'Tylersburg')
Intel will launch the X58 chipset with the same ICH-10 family of southbridges currently used on its P45 platform.ICH-10 supplies up to four PCI Express x16 paths,of which two, are PCI Express 2.0 paths. Other possible combinations are: one x16 path, two x16 paths, four x8 paths, and one 16 path and two x8 paths.Because of QuickPath however, we’re able to realize far better performance with wide bandwidth and very low latency. According to Intel, Nehalem will initially come with a 20-bit wide 25.6 GB/sec. QuickPath link, which gives a theoretical 2x performance increase in bandwidth over the 1600MHz FSB currently available on the X48 platform.
Memory support will come in the form of DDR3 with support for 800MHz, 1066MHz and 1333MHz frequencies initially. Total bandwidth will be 32GB/sec. with support for up to 24GB of total system memory initially. X58 motherboards will provide up to 6 slots of memory but will require that the first slot (DIMM0) be populated.Sources indicated that Intel will release Bloomfield, the first of the Nehalem family at 3.2GHz, 2.93GHz and 2.66GHz and on an LGA1366-pin platform.
13) Intel Sandybridge (microarchitecture)
Sandybridge is the code name for a processor that is being developed by Intel and is the planned successor to Nehalem. Intel is already into the development process for Sandy Bridge. Sandy Bridge uses the 32 nm manufacturing methods from (formerly known as WestmereNehalem-C) and applies it to the new Sandybridge microarchitecture. The former codename for this core was Gesher (means 'bridge' in Hebrew), but that codename was abandoned on 17 April 2007 because a political party in Israel is also named Gesher, as mentioned in Justin Rattner's keynote at IDF Spring 2007. Intel's plans are to introduce new microarchitectures every two years, so this processor should debut in 2010.It should have 8 cores on the same die, an L2 cache of 512 KB per heart and a L3 cache of 16 MB One of the main characteristics Sandy Bridge will be adding the game 'Instruction AVX (Advanced Vectors Extensions), formerly known as VSSE.
Architecture
Sandy Bridge's specifications are reported to be as follows, according to a presentation made by Intel in December 2006:These specifications share similarities with the cancelled Gulftown processor.
* 4 GHz clock speed.
* 4 to 8 out-of-order cores.
* Without SSE: 8 DP GFLOPS/core (2 DP FP/clock), 32-64 DP GFLOPS/processor.
* With SSE: 28 DP GFLOPS/core (7 DP FP/clock), 112-224 DP GFLOPS/processor.
* 32 KB L1 cache/core, (3 clocks).
* 512 KB L2 cache/core, (9 clocks).
* 2-3 MB L3 cache/core (8-24 MB total) (33 clocks), most likely pooled and dynamically allocated among the cores.
* 64 bytes cache line width.
* 256 bytes/cycle Ring bus bandwidth. The ring bus connects the cores.
* 0-512 MB GDDR / fast DRAM.
* 64 GB/s GDDR / fast DRAM memory bandwidth.
* 17 GB/s memory bandwidth per QuickPath link with 50 ns latency.
Features
* Sandy Bridge will focus on power efficiency.
* Performance will be increased without a core size increase (similar to the Netburst to Core transition).
* Due to the small 32 nm process, the floating point unit is relatively small compared to the rest of the core.
* Dynamic Turbo allows the CPU power to exceed the TDP value when the rest of the platform is relatively cool. The frequency gain can be up to 37% for one minute, and over 20% in most cases.
* Nehalem may stay at the server platform while Sandy Bridge is released for the mobile segments, which would split the markets into two CPU lines.
* Sandy Bridge's CPU and GPU are likely to be on one die (unlike the two-die approach of Nehalem).
* Because of the high-performing CPU and off-chip components, it may be necessary to improve bus interconnects.
* The Sandy Bridge microarchitecture is also said to focus on the connections of the processor core.
14) Haswell (microarchitecture)
Haswell is the code name for a processor that is being developed by Intel and is the planned successor to Sandy Bridge. Haswell will be designed for the 22 nm manufacturing process and is planned for a commercial release in 2012. Haswell should be the first Intel CPU to implement FMA (Fused Multiply-Add) instructions.Haswell's design is in the early stages of development. Like Nehalem, Haswell is being developed by Intel's Oregon team rather than by Intel's Israel Development Center like Core and Sandy Bridge.
Architecture
Haswell is expected to have these features.
* 22 nm process
* 8 cores by default
* Entirely new cache design
* Revolutionary power saving systems
* Possible on-package vector coprocessors
* The addition of the FMA(Fused Multiply-Add) instruction set







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