List of CPU power dissipation figures

This is a list of CPU power dissipation figures of various consumer central processing units (CPUs).

Early CPUs

Note that these figures include power dissipation due to energy lost by the computer's power supply and some minor peripherals. However, since the CPU component of these early computers easily accounted for most of the computer's power dissipation, they are mentioned here:

Microprocessors

If not stated otherwise, the watts dissipated refers to the peak-value thermal design power for a whole processor family. Since thermal design power relates to the potential maximum thermally significant power used by the most energy using member of a processor family, it is not useful for comparing processors within a particular family. It is also not useful for comparison of the energy efficiency of individual processors in different families, because it relates to the family, not the individual CPU. Thermal design power is defined differently by different manufacturers, so it is not comparable between manufacturers.

Different architectures vary in how many operations they perform per clock cycle, so MHz/W values are not useful for comparing processors using different internal structure (see Megahertz myth). Since TDP is defined for families, not individual processors, MHz/TDP W are not useful for comparing processors using the same internal structure.

For measures of energy efficiency in computing, see Performance per watt.

IBM/Motorola/Freescale processors

PowerPC

Sortable table
ModelLithographyClock speedVcorePower
Dual-core PowerPC MPC8641D90 nm2 GHz1.2 V15-25 W
PowerPC 750FX0.13 μm900 MHz1.2 V3.6 W
PowerPC 750CXe0.18 μm600 MHz1.8 V6 W
PowerPC MGT5600.20 μm56 MHz2.7 V0.5 W
PowerPC 440GX800 MHz4.5 W
PowerPC 9701.8 GHz1.3 V42 W
PowerPC 7400e1.0 GHz1.6 V30 W

Marvell XScale

Marvell acquired an ARM license in 2003, and bought Intel's XScale line in 2006.[1]

Intel processors

Pentium
Sortable table
ModelClock speedPower
Pentium75 MHz8.1 W
Pentium90 MHz9.0 W
Pentium100 MHz10.94541 W
Pentium120 MHz11.9 W
Pentium133 MHz11.2 W
Pentium150 MHz11.6 W
Pentium166 MHz14.5 W
Pentium200 MHz15.5 W
Pentium MMX
Sortable table
ModelCoreClock speedPower
Pentium MMXP55C(280nm)166 MHz13.1 W
Pentium MMXP55C(280nm)200 MHz15.7 W
Pentium MMXP55C(280nm)233 MHz17.9 W
Pentium II
Sortable table
ModelCoreClock speedPowerRelease date
Pentium II 233Klamath (350 nm)233 MHz34.8 W1997
Pentium II 266Klamath (350 nm)266 MHz38.2 W
Pentium II 300Klamath (350 nm)300 MHz43 W
Pentium II 266Deschutes (250 nm)266 MHz16.8 W
Pentium II 300Deschutes (250 nm)300 MHz18.6 W
Pentium II 333Deschutes (250 nm)333 MHz20.6 W
Pentium II OverdriveDeschutes (250 nm)300 or 333 MHz
Pentium II 350Deschutes (250 nm)350 MHz21.5 W
Pentium II 400Deschutes (250 nm)400 MHz24.3 W
Pentium II 450Deschutes (250 nm)450 MHz27.1 W1998
Pentium III

Launched in 1999, the Pentium III became Intel's first processor to break the 1 GHz clock speed barrier. By 2000, the Pentium III was replaced by the Pentium 4, which performed even worse in certain applications. Although, in 2001, Intel had resurrected the Pentium III by introducing the Tualatin core. The Tualatin-based Pentium III had well outperformed the Willamette-based Pentium 4 in a variety of applications. However, it appeared that Intel wanted to market the Pentium 4 as their main processor and tried to "kill" the Pentium III by reducing the L2 cache (in the non-S variants) to 256 KB from 512 KB in the Katmai and Coppermine cores and by making the Tualatin-based Pentium IIIs incompatible with older socket 370 motherboards.[2] The Pentium III-S have 512 KB L2 cache and have dual-processor support.

Sortable table
ModelCoreClock speedThermal design power
Pentium III 450Katmai (250 nm)450 MHz33.76 W
Pentium III 500Katmai (250 nm)500 MHz37.52 W
Pentium III 533BKatmai (250 nm)533 MHz39.04 W
Pentium III 550Katmai (250 nm)550 MHz39.8 W
Pentium III 600Katmai (250 nm)600 MHz42.76 W
Pentium III 600BKatmai (250 nm)600 MHz42.76 W
Pentium III 500ECoppermine (180 nm)500 MHz16 W
Pentium III 533EBCoppermine (180 nm)533 MHz18.02 W or 17.49 W
Pentium III 550ECoppermine (180 nm)550 MHz18.7 W or 18.15 W
Pentium III 600Coppermine (180 nm)600 MHz22.05 W or 20.4 W
Pentium III 600ECoppermine (180 nm)600 MHz22.1 W or 21.45 W
Pentium III 600EBCoppermine (180 nm)600 MHz22.1 W, 21.45 W or 20.4 W
Pentium III 650Coppermine (180 nm)650 MHz22.1 W or 21.45 W
Pentium III 667Coppermine (180 nm)667 MHz22.61 W or 21.95 W
Pentium III 700Coppermine (180 nm)700 MHz25.9 W, 23.8 W or 23.1 W
Pentium III 733Coppermine (180 nm)733 MHz26.95 W, 24.82 W or 24.09 W
Pentium III 750Coppermine (180 nm)750 MHz27.48 W, 25.5 W or 24.75 W
Pentium III 800Coppermine (180 nm)800 MHz27.2 W or 26.4 W
Pentium III 800EBCoppermine (180 nm)800 MHz29.05 W, 27.2 W or 26.4 W
Pentium III 850Coppermine (180 nm)850 MHz30.28 W, 27.54 W or 26.73 W
Pentium III 866Coppermine (180 nm)866 MHz30.8 W, 27.71 W or 26.9 W
Pentium III 900Coppermine (180 nm)900 MHz32.2 W or 28.9 W
Pentium III 933Coppermine (180 nm)933 MHz32.9 W or 30.09 W
Pentium III 1000Coppermine (180 nm)1 GHz35.35 W or 32.98 W
Pentium III 1000BCoppermine (180 nm)1 GHz32.98 W
Pentium III 1100Coppermine (180 nm)1.1 GHz39.55 W
Pentium III 1133Coppermine (180 nm)1.13 GHz39.55 W
Pentium III 800Coppermine-T (180 nm)800 MHz38.2 W
Pentium III 866Coppermine-T (180 nm)800 MHz26.1 W
Pentium III 933Coppermine-T (180 nm)933 MHz27.3 W
Pentium III 1000Coppermine-T (180 nm)1 GHz29.9 W
Pentium III 1133Coppermine-T (180 nm)1.13 GHz29.1 W
Pentium III 1000Tualatin (130 nm)1 GHz27.6 W
Pentium III 1133Tualatin (130 nm)1.13 GHz29.1 W
Pentium III 1133STualatin (130 nm)1.13 GHz28.9 W or 27.9 W
Pentium III 1200Tualatin (130 nm)1.2 GHz29.9 W
Pentium III 1266STualatin (130 nm)1.26 GHz30.4 W or 29.5 W
Pentium III 1333Tualatin (130 nm)1.33 GHz33.9 W
Pentium III 1400Tualatin (130 nm)1.4 GHz31.2 W
Pentium III 1400STualatin (130 nm)1.4 GHz32.2 W or 31.2 W
Pentium 4

Released on November 20, 2000, the Pentium 4 was based on an all new microarchitecture codenamed NetBurst. Pentium 4 processors achieved their high clock speeds by using an extremely long instruction pipeline (20 stages in the Willamette, Northwood and Gallatin cores and 31 stages in the Prescott, Prescott 2M and Cedar Mill cores). The Pentium 4 became Intel's hottest-running single-core processor along with their processor to have the longest instruction pipeline to date. Not only that, but the Pentium 4's performance was usually disappointing, as it could not often match the performance of AMD's Athlon, Athlon XP and Athlon 64 processors, and for the first models, even Intel's own Pentium III or even low-end processors such as the AMD Duron or the P6-based Intel Celeron. Intel tried to fix this problem with the introduction of the Prescott core, but it made the Pentium 4's problems even worse, as they performed worse than Northwood-based Pentium 4s in the same clock speed range and generated more heat. The Pentium 4 had reached a clock speed limit of 3.8 GHz by November, 2004 and on January 5, 2006 Intel released the final Pentium 4 models using the Cedar Mill core, which gave off less heat than Prescott. All processors in the Pentium 4 HT range have Hyper-threading, a feature that makes one physical CPU core work as two logical cores.

Sortable table
ModelCoreClock speedThermal design power
Pentium 4 1.3Willamette (180 nm)1.3 GHz51.6 W
Pentium 4 1.4 (Socket 423)Willamette (180 nm)1.4 GHz54.7 W
Pentium 4 1.4 (Socket 478)Willamette (180 nm)1.4 GHz55.3 W
Pentium 4 1.5 (Socket 423)Willamette (180 nm)1.5 GHz57.8 W
Pentium 4 1.5 (Socket 478)Willamette (180 nm)1.5 GHz57.9 W
Pentium 4 1.6 (Socket 423)Willamette (180 nm)1.6 GHz61 W
Pentium 4 1.6 (Socket 478)Willamette (180 nm)1.6 GHz60.8 W
Pentium 4 1.7 (Socket 423)Willamette (180 nm)1.7 GHz64 W
Pentium 4 1.7 (Socket 478)Willamette (180 nm)1.7 GHz63.5 W
Pentium 4 1.8 (Socket 423)Willamette (180 nm)1.8 GHz66.7 W
Pentium 4 1.8 (Socket 478)Willamette (180 nm)1.8 GHz66.1 W
Pentium 4 1.9 (Socket 423)Willamette (180 nm)1.9 GHz69.2 W
Pentium 4 1.9 (Socket 478)Willamette (180 nm)1.9 GHz72.8 W
Pentium 4 2.0 (Socket 423)Willamette (180 nm)2 GHz71.8 W
Pentium 4 2.0 (Socket 478)Willamette (180 nm)2 GHz75.3 W
Pentium 4 1.6ANorthwood (130 nm)1.6 GHz46.8 W
Pentium 4 1.8ANorthwood (130 nm)1.8 GHz49.6 W
Pentium 4 2.0ANorthwood (130 nm)2.0 GHz52.4 W
Pentium 4 2.2Northwood (130 nm)2.2 GHz55.18 W
Pentium 4 2.26Northwood (130 nm)2.26 GHz56.0 W
Pentium 4 2.4Northwood (130 nm)2.4 GHz59.8 W
Pentium 4 2.4BNorthwood (130 nm)2.4 GHz59.8 W
Pentium 4 2.5Northwood (130 nm)2.5 GHz61 W
Pentium 4 2.53Northwood (130 nm)2.53 GHz61.5 W
Pentium 4 2.6Northwood (130 nm)2.6 GHz62.6 W
Pentium 4 2.66Northwood (130 nm)2.66 GHz66.1 W
Pentium 4 2.8Northwood (130 nm)2.8 GHz68.4 W
Pentium 4 2.8BNorthwood (130 nm)2.8 GHz68.4 W
Pentium 4 3.06Northwood (130 nm)3.06 GHz81.8 W
Pentium 4 HT 2.4CNorthwood (130 nm)2.4 GHz66.2 W
Pentium 4 HT 2.6Northwood (130 nm)2.6 GHz69 W
Pentium 4 HT 2.8CNorthwood (130 nm)2.8 GHz69.7 W
Pentium 4 HT 3.0Northwood (130 nm)3 GHz81.9 W
Pentium 4 HT 3.2Northwood (130 nm)3.2 GHz82 W
Pentium 4 HT 3.4Northwood (130 nm)3.4 GHz89 W
Pentium 4 HT Extreme Edition 3.2Gallatin (130 nm)3.2 GHz92.1 W
Pentium 4 HT Extreme Edition 3.4Gallatin (130 nm)3.4 GHz102.9 - 109.6 W
Pentium 4 HT Extreme Edition 3.46Gallatin (130 nm)3.46 GHz110.7 W
Pentium 4 2.4APrescott (90 nm)2.4 GHz89 W
Pentium 4 2.66APrescott (90 nm)2.66 GHz89 W
Pentium 4 2.8APrescott (90 nm)2.8 GHz89 W
Pentium 4 505Prescott (90 nm)2.66 GHz84 W
Pentium 4 505JPrescott (90 nm)2.66 GHz84 W
Pentium 4 506Prescott (90 nm)2.66 GHz84 W
Pentium 4 510Prescott (90 nm)2.8 GHz84 W
Pentium 4 510JPrescott (90 nm)2.8 GHz84 W
Pentium 4 511Prescott (90 nm)2.8 GHz84 W
Pentium 4 515Prescott (90 nm)2.93 GHz84 W
Pentium 4 515JPrescott (90 nm)2.93 GHz84 W
Pentium 4 516Prescott (90 nm)2.93 GHz84 W
Pentium 4 519Prescott (90 nm)3.06 GHz84 W
Pentium 4 519JPrescott (90 nm)3.06 GHz84 W
Pentium 4 519KPrescott (90 nm)3.06 GHz84 W
Pentium 4 HT 2.8EPrescott (90 nm)2.8 GHz89 W
Pentium 4 HT 3.0EPrescott (90 nm)3 GHz89 W
Pentium 4 HT 3.2EPrescott (90 nm)3.2 GHz89 W
Pentium 4 HT 3.4EPrescott (90 nm)3.4 GHz89 W
Pentium 4 HT 517Prescott (90 nm)2.93 GHz84 W
Pentium 4 HT 520Prescott (90 nm)2.8 GHz84 W
Pentium 4 HT 520JPrescott (90 nm)2.8 GHz84 W
Pentium 4 HT 521Prescott (90 nm)2.8 GHz84 W
Pentium 4 HT 524Prescott (90 nm)3.06 GHz84 W
Pentium 4 HT 530Prescott (90 nm)3 GHz84 W
Pentium 4 HT 530JPrescott (90 nm)3 GHz84 W
Pentium 4 HT 531Prescott (90 nm)3 GHz84 W
Pentium 4 HT 540Prescott (90 nm)3.2 GHz84 W
Pentium 4 HT 540JPrescott (90 nm)3.2 GHz84 W
Pentium 4 HT 541Prescott (90 nm)3.2 GHz84 W
Pentium 4 HT 550Prescott (90 nm)3.4 GHz84 - 115 W
Pentium 4 HT 550JPrescott (90 nm)3.4 GHz84 - 115 W
Pentium 4 HT 551Prescott (90 nm)3.4 GHz84 - 115 W
Pentium 4 HT 560Prescott (90 nm)3.6 GHz115 W
Pentium 4 HT 560JPrescott (90 nm)3.6 GHz115 W
Pentium 4 HT 561Prescott (90 nm)3.6 GHz115 W
Pentium 4 HT 570Prescott (90 nm)3.8 GHz115 W
Pentium 4 HT 570JPrescott (90 nm)3.8 GHz115 W
Pentium 4 HT 571Prescott (90 nm)3.8 GHz115 W
Pentium 4 HT 620Prescott 2M (90 nm)2.8 GHz84 W
Pentium 4 HT 630Prescott 2M (90 nm)3 GHz84 W
Pentium 4 HT 640Prescott 2M (90 nm)3.2 GHz84 W
Pentium 4 HT 650Prescott 2M (90 nm)3.4 GHz84 W
Pentium 4 HT 660Prescott 2M (90 nm)3.6 GHz115 W
Pentium 4 HT 662Prescott 2M (90 nm)3.6 GHz84 - 115 W
Pentium 4 HT 670Prescott 2M (90 nm)3.8 GHz115 W
Pentium 4 HT 672Prescott 2M (90 nm)3.8 GHz115 W
Pentium 4 HT Extreme Edition 3.73Prescott 2M (90 nm)3.73 GHz115 W
Pentium 4 HT 631Cedar Mill (65 nm)3 GHz65 - 86 W(D0 Stepping)
Pentium 4 HT 641Cedar Mill (65 nm)3.2 GHz65 - 86 W
Pentium 4 HT 651Cedar Mill (65 nm)3.4 GHz65 - 86 W
Pentium 4 HT 661Cedar Mill (65 nm)3.6 GHz65 - 86 W
Pentium D

Released on May 26, 2005, the Pentium D was Intel's first dual-core processor, and like the Pentium 4 it was based on the NetBurst microarchitecture. The Pentium D uses the multi chip module design, which incorporates two dies on one package, and the Pentium D was essentially two Prescott-based Pentium 4 cores in one chip. While this did increase TDPs, it was not by a significant amount. All Pentium D models are 64-bit. The Pentium Extreme Edition processors have Hyper-Threading, which all Pentium D models lack.

Sortable table
ModelCoreClock speedThermal design power
Pentium D 805Smithfield (90 nm)2.66 GHz95 W
Pentium D 820Smithfield (90 nm)2.8 GHz95 W
Pentium D 830Smithfield (90 nm)3 GHz130 W
Pentium D 840Smithfield (90 nm)3.2 GHz130 W
Pentium Extreme Edition 840Smithfield (90 nm)3.2 GHz130 W
Pentium D 915Presler (65 nm)2.8 GHz95 W
Pentium D 920Presler (65 nm)2.8 GHz95 W
Pentium D 925Presler (65 nm)3 GHz95 W
Pentium D 930Presler (65 nm)3 GHz95 W
Pentium D 935Presler (65 nm)3.2 GHz95 W
Pentium D 940Presler (65 nm)3.2 GHz95-130 W
Pentium D 945Presler (65 nm)3.4 GHz95 W
Pentium D 950Presler (65 nm)3.4 GHz95-130 W
Pentium Extreme Edition 955Presler (65 nm)3.46 GHz130 W
Pentium D 960Presler (65 nm)3.6 GHz95-130 W
Pentium Extreme Edition 965Presler (65 nm)3.73 GHz130 W
Pentium Dual-Core

In 2007, Intel released a new line of desktop processors under the brand Pentium Dual Core on a single die, using the Core microarchitecture (which was based upon the Pentium M architecture, which was itself based upon the Pentium III). The newer Pentium Dual-Core processors give off considerably less heat (65 watt max) than the Pentium D (95 or 130 watt max). They also run at lower clock rates, only have up to 2 MB L2 cache memory while the Pentium D has up to 2x2 MB, and they lack Hyper-threading. Although using the Pentium name, the desktop Pentium Dual-Core is based on the Core microarchitecture, which can clearly be seen when comparing the specification to the Pentium D, which is based on the NetBurst microarchitecture first introduced in the Pentium 4. Below the 2 or 4 MiB of shared-L2-cache-enabled Core 2 Duo, the desktop Pentium Dual-Core has 1 or 2 MiB of shared L2 cache. In contrast, the Pentium D processors have either 2 or 4 MiB of non-shared L2 cache. Additionally, the fastest-clocked Pentium D has a factory boundary of 3.73 GHz, while the fastest-clocked desktop Pentium Dual-Core reaches 3.2 GHz. A major difference among these processors is that the desktop Pentium Dual Core processors have a TDP of only 65 W while the Pentium D ranges between 95 and 130 W. Despite the reduced clock speed, and lower amounts of cache, Pentium dual-core outperformed Pentium D by a fairly large margin. The Pentium Dual-Core processors bridge the gap between Celeron and Core 2. As of 2009, Intel branded Pentium Dual-Core processors as Pentium. The E5x00 and E6x00 series use the same Wolfdale core as the Core 2 Duo series, and is essentially a Core 2 Duo E7x00 processor with 1 MB of L2 cache disabled.

Sortable table
ModelCoreClock speedThermal design power
Pentium Dual-Core E2140Allendale, Conroe (65 nm)1.6 GHz65 W
Pentium Dual-Core E2160Allendale, Conroe (65 nm)1.8 GHz65 W
Pentium Dual-Core E2180Allendale, Conroe (65 nm)2.0 GHz65 W
Pentium Dual-Core E2200Allendale, Conroe (65 nm)2.2 GHz65 W
Pentium Dual-Core E2220Allendale, Conroe (65 nm)2.4 GHz65 W
Pentium Dual-Core E2210Wolfdale (45 nm)2.2 GHz65 W
Pentium Dual-Core E5200Wolfdale (45 nm)2.5 GHz65 W
Pentium Dual-Core E5300Wolfdale (45 nm)2.6 GHz65 W
Pentium Dual-Core E5400Wolfdale (45 nm)2.7 GHz65 W
Pentium Dual-Core E5500Wolfdale (45 nm)2.8 GHz65 W
Pentium E6300Wolfdale (45 nm)2.8 GHz65 W
Pentium E6500Wolfdale (45 nm)2.93 GHz65 W
Pentium E6500KWolfdale (45 nm)2.93 GHz65 W
Pentium E6600Wolfdale (45 nm)3.06 GHz65 W
Pentium G6950Clarkdale (32 nm)2.8 GHz73 W
Pentium Quad-Core ( Pentium, Pentium Silver )

Pentium Quad-Core is Intel's enhanced budget quad-core CPUs intended for low-cost computers applications.

Sortable table
ModelCoreClock speedThermal design power
Pentium         Quad-Core J2900Bay-Trail-D (22 nm)2.41 GHz, burst: 2.67 GHz10 W
Pentium         Quad-Core J3710Braswell (14 nm)1.6 GHz, burst: 2.64 GHz6.5 W
Pentium         Quad-Core J4205Apollo Lake (14 nm)1.5 GHz, burst: 2.6 GHz10 W
Pentium Silver Quad-Core J5005Gemini Lake (14 nm)2.0 GHz, burst: 3.2 GHz10 W
Pentium Silver Quad-Core J5040Gemini Lake Refresh (14 nm)1.5 GHz, burst: 2.8 GHz10 W
Core 2

The Core 2 brand was released to address the NetBurst processor's heat and performance issues. The Core 2 brand is based on the P6 microarchitecture like the Pentium M and outperforms the Pentium 4.

Sortable table
ModelCoreClock speedThermal design power
Core 2 Duo E4200Conroe (65 nm)1.6 GHz65 W
Core 2 Duo E4300Conroe (65 nm)1.8 GHz65 W
Core 2 Duo E4400Conroe (65 nm)2 GHz65 W
Core 2 Duo E4500Conroe (65 nm)2.2 GHz65 W
Core 2 Duo E4600Conroe (65 nm)2.4 GHz65 W
Core 2 Duo E4700Conroe (65 nm)2.6 GHz65 W
Core 2 Duo E6300Conroe (65 nm)1.86 GHz65 W
Core 2 Duo E6305Conroe (65 nm)1.86 GHz65 W
Core 2 Duo E6320Conroe (65 nm)1.86 GHz65 W
Core 2 Duo E6400Conroe (65 nm)2.13 GHz65 W
Core 2 Duo E6305Conroe (65 nm)2.13 GHz65 W
Core 2 Duo E6320Conroe (65 nm)2.13 GHz65 W
Core 2 Duo E6540Conroe (65 nm)2.33 GHz65 W
Core 2 Duo E6550Conroe (65 nm)2.33 GHz65 W
Core 2 Duo E6600Conroe (65 nm)2.4 GHz65 W
Core 2 Duo E6700Conroe (65 nm)2.66 GHz65 W
Core 2 Duo E6750Conroe (65 nm)2.66 GHz65 W
Core 2 Duo E6850Conroe (65 nm)3 GHz65 W
Core 2 Extreme X6800Conroe (65 nm)2.93 GHz75 W
Core 2 Quad Q6400Kentsfield (65 nm)2.13 GHz105 W
Core 2 Quad Q6600Kentsfield (65 nm)2.4 GHz105 W or 95 W
Core 2 Quad Q6700Kentsfield (65 nm)2.66 GHz95 W
Core 2 Extreme QX6700Kentsfield XE (65 nm)2.66 GHz130 W
Core 2 Extreme QX6800Kentsfield XE (65 nm)2.93 GHz130 W
Core 2 Extreme QX6850Kentsfield XE (65 nm)3 GHz130 W
Core 2 Duo E7200Wolfdale (45 nm)2.53 GHz65 W
Core 2 Duo E7300Wolfdale (45 nm)2.66 GHz65 W
Core 2 Duo E7400Wolfdale (45 nm)2.8 GHz65 W
Core 2 Duo E7500Wolfdale (45 nm)2.93 GHz65 W
Core 2 Duo E7600Wolfdale (45 nm)3.06 GHz65 W
Core 2 Duo E8190Wolfdale (45 nm)2.66 GHz65 W
Core 2 Duo E8200Wolfdale (45 nm)2.66 GHz65 W
Core 2 Duo E8300Wolfdale (45 nm)2.83 GHz65 W
Core 2 Duo E8400Wolfdale (45 nm)3 GHz65 W
Core 2 Duo E8500Wolfdale (45 nm)3.16 GHz65 W
Core 2 Duo E8600Wolfdale (45 nm)3.33 GHz65 W
Core 2 Quad Q8200SYorkfield (45 nm)2.33 GHz65 W
Core 2 Quad Q8200Yorkfield (45 nm)2.33 GHz95 W
Core 2 Quad Q8300Yorkfield (45 nm)2.5 GHz95 W
Core 2 Quad Q8400SYorkfield (45 nm)2.66 GHz65 W
Core 2 Quad Q8400Yorkfield (45 nm)2.66 GHz95 W
Core 2 Quad Q9300Yorkfield (45 nm)2.5 GHz95 W
Core 2 Quad Q9400SYorkfield (45 nm)2.66 GHz65 W
Core 2 Quad Q9400Yorkfield (45 nm)2.66 GHz95 W
Core 2 Quad Q9450Yorkfield (45 nm)2.66 GHz95 W
Core 2 Quad Q9505SYorkfield (45 nm)2.83 GHz65 W
Core 2 Quad Q9505Yorkfield (45 nm)2.83 GHz95 W
Core 2 Quad Q9550SYorkfield (45 nm)2.83 GHz65 W
Core 2 Quad Q9550Yorkfield (45 nm)2.83 GHz95 W
Core 2 Quad Q9650Yorkfield (45 nm)3 GHz95 W
Core 2 Extreme QX9650Yorkfield XE (45 nm)3 GHz130 W
Core 2 Extreme QX9770Yorkfield XE (45 nm)3.2 GHz136 W
Core 2 Extreme QX9775Yorkfield XE (45 nm)3.2 GHz150 W
Intel Core i3

The Core i3 is Intel's budget line of processors in the Core i brand. The Core i3-5xx series is nearly identical to the Core i5-6xx series. The major difference is that the Core i3-5xx series lacks Turbo Boost and is clocked at lower clock speeds.

Sortable table
ModelCoreClock speedThermal design power
Core i3-530Clarkdale (32 nm)2.93 GHz73 W
Core i3-540Clarkdale (32 nm)3.06 GHz73 W
Core i3-550Clarkdale (32 nm)3.2 GHz73 W
Core i3-560Clarkdale (32 nm)3.33 GHz73 W
Core i3-2100Sandy Bridge (32 nm)3.1 GHz65 W
Core i3-2100TSandy Bridge (32 nm)2.5 GHz35 W
Core i3-2102Sandy Bridge (32 nm)3.1 GHz65 W
Core i3-2105Sandy Bridge (32 nm)3.1 GHz65 W
Core i3-2120Sandy Bridge (32 nm)3.3 GHz65 W
Core i3-2125Sandy Bridge (32 nm)3.3 GHz65 W
Core i3-2130Sandy Bridge (32 nm)3.4 GHz65 W
Core i3-2120TSandy Bridge (32 nm)2.6 GHz35 W
Core i3-3210Ivy Bridge (22 nm)3.2 GHz55 W
Core i3-3220Ivy Bridge (22 nm)3.3 GHz55 W
Core i3-3220TIvy Bridge (22 nm)2.8 GHz35 W
Core i3-3225Ivy Bridge (22 nm)3.3 GHz55 W
Core i3-3240Ivy Bridge (22 nm)3.4 GHz55 W
Core i3-3240TIvy Bridge (22 nm)2.9 GHz35 W
Core i3-3245Ivy Bridge (22 nm)3.4 GHz55 W
Core i3-3250Ivy Bridge (22 nm)3.5 GHz55 W
Core i3-3250TIvy Bridge (22 nm)3.0 GHz35 W
Intel Core i5

The Core i5-7xx series is a mainstream quad-core variant of the Core i7 and is based on the Nehalem microarchitecture. The Core i5-7xx series lacks Hyper-threading and use a slower 2.5 GT/s DMI bus like the Lynnfield-based Core i7 and the mobile Core i7 processors. The Core i5-6xx series are based on the Westmere microarchitecture and are dual-core. They have Hyper-threading and Turbo Boost along with an integrated graphics core. The Core i5-6xx series should outperform the Core i7 in tasks that utilize only one or two cores because of the radically high clock speed, which can be further increased using Turbo Boost.

Sortable table
ModelCoreClock speedThermal design power
Core i5-750Lynnfield (45 nm)2.66 GHz95 W
Core i5-750SLynnfield (45 nm)2.4 GHz82 W
Core i5-760Lynnfield (45 nm)2.8 GHz95 W
Core i5-650Clarkdale (32 nm)3.2 GHz73 W
Core i5-655KClarkdale (32 nm)3.2 GHz73 W
Core i5-660Clarkdale (32 nm)3.33 GHz73 W
Core i5-661Clarkdale (32 nm)3.33 GHz87 W
Core i5-670Clarkdale (32 nm)3.46 GHz73 W
Core i5-680Clarkdale (32 nm)3.6 GHz73 W
Core i5-2390TSandy Bridge (32 nm)2.7 GHz35 W
Core i5-2300Sandy Bridge (32 nm)2.8 GHz95 W
Core i5-2310Sandy Bridge (32 nm)2.9 GHz95 W
Core i5-2320Sandy Bridge (32 nm)3 GHz95 W
Core i5-2380PSandy Bridge (32 nm)3.1 GHz95 W
Core i5-2400Sandy Bridge (32 nm)3.1 GHz95 W
Core i5-2400SSandy Bridge (32 nm)2.5 GHz95 W
Core i5-2405SSandy Bridge (32 nm)2.5 GHz65 W
Core i5-2450PSandy Bridge (32 nm)3.2 GHz95 W
Core i5-2500Sandy Bridge (32 nm)3.3 GHz95 W
Core i5-2500KSandy Bridge (32 nm)3.3 GHz95 W
Core i5-2500SSandy Bridge (32 nm)2.7 GHz65 W
Core i5-2500TSandy Bridge (32 nm)2.3 GHz45 W
Core i5-2550KSandy Bridge (32 nm)3.4 GHz95 W
Core i5-3330Ivy Bridge (22 nm)3.0 GHz77 W
Core i5-3330SIvy Bridge (22 nm)2.7 GHz65 W
Core i5-3340Ivy Bridge (22 nm)3.1 GHz77 W
Core i5-3340SIvy Bridge (22 nm)2.8 GHz65 W
Core i5-3350PIvy Bridge (22 nm)3.1 GHz69 W
Core i5-3450Ivy Bridge (22 nm)3.1 GHz77 W
Core i5-3450SIvy Bridge (22 nm)2.8 GHz65 W
Core i5-3470Ivy Bridge (22 nm)3.2 GHz77 W
Core i5-3470SIvy Bridge (22 nm)2.9 GHz65 W
Core i5-3470TIvy Bridge (22 nm)2.9 GHz35 W
Core i5-3475SIvy Bridge (22 nm)2.9 GHz65 W
Core i5-3550Ivy Bridge (22 nm)3.3 GHz77 W
Core i5-3550SIvy Bridge (22 nm)3.0 GHz65 W
Core i5-3570Ivy Bridge (22 nm)3.4 GHz77 W
Core i5-3570KIvy Bridge (22 nm)3.4 GHz77 W
Core i5-3570SIvy Bridge (22 nm)3.1 GHz65 W
Core i5-3570TIvy Bridge (22 nm)2.3 GHz45 W
Intel Core i7

Core i7 is currently Intel's highest end series of processors designed for gameplay and mid-range to high-end business computers. Core i7 processors are the first to use the Nehalem microarchitecture, and therefore reintroduce Hyper-threading and, in the 9xx series, introduce Intel QuickPath Interconnect, a point-to-point link that is up to 16 times faster than a quad-pumped FSB. Core i7 processors up to the 5XXX series use an integrated memory controller that supports DDR3 memory. Most newer 6XXX and above chips support DDR4 memory.[3] The lower-end 8xx models use a substantially slower 2.5 GT/s Direct Media Interface bus.

Sortable table
ModelCoreClock speedThermal design power
Core i7-860Lynnfield (45 nm)2.8 GHz95 W
Core i7-860SLynnfield (45 nm)2.533 GHz82 W
Core i7-870Lynnfield (45 nm)2.933 GHz95 W
Core i7-875KLynnfield (45 nm)2.93 GHz95 W
Core i7-880Lynnfield (45 nm)3.067 GHz95 W
Core i7-920Bloomfield (45 nm)2.667 GHz130 W
Core i7-930Bloomfield (45 nm)2.8 GHz130 W
Core i7-940Bloomfield (45 nm)2.933 GHz130 W
Core i7-950Bloomfield (45 nm)3.067 GHz130 W
Core i7-960Bloomfield (45 nm)3.2 GHz130 W
Core i7-965 Extreme EditionBloomfield (45 nm)3.2 GHz130 W
Core i7-975 Extreme EditionBloomfield (45 nm)3.333 GHz130 W
Core i7-970Gulftown (32 nm)3.2 GHz130 W
Core i7-980X Extreme EditionGulftown (32 nm)3.333 GHz @ 6 Cores130 W
Core i7-2600Sandy Bridge (32 nm)3.4 GHz @ 4 Cores95 W
Core i7-2600SSandy Bridge (32 nm)2.8 GHz @ 4 Cores65 W
Core i7-2600KSandy Bridge (32 nm)3.4 GHz @ 4 Cores95 W
Core i7-2700KSandy Bridge (32 nm)3.5 GHz @ 4 Cores95 W
Core i7-3770TIvy Bridge (22 nm)2.5 GHz @ 4 Cores45 W
Core i7-3770SIvy Bridge (22 nm)3.1 GHz @ 4 Cores65 W
Core i7-3770Ivy Bridge (22 nm)3.4 GHz @ 4 Cores77 W
Core i7-3770KIvy Bridge (22 nm)3.5 GHz @ 4 Cores77 W
Core i7-3930KSandy Bridge-E (32 nm)3.2 GHz @ 6 Cores130 W
Core i7 3960X Extreme EditionSandy Bridge-E (32 nm)3.3 GHz @ 6 Cores130 W
Core i7 3970X Extreme EditionSandy Bridge-E (32 nm)3.5 GHz @ 6 Cores150 W
Core i7-4770KHaswell (22 nm)3.5 GHz @ 4 Cores84 W
Core i7-4770SHaswell (22 nm)3.1 GHz @ 4 Cores65 W
Core i7-4790KHaswell (22 nm)4.0 GHz @ 4 Cores88 W
Core i7-4820KIvy Bridge-E (22 nm)3.7 GHz @ 4 Cores130 W
Core i7-4930KIvy Bridge-E (22 nm)3.4 GHz @ 6 Cores130 W
Core i7-4960X Extreme EditionIvy Bridge-E (22 nm)3.6 GHz @ 6 Cores130 W
Core i7-5775CBroadwell (14 nm)3.3 GHz @ 4 Cores65 W
Core i7-5820KHaswell-E (22 nm)3.3 GHz @ 6 Cores140 W
Core i7-5930KHaswell-E (22 nm)3.5 GHz @ 6 Cores140 W
Core i7-5960X Extreme EditionHaswell-E (22 nm)3.0 GHz @ 8 Cores140 W
Core i7-6700TSkylake (14 nm)2.8 GHz @ 4 Cores35 W
Core i7-6700Skylake (14 nm)3.4 GHz @ 4 Cores65 W
Core i7-6700KSkylake (14 nm)4.0 GHz @ 4 Cores91 W
Core i7-6785RSkylake (14 nm)3.3 GHz @ 4 Cores65 W
Core i7-6800K Broadwell-E (14 nm) 3.4 GHz @ 6 Cores 140 W
Core i7-6850K Broadwell-E (14 nm) 3.6 GHz @ 6 Cores 140 W
Core i7-6900K Broadwell-E (14 nm) 3.2 GHz @ 8 Cores 140 W
Core i7-6950X Broadwell-E (14 nm) 3.0 GHz @ 10 Cores 140 W
Core i7 7700T Kaby Lake (14nm) 2.9 GHz @ 4 Cores 35 W
Core i7 7700 Kaby Lake (14nm) 3.6 GHz @ 4 Cores 65 W
Core i7 7700K Kaby Lake (14nm) 4.2 GHz @ 4 Cores 91 W
Core i7 8700K Coffee Lake (14nm) 3.7 GHz @ 6 Cores 95 W
Core i7 9700K Coffee Lake (14nm) 3.6 GHz @ 8 Cores 95 W
Intel Celeron (P6 based)

Intel Celeron is Intel's series of budget processors.

Sortable table
ModelCoreClock speedThermal design power
Celeron 266Covington (250 nm)266 MHz16.6 W
Celeron 300Covington (250 nm)300 MHz18.4 W
Celeron 300AMendocino (250 nm)300 MHz19 W
Celeron 333Mendocino (250 nm)333 MHz20.9 W
Celeron 366Mendocino (250 nm)366 MHz21.7 W
Celeron 400Mendocino (250 nm)400 MHz23.7 W
Celeron 433Mendocino (250 nm)433 MHz24.6 W
Celeron 466Mendocino (250 nm)466 MHz25.7 W
Celeron 500Mendocino (250 nm)500 MHz27.2 W
Celeron 533Mendocino (250 nm)533 MHz28.3 W
Celeron 533ACoppermine-128 (180 nm)533 MHz11.2 W
Celeron 566Coppermine-128 (180 nm)566 MHz11.9 W
Celeron 600Coppermine-128 (180 nm)600 MHz12.6 W
Celeron 633Coppermine-128 (180 nm)633 MHz20.2 W
Celeron 667Coppermine-128 (180 nm)667 MHz21.1 W
Celeron 700Coppermine-128 (180 nm)700 MHz21.9 W
Celeron 733Coppermine-128 (180 nm)733 MHz22.8 W
Celeron 766Coppermine-128 (180 nm)766 MHz23.6 W
Celeron 800Coppermine-128 (180 nm)800 MHz24.5 W
Celeron 850Coppermine-128 (180 nm)850 MHz25.7 W
Celeron 900Coppermine-128 (180 nm)900 MHz26.7 W
Celeron 950Coppermine-128 (180 nm)950 MHz28 W
Celeron 1000Coppermine-128 (180 nm)1 GHz29 W
Celeron 1100Coppermine-128 (180 nm)1.1 GHz33 W
Celeron 1000ATualatin-256 (130 nm)1 GHz29.5 W
Celeron 1100ATualatin-256 (130 nm)1.1 GHz29.5 W
Celeron 1200Tualatin-256 (130 nm)1.2 GHz29.5 W
Celeron 1300Tualatin-256 (130 nm)1.3 GHz32 W
Celeron 1400Tualatin-256 (130 nm)1.4 GHz33.2 W
Intel Celeron (NetBurst based)
Sortable table
ModelCoreClock speedThermal design power
Celeron 1.5Willamette-128 (180 nm)1.5 GHz ??.?? W
Celeron 1.6Willamette-128 (180 nm)1.6 GHz ??.?? W
Celeron 1.7Willamette-128 (180 nm)1.7 GHz63.5 W
Celeron 1.8Willamette-128 (180 nm)1.8 GHz66.1 W
Celeron 1.6Northwood-128 (130 nm)1.6 GHz ??.?? W
Celeron 1.8Northwood-128 (130 nm)1.8 GHz59.1 W
Celeron 2.0Northwood-128 (130 nm)2 GHz52.8 W
Celeron 2.1Northwood-128 (130 nm)2.1 GHz55.5 W
Celeron 2.2Northwood-128 (130 nm)2.2 GHz57.1 W
Celeron 2.3Northwood-128 (130 nm)2.3 GHz58.3 W
Celeron 2.4Northwood-128 (130 nm)2.4 GHz59.8 W
Celeron 2.5Northwood-128 (130 nm)2.5 GHz61 W
Celeron 2.6Northwood-128 (130 nm)2.6 GHz62.6 W
Celeron 2.7Northwood-128 (130 nm)2.7 GHz66.8 W
Celeron 2.8Northwood-128 (130 nm)2.8 GHz68.4 W
Intel Celeron D

Celeron D is not a dual-core processor like Pentium D, it is branded Celeron D to distinguish it from older NetBurst-based Celerons (the same microarchitecture it is based on) and Celeron M.

Sortable table
ModelCoreClock speedThermal design power
Celeron D 310Prescott-256 (90 nm)2.13 GHz73 W
Celeron D 315Prescott-256 (90 nm)2.26 GHz73 W
Celeron D 320Prescott-256 (90 nm)2.4 GHz73 W
Celeron D 325Prescott-256 (90 nm)2.53 GHz73 W
Celeron D 325JPrescott-256 (90 nm)2.53 GHz84 W
Celeron D 326Prescott-256 (90 nm)2.53 GHz84 W
Celeron D 330Prescott-256 (90 nm)2.66 GHz73 W
Celeron D 330JPrescott-256 (90 nm)2.66 GHz84 W
Celeron D 331Prescott-256 (90 nm)2.66 GHz84 W
Celeron D 335Prescott-256 (90 nm)2.8 GHz73 W
Celeron D 335JPrescott-256 (90 nm)2.8 GHz84 W
Celeron D 336Prescott-256 (90 nm)2.8 GHz84 W
Celeron D 340Prescott-256 (90 nm)2.93 GHz73 W
Celeron D 340JPrescott-256 (90 nm)2.93 GHz84 W
Celeron D 341Prescott-256 (90 nm)2.93 GHz84 W
Celeron D 345Prescott-256 (90 nm)3.06 GHz73 W
Celeron D 345JPrescott-256 (90 nm)3.06 GHz84 W
Celeron D 346Prescott-256 (90 nm)3.06 GHz84 W
Celeron D 350Prescott-256 (90 nm)3.2 GHz73 W
Celeron D 351Prescott-256 (90 nm)3.2 GHz84 W
Celeron D 355Prescott-256 (90 nm)3.33 GHz84 W
Celeron D 347Cedar Mill-512 (65 nm)3.06 GHz86 or 65 W
Celeron D 352Cedar Mill-512 (65 nm)3.2 GHz86 or 65 W
Celeron D 356Cedar Mill-512 (65 nm)3.33 GHz86 or 65 W
Celeron D 360Cedar Mill-512 (65 nm)3.46 GHz65 W
Celeron D 365Cedar Mill-512 (65 nm)3.6 GHz65 W
Intel Celeron (Core based)
Sortable table
ModelCoreClock speedThermal design power
Celeron 220Conroe-L (65 nm)1.2 GHz19 W
Celeron 420Conroe-L (65 nm)1.6 GHz35 W
Celeron 430Conroe-L (65 nm)1.8 GHz35 W
Celeron 440Conroe-L (65 nm)2 GHz35 W
Celeron 450Conroe-CL (65 nm)2.2 GHz35 W
Intel Celeron Dual-Core

Intel Celeron Dual-Core is Intel's budget dual-core microprocessors intended for low cost desktops.

Sortable table
ModelCoreClock speedThermal design power
Celeron Dual-Core E1200Allendale (65 nm)1.6 GHz65 W
Celeron Dual-Core E1400Allendale (65 nm)2 GHz65 W
Celeron Dual-Core E1500Allendale (65 nm)2.2 GHz65 W
Celeron Dual-Core E1600Allendale (65 nm)2.4 GHz65 W
Celeron Dual-Core E3200Wolfdale (45 nm)2.4 GHz65 W
Celeron Dual-Core E3300Wolfdale (45 nm)2.5 GHz65 W
Mobile Pentium II
Sortable table
ModelCoreClock speedThermal design power
Mobile Pentium II 233Tonga (250 nm)233 MHz9 W
Mobile Pentium II 266Tonga (250 nm)266 MHz10.3 W
Mobile Pentium II 300Tonga (250 nm)300 MHz11.6 W
Mobile Pentium II 266PEDixon (250 nm)266 MHz10.6 W
Mobile Pentium II 300PEDixon (250 nm)300 MHz12 W
Mobile Pentium II 333Dixon (250 nm)333 MHz12.7 W
Mobile Pentium II 366Dixon (250 nm)366 MHz14.1 W
Pentium III-M
Sortable table
ModelCoreClock speedThermal design power
Pentium III-M 866 ? (130 nm)866 MHz19.5 W
Pentium III-M 933 ? (130 nm)933 MHz20.1 W
Pentium III-M 1000Tualatin (130 nm)1 GHz20.5 W
Pentium III-M 1066Tualatin (130 nm)1.06 GHz21 W
Pentium III-M 1133Tualatin (130 nm)1.13 GHz21.8 W
Pentium III-M 1200Tualatin (130 nm)1.2 GHz22 W
Pentium III-M 1266Tualatin (130 nm)1.26 GHz22 W
Pentium III-M 1333Tualatin (130 nm)1.33 GHz22 W
Pentium III-M 1400Tualatin (130 nm)1.40 GHz22 W
Pentium III-M LV 733 ? (130 nm)733 MHz9.3 W
Pentium III-M LV 750 ? (130 nm)750 MHz9.4 W
Pentium III-M LV 800 ? (130 nm)800 MHz9.25 W
Pentium III-M LV 850 ? (130 nm)850 MHz10 W
Pentium III-M LV 866 ? (130 nm)866 MHz10.1 W
Pentium III-M LV 933 ? (130 nm)933 MHz10.5 W
Pentium III-M LV 1000 ? (130 nm)1 GHz11 W
Pentium III-M ULV 700 ? (130 nm)700 MHz7 W
Pentium III-M ULV 733 ? (130 nm)733 MHz7 W
Pentium III-M ULV 750 ? (130 nm)750 MHz7 W
Pentium III-M ULV 800 ? (130 nm)800 MHz7 W
Pentium III-M ULV 850 ? (130 nm)850 MHz7 W
Pentium III-M ULV 866 ? (130 nm)866 MHz7 W
Pentium III-M ULV 900 ? (130 nm)900 MHz7 W
Pentium III-M ULV 933 ? (130 nm)933 MHz7 W
Pentium 4-M

The Pentium 4-M and Mobile Pentium 4 were based on the same 130 nm Northwood core as the desktop version that preceded them. There were few differences between the two laptop variants, besides the latter chips having a faster front side bus clock (533 MHz vs 400 MHz), Hyper Threading and a much higher thermal design power. Due to the high TDPs of the Mobile Pentium 4s, laptops employing these chips often had severe overheating issues due to woefully inadequate cooling mechanisms and very poor battery life due to the high power consumption of the CPU.

Intel had a dilemma during this time due to the fact they had four different mobile processors being manufactured at the same time (Pentium 3-M, Pentium 4-M, Mobile Pentium 4 and the Pentium M.) The Pentium 3 was already in the process of being phased out, and the power consumption and TDP of both the Pentium 4-M and Mobile pentium 4 proved unsolvable and were subsequently discontinued in favor of the much more efficient Pentium M.

Sortable table
ModelCoreClock speedThermal design power
Pentium 4-M 1.4Northwood (130 nm)1.4 GHz25.8 W
Pentium 4-M 1.5Northwood (130 nm)1.5 GHz26.9 W
Pentium 4-M 1.6Northwood (130 nm)1.6 GHz30 W
Pentium 4-M 1.7Northwood (130 nm)1.7 GHz30 W
Pentium 4-M 1.8Northwood (130 nm)1.8 GHz30 W
Pentium 4-M 1.9Northwood (130 nm)1.9 GHz32 W
Pentium 4-M 2.0Northwood (130 nm)2 GHz32 W
Pentium 4-M 2.2Northwood (130 nm)2.2 GHz35 W
Pentium 4-M 2.4Northwood (130 nm)2.4 GHz35 W
Pentium 4-M 2.5Northwood (130 nm)2.5 GHz35 W
Pentium 4-M 2.6Northwood (130 nm)2.6 GHz35 W
Mobile Pentium 4 2.4Northwood (130 nm)2.4 GHz59.8 W
Mobile Pentium 4 2.66Northwood (130 nm)2.66 GHz66.1 W
Mobile Pentium 4 2.8Northwood (130 nm)2.8 GHz68.4 W
Mobile Pentium 4 3.06Northwood (130 nm)3.06 GHz70 W
Mobile Pentium 4 HT 2.66Northwood (130 nm)2.66 GHz61 W
Mobile Pentium 4 HT 2.8Northwood (130 nm)2.8 GHz68.4 W
Mobile Pentium 4 HT 3.06Northwood (130 nm)3.0670 W
Mobile Pentium 4 HT 3.2Northwood (130 nm)3.2 GHz76 W
Mobile Pentium 4 HT 518Prescott (90 nm)2.8 GHz88 W
Mobile Pentium 4 HT 532Prescott (90 nm)3.06 GHz88 W
Mobile Pentium 4 HT 538Prescott (90 nm)3.2 GHz88 W
Mobile Pentium 4 HT 548Prescott (90 nm)3.33 GHz88 W
Mobile Pentium 4 HT 552Prescott (90 nm)3.46 GHz88 W
Pentium M

Pentium M is clocked slower than Pentium 4 and is derived from a more efficient P6-based Pentium M microarchitecture. The Pentium M was launched to address the Pentium 4-M's heat and performance problems. Notebooks using the Pentium M did not require a large and powerful cooling unit and could be built thin and light. While the Pentium M was clocked at significantly slower clock speeds than the Pentium 4-M, it did manage to outperform the Pentium 4-M (for example, a 1.6 GHz Pentium M could outperform a 2.4 GHz Pentium 4-M). In contrast to this, the Pentium M's main disappointment was in floating point operations, because the SSE2 implementations were not equal to those in the Pentium 4. Prefixes: LV=Low voltage, ULV=Ultra-low voltage.

Sortable table
ModelCoreClock speedThermal design power
Pentium M 1.3Banias (130 nm)1.3 GHz22 W
Pentium M 1.4Banias (130 nm)1.4 GHz22 W
Pentium M 1.5Banias (130 nm)1.5 GHz24.5 W
Pentium M 1.6Banias (130 nm)1.6 GHz24.5 W
Pentium M 1.7Banias (130 nm)1.7 GHz24.5 W
Pentium M LV 1.1Banias (130 nm )1.1 GHz12 W
Pentium M LV 1.2Banias (130 nm )1.2 GHz12 W
Pentium M LV 718Banias (130 nm )1.3 GHz12 W
Pentium M ULV 900Banias (130 nm)900 MHz7 W
Pentium M ULV 1.0Banias (130 nm)1 GHz7 W
Pentium M ULV 713Banias (130 nm)1.1 GHz7 W
Pentium M 710Dothan (90 nm)1.4 GHz21 W
Pentium M 715Dothan (90 nm)1.5 GHz21 W
Pentium M 715ADothan (90 nm)1.5 GHz21 W
Pentium M 725Dothan (90 nm)1.6 GHz21 W
Pentium M 725ADothan (90 nm)1.6 GHz21 W
Pentium M 730Dothan (90 nm)1.6 GHz27 W
Pentium M 735Dothan (90 nm)1.7 GHz21 W
Pentium M 735ADothan (90 nm)1.7 GHz21 W
Pentium M 740Dothan (90 nm)1.73 GHz27 W
Pentium M 745Dothan (90 nm)1.8 GHz21 W
Pentium M 745ADothan (90 nm)1.8 GHz21 W
Pentium M 750Dothan (90 nm)1.86 GHz27 W
Pentium M 755Dothan (90 nm)2 GHz21 W
Pentium M 760Dothan (90 nm)2 GHz27 W
Pentium M 765Dothan (90 nm)2.1 GHz21 W
Pentium M 770Dothan (90 nm)2.13 GHz27 W
Pentium M 780Dothan (90 nm)2.26 GHz27 W
Pentium M LV 738Dothan (90 nm)1.4 GHz10 W
Pentium M LV 758Dothan (90 nm)1.5 GHz10 W
Pentium M LV 778Dothan (90 nm)1.6 GHz10 W
Pentium M ULV 723Dothan (90 nm)1 GHz5 W
Pentium M ULV 733Dothan (90 nm)1.1 GHz5 W
Pentium M ULV 733JDothan (90 nm)1.1 GHz5 W
Pentium M ULV 753Dothan (90 nm)1.2 GHz5 W
Pentium M ULV 773Dothan (90 nm)1.3 GHz5 W
Core

The Core brand was launched on January 5, 2006, the same day as the final Pentium 4 models. Core processors focus on energy efficiency and a better performance per watt ratio, which the Pentium M already offered. The Core processors added SSE3 but continued to use a 32-bit instruction set. The instruction pipeline was reduced to 12 stages, yet the fastest Core processor achieved a slightly higher clock speed compared to the Pentium M, thanks to a new 65 nm manufacturing process. The Core Solo is actually a Core Duo with one processor core disabled. Intel did this because it was a simpler and cheaper way instead of altering the Core microarchitecture to manufacture Core Solo processors with only one physical core, which would cost extra time and money.

Sortable table
ModelCoreClock speedThermal design power
Core Solo T1200Yonah (65 nm)1.5 GHz27 W
Core Solo T1300Yonah (65 nm)1.66 GHz27 W
Core Solo T1350Yonah (65 nm)1.86 GHz31 W
Core Solo T1400Yonah (65 nm)1.83 GHz27 W
Core Solo T1500Yonah (65 nm)2 GHz27 W
Core Solo T1600Yonah (65 nm)2.16 GHz27 W
Core Solo U1300Yonah (65 nm)1.06 GHz6 W
Core Solo U1400Yonah (65 nm)1.2 GHz6 W
Core Solo U1500Yonah (65 nm)1.33 GHz5.5 W
Core Duo L2300Yonah (65 nm)1.5 GHz15 W
Core Duo L2400Yonah (65 nm)1.66 GHz15 W
Core Duo L2500Yonah (65 nm)1.83 GHz15 W
Core Duo T2050Yonah (65 nm)1.6 GHz31 W
Core Duo T2250Yonah (65 nm)1.73 GHz31 W
Core Duo T2300Yonah (65 nm)1.66 GHz31 W
Core Duo T2300EYonah (65 nm)1.66 GHz31 W
Core Duo T2350Yonah (65 nm)1.86 GHz31 W
Core Duo T2400Yonah (65 nm)1.83 GHz31 W
Core Duo T2450Yonah (65 nm)2 GHz31 W
Core Duo T2500Yonah (65 nm)2 GHz31 W
Core Duo T2600Yonah (65 nm)2.16 GHz31 W
Core Duo T2700Yonah (65 nm)2.33 GHz31 W
Core Duo U2400Yonah (65 nm)1.06 GHz9 W
Core Duo U2500Yonah (65 nm)1.2 GHz9 W
Core 2

The Core 2 brand improves upon the original Core processors by adding a 64-bit instruction set to the initial 32-bit one. In this range, the Core 2 Duo is the most significant processor line. The mobile Core 2 Quad is not clocked as high as its desktop variant to avoid creating heat problems in laptops the way the mobile Pentium 4 did. Similar to the Core Solo, the Core 2 Solo is actually a Core 2 Duo processor with one core disabled for the same reason as the Core Solo. The Core 2 Quad is two Core 2 Duo dies in one package. All Core 2 models manufactured at a 45 nm lithography feature the SSE4.1 instruction set.

Sortable table
ModelCoreClock speedThermal design power
Core 2 Solo U2100Merom-L (65 nm)1.06 GHz5.5 W
Core 2 Solo U2200Merom-L (65 nm)1.2 GHz5.5 W
Core 2 Duo LV7200Merom (65 nm)1.33 GHz17 W
Core 2 Duo LV7300Merom (65 nm)1.4 GHz17 W
Core 2 Duo LV7400Merom (65 nm)1.5 GHz17 W
Core 2 Duo LV7500Merom (65 nm)1.6 GHz17 W
Core 2 Duo LV7700Merom (65 nm)1.8 GHz17 W
Core 2 Duo T5200Merom (65 nm)1.6 GHz34 W
Core 2 Duo T5250Merom (65 nm)1.5 GHz35 W
Core 2 Duo T5270Merom (65 nm)1.4 GHz35 W
Core 2 Duo T5300Merom (65 nm)1.73 GHz34 W
Core 2 Duo T5450Merom (65 nm)1.66 GHz34 W
Core 2 Duo T5470Merom (65 nm)1.6 GHz34 W
Core 2 Duo T5500Merom (65 nm)1.66 GHz34 W
Core 2 Duo T5550Merom (65 nm)1.83 GHz35 W
Core 2 Duo T5600Merom (65 nm)1.83 GHz34 W
Core 2 Duo T5670Merom (65 nm)1.8 GHz35 W
Core 2 Duo T5750Merom (65 nm)2 GHz35 W
Core 2 Duo T5800Merom (65 nm)2 GHz35 W
Core 2 Duo T5850Merom (65 nm)2.16 GHz35 W
Core 2 Duo T5870Merom (65 nm)2 GHz35 W
Core 2 Duo T5900Merom (65 nm)2.2 GHz35 W
Core 2 Duo T7100Merom (65 nm)1.8 GHz35 W
Core 2 Duo T7200Merom (65 nm)2 GHz34 W
Core 2 Duo T7250Merom (65 nm)2 GHz35 W
Core 2 Duo T7300Merom (65 nm)2 GHz35 W
Core 2 Duo T7400Merom (65 nm)2.16 GHz34 W
Core 2 Duo T7500Merom (65 nm)2.2 GHz35 W
Core 2 Duo T7600Merom (65 nm)2.33 GHz34 W
Core 2 Duo T7700Merom (65 nm)2.4 GHz35 W
Core 2 Duo T7800Merom (65 nm)2.6 GHz35 W
Core 2 Duo U7500Merom (65 nm)1.06 GHz10 W
Core 2 Duo U7600Merom (65 nm)1.2 GHz10 W
Core 2 Duo U7700Merom (65 nm)1.33 GHz10 W
Core 2 Extreme X7800Merom (65 nm)2.6 GHz44 W
Core 2 Extreme X7900Merom (65 nm)2.8 GHz44 W
Core 2 Solo SU3300Penryn-3M (45 nm)1.2 GHz5.5 W
Core 2 Solo SU3500Penryn-3M (45 nm)1.4 GHz5.5 W
Core 2 Duo P7350Penryn (45 nm)2 GHz25 W
Core 2 Duo P7370Penryn (45 nm)2 GHz25 W
Core 2 Duo P7450Penryn (45 nm)2.13 GHz25 W
Core 2 Duo P7550Penryn (45 nm)2.26 GHz25 W
Core 2 Duo P8400Penryn (45 nm)2.26 GHz25 W
Core 2 Duo P8600Penryn (45 nm)2.4 GHz25 W
Core 2 Duo P8700Penryn (45 nm)2.53 GHz25 W
Core 2 Duo P8800Penryn (45 nm)2.66 GHz25 W
Core 2 Duo P9500Penryn (45 nm)2.53 GHz25 W
Core 2 Duo P9600Penryn (45 nm)2.66 GHz25 W
Core 2 Duo P9700Penryn (45 nm)2.8 GHz28 W
Core 2 Duo SL9300Penryn (45 nm)1.6 GHz17 W
Core 2 Duo SL9380Penryn (45 nm)1.8 GHz17 W
Core 2 Duo SL9400Penryn (45 nm)1.86 GHz17 W
Core 2 Duo SL9600Penryn (45 nm)2.13 GHz17 W
Core 2 Duo SP9300Penryn (45 nm)2.26 GHz25 W
Core 2 Duo SP9400Penryn (45 nm)2.4 GHz25 W
Core 2 Duo SP9600Penryn (45 nm)2.53 GHz25 W
Core 2 Duo SU7300Penryn (45 nm)1.3 GHz10 W
Core 2 Duo SU9300Penryn (45 nm)1.2 GHz10 W
Core 2 Duo SU9400Penryn (45 nm)1.4 GHz10 W
Core 2 Duo SU9600Penryn (45 nm)1.6 GHz10 W
Core 2 Duo T6400Penryn (45 nm)2 GHz35 W
Core 2 Duo T6500Penryn (45 nm)2.1 GHz35 W
Core 2 Duo T6570Penryn (45 nm)2.1 GHz35 W
Core 2 Duo T6600Penryn (45 nm)2.2 GHz35 W
Core 2 Duo T6670Penryn (45 nm)2.2 GHz35 W
Core 2 Duo T8100Penryn (45 nm)2.1 GHz35 W
Core 2 Duo T8300Penryn (45 nm)2.4 GHz35 W
Core 2 Duo T9300Penryn (45 nm)2.5 GHz35 W
Core 2 Duo T9400Penryn (45 nm)2.53 GHz35 W
Core 2 Duo T9500Penryn (45 nm)2.6 GHz35 W
Core 2 Duo T9550Penryn (45 nm)2.66 GHz35 W
Core 2 Duo T9600Penryn (45 nm)2.8 GHz35 W
Core 2 Duo T9800Penryn (45 nm)2.93 GHz35 W
Core 2 Duo T9900Penryn (45 nm)3.06 GHz35 W
Core 2 Extreme X9000Penryn (45 nm)2.8 GHz44 W
Core 2 Extreme X9100Penryn (45 nm)3.06 GHz44 W
Core 2 Quad Q9000Penryn QC (45 nm)2 GHz45 W
Core 2 Quad Q9100Penryn QC (45 nm)2.26 GHz45 W
Core 2 Extreme QX9300Penryn QC XE (45 nm)2.53 GHz45 W
Intel Core i3
Sortable table
ModelCoreClock speedThermal design power
Core i3-330UMArrandale (32 nm)1.20 GHz18 W
Core i3-380UMArrandale (32 nm)1.33 GHz18 W
Core i3-330MArrandale (32 nm)2.13 GHz35 W
Core i3-330EArrandale (32 nm)2.13 GHz35 W
Core i3-350MArrandale (32 nm)2.26 GHz35 W
Core i3-370MArrandale (32 nm)2.40 GHz35 W
Core i3-380MArrandale (32 nm)2.53 GHz35 W
Core i3-2357MSandy Bridge (32 nm)1.3 GHz17 W
Core i3-2367MSandy Bridge (32 nm)1.4 GHz17 W
Core i3-2310MSandy Bridge (32 nm)2.1 GHz35 W
Core i3-2330MSandy Bridge (32 nm)2.2 GHz35 W
Core i3-2350MSandy Bridge (32 nm)2.3 GHz35 W
Core i3-2370MSandy Bridge (32 nm)2.4 GHz35 W
Core i3-3217UIvy Bridge (22 nm)1.8 GHz17 W
Core i3-3110MIvy Bridge (22 nm)2.4 GHz35 W
Core i3-4000MHaswell (22 nm)2.4 GHz37 W
Core i3-4005UHaswell (22 nm)1.7 GHz15 W
Core i3-4010UHaswell (22 nm)1.7 GHz15 W
Core i3-4100UHaswell (22 nm)1.8 GHz15 W
Core i3-4010YHaswell (22 nm)1.3 GHz11.5 W
Core i3-4158UHaswell (22 nm)2.0 GHz28 W
Core i3-4100MHaswell (22 nm)2.5 GHz37 W
Core i3-4012YHaswell (22 nm)1.5 GHz11.5 W
Core i3-5005UBroadwell (14 nm)2 GHz15 W
Core i3-5010UBroadwell (14 nm)2.1 GHz15 W
Core i3-5015UBroadwell (14 nm)2.1 GHz15 W
Core i3-5020UBroadwell (14 nm)2.2 GHz15 W
Core i3-5157UBroadwell (14 nm)2.5 GHz28 W
Core i3-6006USkylake (14 nm)2 GHz15 W
Core i3-6100USkylake (14 nm)2.3 GHz15 W
Core i3-6100HSkylake (14 nm)2.7 GHz35 W
Core i3-6167USkylake (14 nm)2.7 GHz28 W
Intel Core i5
Sortable table
ModelCoreClock speedThermal design power
Core i5-3317UMIvy Bridge (22 nm)1.70 GHz [Turbo 2.60 GHz]17 W
Core i5-3427UMIvy Bridge (22 nm)1.80 GHz [Turbo 2.80 GHz]17 W
Core i5-430UMArrandale (32 nm)1.20 GHz18 W
Core i5-470UMArrandale (32 nm)1.33 GHz18 W
Core i5-520UMArrandale (32 nm)1.06 GHz18 W
Core i5-540UMArrandale (32 nm)1.20 GHz18 W
Core i5-560UMArrandale (32 nm)1.33 GHz18 W
Core i5-430MArrandale (32 nm)2.26 GHz35 W
Core i5-450MArrandale (32 nm)2.40 GHz35 W
Core i5-460MArrandale (32 nm)2.53 GHz35 W
Core i5-480MArrandale (32 nm)2.66 GHz35 W
Core i5-520MArrandale (32 nm)2.40 GHz35 W
Core i5-520EArrandale (32 nm)2.40 GHz35 W
Core i5-540MArrandale (32 nm)2.53 GHz35 W
Core i5-560MArrandale (32 nm)2.66 GHz35 W
Core i5-580MArrandale (32 nm)2.66 GHz35 W
Core i5-2430MSandy Bridge (32 nm)2.40 GHz [Turbo 3 GHz]35 W
Core i5-2450MSandy Bridge (32 nm)2.50 GHz [Turbo 3.1 GHz]35 W
Core i5-3230MIvy Bridge (22 nm)2.60 GHz [Turbo 3.20 GHz]35 W
Core i5-3360MIvy Bridge (22 nm)2.80 GHz [Turbo 3.50 GHz]35 W
Core i5-4200HHaswell (22 nm)2.80 GHz [Turbo 3.40 GHz]47 W
Core i5-4250UHaswell (22 nm)1.30 GHz [Turbo 2.60 GHz]15 W
Core i5-4350UHaswell (22 nm)1.40 GHz [Turbo 2.90 GHz]15 W
Core i5-4200UHaswell (22 nm)1.60 GHz [Turbo 2.60 GHz]15 W
Core i5-4200YHaswell (22 nm)1.40 GHz [Turbo 1.90 GHz]11.5 W
Core i5-4258UHaswell (22 nm)2.40 GHz [Turbo 2.90 GHz]28 W
Core i5-4288UHaswell (22 nm)2.60 GHz [Turbo 3.10 GHz]28 W
Core i5-4300UHaswell (22 nm)1.90 GHz [Turbo 2.90 GHz]15 W
Core i5-4300MHaswell (22 nm)2.60 GHz [Turbo 3.30 GHz]37 W
Core i5-4200MHaswell (22 nm)2.50 GHz [Turbo 3.10 GHz]37 W
Core i5-4202YHaswell (22 nm)1.60 GHz [Turbo 2.00 GHz]11.5 W
Core i5-4210YHaswell (22 nm)1.50 GHz [Turbo 1.90 GHz]11.5 W
Core i5-4300YHaswell (22 nm)1.60 GHz [Turbo 2.30 GHz]11.5 W
Core i5-4302YHaswell (22 nm)1.60 GHz [Turbo 2.30 GHz]11.5 W
Core i5-4330MHaswell (22 nm)2.80 GHz [Turbo 3.50 GHz]37 W
Core i5-5200UBroadwell (14 nm)2.2 GHz [Turbo 2.7 GHz]15 W
Core i5-5250UBroadwell (14 nm)1.6 GHz [Turbo 2.7 GHz]15 W
Core i5-5257UBroadwell (14 nm)2.7 GHz [Turbo 3.1 GHz]28 W
Core i5-5287UBroadwell (14 nm)2.9 GHz [Turbo 3.3 GHz]28 W
Core i5-5300UBroadwell (14 nm)2.3 GHz [Turbo 2.9 GHz]15 W
Core i5-5350UBroadwell (14 nm)1.8 GHz [Turbo 2.9 GHz]15 W
Core i5-5350HBroadwell (14 nm)3 GHz [Turbo 3.5 GHz]47 W
Core i5-6200USkylake (14 nm)2.3 GHz [Turbo 2.8 GHz]15 W
Core i5-6260USkylake (14 nm)1.8 GHz [Turbo 2.9 GHz]15 W
Core i5-6267USkylake (14 nm)2.9 GHz [Turbo 3.3 GHz]28 W
Core i5-6287USkylake (14 nm)3.1 GHz [Turbo 3.5 GHz]28 W
Core i5-6300USkylake (14 nm)2.4 GHz [Turbo 3 GHz]15 W
Core i5-6360USkylake (14 nm)2 GHz [Turbo 3.1 GHz]15 W
Core i5-6400TSkylake (14 nm)2.2 GHz [Turbo 2.8 GHz]35 W
Core i5-6500TSkylake (14 nm)2.5 GHz [Turbo 3.1 GHz]35 W
Core i5-6300HQSkylake (14 nm)2.3 GHz [Turbo 3.2 GHz]45 W
Core i5-6300HQSkylake (14 nm)2.3 GHz [Turbo 3.2 GHz]45 W
Core i5-6350HQSkylake (14 nm)2.3 GHz [Turbo 3.2 GHz]45 W
Core i5-6440HQSkylake (14 nm)2.6 GHz [Turbo 3.5 GHz]45 W
Core i5-6600TSkylake (14 nm)2.7 GHz [Turbo 3.5 GHz]35 W
Core i5-6600KSkylake (14 nm)3.5 GHz [Turbo 3.9 GHz]91 W
Intel Core i7
Sortable table
ModelCoreClock speedThermal design power
Core i7-3517UIvy Bridge (22 nm)1.90 GHz [Turbo 3.00 GHz]17 W
Core i7-3667UIvy Bridge (22 nm)2.00 GHz [Turbo 3.20 GHz]17 W
Core i7-620UMArrandale (32 nm)1.06 GHz18 W
Core i7-620UEArrandale (32 nm)1.06 GHz18 W
Core i7-640UMArrandale (32 nm)1.20 GHz18 W
Core i7-660UMArrandale (32 nm)1.33 GHz18 W
Core i7-660UEArrandale (32 nm)1.33 GHz18 W
Core i7-680UMArrandale (32 nm)1.46 GHz18 W
Core i7-620LMArrandale (32 nm)2.00 GHz25 W
Core i7-620LEArrandale (32 nm)2.00 GHz25 W
Core i7-640LMArrandale (32 nm)2.13 GHz25 W
Core i7-660LMArrandale (32 nm)2.26 GHz25 W
Core i7-610EArrandale (32 nm)2.53 GHz35 W
Core i7-620MArrandale (32 nm)2.66 GHz35 W
Core i7-640MArrandale (32 nm)2.80 GHz35 W
Core i7-720QMClarksfield (45 nm)1.6 GHz45 W
Core i7-740QMClarksfield (45 nm)1.73 GHz45 W
Core i7-820QMClarksfield (45 nm)1.73 GHz45 W
Core i7-840QMClarksfield (45 nm)1.86 GHz45 W
Core i7-920XMClarksfield (45 nm)2 GHz55 W
Core i7-940XMClarksfield (45 nm)2.13 GHz55 W
Core i7-4550UHaswell (22 nm)1.50 GHz [Turbo 3.00 GHz]15 W
Core i7-4650UHaswell (22 nm)1.70 GHz [Turbo 3.30 GHz]15 W
Core i7-4700HQHaswell (22 nm)2.40 GHz [Turbo 3.40 GHz]47 W
Core i7-4700MQHaswell (22 nm)2.40 GHz [Turbo 3.40 GHz]47 W
Core i7-4702HQHaswell (22 nm)2.20 GHz [Turbo 3.20 GHz]37 W
Core i7-4702MQHaswell (22 nm)2.20 GHz [Turbo 3.20 GHz]37 W
Core i7-4800MQHaswell (22 nm)2.70 GHz [Turbo 3.70 GHz]47 W
Core i7-4900MQHaswell (22 nm)2.80 GHz [Turbo 3.80 GHz]47 W
Core i7-4930MXHaswell (22 nm)3.00 GHz [Turbo 3.90 GHz]57 W
Core i7-4500UHaswell (22 nm)1.80 GHz [Turbo 3.00 GHz]15 W
Core i7-4558UHaswell (22 nm)2.80 GHz [Turbo 3.30 GHz]28 W
Core i7-4600MHaswell (22 nm)2.90 GHz [Turbo 3.60 GHz]37 W
Core i7-4600UHaswell (22 nm)2.10 GHz [Turbo 3.30 GHz]15 W
Core i7-4610YHaswell (22 nm)1.70 GHz [Turbo 2.90 GHz]11.5 W
Intel Atom

Intel Atom is a series of Ultra Low Voltage processors made for ultraportables called "netbooks" and ultra small form factor desktops called "nettops". Because of their low clock speed, Intel Atom CPUs are highly energy efficient. Atom's microarchitecture is unique from other Intel CPUs. Certain Atom CPUs have Hyper-Threading.

Sortable table
ModelCore Clock speed Thermal design power
Atom 230Diamondville (45 nm)1.6 GHz4 W
Atom 330 (Dual-Core)Diamondville (45 nm)1.6 GHz8 W
Atom N270Diamondville (45 nm)1.6 GHz2.5 W
Atom N280Diamondville (45 nm)1.67 GHz2.5 W
Atom D410Pineview (45 nm)1.66 GHz10 W
Atom D510 (Dual-Core)Pineview (45 nm)1.66 GHz13 W
Atom D525 (Dual-Core)Pineview (45 nm)1.8 GHz13 W
Atom N450Pineview (45 nm)1.67 GHz5.5 W
Atom N455Pineview (45 nm)1.67 GHz6.5 W
Atom N470Pineview (45 nm)1.83 GHz6.5 W
Atom N475Pineview (45 nm)1.83 GHz6.5 W
Atom N550 (Dual-Core)Pineview (45 nm)1.5x2 GHz8.5 W
Atom N570 (Dual-Core)Pineview (45 nm)1.66x2 GHz8.5 W
Atom D2500 (Dual-Core)Cedarview (32 nm)1.87 GHz10 W
Atom D2550 (Dual-Core)Cedarview (32 nm)1.87 GHz10 W
Atom D2700 (Dual-Core)Cedarview (32 nm)2.13 GHz10 W
Atom N2600 (Dual-Core)Cedarview (32 nm)1.6 GHz3.5 W
Atom N2800 (Dual-Core)Cedarview (32 nm)1.87 GHz6.5 W
Atom Z500Silverthorne (45 nm)800 MHz0.65 W
Atom Z510Silverthorne (45 nm)1.1 GHz2 W
Atom Z510PSilverthorne (45 nm)1.1 GHz2.2 W
Atom Z510PTSilverthorne (45 nm)1.1 GHz2.2 W
Atom Z515Silverthorne (45 nm)1.2 GHz (burst speed)1.4 W
Atom Z520Silverthorne (45 nm)1.33 GHz2 W
Atom Z520PTSilverthorne (45 nm)1.33 GHz2.2 W
Atom Z530Silverthorne (45 nm)1.6 GHz2 W
Atom Z530PSilverthorne (45 nm)1.6 GHz2.2 W
Atom Z540Silverthorne (45 nm)1.86 GHz2.4 W
Atom Z550Silverthorne (45 nm)2 GHz2.4 W
Atom Z560Silverthorne (45 nm)2.13 GHz2.5 W
Celeron M

Like the Pentium M, the Celeron M was specifically made for use in laptops.

Sortable table
ModelCoreClock speedThermal design power
Celeron M 600Banias (130 nm)600 MHz7 W
Celeron M 800Banias (130 nm)800 MHz7 W
Celeron M 310Banias (130 nm)1.2 GHz24.5 W
Celeron M 320Banias (130 nm)1.3 GHz24.5 W
Celeron M 330Banias (130 nm)1.4 GHz24.5 W
Celeron M 340Banias (130 nm)1.5 GHz24.5 W
Celeron M 353Dothan (90 nm)900 MHz5 W
Celeron M 373Dothan (90 nm)1 GHz5.5 W
Celeron M 383Dothan (90 nm)1 GHz5.5 W
Celeron M 205Dothan (90 nm)1.2 GHz21 W
Celeron M 350Dothan (90 nm)1.3 GHz21 W
Celeron M 350JDothan (90 nm)1.3 GHz21 W
Celeron M 360Dothan (90 nm)1.4 GHz21 W
Celeron M 360JDothan (90 nm)1.4 GHz21 W
Celeron M 370Dothan (90 nm)1.5 GHz21 W
Celeron M 380Dothan (90 nm)1.6 GHz21 W
Celeron M 390Dothan (90 nm)1.7 GHz27 W
Celeron M 215Yonah (65 nm)1.53 GHz27 W
Celeron M 723... (45 nm)1.2 GHz10 W
Celeron Dual-Core

Celeron Dual-Core is Intel's budget dual-core CPUs intended for low-cost computers, laptops and embedded applications.

Sortable table
ModelCoreClock speedThermal design power
Celeron Dual-Core T1400Merom (65 nm)1.73 GHz35 W
Celeron Dual-Core T1500Merom (65 nm)1.86 GHz35 W
Celeron Dual-Core T1600Merom (65 nm)1.66 GHz35 W
Celeron Dual-Core T1700Merom (65 nm)1.83 GHz35 W
Celeron Dual-Core T3100Penryn (45 nm)1.9 GHz35 W
Celeron Dual-Core T3300Penryn (45 nm)2.0 GHz35 W
Celeron Dual-Core T3500Penryn (45 nm)2.1 GHz35 W
Celeron Dual-Core J1750Bay Trail (22 nm)2.41 GHz10 W
Celeron Dual-Core J1800Bay Trail (22 nm)2.41 GHz10 W
Celeron Dual-Core J1850Bay Trail (22 nm)2.0 GHz10 W
Celeron Dual-Core J3355Skylake (14 nm)2.0 GHz10 W
Celeron Dual-Core N4505Jasper Lake (10 nm)2.0 GHz, burst: 2.9 GHz10 W
Celeron Dual-Core N4500Jasper Lake (10 nm)1.1 GHz, burst: 2.8 GHz6 W, SDP: 4.8 W
Celeron Quad-Core

Celeron Quad-Core is Intel's budget quad-core CPUs intended for low-cost computers, laptops and embedded applications.

Sortable table
ModelCoreClock speedThermal design power
Celeron Quad-Core J4125Gemini Lake Refresh (14 nm)2.0 GHz, burst: 2.7 GHz10 W
Celeron Quad-Core N4120Gemini Lake Refresh (14 nm)1.1 GHz, burst: 2.6 GHz6 W, SDP: 4.8 W
Celeron Quad-Core N5105Jasper Lake (10 nm)2.0 GHz, burst: 2.9 GHz10 W
Celeron Quad-Core N5100Jasper Lake (10 nm)1.1 GHz, burst: 2.8 GHz6 W, SDP: 4.8 W
Celeron performance-core and efficient-cores

The Celeron series with performance-core and efficiency-cores is Intel's budget core CPUs intended for low-cost computers, laptops and embedded applications.

Sortable table
ModelCoresClock speedBase Power
Celeron (1 p and 4 e cores) 7300Alder Lake-U, (Intel 7, 7 nm)P-clock 1.0 GHz, turbo: N/A
E-clock 0.7 GHz, turbo: N/A
9 W, turbo: 29 W
Celeron (1 p and 4 e cores) 7305Alder Lake-U, (Intel 7, 7 nm)P-clock 1.1 GHz, turbo: N/A
E-clock 0.9 GHz, turbo: N/A
15 W, turbo: 55 W
Celeron (1 p and 4 e cores) 7305EAlder Lake-U, (Intel 7, 7 nm)P-clock 1.0 GHz
E-clock 0. GHz
15 W
Pentium Dual-Core/Pentium

Intel Pentium (originally Pentium Dual-Core) is a line of single- and dual-core processors for lower-priced laptops. The SU2700 is the only single-core processor in the series and is intended for use with Intel's CULV platform. The Pentium Dual-Core T2060, T2080 and T2130 are not 64-bit as they are based on the Yonah core. Prefixies: T=Standard Voltage, SU=Ultra Low Voltage.

Sortable table
ModelCoreClock speedThermal design power
Pentium Dual-Core T2060Yonah (65 nm)1.6 GHz31 W
Pentium Dual-Core T2080Yonah (65 nm)1.73 GHz31 W
Pentium Dual-Core T2130Yonah (65 nm)1.86 GHz31 W
Pentium Dual-Core T2350Yonah (65 nm)1.86 GHz31 W
Pentium Dual-Core T2310Merom-2M (65 nm)1.46 GHz35 W
Pentium Dual-Core T2330Merom-2M (65 nm)1.6 GHz35 W
Pentium Dual-Core T2370Merom-2M (65 nm)1.73 GHz35 W
Pentium Dual-Core T2390Merom-2M (65 nm)1.86 GHz35 W
Pentium Dual-Core T2410Merom-2M (65 nm)2 GHz35 W
Pentium Dual-Core T3200Merom-2M (65 nm)2.0 GHz35 W
Pentium Dual-Core T3400Merom-2M (65 nm)2.16 GHz35 W
Pentium T4200Penryn-1M (45 nm)2.0 GHz35 W
Pentium T4300Penryn-1M (45 nm)2.1 GHz35 W
Pentium SU2700Penryn-1M (45 nm)1.3 GHz10 W
Pentium SU4100Penryn-1M (45 nm)1.3 GHz10 W
Pentium Quad-Core ( Pentium, Pentium Silver )

Pentium Quad-Core is Intel's enhanced budget quad-core CPUs intended for low-cost computers, mini-PC, laptops and embedded applications.

Sortable table
ModelCoreClock speedThermal design power
Pentium           Quad-Core N3540Bay Trail-M (22 nm)2.16 GHz, burst: 2.66 GHz7.5 W; SDP: 4.5 W
Pentium           Quad-Core N3700Braswell (14 nm)1.6 GHz, burst: 2.4 GHz6 W; SDP: 4 W
Pentium           Quad-Core N3710Braswell (14 nm)1.6 GHz, burst: 2.56 GHz6 W; SDP: 4 W
Pentium           Quad-Core N4200Apollo Lake (14 nm)1.1 GHz, burst: 2.5 GHz6 W; SDP: 4 W
Pentium Silver Quad-Core N5000Gemini Lake (14 nm)1.1 GHz, burst: 2.7 GHz6 W; SDP: 4.8 W
Pentium Silver Quad-Core N5030Gemini Lake Refresh (14 nm)1.1 GHz, burst: 3.1 GHz6 W; SDP: 4.8 W
Pentium Silver Quad-Core N6000Jasper Lake (10 nm)1.1 GHz, burst: 3.3 GHz6 W, SDP: 4.8 W
Pentium Silver Quad-Core N6005Jasper Lake (10 nm)2.0 GHz, burst: 3.3 GHz10 W
Pentium performance-core and efficient-cores

The Pentium series with performance-core and efficiency-cores is Intel's enhanced budget core CPUs intended for low-cost computers, laptops and embedded applications.

Sortable table
ModelCoresClock speedBase Power
Pentium 8500 (1 p and 4 e cores)Alder Lake-U, (Intel 7, 7 nm)P-clock 1.0 GHz, turbo: 4.4 GHz
E-clock 0.7 GHz, turbo: 3.3 GHz
9 W, turbo: 29 W
Pentium 8505 (1 p and 4 e cores)Alder Lake-U, (Intel 7, 7 nm)P-clock 1.2 GHz, turbo: 4.4 GHz
E-clock 0.9 GHz, turbo: 3.3 GHz
15 W, turbo: 55 W
Pentium Pro

Launched in 1995, the Pentium Pro was Intel's first processor meant for servers as well as their first processor to use the P6 microarchitecture. The processor used a dual-cavity package, in which one cavity contained the die and the other cavity contained the L2 cache, as the Pentium Pro's L2 cache probably could not fit in the die. The Pentium Pro was substantially faster than the Pentium and Pentium MMX in 32-bit applications, but in 16-bit applications, it was slightly slower than the Pentium and Pentium MMX processors. This is because the Pentium Pro was optimized for 32-bit applications.

Sortable table
ModelLithographyClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Pentium Pro 150600 nm150 MHz29.2 W194.67
Pentium Pro 166600 nm166 MHz35 W210.84
Pentium Pro 180600 nm180 MHz31.7 W176.11
Pentium Pro 200 (256 KB L2 cache)600 nm200 MHz35 W175
Pentium Pro 200 (512 KB L2 cache)600 nm200 MHz37.9 W189.5
Pentium Pro 150350 nm150 MHz29.2 W194.67
Pentium Pro 166350 nm166 MHz35 W210.84
Pentium Pro 180350 nm180 MHz31.7 W176.11
Pentium Pro 200 (256 KB L2 cache)350 nm200 MHz35 W175
Pentium Pro 200 (512 KB L2 cache)350 nm200 MHz37.9 W189.5
Pentium Pro 200 (1 MB L2 cache)350 nm200 MHz47 W235
"Drake" (250 nm)
Sortable table
ModelCoreClock speed (GHz)Thermal design power (W)
Pentium II Xeon 400Drake(250 nm)400MHz30.8 W
Pentium II Xeon 400Drake(250 nm)400MHz38.1 W
Pentium II Xeon 450Drake(250 nm)450MHz34.5 W
Pentium II Xeon 450Drake(250 nm)450MHz42.8 W
Pentium II Xeon 450Drake(250 nm)450MHz46.7 W
"Tanner" (250 nm)
Sortable table
ModelCoreClock speed (GHz)Thermal design power (W)
Pentium III Xeon 500 BPrestonia(250 nm)500MHz36 W
Pentium III Xeon 500 APrestonia(250 nm)500MHz36 W
Pentium III Xeon 500 CPrestonia(250 nm)500MHz36 W
Pentium III Xeon 550 APrestonia(250 nm)550MHz34 W
Pentium III Xeon 550 BPrestonia(250 nm)550MHz34 W
Pentium III Xeon 550 CPrestonia(250 nm)550MHz34 W
"Cascades" (180 nm)
Sortable table
ModelCoreClock speed (GHz)Thermal design power (W)
Pentium III Xeon 600Cascades(180 nm)600MHz19.2 W
Pentium III Xeon 667Cascades(180 nm)667MHz21.3 W
Pentium III Xeon 700 ACascades(180 nm)700MHz29.6 W
Pentium III Xeon 700 BCascades(180 nm)700MHz29.6 W
Pentium III Xeon 733Cascades(180 nm)733MHz23.3 W
Pentium III Xeon 800Cascades(180 nm)800MHz23.3 W
Pentium III Xeon 866Cascades(180 nm)867MHz29.7 W
Pentium III Xeon 900Cascades(180 nm)900MHz39.3 W
Pentium III Xeon 933Cascades(180 nm)933MHz29.6 W
Pentium III Xeon 1.00Cascades(180 nm)1.00GHz30.8 W
"Prestonia" (130 nm)
Sortable table
ModelCoreClock speed (GHz)Thermal design power (W)
Xeon 1.8Prestonia(130 nm)1.80GHz55 W
Xeon 2.0APrestonia(130 nm)2.00GHz58 W
Xeon 2.0BPrestonia(130 nm)2.00GHz58 W
Xeon 2.2Prestonia(130 nm)2.20GHz61 W
Xeon 2.4Prestonia(130 nm)2.40GHz65 W
Xeon 2.4BPrestonia(130 nm)2.40GHz65 W
Xeon 2.6Prestonia(130 nm)2.60GHz60 W
Xeon 2.66Prestonia(130 nm)2.66GHz72-77 W
Xeon 2.8Prestonia(130 nm)2.80GHz74 W
Xeon 2.8BPrestonia(130 nm)2.80GHz74 W
Xeon 3.0Prestonia(130 nm)3.00GHz85 W
Xeon 3.06Prestonia(130 nm)3.06GHz85 W
Dual Core Xeon

Intel part numbers

Sortable table
ModelClock speedPowerFSBL2 cacheL3 cacheClock speed to power ratio (MHz/W)
30401.86 GHz65 W1066 MHz2MB28.6
30502.13 GHz65 W1066 MHz2MB32.8
30602.40 GHz65 W1066 MHz4MB36.9
30702.66 GHz65 W1066 MHz4MB41.0
50302.67 GHz95 W667 MHz2x2MB28.1
50503.00 GHz95 W667 MHz2x2MB31.6
50603.20 GHz95 W1066 MHz2x2MB33.7
50633.20 GHz95 W1066 MHz2x2MB33.7
50803.73 GHz130 W1066 MHz2x2MB28.7
51101.60 GHz65 W1066 MHz4MB24.6
51201.86 GHz65 W1066 MHz4MB28.6
51302.00 GHz65 W1333 MHz4MB30.7
51402.33 GHz65 W1333 MHz4MB35.9
51502.66 GHz65 W1333 MHz4MB41.0
51603.00 GHz80 W1333 MHz4MB37.5
7120M3.00 GHz95 W800 MHz2x1MB4MB31.6
7120N3.00 GHz95 W667 FSB2x1MB4MB31.6
7130M3.20 GHz150 W800 MHz2x1MB8MB21.3
7130N3.16 GHz150 W667 MHz2x1MB8MB21.1
7140M3.40 GHz150 W800 MHz2x1MB16MB22.7
7140N3.33 GHz150 W667 MHz2x1MB16MB22
7150N3.50 GHz150 W667 MHz2x1MB16MB23.3


Xeon (Six Core, Core-based)
Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Xeon E7450Dunnington (45 nm)2.4 GHz90 W37.5
Xeon E7458Dunnington (45 nm)2.4 GHz90 W37.5
Xeon E7460Dunnington (45 nm)2.66 GHz130 W48.87
Xeon L7455Dunnington (45 nm)2.13 GHz65 W30.52
Intel Itanium
Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Itanium 733Merced (180 nm)733 MHz116 W158.25
Itanium 733Merced (180 nm)733 MHz130 W177.35
Itanium 800Merced (180 nm)800 MHz116 W145
Itanium 800Merced (180 nm)800 MHz130 W162.5
Intel Itanium 2
Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Itanium 2 900McKinley (180 nm)900 MHz130 W144.44
Itanium 2 900McKinley (180 nm)900 MHz130 W144.44
Itanium 2 1000McKinley (180 nm)1 GHz130 W130
Itanium 2 1000McKinley (180 nm)1 GHz130 W130
Itanium 2 1400Madison (130 nm)1.4 GHz130 W92.86
Itanium 2 1300Madison (130 nm)1.3 GHz130 W100
Itanium 2 1400Madison (130 nm)1.4 GHz130 W93.86
Itanium 2 1400Madison (130 nm)1.4 GHz130 W92.86
Itanium 2 1500Madison (130 nm)1.5 GHz130 W86.67
Itanium 2 1600Madison (130 nm)1.6 GHz130 W81.25
Itanium 2 1666Madison (130 nm)1.66 GHz130 W78.31
Itanium 2 1600Madison-9M (130 nm)1.6 GHz130 W81.25
Itanium 2 1666Madison-9M (130 nm)1.66 GHz130 W78.31
Itanium 2 1000Deerfield (130 nm)1 GHz62 W62
Itanium 2 1300Fanwood (130 nm)1.3 GHz ??? W ???.??
Itanium 2 1600Fanwood (130 nm)1.6 GHz ??? W ???.??
Itanium 2 1600Fanwood (130 nm)1.6 GHz ??? W ???.??
Itanium 2 MX2Hondo MCM (130 nm)1.1 GHz260 W236.36
Itanium 2 9010Montecito (90 nm)1.6 GHz75 W46.88
Itanium 2 9015Montecito (90 nm)1.4 GHz104 W74.29
Itanium 2 9020Montecito (90 nm)1.42 GHz104 W73.24
Itanium 2 9030Montecito (90 nm)1.6 GHz104 W65
Itanium 2 9040Montecito (90 nm)1.6 GHz104 W65
Itanium 2 9050Montecito (90 nm)1.6 GHz104 W65
Itanium 2 9110NMontevale (90 nm)1.6 GHz75 W46.88
Itanium 2 9120NMontevale (90 nm)1.42 GHz104 W73.24
Itanium 2 9130MMontevale (90 nm)1.66 GHz104 W62.65
Itanium 2 9140NMontevale (90 nm)1.6 GHz104 W65
Itanium 2 9140MMontevale (90 nm)1.66 GHz104 W62.65
Itanium 2 9150NMontevale (90 nm)1.6 GHz104 W65
Itanium 2 9150MMontevale (90 nm)1.66 GHz104 W62.65
Itanium 2 9152MMontevale (90 nm)1.66 GHz104 W62.65
K5

Released in 1996, the K5 was AMD's first processor developed entirely in-house. It was supposed to yield similar performance results as Intel's Pentium Pro, but the results were more comparable to a Pentium. Later K5 models were given a PR rating, in which they would perform as well as a processor with a higher clock speed at a lower clock speed. K5 processors were not given core names.

Sortable table
ModelLithographyClock speedThermal design powerTDP to clock speed ratio (W/GHz)
K5 75350 nm75 MHz11.8 W157.33
K5 90350 nm90 MHz14.3 W158.89
K5 100350 nm100 MHz15.8 W158
K5 120350 nm90 MHz12.6 W140
K5 133350 nm100 MHz14 W140
K5 150350 nm105 MHz ??.?? ??.??
K5 166350 nm116.7 MHz16.4 W ??.??
K5 200350 nm133 MHz ??.?? ??.??
K5 PR75350 nm75 MHz11.8 W157.33
K5 PR90350 nm90 MHz14.3 W158.89
K5 PR100350 nm100 MHz15.8 W158
K5 PR120350 nm90 MHz12.6 W140
K5 PR133350 nm100 MHz14 W140
K5 PR150350 nm116.7 MHz ??.?? W ??.??
K5 PR166350 nm116.7 MHz16.4 W140.53
K5 PR200350 nm133 MHz ??.?? W ??.??
K6
Sortable table
ModelCoreClock speedThermal design power( typical/max)[4]
K6/166ALRModel 6 (350 nm)166 MHz10.30-17.20 W
K6/200ALRModel 6 (350 nm)200 MHz12.00-20.00 W
K6/233ANRModel 6 (350 nm)233 MHz17.00-28.30 W
K6/233APRModel 6 (350 nm)233 MHz18.20-30.20 W
K6/200AFRLittle Foot (Model 7) (250 nm)200 MHz7.50-12.45 W
K6/233AFRLittle Foot (Model 7) (250 nm)233 MHz8.10-13.50 W
K6/266AFRLittle Foot (Model 7) (250 nm)266 MHz8.75-14.55 W
K6/300AFRLittle Foot (Model 7) (250 nm)300 MHz9.25-15.4 W
K6/233ACZLittle Foot (Model 7) (250 nm) (Mobile)233 MHz5.40-9.00 W
K6/266ACZLittle Foot (Model 7) (250 nm) (Mobile)266 MHz5.90-9.80 W
K6/300ADZLittle Foot (Model 7) (250 nm) (Mobile)300 MHz6.60-11.00 W
K6-2


Athlon

Released in 1999, the Athlon was AMD's highest performing processor until the introduction of the Athlon XP and was considered a "seventh generation" processor in its time. The Athlon used a double-pumped FSB that ran at either 200 MHz or 266 MHz, or twice as fast as the Pentium III's FSB. But the Athlon and Pentium III both still reached a clock speed barrier of 1.4 GHz, with the Athlon giving off significantly more heat than the Pentium III, yet offering better performance. Athlon processors did not have an actual model number, as did other AMD or Intel processors at the time. The number following the word Athlon represents the processor's clock speed in megahertz.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Athlon 500Argon (250 nm)500 MHz42 W84
Athlon 550Argon (250 nm)550 MHz46 W83.64
Athlon 600Argon (250 nm)600 MHz50 W83.33
Athlon 650Argon (250 nm)650 MHz54 W83.08
Athlon 700Argon (250 nm)700 MHz50 W71.43
Athlon 550Argon (250 nm)550 MHz46 W83.64
Athlon 600Argon (250 nm)600 MHz50 W83.33
Athlon 550Pluto (180 nm)550 MHz31 W56.36
Athlon 600Pluto (180 nm)600 MHz34 W56.67
Athlon 650Pluto (180 nm)650 MHz36 W55.38
Athlon 700Pluto (180 nm)700 MHz39 W55.71
Athlon 750Pluto (180 nm)750 MHz40 W53.33
Athlon 800Pluto (180 nm)800 MHz48 W60
Athlon 850Pluto (180 nm)850 MHz50 W58.82
Athlon 900Orion (180 nm)900 MHz60 W66.67
Athlon 950Orion (180 nm)950 MHz62 W65.26
Athlon 900Orion (180 nm)900 MHz60 W66.67
Athlon 1000Orion (180 nm)1 GHz62 W62
Athlon 600Thunderbird (180 nm)600 MHz ??.? W ??.??
Athlon 650 (Slot A)Thunderbird (180 nm)650 MHz36.1 W55.54
Athlon 650 (Socket A)Thunderbird (180 nm)650 MHz36.1 W55.54
Athlon 700 (Slot A)Thunderbird (180 nm)700 MHz38.3 W54.71
Athlon 700 (Socket A)Thunderbird (180 nm)700 MHz38.3 W54.71
Athlon 750 (Slot A)Thunderbird (180 nm)750 MHz40.4 W53.87
Athlon 750 (Socket A)Thunderbird (180 nm)750 MHz40.4 W53.87
Athlon 800 (Slot A)Thunderbird (180 nm)800 MHz42.6 W53.25
Athlon 800 (Socket A)Thunderbird (180 nm)800 MHz42.6 W53.25
Athlon 850 (Slot A)Thunderbird (180 nm)850 MHz44.8 W52.71
Athlon 850 (Socket A)Thunderbird (180 nm)850 MHz44.8 W52.71
Athlon 900 (Slot A)Thunderbird (180 nm)900 MHz49.7 W55.22
Athlon 900 (Socket A)Thunderbird (180 nm)900 MHz49.7 W55.22
Athlon 950 (Slot A)Thunderbird (180 nm)950 MHz52 W54.74
Athlon 950 (Socket A)Thunderbird (180 nm)950 MHz52 W54.74
Athlon 1000 (Slot A)Thunderbird (180 nm)1 GHz54.3 W54.3
Athlon 1000 (Socket A)Thunderbird (180 nm)1 GHz54 W54
Athlon 1000BThunderbird (180 nm)1.2 GHz54.3 W54.75
Athlon 1000CThunderbird (180 nm)1 GHz55.1 W55.1
Athlon 1100BThunderbird (180 nm)1.1 GHz60.3 W54.82
Athlon 1133CThunderbird (180 nm)1.13 GHz62.1 W54.96
Athlon 1200BThunderbird (180 nm)1.2 GHz65.7 W54.75
Athlon 1200CThunderbird (180 nm)1.2 GHz65.7 W54.75
Athlon 1266CThunderbird (180 nm)1.26 GHz66.9 W53.1
Athlon 1300BThunderbird (180 nm)1.3 GHz68.3 W52.54
Athlon 1333CThunderbird (180 nm)1.33 GHz69.8 W52.48
Athlon 1400BThunderbird (180 nm)1.4 GHz72.1 W51.5
Athlon 1400CThunderbird (180 nm)1.4 GHz72.1 W51.5
Athlon XP

Around this time, AMD gave their processors a name which indicated the equivalent clock speed when measured against the Thunderbird-based Athlon.[5] For example, the Athlon XP 1800+ would, in theory, have offered similar performance to a Thunderbird-based Athlon at clocked at 1.8 GHz despite being clocked at only 1.53 GHz, since it did more per clock cycle.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Athlon XP 1500+Palomino (180 nm)1.33 GHz60 W45.11
Athlon XP 1600+Palomino (180 nm)1.4 GHz62.8 W44.86
Athlon XP 1700+Palomino (180 nm)1.46 GHz64 W43.84
Athlon XP 1800+Palomino (180 nm)1.53 GHz66 W43.14
Athlon XP 1900+Palomino (180 nm)1.6 GHz68 W42.5
Athlon XP 2000+Palomino (180 nm)1.66 GHz70 W42.17
Athlon XP 2100+Palomino (180 nm)1.73 GHz72 W41.62
Athlon XP 1600+Thoroughbred (130 nm)1.4 GHz48.5 W34.64
Athlon XP 1700+Thoroughbred (130 nm)1.46 GHz49.4 W33.84
Athlon XP 1800+Thoroughbred (130 nm)1.53 GHz51 W33.33
Athlon XP 1900+Thoroughbred (130 nm)1.6 GHz52.5 W32.81
Athlon XP 2000+Thoroughbred (130 nm)1.66 GHz60.3 W36.33
Athlon XP 2100+Thoroughbred (130 nm)1.73 GHz62.1 W35.9
Athlon XP 2200+Thoroughbred (130 nm)1.8 GHz67.9 W or 62.8 W37.72 (67.9 W), 34.89 (62.8 W)
Athlon XP 2400+Thoroughbred (130 nm)2.0 GHz68.3 W32.84
Athlon XP 2600+Thoroughbred (130 nm)2.13 GHz68.3 W32.07
Athlon XP 2600+Thoroughbred (130 nm)2.08 GHz68.3 W32.07
Athlon XP 2700+Thoroughbred (130 nm)2.16 GHz68.3 W31.62
Athlon XP 2800+Barton (130 nm)2.083 GHz ??.? W ??.??
Athlon XP 2000+Thorton (130 nm)1.66 GHz60.3 W36.33
Athlon XP 2200+Thorton (130 nm)1.8 GHz62.8 W34.89
Athlon XP 3100+Thorton (130 nm)2.2 GHz ??.? W ??.??
Athlon XP 2500+Barton (130 nm)1.83 GHz68.3 W37.32
Athlon XP 2600+Barton (130 nm)1.91 GHz68.3 W35.76
Athlon XP 2700+Barton (130 nm)2 GHz68.3 W31.62
Athlon XP 2900+Barton (130 nm)2 GHz ??.? W ??.??
Athlon XP 3000+Barton (130 nm)2.16 GHz74.3 W34.4
Athlon XP 3200+Barton (130 nm)2.2 GHz76.8 W34.91
Athlon XP 3200+Barton (130 nm)2.33 GHz ??.? W ??.?

AMD List of AMD Athlon 64 microprocessors

Sortable table
ModelL2 cacheVoltage (V)Power (W)Process (nanometers)Clock speed to
TDP ratio (MHz/W)
Clawhammer Athlon 64
"All Models" (C0 & CG)
(Socket 754 & 939)
512 KB
or
1 MB
1.5089130
Newcastle Athlon 64
"All Models" (CG)
(Socket 754 & 939)
256 KB
or
512 KB
1.5089130
Winchester Athlon 64
"All 3 Models" (D0) - (Socket 939)
(3000+, 3200+ and 3500+)
512 KB1.406790
Newcastle Athlon 64 2800+
(Socket 754 - 1.8 GHz)
512 KB1.508913020.2
Venice Athlon 64 3200+
(Socket 939 - 2.0 GHz)
512 KB1.35 - 1.40679029,9
Venice Athlon 64 3200+
(Socket 754 - 2.2 GHz)
512 KB1.40599037.3
Clawhammer Athlon 64 3000+
(Socket 754 - 2.0 GHz)
512 KB1.508913022.5
Clawhammer Athlon 64 3400+
(Socket 754 - 2.4 GHz)
1 MB1.5089130
Winchester Athlon 64 3500+512 KB1.406790
Orleans Athlon 64 3500+ EE SFF512 KB1.20 - 1.253590
Lima Athlon 64 3500+512 KB1.20 - 1.354565
Orleans Athlon 64 3800+512 KB1.406290
Lima Athlon 64 3800+512 KB1.25 - 1.404565
Orleans Athlon 64 4000+512 KB1.25 - 1.406290
San Diego Athlon 64 4000+1 MB1.358990
Orleans Athlon 64 LE-1600 (2.2 GHz)1 MB1.25 - 1.40459048.9
Orleans Athlon 64 LE-1620 (2.4 GHz)1 MB1.25 - 1.40459053.3
AMD Athlon 64 X2 / Athlon X2

AMD Athlon X2 (Socket 939) . . AMD part numbers . . List of AMD MPUs

Sortable table
CoreProcessorModelClock speedL2 cacheVoltageTDPClock speed to TDP ratio (MHz/W)
E6Athlon 64 X24800+2400 MHz2 MB1.30-1.40 V110 W21.8
Athlon 64 X24600+2400 MHz1 MB1.30-1.40 V110 W21.8
E6/E6Athlon 64 X24400+2200 MHz2 MB1.30-1.40 V89 W/110 W24.7/20 [12.35/10w @per core]
Athlon 64 X24200+2200 MHz1 MB1.30-1.40 V89 W24.7
F2Athlon 64 X23800+2000 MHz1 MB1.20-1.25 V65 W30
E4/E6Athlon 64 X23800+2000 MHz1 MB1.30-1.40 V89 W/89 W22.4
G1Athlon 64 X23600+1900 MHz1 MB1.25V-1.35 V65 W29.2 [14.61w @per core]

AMD Athlon X2 (Socket AM2)

Sortable table
CoreProcessorModelClock speedL2 cacheVoltageTDPClock speed to TDP ratio (MHz/W)
WindsorAthlon 64 X23600+2000 MHz512 KB1.25 V89 W22.5
BrisbaneAthlon 64 X23600+ EE1900 MHz1 MB1.30 V65 W29.2
Windsor F2Athlon 64 X23800+2000 MHz1 MB1.30 - 1.35 V89 W22.5
Windsor F2Athlon 64 X23800+ EE2000 MHz1 MB1.20 - 1.25 V65 W30.8
Windsor F2Athlon 64 X23800+ EE SFF2000 MHz1 MB1.025 - 1.075 V35 W57.1
Windsor F2Athlon 64 X24000+2000 MHz2 MB1.30 - 1.35 V89 W22.5
Windsor F2Athlon 64 X24000+2000 MHz2 MB1.20 - 1.25 V65 W30.8
Brisbane G1Athlon 64 X24000+2100 MHz1 MB1.25 - 1.35 V65 W32.3
Brisbane G2Athlon 64 X24050e2100 MHz1 MB1.15/1.20/1.25 V45 W46.7
Brisbane G1Athlon 64 X24200+ EE2200 MHz1 MB1.25/1.30/1.325 V65 W33.8
WindsorAthlon 64 X24200+ EE2200 MHz1 MB1.20 - 1.25 V65 W33.8
WindsorAthlon 64 X24200+2200 MHz1 MB1.30 - 1.35 V89 W24.7
Windsor F2Athlon 64 X24400+2200 MHz2 MB1.20V/1.25 V65 W33.8
Windsor F2Athlon 64 X24400+2200 MHz2 MB1.30V/1.35 V89 W24.7
Brisbane G1Athlon 64 X24400+2300 MHz1 MB1.25/1.35 V65 W35.4
Brisbane G2Athlon 64 X24400+2300 MHz1 MB1.325/1.35/1.375 V65 W35.4
Brisbane G2Athlon 64 X24450e2300 MHz1 MB1.15/1.20/1.25 V45 W51.1
Brisbane G2Athlon 64 X24600+ EE2400 MHz1 MB1.325/1.35/1.375 V65 W36.9
WindsorAthlon 64 X24600+ EE2400 MHz1 MB1.20 - 1.25 V65 W36.9
WindsorAthlon 64 X24600+2400 MHz1 MB1.30 - 1.35 V89 W27.0
Windsor F2Athlon 64 X24800+2400 MHz2 MB1.20 - 1.25 V65 W36.9
Windsor F2Athlon 64 X24800+2400 MHz2 MB1.30 - 1.35 V89 W27.0
Brisbane G1Athlon 64 X24800+2500 MHz1 MB1.25V - 1.35 V65 W38.5
Brisbane G2Athlon 64 X24800+2500 MHz1 MB1.325 - 1.375V65 W38.5
Brisbane G2Athlon 64 X24850e2500 MHz1 MB1.15/1.20/1.25 V45 W55.6
BrisbaneAthlon 64 X25000+2600 MHz1 MB1.25 - 1.35 V65 W40.0
BrisbaneAthlon 64 X25000+ Black Edition2600 MHz1 MB1.25 - 1.35 V65 W40.0
WindsorAthlon 64 X25000+ EE2600 MHz1 MB1.20 - 1.25 V65 W40.0
WindsorAthlon 64 X25000+2600 MHz1 MB1.30 - 1.35 V89 W29.2
Windsor F3Athlon 64 X25200+ EE2600 MHz2 MB1.20 - 1.25 V65 W40.0
Windsor F2Athlon 64 X25200+2600 MHz2 MB1.30 - 1.35 V89 W29.2
Brisbane G2Athlon 64 X25200+2700 MHz1 MB1.325/1.35/1.375 V65 W41.5
Windsor F3Athlon 64 X25400+2800 MHz1 MB1.30 - 1.35 V89 W31.5
Brisbane G2Athlon 64 X25400+2800 MHz1 MB1.325V - 1.375 V65 W43.1
Windsor F3Athlon 64 X25600+2800 MHz2 MB1.30-1.35 V89W40.6
Brisbane G2Athlon 64 X25600+2900 MHz1 MB1.30-1.35 V65 W44.6
Windsor F3Athlon 64 X26000+3000 MHz2 MB1.35 - 1.40 V125 W24.0
Brisbane G2Athlon 64 X26000+ EE3100 MHz1 MB1.30 - 1.35 V89 W34.8
Windsor F3Athlon 64 X26400+ Black Edition3200 MHz2 MB1.35 - 1.40 V125 W25.6

AMD Athlon X2 . . AMD part numbers . . List of AMD MPUs

Sortable table
CoreProcessorModelClock speedL2 cacheVoltageSocketTDPTDP to clock speed ratio (MHz/W)Release
Brisbane G2Athlon X2BE-24002300 MHz2x512 KB1.25VAM245 W19.56 [9.78w per core]Oct-2007
Brisbane G1Athlon X2BE-23502100 MHz2x512 KB1.25VAM245 W21.42 [10.71w Per core]June-2007
Brisbane G1Athlon X2BE-23001900 MHz2x512 KB1.25VAM245 W23.68 [11.84w per core]June-2007
Athlon 64 FX

Introduced at the same time as the Athlon 64, the Athlon FX was (and still is) one of AMD's most expensive consumer processors, with some models costing over $1000. The two-digit model number on the Athlon 64 FX cannot be used to compare it to an Intel or AMD processor. Models FX-60, FX-62, FX-70, FX-72 and FX-74 are dual-core and the rest are single-core. The Athlon FX competed primarily with Intel's Pentium 4 Extreme Edition and dual-core Pentium Extreme Edition. The dual-core Athlon FX models were eligible for AMD's Quad FX platform, which pair two Athlon FX processors on a single motherboard to yield four total processing cores.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Athlon 64 FX-51SledgeHammer (130 nm)2.2 GHz89 W40.45
Athlon 64 FX-53SledgeHammer (130 nm)2.4 GHz89 W37.08
Athlon 64 FX-53ClawHammer (130 nm)2.4 GHz89 W37.08
Athlon 64 FX-55ClawHammer (130 nm)2.6 GHz104 W40
Athlon 64 FX-55San Diego (90 nm)2.6 GHz104 W40
Athlon 64 FX-57San Diego (90 nm)2.8 GHz104 W37.14
Athlon 64 FX-60Toledo (90 nm)2.6 GHz110 W42.31 [21.15 per core]
Athlon 64 FX-62Windsor (90 nm)2.8 GHz125 W44.64 [22.32 per core]
Athlon 64 FX-70Windsor (90 nm)2.6 GHz125 W48.08 [24.04 per core]
Athlon 64 FX-72Windsor (90 nm)2.8 GHz125 W44.64 [22.32 per core]
Athlon 64 FX-74Windsor (90 nm)3 GHz125 W41.67 [20.83 per core]
Athlon X2 (K10-based)

With the launch of the Phenom line, the Athlon line was repositioned as a mainstream brand, instead of being positioned as a mainstream and high-end brand since the introduction of the original Athlon in 1999. The Athlon X2 differs from the Phenom by lacking an L3 cache.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Athlon X2 6500Kuma (65 nm)2.3 GHz95 W ??.??
Athlon X2 7450Kuma (65 nm)2.4 GHz95 W39.58
Athlon X2 7550Kuma (65 nm)2.5 GHz95 W38
Athlon X2 7750Kuma (65 nm)2.7 GHz95 W35.19
Athlon X2 7750 Black EditionKuma (65 nm)2.7 GHz95 W35.19
Athlon X2 7850Kuma (65 nm)2.8 GHz95 W33.93
Athlon X2 5000+(45 nm)2.2 GHz65 W29.55
Phenom

Released in 2007, the Phenom was AMD's highest-end line of processors until the launch of the Phenom II. They were AMD's first processors to be based on the K10 microarchitecture, so they introduced a plethora of new features, including 2 MB of L3 cache, a faster HyperTransport link, a 128-bit FPU, an integrated memory controller that supports DDR2-1066 (PC2-8500) memory and were manufactured at a 65 nm process for the first time. AMD claims the Phenom X4 to be the first "true" quad-core processor, because it uses a monolithic die design rather than the multi-chip-module design used by the Core 2 Quad and quad-core Core 2 Extreme processors. Suffixes: B=Business class, e=energy efficient, Black Edition=unlocked clock multiplier.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Phenom X3 8250eToliman (65 nm)1.9 GHz65 W34.21 [11.40 per core]
Phenom X3 8400Toliman (65 nm)2.1 GHz95 W45.24
Phenom X3 8450eToliman (65 nm)2.1 GHz65 W30.95 [10.31 per core]
Phenom X3 8450Toliman (65 nm)2.1 GHz95 W45.24
Phenom X3 8550Toliman (65 nm)2.2 GHz95 W43.18
Phenom X3 8600Toliman (65 nm)2.3 GHz95 W41.3
Phenom X3 8650Toliman (65 nm)2.3 GHz95 W41.3
Phenom X3 8750Toliman (65 nm)2.4 GHz95 W39.58
Phenom X3 8750 Black EditionToliman (65 nm)2.4 GHz95 W39.58
Phenom X3 8850Toliman (65 nm)2.5 GHz95 W38
Phenom X3 8600BToliman (65 nm)2.3 GHz95 W41.3
Phenom X3 8750BToliman (65 nm)2.4 GHz95 W39.58
Phenom X4 9100eAgena (65 nm)1.8 GHz65 W36.11
Phenom X4 9150eAgena (65 nm)1.8 GHz65 W36.11
Phenom X4 9350eAgena (65 nm)2 GHz65 W32.5
Phenom X4 9450eAgena (65 nm)2.1 GHz65 W30.95 [7.74 per core]
Phenom X4 9500Agena (65 nm)2.2 GHz95 W43.18
Phenom X4 9550Agena (65 nm)2.2 GHz95 W43.18
Phenom X4 9600Agena (65 nm)2.3 GHz95 W41.3
Phenom X4 9600 Black EditionAgena (65 nm)2.3 GHz95 W41.3
Phenom X4 9650Agena (65 nm)2.3 GHz95 W41.3
Phenom X4 9700Agena (65 nm)2.4 GHz125 W52.08
Phenom X4 9750Agena (65 nm)2.4 GHz125 W or 95 W52.08 (125 W), 39.58 (95 W)
Phenom X4 9850Agena (65 nm)2.5 GHz125 W or 95 W50 [12.5w per core](125 W), 38 [9.4w per core](95 W)
Phenom X4 9850 Black EditionAgena (65 nm)2.5 GHz125 W50 [12.5w per core]
Phenom X4 9950 Black EditionAgena (65 nm)2.6 GHz140 W or 125 W53.85 (140 W), 48.08 (125 W)
Phenom X4 9600BAgena (65 nm)2.3 GHz95 W41.3
Phenom X4 9750BAgena (65 nm)2.4 GHz95 W39.58 [9.89w per core]
Athlon II

The Athlon II adds triple- and quad-core processors to the initial dual-core Athlon X2 line. Suffixes: e=energy efficient.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)TDP to core x clock speed ratio (W/GHz/core)
Athlon II 160uRegor (45 nm)1.8 GHz20 W11.1111.11
Athlon II 170uRegor (45 nm)2.0 GHz20 W10.0010.00
Athlon II X2 250uRegor (45 nm)1.6 GHz25 W15.637.81
Athlon II X2 260uRegor (45 nm)1.8 GHz25 W13.886.94
Athlon II X2 270uRegor (45 nm)2.0 GHz25 W12.506.25
Athlon II X2 210eRegor (45 nm)2.6 GHz45 W17.318.65
Athlon II X2 215Regor (45 nm)2.7 GHz65 W24.0712.04
Athlon II X2 220Regor (45 nm)2.8 GHz65 W23.2111.61
Athlon II X2 235eRegor (45 nm)2.7 GHz45 W16.678.33
Athlon II X2 240Regor (45 nm)2.8 GHz65 W23.2111.61
Athlon II X2 240eRegor (45 nm)2.8 GHz45 W16.078.04
Athlon II X2 245Regor (45 nm)2.9 GHz65 W22.4111.21
Athlon II X2 245eRegor (45 nm)2.9 GHz45 W15.527.76
Athlon II X2 250Regor (45 nm)3.0 GHz65 W21.6710.83
Athlon II X2 250eRegor (45 nm)3.0 GHz45 W15.007.50
Athlon II X2 255Regor (45 nm)3.1 GHz65 W20.9710.48
Athlon II X2 260Regor (45 nm)3.2 GHz65 W20.3110.16
Athlon II X2 265Regor (45 nm)3.3 GHz65 W19.679.85
Athlon II X2 270Regor (45 nm)3.4 GHz65 W19.129.56
Athlon II X3 400eRana (45 nm)2.2 GHz45 W20.466.82
Athlon II X3 405eRana (45 nm)2.3 GHz45 W19.576.52
Athlon II X3 415eRana (45 nm)2.5 GHz45 W18.006.00
Athlon II X3 420eRana (45 nm)2.6 GHz45 W17.315.77
Athlon II X3 425Rana (45 nm)2.7 GHz95 W35.1911.73
Athlon II X3 435Rana (45 nm)2.9 GHz95 W32.7610.92
Athlon II X3 440Rana (45 nm)3.0 GHz95 W31.6610.56
Athlon II X3 445Rana (45 nm)3.1 GHz95 W30.6510.22
Athlon II X3 450Rana (45 nm)3.2 GHz95 W29.699.90
Athlon II X3 455Rana (45 nm)3.3 GHz95 W28.799.60
Athlon II X4 600ePropus (45 nm)2.2 GHz45 W20.465.11
Athlon II X4 605ePropus (45 nm)2.3 GHz45 W19.574.89
Athlon II X4 610ePropus (45 nm)2.4 GHz45 W18.754.69
Athlon II X4 615ePropus (45 nm)2.5 GHz45 W18.004.50
Athlon II X4 620Propus (45 nm)2.6 GHz95 W36.549.13
Athlon II X4 620ePropus (45 nm)2.6 GHz45 W17.34.32
Athlon II X4 630Propus (45 nm)2.8 GHz95 W33.938.48
Athlon II X4 635Propus (45 nm)2.9 GHz95 W32.768.19
Athlon II X4 640Propus (45 nm)3.0 GHz95 W31.677.92
Athlon II X4 645Propus (45 nm)3.1 GHz95 W30.657.66
Athlon II X4 650Propus (45 nm)3.2 GHz95 W29.697.42
Phenom II

The Phenom II is AMD's high-end line of processors. The Phenom II models are a 45 nm die shrink of the original Phenom, so they reach higher clock speeds while keeping the same TDP. Also, a dual-core variant has been added to the Phenom II line. The Phenom II's memory controller supports up to DDR3-1333 (PC3-10600) memory and they have 4 MB or 6 MB of L3 cache, but they lack the SSE4.2 instruction set found in the Core i7. Prefixies/Suffixes: B=Business class, e=energy efficient, Black Edition=unlocked clock multiplier. Socket changed to AM3 with DDR3 RAM Speed; while still compatible with AM2+ motherboard with DDR2 memory.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)TDP to core x clock speed ratio (W/GHz/core)
Phenom II X2 545Callisto (45 nm)3 GHz80 W26.6713.33
Phenom II X2 550Callisto (45 nm)3.1 GHz80 W25.8112.90
Phenom II X2 555Callisto (45 nm)3.2 GHz80 W25.0012.50
Phenom II X2 560Callisto (45 nm)3.3 GHz80 W24.2412.12
Phenom II X2 565Callisto (45 nm)3.4 GHz80 W23.5311.76
Phenom II X2 B53Callisto (45 nm)2.8 GHz80 W28.5714.29
Phenom II X2 B50Callisto (45 nm)3.0 GHz80 W26.6713.33
Phenom II X2 B55Callisto (45 nm)3.2 GHz80 W26.6713.00
Phenom II X2 B57Callisto (45 nm)3.2 GHz80 W25.0012.50
Phenom II X3 700eHeka (45 nm)2.4 GHz65 W27.089.03
Phenom II X3 705eHeka (45 nm)2.5 GHz65 W268.67
Phenom II X3 710Heka (45 nm)2.6 GHz95 W36.5412.18
Phenom II X3 715 Black EditionHeka (45 nm)2.8 GHz95 W33.9311.31
Phenom II X3 720Heka (45 nm)2.8 GHz95 W33.9311.31
Phenom II X3 720 Black EditionHeka (45 nm)2.8 GHz95 W33.9311.31
Phenom II X3 740 Black EditionHeka (45 nm)3.0 GHz95 W31.6710.56
Phenom II X3 B73Heka (45 nm)2.8 GHz95 W33.9311.31
Phenom II X3 B75Heka (45 nm)3.0 GHz95 W31.6710.56
Phenom II X3 B77Heka (45 nm)3.2 GHz95 W29.699.90
Phenom II X4 805Deneb (45 nm)2.5 GHz95 W38.009.50
Phenom II X4 810Deneb (45 nm)2.6 GHz95 W36.549.13
Phenom II X4 820Deneb (45 nm)2.8 GHz95 W33.938.48
Phenom II X4 830(OEM)Deneb (45 nm)2.8 GHz95 W33.938.48
Phenom II X4 900eDeneb (45 nm)2.4 GHz65 W27.086.77
Phenom II X4 905eDeneb (45 nm)2.5 GHz65 W26.006.50
Phenom II X4 910Deneb (45 nm)2.6 GHz95 W36.549.13
Phenom II X4 910eDeneb (45 nm)2.6 GHz65 W25.006.25
Phenom II X4 920Deneb (45 nm)2.8 GHz125 W44.6411.16
Phenom II X4 925Deneb (45 nm)2.8 GHz95 W33.938.48
Phenom II X4 945Deneb (45 nm)3.0 GHz125 W41.6710.42
Phenom II X4 945Deneb (45 nm)3.0 GHz95 W31.677.92
Phenom II X4 955Deneb (45 nm)3.2 GHz125 W39.069.77
Phenom II X4 955Deneb (45 nm)3.2 GHz95 W29.697.42
Phenom II X4 940 Black EditionDeneb (45 nm)3 GHz125 W41.6710.42
Phenom II X4 955 Black EditionDeneb (45 nm)3.2 GHz125 W39.069.77
Phenom II X4 965 Black EditionDeneb (45 nm)3.4 GHz125 W36.769.19
Phenom II X4 965 Black EditionDeneb (45 nm)3.4 GHz140 W41.1810.29
Phenom II X4 970 Black EditionDeneb (45 nm)3.5 GHz125 W35.718.93
Phenom II X4 B93Deneb (45 nm)2.8 GHz95 W33.938.48
Phenom II X4 B95Deneb (45 nm)3.0 GHz95 W31.677.92
Phenom II X4 B97Deneb (45 nm)3.2 GHz95 W29.697.42
Phenom II X6 1035TThuban (45 nm)2.6 GHz95 W36.546.10
Phenom II X6 1045TThuban (45 nm)2.7 GHz95 W35.195.86
Phenom II X6 1055TThuban (45 nm)2.8 GHz125 W44.647.44
Phenom II X6 1055TThuban (45 nm)2.8 GHz95 W33.935.65
Phenom II X6 1065TThuban (45 nm)2.9 GHz95 W32.765.46
Phenom II X6 1075TThuban (45 nm)3.0 GHz125 W/95 W[6]41.666.94
Phenom II X6 1090T Black EditionThuban (45 nm)3.2 GHz125 W39.066.51
Phenom II X6 1100T Black EditionThuban (45 nm)3.3 GHz125 W37.886.31
Duron

The Duron was released in 2000 as a lower-end alternative to the high-performance Athlon. The Duron had only 64 KB of L2 cache, but used the same double-pumped EV6 bus as the Athlon. The Duron however, did not use the Slot A package as the Athlon. AMD later replaced the Duron with the Sempron.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Duron 600Spitfire (180 nm)600 MHz27.4 W45.67
Duron 650Spitfire (180 nm)650 MHz29.4 W45.23
Duron 700Spitfire (180 nm)700 MHz31.4 W44.86
Duron 750Spitfire (180 nm)750 MHz33.4 W44.53
Duron 800Spitfire (180 nm)800 MHz35.4 W44.25
Duron 850Spitfire (180 nm)850 MHz37.4 W44
Duron 900Spitfire (180 nm)900 MHz39.5 W43.89
Duron 950Spitfire (180 nm)950 MHz41.5 W43.68
Duron 900Morgan (180 nm)900 MHz42.7 W47.44
Duron 1000Morgan (180 nm)1 GHz46.1 W46.1
Duron 1100Morgan (180 nm)1.1 GHz50.3 W45.73
Duron 1200Morgan (180 nm)1.2 GHz54.7 W45.58
Duron 1300Morgan (180 nm)1.3 GHz60 W46.15
Duron 1400Morgan (180 nm)1.4 GHz ??.?? W ??.??
Duron 1400Applebred (130 nm)1.4 GHz57 W38.57
Duron 1600Applebred (130 nm)1.6 GHz57 W35.63
Duron 1800Applebred (130 nm)1.8 GHz57 W31.67
Sempron (K10-based)

While these Semprons are based on the K10 microarchitecture like the Athlon, Athlon II, Phenom and Phenom II, they do not have an L3 cache and only have one active core because the Sempron is still a low-end line. The Sempron 140 is actually a dual-core processor with one core disabled. Overclockers have managed to reactivate the second core and overclock the processor.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Sempron 130Sargas (45 nm)2.6 GHz45 W17.31
Sempron 140Sargas (45 nm)2.7 GHz45 W16.67
Sempron 145Sargas (45 nm)2.8 GHz45 W16.07
Sempron 150Sargas (45 nm)2.9 GHz45 W15,52
Mobile Athlon 4

The Mobile Athlon 4 was the first mobile version of the Athlon XP. Mobile Athlon 4 models clocked below 1.3 GHz do not have a model number.

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)
Mobile Athlon 4 850Palomino (180 nm)850 MHz22 W25.88
Mobile Athlon 4 900Palomino (180 nm)900 MHz24 W26.67
Mobile Athlon 4 950Palomino (180 nm)950 MHz24 W25.26
Mobile Athlon 4 1000Palomino (180 nm)1 GHz25 W25
Mobile Athlon 4 1000Palomino (180 nm)1 GHz35 W35
Mobile Athlon 4 1100Palomino (180 nm)1.1 GHz25 W22.73
Mobile Athlon 4 1100Palomino (180 nm)1.1 GHz35 W31.82
Mobile Athlon 4 1200Palomino (180 nm)1.2 GHz25 W20.83
Mobile Athlon 4 1200Palomino (180 nm)1.2 GHz35 W29.17
Mobile Athlon 4 1500+Palomino (180 nm)1.3 GHz35 W26.92
Mobile Athlon 4 1600+Palomino (180 nm)1.4 GHz35 W25
AMD Turion 64
Sortable table
ModelClock speedVoltsTDPClock speed to power ratio (MHz/W)
Turion 64 ML-281600 MHz1.35V35 W45.7
Turion 64 ML-301600 MHz1.35V35 W45.7
Turion 64 ML-321800 MHz1.35V35 W51.4
Turion 64 ML-341800 MHz1.35V35 W51.4
Turion 64 ML-372000 MHz1.35V35 W57.1
Turion 64 ML-402200 MHz1.35V35 W62.9
Turion 64 ML-422400 MHz1.35V35 W68.6
Turion 64 ML-442400 MHz1.35V35 W68.6
Turion 64 MK-362000 MHz1.15V31 W64.5
Turion 64 MK-382200 MHz1.15V31 W71.0
Turion 64 MT-281600 MHz1.20V25 W64.0
Turion 64 MT-301600 MHz1.20V25 W64.0
Turion 64 MT-321800 MHz1.20V25 W72.0
Turion 64 MT-341800 MHz1.20V25 W72.0
Turion 64 MT-372000 MHz1.20V25 W80.0
Turion 64 MT-402200 MHz1.20V25 W88.0
Turion II

Launched in 2009, the Turion II processors are the first mobile processors to use the K10 microarchitecture and are a 45 nm die shrink of the Turion 64 X2 and Turion 64 X2 Ultra. Unlike the desktop Phenom processors based on the K10 microarchitecture, these models don't have an L3 cache, but have 1 MB or 2 MB of L2 cache.

Sortable table
ModelCoreClock speedTDPTDP to clock speed ratio (W/GHz)
Turion II M500Caspian (45 nm)2.2 GHz35 W15.91
Turion II M520Caspian (45 nm)2.3 GHz35 W15.22
Turion II M540Caspian (45 nm)2.4 GHz35 W14.58
Turion II Ultra M600Caspian (45 nm)2.4 GHz35 W14.58
Turion II Ultra M620Caspian (45 nm)2.5 GHz35 W14
Turion II Ultra M640Caspian (45 nm)2.6 GHz35 W13.46
Turion II Ultra M660Caspian (45 nm)2.7 GHz35 W12.96
Sempron

The Sempron replaced the aging Duron processor line.

Sortable table
ModelCoreClock speedTDPTDP to clock speed ratio (W/GHz)
Sempron 2200+Thoroughbred (130 nm)1.5 GHz62 W41.33
Sempron 2300+Thoroughbred (130 nm)1.58 GHz62 W39.24
Sempron 2400+Thoroughbred (130 nm)1.66 GHz62 W37.35
Sempron 2500+Thoroughbred (130 nm)1.75 GHz62 W35.43
Sempron 2600+Thoroughbred (130 nm)1.83 GHz62 W33.88
Sempron 2800+Thoroughbred (130 nm)2 GHz62 W31
Sempron 2200+Thortan (130 nm)1.5 GHz62 W41.33
Sempron 2400+Thortan (130 nm)1.66 GHz ??.?? W ??.??
Sempron 2600+Thortan (130 nm)1.83 GHz ??.?? W ??.??
Sempron 2800+Thortan (130 nm)2 GHz62 W31
Sempron 3000+Barton (130 nm)2 GHz62 W31
Sempron 3300+Barton (130 nm)2.2 GHz64 W29.01
AMD Sempron 64
Sortable table
ModelClock speedThermal design powerClock speed to TDP (MHz/W)
2500+ (Socket 754)1400 MHz62 W22.6
AMD Mobile Sempron
Sortable table
ModelCoreClock speedThermal design powerClock speed to TDP (W/GHz)
200UHuron(65 nm)1.0 GHz8 W8
200UHuron(65 nm)1.5 GHz15 W10
AMD V series
Sortable table
ModelCoreClock speedThermal design power
V 105Geneva (45 nm)1.2 GHz9 W
V 120Champlain (45 nm)2.2 GHz25 W
V 140Champlain (45 nm)2.3 GHz25 W
AMD Athlon II
Sortable table
ModelCoreClock speedThermal design power
Athlon II K125Geneva (45 nm)1.7 GHz12 W
Athlon II K325Geneva (45 nm)1.3 GHz12 W
Athlon II P320Champlain (45 nm)2.1 GHz25 W
Athlon II P340Champlain (45 nm)2.2 GHz25 W
Athlon II N330Champlain (45 nm)2.3 GHz35 W
Athlon II N350Champlain (45 nm)2.4 GHz35 W
AMD Turion II
Sortable table
ModelCoreClock speedThermal design power
Turion II K625Geneva (45 nm)1.5 GHz15 W
Turion II K645Geneva (45 nm)1.6 GHz15 W
Turion II K665Geneva (45 nm)1.7 GHz15 W
Turion II K685Geneva (45 nm)1.8 GHz15 W
Turion II P520Champlain (45 nm)2.3 GHz25 W
Turion II P540Champlain (45 nm)2.4 GHz25 W
Turion II P560Champlain (45 nm)2.5 GHz25 W
Turion II N530Champlain (45 nm)2.5 GHz35 W
Turion II N550Champlain (45 nm)2.6 GHz35 W
AMD Phenom II
Sortable table
ModelCoreClock speedThermal design power
Phenom II P650Champlain (45 nm)2.6 GHz25 W
Phenom II N620Champlain (45 nm)2.8 GHz35 W
Phenom II N640Champlain (45 nm)2.9 GHz35 W
Phenom II N660Champlain (45 nm)3.0 GHz35 W
Phenom II X620 BEChamplain (45 nm)3.1 GHz45 W
Phenom II P820Champlain (45 nm)1.8 GHz25 W
Phenom II P840Champlain (45 nm)1.9 GHz25 W
Phenom II N830Champlain (45 nm)2.1 GHz35 W
Phenom II N850Champlain (45 nm)2.2 GHz35 W
Phenom II P920Champlain (45 nm)1.6 GHz25 W
Phenom II P940Champlain (45 nm)1.7 GHz25 W
Phenom II P960Champlain (45 nm)1.8 GHz25 W
Phenom II N930Champlain (45 nm)2.0 GHz35 W
Phenom II N950Champlain (45 nm)2.1 GHz35 W
Phenom II N970Champlain (45 nm)2.2 GHz35 W
Phenom II X920 BEChamplain (45 nm)2.3 GHz45 W
Phenom II X940Champlain (45 nm)2.4 GHz45 W

AMD FX Desktop

Sortable table
ModelCoreClock speedMax boost clockThermal design power
FX-4100Bulldozer (32 nm)3.6 GHz3.8 GHz95 W
FX-4130Bulldozer (32 nm)3.8 GHz3.9 GHz125 W
FX-4170Bulldozer (32 nm)4.2 GHz4.3 GHz125 W
FX-4300Bulldozer (32 nm)3.8 GHz4.0 GHz95 W
FX-4320Bulldozer (32 nm)4.0 GHz4.1 GHz95 W
FX-4350Bulldozer (32 nm)4.2 GHz4.3 GHz125 W
FX-6100Bulldozer (32 nm)3.3 GHz3.9 GHz95 W
FX-6200Bulldozer (32 nm)3.8 GHz4.1 GHz125 W
FX-6300Bulldozer (32 nm)3.5 GHz3.8 GHz95 W
FX-6350Bulldozer (32 nm)3.9 GHz4.2 GHz125 W
FX-8120Bulldozer (32 nm)3.1 GHz4.0 GHz125 W
FX-8150Bulldozer (32 nm)3.6 GHz4.2 GHz125 W
FX-8300Bulldozer (32 nm)3.3 GHz4.2 GHz95 W
FX-8310Bulldozer (32 nm)3.4 GHz4.3 GHz95 W
FX-8320Bulldozer (32 nm)3.5 GHz4.0 GHz125 W
FX-8320EBulldozer (32 nm)3.2 GHz4.0 GHz95 W
FX-8350Bulldozer (32 nm)4.0 GHz4.2 GHz125 W
FX-8370Bulldozer (32 nm)4.0 GHz4.3 GHz125 W
FX-8370EBulldozer (32 nm)3.3 GHz4.3 GHz95 W
FX-9370Bulldozer (32 nm)4.4 GHz4.7 GHz220 W
FX-9590Bulldozer (32 nm)4.7 GHz5.0 GHz220 W

AMD Ryzen Desktop

Sortable table
ModelCoreClock speedThermal design power
Ryzen 3 1200Zen (14 nm)3.1 GHz65 W
Ryzen 3 1300XZen (14 nm)3.5 GHz65 W
Ryzen 3 3300XZen (7 nm)3.8 GHz65 W
Ryzen 5 1400Zen (14 nm)3.2 GHz65 W
Ryzen 5 1500XZen (14 nm)3.5 GHz65 W
Ryzen 5 1600Zen (14 nm)3.2 GHz65 W
Ryzen 5 1600XZen (14 nm)3.6 GHz95 W
Ryzen 7 1700Zen (14 nm)3.0 GHz65 W
Ryzen 7 1700XZen (14 nm)3.4 GHz95 W
Ryzen 7 1800XZen (14 nm)3.6 GHz95 W
Ryzen 3 2300XZen+ (12 nm)3.5 GHz65 W
Ryzen 5 2500XZen+ (12 nm)3.6 GHz65 W
Ryzen 5 2600EZen+ (12 nm)3.1 GHz45 W
Ryzen 5 2600Zen+ (12 nm)3.4 GHz65 W
Ryzen 5 2600XZen+ (12 nm)3.6 GHz95 W
Ryzen 7 2700EZen+ (12 nm)2.8 GHz45 W
Ryzen 7 2700Zen+ (12 nm)3.2 GHz65 W
Ryzen 7 PRO 2700XZen+ (12 nm)3.6 GHz105 W
Ryzen 7 2700XZen+ (12 nm)3.7 GHz105 W
Ryzen 3 3100Zen 2 (7 nm)3.6-3.9 GHz65 W
Ryzen 3 3300XZen 2 (7 nm)3.8-4.3 GHz65 W
Ryzen 5 3500XZen 2 (7 nm)3.6-4.1 GHz65 W
Ryzen 5 3600Zen 2 (7 nm)3.6-4.2 GHz65 W
Ryzen 7 3700XZen 2 (7 nm)3.6-4.4 GHz65 W
Ryzen 7 3800XZen 2 (7 nm)3.9-4.5 GHz105 W
Ryzen 9 3900XZen 2 (7 nm)3.8-4.6 GHz105 W
Ryzen 9 3950XZen 2 (7 nm)3.5-4.7 GHz105 W
Ryzen 5 5600XZen 3 (7 nm)3.7-4.6 GHz65 W
Ryzen 7 5800Zen 3 (7 nm)3.4-4.6 GHz65 W
Ryzen 7 5800XZen 3 (7 nm)3.8-4.7 GHz105 W
Ryzen 9 5900Zen 3 (7 nm)3.0-4.7 GHz65 W
Ryzen 9 5900XZen 3 (7 nm)3.7-4.8 GHz105 W
Ryzen 9 5950XZen 3 (7 nm)3.4-4.9 GHz105 W

AMD Ryzen HEDT

Sortable table
ModelCoreClock speedThermal design power
Ryzen Threadripper 1900XZen (14 nm)3.8 GHz180 W
Ryzen Threadripper 1920XZen (14 nm)3.5 GHz180 W
Ryzen Threadripper 1950XZen (14 nm)3.4 GHz180 W
Ryzen Threadripper 2920XZen+ (12 nm)3.5 GHz180 W
Ryzen Threadripper 2950XZen+ (12 nm)3.5 GHz180 W
Ryzen Threadripper 2970WXZen+ (12 nm)3.0 GHz250 W
Ryzen Threadripper 2990WXZen+ (12 nm)3.0 GHz250 W
Ryzen Threadripper Pro 3945WXZen 2 (7 nm)4.0 GHz280 W
Ryzen Threadripper Pro 3955WXZen 2 (7 nm)3.9 GHz280 W
Ryzen Threadripper 3960XZen 2 (7 nm)3.8 GHz280 W
Ryzen Threadripper 3970XZen 2 (7 nm)3.7 GHz280 W
Ryzen Threadripper Pro 3975WXZen 2 (7 nm)3.5 GHz280 W
Ryzen Threadripper 3990XZen 2 (7 nm)2.9 GHz280 W
Ryzen Threadripper Pro 3995WXZen 2 (7 nm)2.7 GHz280 W

AMD Ryzen Desktop APUs

Sortable table
ModelCoreClock speedThermal design power
Athlon 200GEZen (14 nm)3.2 GHz35 W
Athlon 220GEZen (14 nm)3.4 GHz35 W
Athlon 240GEZen (14 nm)3.5 GHz35 W
Ryzen 3 2200GEZen (14 nm)3.2 GHz35 W
Ryzen 3 PRO 2200GEZen (14 nm)3.2 GHz35 W
Ryzen 3 2200GZen (14 nm)3.5 GHz45-65 W
Ryzen 5 PRO 2400GEZen (14 nm)3.2 GHz35 W
Ryzen 5 2400GZen (14 nm)3.6 GHz45-65 W
Ryzen 3 3200GZen+ (12 nm)3.6-4,0 GHz45-65 W
Ryzen 5 3400GZen+ (12 nm)3.7-4.2 GHz45-65 W
Ryzen 3 PRO 4350GEZen 2 (7 nm)3.5-4.0 GHz35 W
Ryzen 3 4300GZen 2 (7 nm)3.8-4.0 GHz65 W
Ryzen 5 PRO 4650GEZen 2 (7 nm)3.3-4.2 GHz35 W
Ryzen 5 4600GZen 2 (7 nm)3.7-4.2 GHz65 W
Ryzen 7 PRO 4750GEZen 2 (7 nm)3.1-4.3 GHz35 W
Ryzen 7 4700GZen 2 (7 nm)3.6-4.4 GHz65 W

AMD Ryzen Mobile APUs

Sortable table
ModelCoreClock speedThermal design power
Athlon PRO 200UZen (14 nm)2.3 GHz12-25 W
Ryzen 3 2200UZen (14 nm)2.5 GHz12-25 W
Ryzen 3 2300UZen (14 nm)2.0 GHz12-25 W
Ryzen 3 PRO 2300UZen (14 nm)2.5 GHz12-25 W
Ryzen 5 2500UZen (14 nm)2.0 GHz12-25 W
Ryzen 5 PRO 2500UZen (14 nm)2.0 GHz12-25 W
Ryzen 5 2600HZen (14 nm)3.2 GHz35-54 W
Ryzen 7 2700UZen (14 nm)2.2 GHz12-25 W
Ryzen 7 PRO 2700UZen (14 nm)2.2 GHz12-25 W
Ryzen 7 2800HZen (14 nm)3.3 GHz35-54 W
Athlon 300UZen+ (12 nm)2.4 GHz15 W
Ryzen 3 3200UZen+ (12 nm)2.6 GHz15 W
Ryzen 3 3300UZen+ (12 nm)2.1 GHz15 W
Ryzen 5 3500UZen+ (12 nm)2.1 GHz15 W
Ryzen 5 3550HZen+ (12 nm)2.1 GHz35 W
Ryzen 7 3700UZen+ (12 nm)2.3 GHz15 W
Ryzen 7 3750HZen+ (12 nm)2.3 GHz35 W
Ryzen 3 4300UZen 2 (7 nm)2.7 GHz10-25 W
Ryzen 5 4600UZen 2 (7 nm)2.1 GHz10-25 W
Ryzen 5 4600HSZen 2 (7 nm)3.0 GHz35 W
Ryzen 5 4600HZen 2 (7 nm)3.0 GHz35-54 W
Ryzen 7 4700UZen 2 (7 nm)2.0 GHz10-25 W
Ryzen 7 4800UZen 2 (7 nm)1.8 GHz10-25 W
Ryzen 7 4800HSZen 2 (7 nm)2.9 GHz35 W
Ryzen 7 4800HZen 2 (7 nm)2.9 GHz35-54 W
Ryzen 9 4900HSZen 2 (7 nm)3.0 GHz35 W
Ryzen 9 4900HZen 2 (7 nm)3.3 GHz35-54 W
Ryzen 3 5300UZen 2 (7 nm)2.6 GHz10-25 W
Ryzen 3 5400UZen 3 (7 nm)2.6 GHz10-25 W
Ryzen 5 5500UZen 2 (7 nm)2.1 GHz10-25 W
Ryzen 5 5600UZen 3 (7 nm)2.3 GHz10-25 W
Ryzen 5 5600HZen 3 (7 nm)3.3 GHz35-54 W
Ryzen 7 5700UZen 2 (7 nm)1.8 GHz10-25 W
Ryzen 7 5800UZen 3 (7 nm)1.9 GHz10-25 W
Ryzen 7 5800HZen 3 (7 nm)3.2 GHz35-54 W
Ryzen 9 5900HXZen 3 (7 nm)3.3 GHz35-54 W

AMD EPYC

Sortable table
ModelCoreClock speedThermal design power
EPYC 7351PNaples (14 nm)2.4 GHz155-170 W
EPYC 7401PNaples (14 nm)2.0 GHz155-170 W
EPYC 7551PNaples (14 nm)2.0 GHz180 W
EPYC 7251Naples (14 nm)2.1 GHz120 W
EPYC 7742Rome (7 nm)2.25 GHz225 W
EPYC 7702Rome (7 nm)2 GHz200 W
EPYC 7702PRome (7 nm)2 GHz200 W
EPYC 7642Rome (7 nm)2.3 GHz225 W
EPYC 7552Rome (7 nm)2.2 GHz200 W
EPYC 7542Rome (7 nm)2.9 GHz225 W
EPYC 7502Rome (7 nm)2.5 GHz180 W
EPYC 7502PRome (7 nm)2.5 GHz180 W
EPYC 7452Rome (7 nm)2.5 GHz155 W
EPYC 7262Rome (7 nm)3.2 GHz155 W
EPYC 7252Rome (7 nm)3.1 GHz120 W
EPYC 7232PRome (7 nm)3.1 GHz120 W

Sparc V9

Sortable table
ModelCoreClock speedThermal design powerTDP to clock speed ratio (W/GHz)TDP to core x clock speed ratio (W/GHz/core)TDP to Thread x clock speed ratio (W/GHz/physical thread)
UltraSPARC IIeHummingbird500 MHz13 W---
UltraSPARC IIiPhantom650 MHz17.6 W---
UltraSPARC IIICheetah600 MHz53 W---
UltraSPARC III CuCheetah+1.015 GHz80 W---
UltraSPARC IIIiJalapeño1.593 GHz52 W---
UltraSPARC IVJaguar1.35 GHz108 W---
UltraSPARC IV+Panther1.8 GHz90 W---
UltraSPARC T1Niagara1.4 GHz72 W51.42 W12.85 W1.60 W
UltraSPARC T2Niagara 21.6 GHz95 W59.37 W7.42 W0.92 W
SPARC T3Rainbow Falls1.65 GHz139 W84.24 W10.53 W0.65 W
SPARC T4Yosemite Falls3.0 GHz240 W80 W10 W1.25 W

Via C3

Sortable table
ModelClock speedPower
Nehemiah1000 MHz11.25 W

VIA Eden-N

Sortable table
ModelClock speedPower
Eden-N533 MHz4 W
Eden-N800 MHz6 W
Eden-N1000 MHz7 W

Via C7

Sortable table
ModelClock speedPower
C7 Esther1500 MHz12 W
C7 Esther2000 MHz20 W
C7-D Esther1800 MHz20 W

VIA Eden ULV

Sortable table
ModelClock speedPower
Eden ULV500 MHz1 W
Eden ULV1000 MHz3.5 W
Eden ULV1500 MHz7.5 W

VIA Luke

Sortable table
ModelClock speedPower
Luke533 MHz6 W
Luke800 MHz8 W
Luke1000 MHz10 W

Lists of Intel processors

Lists of AMD processors

References

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