List of CPU power dissipation

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Central Processing Unit power dissipation or CPU power dissipation is the process in which Central processing units (or CPUs) consume electrical energy, and dissipate this energy by both the action of the switching devices contained in the CPU (such as transistors or vacuum tubes) and via the energy lost in the form of heat due to the resistivity of the electrical circuits. Designing CPUs that perform these tasks efficiently without overheating is a major consideration in nearly all CPU manufacturers to date.

Some implementations of CPUs use very little power, for example, the CPUs in mobile phones often use just a few hundred milliwatts of electricity. In comparison, CPUs in general purpose microcomputers dissipate significantly more power because of their higher complexity and speed. These microelectronic CPUs may consume power in the order of tens of watts. Historically, early CPUs implemented with vacuum tubes consumed power in the order of many kilowatts.

CPUs for desktop computers typically use more power than any other component inside the computer, except perhaps recent technology video cards which contain special purpose CPUs. The steady trend in CPU power supplies over the past decade has been towards using lower voltages and having considerably higher currents.^{[citation needed]} While energy-saving features have been instituted in PCs for when they are idle, the overall consumption of today's high-drain CPUs is considerable. This is in strong contrast with the much lower energy consumption of CPUs designed for low-power environments. One such CPU, the Intel XScale, can run at 600 MHz with only half a watt of power, whereas x86 PC processors from Intel in the same performance bracket consume roughly eighty times as much energy.

Processor manufacturers usually release two power consumption numbers for a CPU, the typical thermal power, which is measured under normal load, and the maximum thermal power, which is measured under a worst-case set of instructions. For example, the Pentium 4 2.8 GHz has 68.4 W typical thermal power and 85 W maximum thermal power. When the CPU is idle, it will draw far less than the typical thermal power. Datasheets normally contain the Thermal Design Power (TDP). Some CPUs (i.E. newer Intel-CPUs) have the typical power consumption defined as TDP and some (like CPUs from AMD) have the maximum power consumption defined as TDP.

There are some engineering reasons for this pattern.

For a given device, operating at a higher clock frequency always requires more power. Reducing the clock frequency of the microprocessor through power management when possible reduces power.
New features generally require more transistors, each of which uses power. Turning unused areas off saves power (for instance, see Clock gating).
As a processor model's design matures, smaller transistors, lower-voltage structures, and design experience may reduce power consumption.

[edit] 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:

EDVAC, 50 kW average
ORDVAC, 35 kW average
UNIVAC I, 124.5 kW average

[edit] Microprocessors

If not stated otherwise, the watts dissipated refers to the peak-value.

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

[edit] IBM/Motorola/Freescale processors

Main article: List_of_Freescale_products#Microprocessors

[edit] PowerPC

Model	Scale	Clock Speed	Vcore	Power	Speed:Power ratio [MHz/W]^{[dubious – discuss]}
Dual-core PowerPC MPC8641D	90 nm	2 GHz	1.2 V	15-25 W	100
PowerPC 750FX	0.13 µm	900 MHz	1.2 V	3.6 W	250
PowerPC 750CXe	0.18 µm	600 MHz	1.8 V	6 W	100
PowerPC MGT560 (Performance=56 MIPS)	0.20 µm	56 MHz	2.7 V	0.5 W	112
PowerPC 440GX		800 MHz		4.5 W	178
PowerPC 970		1.8 GHz	1.3 V	42 W	43
PowerPC 7400e		1.0 GHz	1.6 V	30 W	33

[edit] Marvell XScale

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

80321 600 MHz, 0.5 watt
PXA250
PXA255
PXA270
PXA300
PXA310
PXA320

[edit] Intel processors

Main article: List of Intel microprocessors

[edit] Desktop processors

[edit] Pentium

Model	Clock Speed	Power	Power to Speed Ratio (W/MHz)
Pentium	75 MHz	8.0 W	9.4
Pentium	90 MHz	9.0 W	10
Pentium	100 MHz	10.1 W	9.9
Pentium	120 MHz	11.9 W	10.1
Pentium	133 MHz	11.2 W	11.5
Pentium	150 MHz	11.6 W	12.9
Pentium	166 MHz	14.5 W	11.4
Pentium	200 MHz	15.5 W	12.9

[edit] Pentium MMX

Model	Clock Speed	Power	Power to Speed Ratio (W/MHz)
Pentium MMX	166 MHz	13.1 W	12.7
Pentium MMX	200 MHz	15.7 W	12.7
Pentium MMX	233 MHz	17.0 W	13.7

[edit] Pentium II

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/MHz)
Pentium II 233	Klamath (350 nm)	233 MHz	34.8 W	149.36
Pentium II 266	Klamath (350 nm)	266 MHz	38.2 W	143.61
Pentium II 300	Klamath (350 nm)	300 MHz	43 W	143.33
Pentium II 266	Deschutes (250 nm)	266 MHz	16.8 W	63.16
Pentium II 300	Deschutes (250 nm)	300 MHz	18.6 W	62
Pentium II 333	Deschutes (250 nm)	333 MHz	20.6 W	61.86
Pentium II Overdrive	Deschutes (250 nm)	300 or 333 MHz
Pentium II 350	Deschutes (250 nm)	350 MHz	21.5 W	61.43
Pentium II 400	Deschutes (250 nm)	400 MHz	24.3 W	60.75
Pentium II 450	Deschutes (250 nm)	450 MHz	27.1 W	60.22

[edit] Pentium III

Model	Core	Clock Speed	Thermal Design Power	Power to Speed Ratio (W/MHz or GHz)
Pentium III 450	Katmai (250 nm)	450 MHz	25.3 W	56.22
Pentium III 500	Katmai (250 nm)	500 MHz	28 W	56
Pentium III 533B	Katmai (250 nm)	533 MHz	29.7 W	55.72
Pentium III 550	Katmai (250 nm)	550 MHz	30.8 W	56
Pentium III 600	Katmai (250 nm)	600 MHz	34.5 W	57.5
Pentium III 600B	Katmai (250 nm)	600 MHz	34.5 W	57.5

[edit] Pentium 4

Model	Clock Speed	Power	Power to Speed Ratio (W/GHz)
Pentium 4-C	2.4 GHz	67.6 W	35.5
Pentium 4 HT	3.06 GHz	81.8 W	37.4
520J	2.8 GHz	84 W	33.0
560J	3.6 GHz	115 W	31.3

[edit] Pentium D

Pentium D processors have two dies on a single package.

Model	Core	Clock Speed	Thermal Design Power	Power to Clock Speed Ratio (W/GHz)
Pentium D 805	Smithfield (90 nm)	2.66 GHz	95 W	35.71
Pentium D 820	Smithfield (90 nm)	2.8 GHz	95 W	33.93
Pentium D 830	Smithfield (90 nm)	3.0 GHz	130 W	43.33
Pentium D 840	Smithfield (90 nm)	3.2 GHz	130 W	40.63
Pentium D 915	Presler (65 nm)	2.8 GHz	95 W	33.93
Pentium D 920	Presler (65 nm)	2.8 GHz	95 W	33.93
Pentium D 925	Presler (65 nm)	3.0 GHz	95 W	31.67
Pentium D 930	Presler (65 nm)	3.0 GHz	95 W	31.67
Pentium D 935	Presler (65 nm)	3.2 GHz	95 W	29.69
Pentium D 940	Presler (65 nm)	3.2 GHz	130 W or 95 W	40.63 (130 W), 29.69 (95 W)
Pentium D 945	Presler (65 nm)	3.4 GHz	95 W	27.94
Pentium D 950	Presler (65 nm)	3.4 GHz	130 W or 95 W	38.24 (130 W), 27.94 (95 W)
Pentium D 960	Presler (65 nm)	3.6 GHz	130 W or 95 W	36.11 (130 W), 26.39 (95 W)
Pentium Extreme Edition 840	Smithfield (90 nm)	3.2 GHz	130 W	40.63
Pentium Extreme Edition 955	Presler (65 nm)	3.46 GHz	130 W	37.57
Pentium Extreme Edition 965	Presler (65 nm)	3.73 GHz	130 W	34.85

[edit] Intel Core 2

Main article: List of Intel Core 2 microprocessors

Intel Core 2 Duo part numbers / Intel Core 2 Extreme part numbers

Core 2 Duo processors have 2 cores on a single die, with a single die per package. Core 2 Quad processors have two such die per package.

Model	Core	Highest Clock Speed (MHz)	TDP (W)	Speed:Power ratio (Cores * [MHz/W])
Core 2 Duo	Conroe (B2)	2667	65	82
Core 2 Extreme	Conroe (B2)	2933	75	78
Core 2 Duo	Conroe (G0)	3000	65	92
Core 2 Duo	Allendale (L2)	2133	65	66
Core 2 Duo	Allendale (M0)	2400	65	74
Core 2 Duo	Wolfdale-3M (M0)	2667	65	82
Core 2 Duo	Wolfdale-3M (R0)	2800	65	86
Core 2 Duo	Wolfdale-6M (C0)	3000	65	92
Core 2 Duo	Wolfdale-6M (E0)	3333	65	102
Core 2 Quad	Conroe (B3)	2400	105	92
Core 2 Extreme (Quad)	Conroe (B3)	2933	130	92
Core 2 Quad	Conroe (G0)	2667	95	112
Core 2 Extreme (Quad)	Conroe (G0)	3000	130	92
Core 2 Quad	Wolfdale-2M	2333	95	100
Core 2 Quad	Wolfdale-3M (M0, M1)	2500	95	104
Core 2 Quad	Wolfdale-3M (R0)	2667	95	112
Core 2 Quad	Wolfdale-6M (C0)	2667	95	112
Core 2 Extreme (Quad)	Wolfdale-6M (C0)	3200	150	84
Core 2 Quad	Wolfdale-6M (C1)	2833	95	120
Core 2 Extreme (Quad)	Wolfdale-6M (C0, C1)	3000	130	92
Core 2 Extreme (Quad)	Wolfdale-6M (C0, C1)	3200	136	96
Core 2 Quad	Wolfdale-6M (E0)	3000	95	128

[edit] Intel Core i7

Model	Clock Speed	Thermal Design Power	Power to Speed Ratio (W/GHz)
Core i7-920	2.66 GHz	130 W	82
Core i7-940	2.93 GHz	130 W	90
Core i7-950	3.06 GHz	130 W	94
Core i7-965 Extreme Edition	3.20 GHz	130 W	98.4
Core i7-975 Extreme Edition	3.33 GHz	130 W	102.4

[edit] Intel Atom

The Intel Atom 230 is a single-core processor while the Atom 330 is a dual-core processor. These processors are used for ultrasmall form factor desktops called "netttops". These processors, when paired with the NVIDIA GeForce 9400 M graphics processor and DDR2-800 or DDR3-1066 memory form the NVIDIA ION platform.

Model	Core	Clock Speed	Thermal Design Power	TDP to Speed Ratio (W/GHz)
Atom 230	Diamondville (45 nm)	1.6 GHz	4 W	2.5
Atom 330	Diamondville (45 nm)	1.6 GHz	8 W	5

[edit] Intel Celeron (P6 Based)

Celeron is Intel's series of budget processors.

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/MHz or GHz)
Celeron 266	Covington (250 nm)	266 MHz	16.6 W	64.41
Celeron 300	Covington (250 nm)	300 MHz	18.4 W	61.33
Celeron 300A	Mendocino (250 nm)	300 MHz	19 W	63.33
Celeron 300A	Mendocino (250 nm)	300 MHz	20.9 W	63.33
Celeron 333	Mendocino (250 nm)	333 MHz	20.9 W	62.76
Celeron 333	Mendocino (250 nm)	333 MHz	20.9 W	62.76
Celeron 366	Mendocino (250 nm)	366 MHz	21.7 W	59.29
Celeron 366	Mendocino (250 nm)	366 MHz	21.7 W	59.29
Celeron 400	Mendocino (250 nm)	400 MHz	23.7 W	59.25
Celeron 400	Mendocino (250 nm)	400 MHz	23.7 W	59.25
Celeron 433	Mendocino (250 nm)	433 MHz	24.6 W	56.81
Celeron 433	Mendocino (250 nm)	433 MHz	24.1 W	55.66
Celeron 466	Mendocino (250 nm)	466 MHz	25.7 W	55.15
Celeron 500	Mendocino (250 nm)	500 MHz	27.2 W	54.4
Celeron 533	Mendocino (250 nm)	533 MHz	??.? W	??.??
Celeron 533A	Coppermine-128 (180 nm)	533 MHz	11.2 W	21.01
Celeron 566	Coppermine-128 (180 nm)	566 MHz	11.9 W	21.02
Celeron 600	Coppermine-128 (180 nm)	600 MHz	12.6 W	21
Celeron 633	Coppermine-128 (180 nm)	633 MHz	20.2 W	31.91
Celeron 667	Coppermine-128 (180 nm)	667 MHz	21.1 W	31.63
Celeron 700	Coppermine-128 (180 nm)	700 MHz	21.9 W	31.29
Celeron 733	Coppermine-128 (180 nm)	733 MHz	22.8 W	31,11
Celeron 766	Coppermine-128 (180 nm)	766 MHz	23.6 W	30.81
Celeron 800	Coppermine-128 (180 nm)	800 MHz	24.5 W	30.63
Celeron 850	Coppermine-128 (180 nm)	850 MHz	25.7 W	30.24
Celeron 900	Coppermine-128 (180 nm)	900 MHz	26.7 W	29.67
Celeron 950	Coppermine-128 (180 nm)	950 MHz	28 W	29.47
Celeron 1000	Coppermine-128 (180 nm)	1 GHz	29 W	29
Celeron 1100	Coppermine-128 (180 nm)	1.1 GHz	33 W	30
Celeron 1000A	Tualatin-256 (130 nm)	1 GHz	29.5 W	29.5
Celeron 1100A	Tualatin-256 (130 nm)	1.1 GHz	29.5 W	26.82
Celeron 1200	Tualatin-256 (130 nm)	1.2 GHz	29.5 W	24.58
Celeron 1300	Tualatin-256 (130 nm)	1.3 GHz	32 W	24.62
Celeron 1400	Tualatin-256 (130 nm)	1.4 GHz	33.2 W	23.71

[edit] Intel Celeron (NetBurst based)

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/GHz)
Celeron 1.7	Willamete-128 (180 nm)	1.7 GHz	63.5 W	37.35
Celeron 1.8	Willamete-128 (180 nm)	1.8 GHz	66.1 W	36.72
Celeron 1.8A	Northwood-128 (130 nm)	1.8 GHz	59.1 W	32.83
Celeron 2.0	Northwood-128 (130 nm)	2 GHz	52.8 W	26.4
Celeron 2.1	Northwood-128 (130 nm)	2.1 GHz	55.5 W	26.43
Celeron 2.2	Northwood-128 (130 nm)	2.2 GHz	57.1 W	25.95
Celeron 2.3	Northwood-128 (130 nm)	2.3 GHz	58.3 W	25.35
Celeron 2.4	Northwood-128 (130 nm)	2.4 GHz	59.8 W	24.92
Celeron 2.5	Northwood-128 (130 nm)	2.5 GHz	61 W	24.4
Celeron 2.6	Northwood-128 (130 nm)	2.6 GHz	62.6 W	24.1
Celeron 2.7	Northwood-128 (130 nm)	2.7 GHz	66.8 W	24.74
Celeron 2.8	Northwood-128 (130 nm)	2.8 GHz	68.4 W	24.43

[edit] Intel Celeron Dual-Core

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

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/GHz)
Celeron Dual-Core E1200	Allendale (65 nm)	1.6 GHz	65 W	40.63
Celeron Dual-Core E1400	Allendale (65 nm)	2 GHz	65 W	32.5
Celeron Dual-Core E1500	Allendale (65 nm)	2.2 GHz	65 W	29.55
Celeron Dual-Core E1600	Allendale (65 nm)	2.4 GHz	65 W	27.08

[edit] Laptop processors

[edit] Intel Mobile Pentium II

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/MHz)
Mobile Pentium II 233	Tonga (250 nm)	223 MHz	9 W	38.62
Mobile Pentium II 266	Tonga (250 nm)	266 MHz	10.3 W	38.72
Mobile Pentium II 300	Tonga (250 nm)	300 MHz	11.6 W	38.67
Mobile Pentium II 266PE	Dixon (250 nm)	266 MHz	10.6 W	39.85
Mobile Pentium II 300PE	Dixon (250 nm)	300 MHz	12 W	40
Mobile Pentium II 333	Dixon (250 nm)	333 MHz	12.7 W	38.14
Mobile Pentium II 366	Dixon (250 nm)	366 MHz	14.1 W	38.53

[edit] Intel Mobile Pentium 4

Mobile Pentium 4 also had HyperThreading (HT) variants just like it's desktop cousin. Although there was no Extreme Edition for mobile processors until the introduction of Core 2.

Model	Core	Clock Speed	Thermal Design Power	TDP to Speed Ratio (W/GHz)
Pentium 4-M 1.4	Northwood (130 nm)	1.4 GHz	25.8 W	18.43
Pentium 4-M 1.5	Northwood (130 nm)	1.5 GHz	26.9 W	17.93
Pentium 4-M 1.6	Northwood (130 nm)	1.6 GHz	30 W	18.75
Pentium 4-M 1.7	Northwood (130 nm)	1.7 GHz	30 W	17.65
Pentium 4-M 1.8	Northwood (130 nm)	1.8 GHz	30 W	16.67
Pentium 4-M 1.9	Northwood (130 nm)	1.9 GHz	32 W	16.84
Pentium 4-M 2.0	Northwood (130 nm)	2 GHz	32 W	16
Pentium 4-M 2.2	Northwood (130 nm)	2.2 GHz	35 W	14.91
Pentium 4-M 2.4	Northwood (130 nm)	2.4 GHz	35 W	14.58
Pentium 4-M 2.5	Northwood (130 nm)	2.5 GHz	35 W	14
Pentium 4-M 2.6	Northwood (130 nm)	2.6 GHz	35 W	13.46
Mobile Pentium 4 2.4	Northwood (130 nm)	2.4 GHz	59.8 W	24.92
Mobile Pentium 4 2.66	Northwood (130 nm)	2.66 GHz	66.1 W	24.85
Mobile Pentium 4 2.8	Northwood (130 nm)	2.8 GHz	68.4 W	24.43
Mobile Pentium 4 3.06	Northwood (130 nm)	3.06 GHz	70 W	22.88
Mobile Pentium 4 HT 2.66	Northwood (130 nm)	2.66 GHz	61 W	22.93
Mobile Pentium 4 HT 2.8	Northwood (130 nm)	2.8 GHz	68.4 W	24.43
Mobile Pentium 4 HT 3.06	Northwood (130 nm)	3.06	70 W	22.88
Mobile Pentium 4 HT 3.2	Northwood (130 nm)	3.2 GHz	76 W	23.75
Mobile Pentium 4 HT 518	Prescott (90 nm)	2.8 GHz	88 W	31.43
Mobile Pentium 4 HT 532	Prescott (90 nm)	3.06 GHz	88 W	28.76
Mobile Pentium 4 HT 538	Prescott (90 nm)	3.2 GHz	88 W	27.5
Mobile Pentium 4 HT 548	Prescott (90 nm)	3.33 GHz	88 W	26.43
Mobile Pentium 4 HT 552	Prescott (90 nm)	3.46 GHz	88 W	25.43

[edit] Intel Pentium M

Pentium M is slower clocked than Pentium 4 so laptops didn't need to use a powerful cooling unit or have to be thick and bulky. LV=Low voltage, ULV=Ultra-low voltage.

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/MHz or GHz)
Pentium M 1.3	Banias (130 nm)	1.3 GHz	22 W	16.92
Pentium M 1.3	Banias (130 nm)	1.3 GHz	22 W	16.92
Pentium M 1.4	Banias (130 nm)	1.4 GHz	22 W	15.71
Pentium M 1.4	Banias (130 nm)	1.4 GHz	22 W	15.71
Pentium M 1.5	Banias (130 nm)	1.5 GHz	24.5 W	16.33
Pentium M 1.5	Banias (130 nm)	1.5 GHz	24.5 W	16.33
Pentium M 1.6	Banias (130 nm)	1.6 GHz	24.5 W	15.31
Pentium M 1.6	Banias (130 nm)	1.6 GHz	24.5 W	15.31
Pentium M 1.7	Banias (130 nm)	1.7 GHz	24.5 W	14.41
Pentium M 1.7	Banias (130 nm)	1.7 GHz	24.5 W	14.41
Pentium M LV 1.1	Banias (130 nm )	1.1 GHz	12 W	10.91
Pentium M LV 1.2	Banias (130 nm )	1.2 GHz	12 W	10
Pentium M LV 718	Banias (130 nm )	1.3 GHz	12 W	9.23
Pentium M ULV 900	Banias (130 nm)	900 MHz	7 W	7.78
Pentium M ULV 1.0	Banias (130 nm)	1 GHz	7 W	7
Pentium M ULV 713	Banias (130 nm)	1.1 GHz	7 W	6.36

[edit] Intel Pentium

Intel Pentium (originally Pentium Dual-Core) is a line of single- and dual-core processors. The SU2700 is the only single-core processor in the series and is clocked at 1.3 GHz because it is intended for use in CULV laptops. Pentium Dual-Core processors are used for lower-end or budget mainstream laptops. T=Standard voltage, SU=Ultra-low voltage.

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/GHz)
Pentium Dual-Core T2060	Yonah (65 nm)	1.6 GHz	31 W	19.38
Pentium Dual-Core T2080	Yonah (65 nm)	1.73 GHz	31 W	17.92
Pentium Dual-Core T2130	Yonah (65 nm)	1.86 GHz	31 W	16.67
Pentium Dual-Core T2350	Yonah (65 nm)	1.86 GHz	31 W	16.67
Pentium Dual-Core T2310	Merom-2M (65 nm)	1.46 GHz	35 W	23.97
Pentium Dual-Core T2330	Merom-2M (65 nm)	1.6 GHz	35 W	21.88
Pentium Dual-Core T2370	Merom-2M (65 nm)	1.73 GHz	35 W	20.23
Pentium Dual-Core T2390	Merom-2M (65 nm)	1.86 GHz	35 W	18.82
Pentium Dual-Core T2410	Merom-2M (65 nm)	2 GHz	35 W	17.5
Pentium Dual-Core T3200	Merom-2M (65 nm)	2 GHz	35 W	17.5
Pentium Dual-Core T3400	Merom-2M (65 nm)	2.16 GHz	35 W	16.2
Pentium Dual-Core T4200	Penryn-1M (45 nm)	2 GHz	35 W	17.5
Pentium SU2700	Penryn-1M (45 nm)	1.3 GHz	10 W	7.69

[edit] Core Solo

Core Solo was Intel's family single core microprocessors manufactured from 2006 to 2008. T=Standard Voltage, U=Ultra Low Voltage.

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/GHz)
Core Solo T1200	Yonah (65 nm)	1.5 GHz
Core Solo T1300	Yonah (65 nm)	1.66 GHz	27 W	16.27
Core Solo T1350	Yonah (65 nm)	1.86 GHz	31 W	16.67
Core Solo T1400	Yonah (65 nm)	1.83 GHz	27 W	14.76
Core Solo T1500	Yonah (65 nm)	2 GHz	27 W	13.5
Core Solo T1600	Yonah (65 nm)	2.16 GHz	27 W	12.5
Core Solo U1300	Yonah (65 nm)	1.06 GHz	6 W	5.66
Core Solo U1400	Yonah (65 nm)	1.2 GHz	6 W	5
Core Solo U1500	Yonah (65 nm)	1.33 GHz	5.5 W	4.14

[edit] Intel Core Duo

Intel part numbers

T - Standard, L - Low Voltage, U - Ultra Low Voltage

Model	Clock Speed	Power	Speed:Power ratio [MHz/W]
T2600	2.16 GHz	31 W	70.0
T2500	2.0 GHz	31 W	64.5
T2400	1.83 GHz	31 W	59.0
T2300	1.66 GHz	31 W	53.5
T2050	1.60 GHz	31 W	51.6
L2500	1.83 GHz	15 W	122
L2400	1.66 GHz	15 W	111
L2300	1.50 GHz	15 W	100
U2500	1.20 GHz	9 W	133
U2400	1.06 GHz	9 W	118

[edit] Intel Core 2 Solo

Core 2 Solo processors are used to make ultra-thin or CULV (Consumer Ultra Low Voltage) laptops. So they are clocked at speeds below 2 GHz to ensure ultra-thin or CULV laptops do not heat up too quickly.

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/GHz)
Core 2 Solo ULV U2100	Merom-L (65 nm)	1.06 GHz	5.5 W	5.19
Core 2 Solo ULV U2200	Merom-L (65 nm)	1.2 GHz	5.5 W	4.58
Core 2 Solo SU3300	Penryn-3M (45 nm)	1.2 GHz	5.5 W	4.58
Core 2 Solo SU3500	Penryn-3M (45 nm)	1.4 GHz	5.5 W	3.93

[edit] Intel Core 2 Quad

Core 2 Quad processors made for laptops are not clocked as high as their desktop cousins. This is so laptops using the quad-core processors do not overheat or require a powerful cooling unit, which were problems with laptops using a Mobile Pentium 4 procesor.

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/GHz)
Core 2 Quad Q9000	Penryn QC-6M (45 nm)	2 GHz	45 W	22.5
Core 2 Quad Q9100	Penryn QC-6M (45 nm)	2.26 GHz	45 W	19.91
Core 2 Extreme QX9300	Penryn QC XE (45 nm)	2.53 GHz	45 W	17.79

[edit] Intel Mobile Celeron/Celeron M

Model	Core	Highest Clock Speed (MHz)	TDP (W)	Speed:Power ratio (Cores * [MHz/W])
Mobile Celeron	Northwood	1800	30	60
Mobile Celeron	Northwood	2000	32	63
Mobile Celeron	Northwood	2500	35	71
Celeron M	Banias	1500	24.5	61
Celeron M ULV	Banias	900	7	129
Celeron M	Dothan-1024	1600	21	76
Celeron M	Dothan-1024	1700	27	63
Celeron M ULV	Dothan-1024	1000	5	200
Celeron M	Dothan-512	1200	21	57
Celeron M ULV	Dothan-512	1000	5	200
Celeron M	Yonah-512	1333	27	49
Celeron M	Yonah-1024	2000	27	74
Celeron M ULV	Yonah-1024	1200	5.5	218
Celeron M	Merom-1024	1699	26	65
Celeron M	Merom-1024	2133	30	71
Celeron M ULV	Merom-1024	933	5	187
Celeron Dual-Core	Merom-512	1866	35	106

[edit] Celeron Dual-Core

Celron Dual-Core is Intel's budget dual-core CPUs intended for low-cost computers.

Model	Core	Clock Speed	Thermal Design Power	Power to Speed Ratio (W/GHz)
Celeron Dual-Core T1400	Meron 2-M	1.73 GHz	35 W	20.23
Celeron Dual-Core T1500	Merom 2-M	1.86 GHz	35 W	18.82
Celeron Dual-Core T1600	Merom 2-M	1.66 GHz	35 W	21.08
Celeron Dual-Core T1700	Merom 2-M	1.83 GHz	35 W	19.13

[edit] 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.

Model	Core	Clock Speed	Thermal Design Power	Power to Speed Ratio (W/Mhz or GHz)
Atom N270	Diamondville (45 nm)	1.6 GHz	2.5 W	1.56
Atom N280	Diamondville (45 nm)	1.66 GHz	2.5 W	1.51
Atom Z500	Silverthorne (45 nm)	800 MHz	0.65 W	0.69
Atom Z510	Silverthorne (45 nm)	1.1 GHz	2 W	1.82
Atom Z510P	Silverthorne (45 nm)	1.1 GHz	2.2 W	2
Atom Z510PT	Silverthorne (45 nm)	1.1 GHz	2.2 W	2
Atom Z515	Silverthorne (45 nm)	1.2 GHz (burst speed)	1.4 W	1.67
Atom Z520	Silverthorne (45 nm)	1.33 GHz	2 W	1.5
Atom Z520PT	Silverthorne (45 nm)	1.33 GHz	2.2 W	1.65
Atom Z530	Silverthorne (45 nm)	1.6 GHz	2 W	1.25
Atom Z530P	Silverthorne (45 nm)	1.6 GHz	2.2 W	1.38
Atom Z540	Silverthorne (45 nm)	1.86 GHz	2.4 W	1.29
Atom Z550	Silverthorne (45 nm)	2 GHz	2.4 W	1.2

[edit] Server processors

[edit] Single Core Xeon

Intel part numbers

Clock Speed (GHz)	L2 Cache (KB)	L3 Cache (MB)	Thermal Design Power (W)	Maximum Power (W)	Minimum TCASE (°C)	Maximum TCASE (°C)	Proc ID
2.00	512		58	66	5	70	0F27h/0F29h
2.40	512		65	75	5	74	0F27h/0F29h
2.66	512		72	83	5	74	0F27h/0F29h
2.80	512		74	86	5	75	0F27h/0F29h
3.06	512		85	101	5	73	0F27h/0F29h
2.40	512		77	86	5	72	0F25h
2.66	512		77	86	5	72	0F25h
2.80	512		77	86	5	72	0F25h
3.06	512	1	87	102	5	70	0F25h
3.20	512	1	92	110	5	71	0F25h
3.20	512	2	92	110	5	71	0F25h

[edit] Dual Core Xeon

Intel part numbers

Model	Clock Speed	Power	FSB	L2 Cache	L3 Cache	Speed:Power ratio [MHz/W]
3040	1.86 GHz	65 W	1066 MHz	2MB		28.6
3050	2.13 GHz	65 W	1066 MHz	2MB		32.8
3060	2.40 GHz	65 W	1066 MHz	4MB		36.9
3070	2.66 GHz	65 W	1066 MHz	4MB		41.0
5030	2.67 GHz	95 W	667 MHz	2x2MB		28.1
5050	3.00 GHz	95 W	667 MHz	2x2MB		31.6
5060	3.20 GHz	95 W	1066 MHz	2x2MB		33.7
5063	3.20 GHz	95 W	1066 MHz	2x2MB		33.7
5080	3.73 GHz	130 W	1066 MHz	2x2MB		28.7
5110	1.60 GHz	65 W	1066 MHz	4MB		24.6
5120	1.86 GHz	65 W	1066 MHz	4MB		28.6
5130	2.00 GHz	65 W	1333 MHz	4MB		30.7
5140	2.33 GHz	65 W	1333 MHz	4MB		35.9
5150	2.66 GHz	65 W	1333 MHz	4MB		41.0
5160	3.00 GHz	80 W	1333 MHz	4MB		37.5
7120M	3.00 GHz	95 W	800 MHz	2x1MB	4MB	31.6
7120N	3.00 GHz	95 W	667 FSB	2x1MB	4MB	31.6
7130M	3.20 GHz	150 W	800 MHz	2x1MB	8MB	21.3
7130N	3.16 GHz	150 W	667 MHz	2x1MB	8MB	21.1
7140M	3.40 GHz	150 W	800 MHz	2x1MB	16MB	22.7
7140N	3.33 GHz	150 W	667 MHz	2x1MB	16MB	22
7150N	3.50 GHz	150 W	667 MHz	2x1MB	16MB	23.3

[edit] Quad Core Xeon

Intel part numbers

Model	Clock Speed (GHz)	Power (W)	FSB (MHz)	L2 Cache (MB)	L3 Cache (MB)	Speed:Power ratio [MHz/W]

[edit] Intel Itanium

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/MHz)
Itanium 733	Merced (180 nm)	733 MHz	116 W	158.25
Itanium 733	Merced (180 nm)	733 MHz	130 W	177.35
Itanium 800	Merced (180 nm)	800 MHz	116 W	145
Itanium 800	Merced (180 nm)	800 MHz	130 W	162.5

[edit] Intel Itanium 2

Model	Core	Clock Speed	Thermal Design Power	TDP to Clock Speed Ratio (W/MHz or GHz)
Itanium 2 900	McKinley (180 nm)	900 MHz	130 W	144.44
Itanium 2 900	McKinley (180 nm)	900 MHz	130 W	144.44
Itanium 2 1000	McKinley (180 nm)	1 GHz	130 W	130
Itanium 2 1000	McKinley (180 nm)	1 GHz	130 W	130
Itanium 2 1400	Madison (130 nm)	1.4 GHz	130 W	92.86
Itanium 2 1300	Madison (130 nm)	1.3 GHz	130 W	100
Itanium 2 1400	Madison (130 nm)	1.4 GHz	130 W	93.86
Itanium 2 1400	Madison (130 nm)	1.4 GHz	130 W	92.86
Itanium 2 1500	Madison (130 nm)	1.5 GHz	130 W	86.67
Itanium 2 1600	Madison (130 nm)	1.6 GHz	130 W	81.25
Itanium 2 1666	Madison (130 nm)	1.66 GHz	130 W	78.31
Itanium 2 1600	Madison-9M (130 nm)	1.6 GHz	130 W	81.25
Itanium 2 1666	Madison-9M (130 nm)	1.66 GHz	130 W	78.31
Itanium 2 1000	Deerfield (130 nm)	1 GHz	62 W	62
Itanium 2 1300	Fanwood (130 nm)	1.3 GHz	??? W	???.??
Itanium 2 1600	Fanwood (130 nm)	1.6 GHz	??? W	???.??
Itanium 2 1600	Fanwood (130 nm)	1.6 GHz	??? W	???.??
Itanium 2 MX2	Hondo MCM (130 nm)	1.1 GHz	260 W	236.36
Itanium 2 9010	Montecito (90 nm)	1.6 GHz	75 W	46.88
Itanium 2 9015	Montecito (90 nm)	1.4 GHz	104 W	74.29
Itanium 2 9020	Montecito (90 nm)	1.42 GHz	104 W	73.24
Itanium 2 9030	Montecito (90 nm)	1.6 GHz	104 W	65
Itanium 2 9040	Montecito (90 nm)	1.6 GHz	104 W	65
Itanium 2 9050	Montecito (90 nm)	1.6 GHz	104 W	65
Itanium 2 9110N	Montevale (90 nm)	1.6 GHz	75 W	46.88
Itanium 2 9120N	Montevale (90 nm)	1.42 GHz	104 W	73.24
Itanium 2 9130M	Montevale (90 nm)	1.66 GHz	104 W	62.65
Itanium 2 9140N	Montevale (90 nm)	1.6 GHz	104 W	65
Itanium 2 9140M	Montevale (90 nm)	1.66 GHz	104 W	62.65
Itanium 2 9150N	Montevale (90 nm)	1.6 GHz	104 W	65
Itanium 2 9150M	Montevale (90 nm)	1.66 GHz	104 W	62.65
Itanium 2 9152M	Montevale (90 nm)	1.66 GHz	104 W	62.65

[edit] AMD processors

[edit] AMD Athlon Thunderbird

Model	Speed (MHz)	Voltage	Power (W)
Thunderbird Athlon	750	1.75 V	43.8 W
Thunderbird Athlon	800	1.75 V	45.5 W
Thunderbird Athlon	850	1.75 V	47.92 W
Thunderbird Athlon	900	1.75 V	50.7 W
Thunderbird Athlon	950	1.75 V	52.5 W
Thunderbird Athlon	1000	1.75 V	54.3 W
Thunderbird Athlon	1400	1.75 V	73.5 W

[edit] AMD Athlon XP

Around this time, AMD gave their processors a name which indicated the equivalent clock speed when measured against the original 'Thunderbird' core^[2]; hence the XP1800+ would, in theory, have offered similar performance to a 'Thunderbird' Athlon at 1800 MHz despite being only 1533 MHz, since it did more per clock cycle.

Variant	Clock (MHz)	Voltage (V)	Power (W)	Process (nm)
Palomino Athlon XP 1700+	1467	1.75	64.0 W	180
Palomino Athlon XP 1800+	1533	1.75	66.0 W	180
Palomino Athlon XP 1900+	1600	1.75	68.1 W	180
Palomino Athlon XP 2000+	1667	1.75	70.5 W	180
Palomino Athlon XP 2100+	1733	1.75	72 W	180
Thoroughbred A Athlon XP 2200+	?1800	1.65	67.9 W	130
Thoroughbred B Athlon XP 2200+	1800	1.65	62.8 W^[3]	130
Thoroughbred B Sempron 2200+ .. 2800+	1800 .. 1600	1.60	Max 62W	130
Thoroughbred B Geode NX1750+	1400	1.25	25 W^[4] (14 W typ.)	130
Barton Sempron 3000+	2000	1.60	62.0 W^[5]	130
Barton Athlon XP 2500+	1833	1.65 V	62.3 W(?)	130
Barton Athlon XP 2600+	1917	1.65 V	68.3 W	130
Barton Athlon XP 3200+	2200	1.65 V	76.8 W	130
Barton Mobile Athlon XP-M 2600+	2167	1.45 V	45 W	130

[edit] AMD Athlon 64

Model	L2 Cache	Voltage (V)	Power (W)	Process (nanometers)	Speed:Power ratio [MHz/W]
Newcastle Athlon 64 2800+	512 KB	1.50	89	130
Venice Athlon 64 3200+	512 KB	1.45	67	90
Clawhammer Athlon 64 3400+	1 MB	1.50	89	130
Winchester Athlon 64 3500+	512 KB	1.40	67	90
Orleans Athlon 64 3500+ EE SFF	512 KB	1.20 - 1.25	35	90
Lima Athlon 64 3500+	512 KB	1.20 - 1.35	45	65
Orleans Athlon 64 3800+	512 KB	1.40	62	90
Lima Athlon 64 3800+	512 KB	1.25 - 1.40	45	65
Orleans Athlon 64 4000+	512 KB	1.25 - 1.40	62	90
San Diego Athlon 64 4000+	1 MB	1.35	89	90
Orleans Athlon 64 LE-1600 (2.2 GHz)	1 MB	1.25 - 1.40	45	90	48.9
Orleans Athlon 64 LE-1620 (2.4 GHz)	1 MB	1.25 - 1.40	45	90	53.3

[edit] AMD Athlon 64 X2 / Athlon X2

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

Core	Processor	Model	Clock Speed	L2 Cache	Voltage	TDP	Speed:Power ratio [MHz/W]
E6	Athlon 64 X2	4800+	2400 MHz	2 MB	1.30-1.40 V	110 W	21.8
	Athlon 64 X2	4600+	2400 MHz	1 MB	1.30-1.40 V	110 W	21.8
E6/E6	Athlon 64 X2	4400+	2200 MHz	2 MB	1.30-1.40 V	89 W/110 W	24.7/20
	Athlon 64 X2	4200+	2200 MHz	1 MB	1.30-1.40 V	89 W	24.7
F2	Athlon 64 X2	3800+	2000 MHz	1 MB	1.20-1.25 V	65 W	30
E4/E6	Athlon 64 X2	3800+	2000 MHz	1 MB	1.30-1.40 V	89 W/89 W	22.4
G1	Athlon 64 X2	3600+	1900 MHz	1 MB	1.25V-1.35 V	65 W	29.2

AMD Athlon X2 (Socket AM2)

Core	Processor	Model	Clock Speed	L2 Cache	Voltage	TDP	Speed:Power ratio [MHz/W]
Windsor	Athlon 64 X2	3600+	2000 MHz	512 KB	1.25 V	89 W	22.5
Brisbane	Athlon 64 X2	3600+ EE	1900 MHz	1 MB	1.30 V	65 W	29.2
Windsor F2	Athlon 64 X2	3800+	2000 MHz	1 MB	1.30 - 1.35 V	89 W	22.5
Windsor F2	Athlon 64 X2	3800+ EE	2000 MHz	1 MB	1.20 - 1.25 V	65 W	30.8
Windsor F2	Athlon 64 X2	3800+ EE SFF	2000 MHz	1 MB	1.025 - 1.075 V	35 W	57.1
Windsor F2	Athlon 64 X2	4000+	2000 MHz	2 MB	1.30 - 1.35 V	89 W	22.5
Windsor F2	Athlon 64 X2	4000+	2000 MHz	2 MB	1.20 - 1.25 V	65 W	30.8
Brisbane G1	Athlon 64 X2	4000+	2100 MHz	1 MB	1.25 - 1.35 V	65 W	32.3
Brisbane G2	Athlon 64 X2	4050e	2100 MHz	1 MB	1.15/1.20/1.25 V	45 W	46.7
Brisbane G1	Athlon 64 X2	4200+ EE	2200 MHz	1 MB	1.25/1.30/1.325 V	65 W	33.8
Windsor	Athlon 64 X2	4200+ EE	2200 MHz	1 MB	1.20 - 1.25 V	65 W	33.8
Windsor	Athlon 64 X2	4200+	2200 MHz	1 MB	1.30 - 1.35 V	89 W	24.7
Windsor F2	Athlon 64 X2	4400+	2200 MHz	2 MB	1.20V/1.25 V	65 W	33.8
Windsor F2	Athlon 64 X2	4400+	2200 MHz	2 MB	1.30V/1.35 V	89 W	24.7
Brisbane G1	Athlon 64 X2	4400+	2300 MHz	1 MB	1.25/1.35 V	65 W	35.4
Brisbane G2	Athlon 64 X2	4400+	2300 MHz	1 MB	1.325/1.35/1.375 V	65 W	35.4
Brisbane G2	Athlon 64 X2	4450e	2300 MHz	1 MB	1.15/1.20/1.25 V	45 W	51.1
Brisbane G2	Athlon 64 X2	4600+ EE	2400 MHz	1 MB	1.325/1.35/1.375 V	65 W	36.9
Windsor	Athlon 64 X2	4600+ EE	2400 MHz	1 MB	1.20 - 1.25 V	65 W	36.9
Windsor	Athlon 64 X2	4600+	2400 MHz	1 MB	1.30 - 1.35 V	89 W	27.0
Windsor F2	Athlon 64 X2	4800+	2400 MHz	2 MB	1.20 - 1.25 V	65 W	36.9
Windsor F2	Athlon 64 X2	4800+	2400 MHz	2 MB	1.30 - 1.35 V	89 W	27.0
Brisbane G1	Athlon 64 X2	4800+	2500 MHz	1 MB	1.25V - 1.35 V	65 W	38.5
Brisbane G2	Athlon 64 X2	4800+	2500 MHz	1 MB	1.325 - 1.375V	65 W	38.5
Brisbane G2	Athlon 64 X2	4850e	2500 MHz	1 MB	1.15/1.20/1.25 V	45 W	55.6
Brisbane	Athlon 64 X2	5000+	2600 MHz	1 MB	1.25 - 1.35 V	65 W	40.0
Brisbane	Athlon 64 X2	5000+ Black Edition	2600 MHz	1 MB	1.25 - 1.35 V	65 W	40.0
Windsor	Athlon 64 X2	5000+ EE	2600 MHz	1 MB	1.20 - 1.25 V	65 W	40.0
Windsor	Athlon 64 X2	5000+	2600 MHz	1 MB	1.30 - 1.35 V	89 W	29.2
Windsor F3	Athlon 64 X2	5200+ EE	2600 MHz	2 MB	1.20 - 1.25 V	65 W	40.0
Windsor F2	Athlon 64 X2	5200+	2600 MHz	2 MB	1.30 - 1.35 V	89 W	29.2
Brisbane G2	Athlon 64 X2	5200+	2700 MHz	1 MB	1.325/1.35/1.375 V	65 W	41.5
Windsor F3	Athlon 64 X2	5400+	2800 MHz	1 MB	1.30 - 1.35 V	89 W	31.5
Brisbane G2	Athlon 64 X2	5400+	2800 MHz	1 MB	1.325V - 1.375 V	65 W	43.1
Windsor F3	Athlon 64 X2	5600+	2800 MHz	2 MB	1.30-1.35 V	89W	40.6
Brisbane G2	Athlon 64 X2	5600+	2900 MHz	1 MB	1.30-1.35 V	65 W	44.6
Windsor F3	Athlon 64 X2	6000+	3000 MHz	2 MB	1.35 - 1.40 V	125 W	24.0
Brisbane G2	Athlon 64 X2	6000+ EE	3100 MHz	1 MB	1.30 - 1.35 V	89 W	34.8
Windsor F3	Athlon 64 X2	6400+ Black Edition	3200 MHz	2 MB	1.35 - 1.40 V	125 W	25.6

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

Core	Processor	Model	Clock Speed	L2 Cache	Voltage	Socket	TDP	Note
Brisbane G2	Athlon X2	BE-2400	2300 MHz	2x512 KB	1.25V	AM2	45 W	Oct-2007
Brisbane G1	Athlon X2	BE-2350	2100 MHz	2x512 KB	1.25V	AM2	45 W	June-2007
Brisbane G1	Athlon X2	BE-2300	1900 MHz	2x512 KB	1.25V	AM2	45 W	June-2007

[edit] AMD Phenom (Phenom 64)

Phenom X2 / Phenom 6xxx-series - dual-core
Phenom X3 / Phenom 7xxx-series - triple-core
Phenom X3 / Phenom 8xxx-series - triple-core
Phenom X4 / Phenom 9xxx-series - quad-core
Phenom FX / Phenom FX-xx - quad-core
Phenom X2 II / Phenom II 5xx-series - dual-core
Phenom X3 II / Phenom II 7xx-series - triple-core
Phenom X4 II / Phenom II 9xx-series - quad-core

	Model	Clock Speed (GHz)	L2 Cache	L3 Cache	HT Bus (GHz)	Voltage (V)	Socket	TDP (W)	Process & Comments	Speed:Power ratio [MHz/W]
X2 II	550 Black Edition	3.1	2x512k	6MB	2.0	1.15-1.425	AM3	80	45nm Callisto Q3-2009	38.75
X2 II	545	3.0	2x512k	6MB	2.0	1.15-1.425	AM3	80	45nm Callisto Q3-2009	37.5
X2	6??? x¹	2.3			3.4 HT3			45	x¹ 2009
X2	6??? x¹	2.1			3.0 HT3			45	x¹ 2009
X2	6??? x¹	1.9			2.8 HT3			45	x¹ 2009
X2	6??? x¹	2.8	2x512K	2MB	4.2 HT3			65	x¹ 2009
X2	6??? x¹	2.6	2x512K	2MB	3.8 HT3			65	x¹ 2009
X2	6??? x¹	2.4	2x512K	2MB	3.6 HT3			65	x¹ 2009
X2	6??? x¹			2MB	DDR2				x¹ 65nm Kuma Q2/2008
X3 II	720 Black Edition	2.8	3x512K	6MB	2	1.15-1.425	AM3	95	45nm Heka Q1-2009	29.47
X3 II	710	2.6	3x512K	6MB	2	1.15-1.425	AM3	95	45nm Heka Q1-2009	27.37
X3 II	705e	2.5	3x512K	6MB	2	0.8-1.25	AM3	65	45nm Heka Q3-2009	38.46
X3	7700 x¹	2.5	3x512K	2MB			AM2+	89	x¹ Q1-2008
X3	7600 x¹	2.3	3x512K	2MB			AM2+	89	x¹ Q1-2008
X3	8750	2.4	3x512K	2MB		1.05-1.25	AM2+	95	65nm B3	25.26
X3	8700 x¹	2.4		yes				95	x¹ 65nm Toliman Q1-2008
X3	8650	2.3	3x512K	2MB		1.05-1.25	AM2+	95	65nm B3	24.21
X3	8600 x¹	2.3		yes				95	x¹ 65nm Toliman Q1-2008
X3	8600B	2.3	3x512K	2MB		1.05-1.25	AM2+	95	65nm B3	24.21
X3	8600	2.3	3x512K	2MB		1.05-1.25	AM2+	95	65nm B2	24.21
X3	8450	2.1	3x512K	2MB		1.05-1.25	AM2+	95	65nm B3	22.11
X3	8400	2.1	3x512K	2MB		1.05-1.25	AM2+	95	65nm B2	22.11
X4 II	805	2.5	4x512K	4MB	2	1.15-1.425	AM3	95	45nm Deneb Q1-2009	26.32
X4 II	810	2.6	4x512K	4MB	2	1.15-1.425	AM3	95	45nm Deneb Q1-2009	27.37
X4 II	900e	2.4	4x512K	6MB	2	0.825-1.25	AM3	65	45nm Deneb 2009	36.92
X4 II	905e	2.5	4x512K	6MB	2	0.825-1.25	AM3	65	45nm Deneb Q3-2009	38.46
X4 II	910	2.6	4x512K	6MB	2	1.15-1.425	AM3	95	45nm Deneb Q1-2009	27.37
X4 II	920	2.8	4x512K	6MB	1.8	1.15-1.425	AM2+	125	45nm Deneb Q1-2009	22.4
X4 II	940 Black Edition	3.0	4x512K	6MB	1.8	1.15-1.425	AM2+	125	45nm Deneb Q1-2009	24
X4 II	945	3.0	4x512K	6MB	2	1.15-1.425	AM3	95	45nm Deneb (part no HDX945WFK4DGI) Q3-2009	31.58
X4 II	945	3.0	4x512K	6MB	2	1.15-1.425	AM3	125	45nm Deneb (part no HDX945FBK4DGI) Q2-2009	24
X4 II	955 Black Edition	3.2	4x512K	6MB	2	1.15-1.425	AM3	125	45nm Deneb Q2-2009	25.6
X4 II	965 Black Edition	3.4	4x512K	6MB	2	1.15-1.425	AM3	125	x¹ 45nm Deneb Q3-2009
X4	9850	2.5	4x512KB	2MB	3.6 HT3	1.20-1.30	AM2+	125	65nm B3	20
X4	9750	2.4	4x512KB	2MB	3.6 HT3	1.20-1.30	AM2+	125	65nm B3	19.2
X4	9750	2.4	4x512KB	2MB	3.6 HT3	1.20-1.25	AM2+	95	65nm B3 (obsolete since Q2/2008)	25.26
X4	9700 x¹	2.6 (or 2,4 ?)	4x512KB	2MB	3.6		AM2+	89 (?95) (?125)	x¹ 65nm Agena Q1-2008
X4	9650	2.3	4x512K	1MB		1.10-1.25	AM2+	95	65nm B3 Agena	24.21
X4	9600 Black Edition	2.3	4x512KB	2MB	3.6 HT3		AM2+	95	65nm Agena	24.21
X4	9600B	2.3	4x512K	2MB		1.10-1.25	AM2+	95	65nm B3	24.21
X4	9600	2.3	4x512KB	2MB	3.6 HT3	1.1-1.25	AM2+	95	65nm B2 Agena	24.21
X4	9550	2.2	4x512KB	2MB	3.6 HT3	1.10-1.25	AM2+	95	65nm B3	23.16
X4	9500	2.2	4x512KB	2MB	? HT3	1.10-1.25	AM2+	95	65nm B2 Agena	23.16
X4	9100e	1.8	4x512KB	2MB	? HT3	1.10-1.15	AM2+	65	65nm B2	27.69
X4	9150e	1.8	4x512KB	2MB		1.0-1.125	AM2+	65	65nm B3	27.69
X4	9350e	2.0	4x512KB	2MB		1.0-1.125	AM2+	65	65nm B3	21.05
X4	9950	2.6	4 x 512 KB	2MB	2.0 HT3	1.05-1.30 V	AM2+140	140	65nm B3	18.57
FX	FX-91 x¹	2.6	4x512KB	2MB			F+	125	x¹ Q1/2008
FX	FX-90 x¹	2.4	4x512KB	2MB			F+	125	x¹
FX	FX-82 x¹	2.6	4x512KB	2MB			AM2+	125	x¹

x¹ = Preliminary information of announced CPU.

[edit] AMD Sempron (fka also Sempron 64)

Model	Clock Speed	L2 Cache	Voltage	Socket	Stepping	Power	Speed:Power ratio
LE-1250	2200 MHz	512 kB	1.20 - 1.40 V	AM2	G2 (65nm)	45 W	48.9
LE-1200	2100 MHz	512 kB	1.20 - 1.40 V	AM2	G1 (65nm)	45 W	46.7
LE-1150	2000 MHz	256 kB	1.20 - 1.40 V	AM2	G1 (65nm)	45 W	44.4
LE-1100	1900 MHz	256 kB	1.20 - 1.40 V	AM2	G1 (65nm)	45 W	42.2

2100(dc)	1800 MHz	512 kB	1.25/1.35/1.4 V	AM2	F2	65 W	27.7

3800+	2200 MHz	256 kB	1.25/1.35/1.4 V	AM2	F2	62 W	35.5
3600+	2000 MHz	256 kB	1.25/1.35/1.4 V	AM2	F2	62 W	32.3
3500+	2000 MHz	128 kB	1.25/1.35/1.4 V	AM2	F2	62 W	32.3
3500+	2000 MHz	128 kB	1.2/1.25 V	AM2	F2	35 W	57.1
3400+	1800 MHz	256 kB	1.25/1.35 V // 1.35/1.4 V	AM2	F2	62 W	29.0
3400+	1800 MHz	256 kB	1.2/1.25 V	AM2	F2	35 W	51.4
3200+	1800 MHz	128 kB	1.25/1.35/1.4 V // 1.35/1.4 V	AM2	F2	62 W	29.0
3200+	1800 MHz	128 kB	1.2/1.25 V	AM2	F2	35 W	51.4
3000+	1600 MHz	256 kB	1.25/1.35/1.4 V	AM2	F2	62 W	25.8
3000+	1600 MHz	256 kB	1.2/1.25 V	AM2	F2	35 W	45.71
2800+	1600 MHz	128 kB	1.25/1.35/1.4 V	AM2	F2	62 W	25.8

3400+	2000 MHz	256 kB	1.4 V	754	E6	62 W	32.3
3300+	2000 MHz	128 kB	1.4 V	754	D0, E3, E6	62 W	32.6
3100+	1800 MHz	256 kB	1.4 V	754	CG, D0, E3, E6	62 W	29.0
3000+	1800 MHz	128 kB	1.4 V	754	CG, D0, E3, E6	62 W	29.0
2800+	1600 MHz	256 kB	1.4 V	754	D0, E3, E6	62 W	25.8
2500+	1400 MHz			754		62 W	22.6

[edit] AMD Sempron 64

Model	Clock Speed	Power	Speed:Power ratio
2500+ (Socket 754)	1400 MHz	62 W	22.6

[edit] AMD Turion 64

Model	Clock Speed	Volts	Power	Speed:Power ratio [MHz/W]
Turion 64 ML-28	1600 MHz	1.35V	35 W	45.7
Turion 64 ML-30	1600 MHz	1.35V	35 W	45.7
Turion 64 ML-32	1800 MHz	1.35V	35 W	51.4
Turion 64 ML-34	1800 MHz	1.35V	35 W	51.4
Turion 64 ML-37	2000 MHz	1.35V	35 W	57.1
Turion 64 ML-40	2200 MHz	1.35V	35 W	62.9
Turion 64 ML-42	2400 MHz	1.35V	35 W	68.6
Turion 64 ML-44	2400 MHz	1.35V	35 W	68.6
Turion 64 MK-36	2000 MHz	1.15V	31 W	64.5
Turion 64 MK-38	2200 MHz	1.15V	31 W	71.0
Turion 64 MT-28	1600 MHz	1.20V	25 W	64.0
Turion 64 MT-30	1600 MHz	1.20V	25 W	64.0
Turion 64 MT-32	1800 MHz	1.20V	25 W	72.0
Turion 64 MT-34	1800 MHz	1.20V	25 W	72.0
Turion 64 MT-37	2000 MHz	1.20V	25 W	80.0
Turion 64 MT-40	2200 MHz	1.20V	25 W	88.0

[edit] AMD Turion 64 X2

Model Number	Frequency	L2-Cache	HT	Multiplier¹	Voltage	TDP	Socket	Release date	Order Part Number
Turion 64 X2 TL-52	1600MHz	2×512kB	800MHz	8x	0.8-1.125 V	31W	Socket S1	17 May 2006	TMDTL52HAX5CT
Turion 64 X2 TL-56	1800MHz	2×512kB	800MHz	9x	0.8-1.125 V	33W	Socket S1	17 May 2006	TMDTL56HAX5CT
Turion 64 X2 TL-60	2000MHz	2×512kB	800MHz	10x	0.8-1.125 V	35W	Socket S1	17 May 2006	TMDTL60HAX5CT
Turion 64 X2 TL-64	2200MHz	2×512kB	800MHz	11x	0.80-1.125 V	35W	Socket S1	30 Jan 2007	TMDTL64HAX5CT
Athlon 64 X2 TK-53	1700MHz	2×256kB	800MHz	8.5x	1.075/1.10/1.125 V	31W	Socket S1	Aug 20, 2007	AMDTK53HAX4DC
Athlon 64 X2 TK-55	1800MHz	2×256kB	800MHz	9x	1.075/1.10/1.125 V	31W	Socket S1	Aug 20, 2007	AMDTK55HAX4DC
Athlon 64 X2 TK-57	1900MHz	2×256kB	800MHz	9.5x	1.075/1.10/1.125 V	31W	Socket S1	Aug 20, 2007	AMDTK57HAX4DC
Turion 64 X2 TL-56	1800MHz	2×512kB	800MHz	9x	1.075/1.10/1.125 V	31W	Socket S1	May 7, 2007	TMDTL56HAX5DC
Turion 64 X2 TL-58	1900MHz	2×512kB	800MHz	9.5x	1.075/1.10/1.125 V	31W	Socket S1	May 7, 2007	TMDTL58HAX5DC
Turion 64 X2 TL-60	2000MHz	2×512kB	800MHz	10x	1.075/1.10/1.125 V	31W	Socket S1	May 7, 2007	TMDTL60HAX5DC
Turion 64 X2 TL-62	2100MHz	2×512kB	800MHz	10.5x	1.075/1.10/1.125 V	35W	Socket S1	Jan 21, 2008	TMDTL62HAX5DM
Turion 64 X2 TL-64	2200MHz	2×512kB	800MHz	11x	1.075/1.10/1.125 V	35W	Socket S1	May 7, 2007	TMDTL64HAX5DC
Turion 64 X2 TL-66	2300MHz	2×512kB	800MHz	11.5x	1.075/1.10/1.125 V	35W	Socket S1	May 7, 2007 (Jul 10, 2007)	TMDTL66HAX5DC
Turion 64 X2 TL-68	2400MHz	2×512kB	800MHz	12x	1.075/1.10/1.125 V	35W	Socket S1	Dec 19, 2007	TMDTL68HAX5DM

[edit] VIA processors

[edit] VIA C3

Model	Clock Speed	Power
Nehemiah	1000 MHz	11.25 W

[edit] VIA Eden-N

Model	Clock Speed	Power
Eden-N	533 MHz	4 W
Eden-N	800 MHz	6 W
Eden-N	1000 MHz	7 W

[edit] VIA C7

Model	Clock Speed	Power
C7 Esther	1500 MHz	12 W
C7 Esther	2000 MHz	20 W
C7-D Esther	1800 MHz	20 W

[edit] VIA Eden ULV

Model	Clock Speed	Power
Eden ULV	500 MHz	1 W
Eden ULV	1000 MHz	3.5 W
Eden ULV	1500 MHz	7.5 W

[edit] VIA Luke

Model	Clock Speed	Power
Luke	533 MHz	6 W
Luke	800 MHz	8 W
Luke	1000 MHz	10 W

[edit] See also

Lists of Intel processors

Lists of AMD processors

[edit] References

^ http://www.marvell.com/technologies/cpu_history/cpu_history.jsp Marvell's useful history of processors
^ Wikipedia PR Rating Page
^ AMD Athlon XP Processor Model 10 with 256K L2 Cache Data Sheet
^ AMD Geode NX Processors Data Book
^ AMD Sempron Processor Model 10 Data Sheet

Weik, Martin H. (1955). A Survey of Domestic Electronic Digital Computing Systems. United States Department of Commerce Office of Technical Services. http://www.computerhistory.org/collections/DocumentArchive/Documents/Books/Ballistic%20Research%20Lab%20surveys%20of%20computers/BRL%20Weik%20Report%201955/BRL.html.
http://developer.intel.com/design/itanium2/documentation.htm#datasheets
http://www.intel.com/pressroom/kits/quickreffam.htm
http://www.intel.com/design/mobile/datashts/24297301.pdf
http://www.intel.com/design/intarch/prodbref/27331106.pdf
http://www.via.com.tw/en/products/processors/c7-d/
http://mbsg.intel.com/mbsg/glossary.aspx
http://download.intel.com/design/Xeon/datashts/25213506.pdf

[edit] External links

CPU Reference for all vendors. Process node, die size, speed, power, instruction set, etc.
Processor Electrical Specifications
SizingLounge - Online calculation tool for server energy costs.
For specification on Intel processors.

[0] ttp://www.marvell.com/technologies/cpu_history/cpu_history.jsp Marvell's useful history of processors

[1] Wikipedia PR Rating Page

[2] AMD Athlon XP Processor Model 10 with 256K L2 Cache Data Sheet

[3] AMD Geode NX Processors Data Book

[4] AMD Sempron Processor Model 10 Data Sheet

[1]

[2]

[3]

[4]

[5]

List of CPU power dissipation

From Wikipedia, the free encyclopedia

Contents

[edit] Early CPUs

[edit] Microprocessors

[edit] IBM/Motorola/Freescale processors

[edit] PowerPC

[edit] Marvell XScale

[edit] Intel processors

[edit] Desktop processors

[edit] Pentium

[edit] Pentium MMX

[edit] Pentium II

[edit] Pentium III

[edit] Pentium 4

[edit] Pentium D

[edit] Intel Core 2

[edit] Intel Core i7

[edit] Intel Atom

[edit] Intel Celeron (P6 Based)

[edit] Intel Celeron (NetBurst based)

[edit] Intel Celeron Dual-Core

[edit] Laptop processors

[edit] Intel Mobile Pentium II

[edit] Intel Mobile Pentium 4

[edit] Intel Pentium M

[edit] Intel Pentium

[edit] Core Solo

[edit] Intel Core Duo

[edit] Intel Core 2 Solo

[edit] Intel Core 2 Quad

[edit] Intel Mobile Celeron/Celeron M

[edit] Celeron Dual-Core

[edit] Intel Atom

[edit] Server processors

[edit] Single Core Xeon

[edit] Dual Core Xeon

[edit] Quad Core Xeon

[edit] Intel Itanium

[edit] Intel Itanium 2

[edit] AMD processors

[edit] AMD Athlon Thunderbird

[edit] AMD Athlon XP

[edit] AMD Athlon 64

[edit] AMD Athlon 64 X2 / Athlon X2

[edit] AMD Phenom (Phenom 64)

[edit] AMD Sempron (fka also Sempron 64)

[edit] AMD Sempron 64

[edit] AMD Turion 64

[edit] AMD Turion 64 X2

[edit] VIA processors

[edit] VIA C3

[edit] VIA Eden-N

[edit] VIA C7

[edit] VIA Eden ULV

[edit] VIA Luke

[edit] See also

[edit] References

[edit] External links

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