From Wikipedia, the free encyclopedia

Intel atom)

This article is about the original line of Atom processors. For system on chips processors, see Atom (system on chip).

This article has an unclear citation style. (December 2012)

This article's lead section may not adequately summarize key points of its contents. (July 2012)

This article's factual accuracy may be compromised due to out-of-date information. (December 2011)

Intel Atom
Intel Atom Z520 compared to a 1 eurocent coin. It is 182 mm².^[1]
Produced	2003-2009 (as Centrino) 2008-2009 (as Centrino Atom) 2008–present (as Atom)
Common manufacturer(s)	Intel
Max. CPU clock rate	600 MHz to 2.13 GHz
FSB speeds	400 MHz to 667 MHz
Min. feature size	45 nm to 32 nm
Instruction set	MMX, SSE, SSE2, SSE3,SSSE3, IA-32, x86-64(not for the N2xx and Z5xx series)
Cores	1, 2, 8
Package(s)	441-ball µFCBGA
Core name(s)	Silverthorne Diamondville Pineview Lincroft Centerton Avoton (future) Silvermont

Intel Atom is the brand name for a line of ultra-low-voltage IA-32 and Intel 64 (x86-64) CPUs (or microprocessors) fromIntel, originally designed in 45 nm CMOS with subsequent models, codenamed Cedar, using a 32 nm process.^{mobile Internet devices (MIDs).}

Atom processors are based on the Bonnell microarchitecture.^[2]

In December 2012, Intel launched the 64-bit Centerton family of Atom CPUs, designed specifically for use in servers.^[8]

[hide]

1 History
2 Instruction set architecture
- 2.1 32-bit and 64-bit hardware support
- 2.2 Intel 64 software support
3 Availability
4 Performance
5 Bonnell microarchitecture
6 Collaborations
7 Competition
8 Planned Atom versions
9 See also
10 Notes
11 References
12 External links

]

Intel Atom is a direct successor of the Intel A100 and A110 low-power microprocessors (code-named Stealey), which were built on a 90 nm process, had 512 kB L2 cache and ran at 600 MHz/800 MHz with 3W TDP (Thermal Design Power). Prior to the Silverthorne announcement, outside sources had speculated that Atom would compete with AMD's Geode system-on-a-chipprocessors, used by the One Laptop per Child (OLPC) project, and other cost and power sensitive applications for x86processors. However, Intel revealed on 15 October 2007 that it was developing another new mobile processor, codenamed Diamondville, for OLPC-type devices.^[9]

"Atom" was the name under which Silverthorne would be sold, while the supporting chipset formerly code-named Menlow was called Centrino Atom.^[10]

At Spring Intel Developer Forum (IDF) 2008 in Shanghai, Intel officially announced that Silverthorne and Diamondville are based on the same microarchitecture. Silverthorne would be called the Atom Z5xx series and Diamondville would be called the Atom N2xx series. The more expensive lower-power Silverthorne parts will be used in Intel mobile Internet devices (MIDs) whereas Diamondville will be used in low-cost desktop and notebooks. Several Mini-ITX motherboard samples have also been revealed.^[12]

In April 2008, a MID development kit was announced by Sophia Systems^[16]

In December 2012, Intel released Atom for servers, the S1200 series. The primary difference between these processors and all prior versions, is that ECC memory support has been added, enabling use of the Atom in mission-critical server environments that demand redundancy and memory failure protection.

Intel Atom processor family^[17]
MID / Ultra-mobile PC / Lifestyle PC
Logo	Code-name	Series	Core	On-die GPU	GPU speed	TDP	HT	Intel 64	Intel VT-x	Release date
	Silverthorne	Atom Z5xx	single (45 nm)	No	200 MHz	0.65~2 W	No	No	No	April 2008
	Silverthorne	Atom Z5xx	single (45 nm)	No	200 MHz	2~2.4 W	Yes	No	No	April 2008
	Lincroft	Atom Z6xx	single (45 nm)	Yes	400 MHz	1.3~3 W	Yes	No	No	May 2010
Classmate PC / Netbook / Nettop / Lifestyle PC
Logo	Code-name	Series	Core	On-die GPU	GPU speed	TDP	HT	Intel 64	Intel VT-x	Release date
	Diamondville	Atom N2xx	single (45 nm)	No	n/a	2.5 W	Yes	No	No	June 2008
		Atom 2xx	single (45 nm)			4 W		Yes (if enabled)		June 2008
		Atom 3xx	dual (45 nm)			8 W		Yes (if enabled)		September 2008
	Pineview	Atom N4xx	single (45 nm)	Yes	200 MHz	6.5 W	Yes	Yes (if enabled)	No	January 2010
		Atom D4xx	single (45 nm)		400 MHz	10 W
		Atom N5xx	dual (45 nm)		200 MHz	8.5 W
		Atom D5xx	dual (45 nm)		400 MHz	13 W
	Cedarview	Atom D2500	dual (32 nm)	Yes	400 MHz	10 W	No	Yes (if enabled)	No	November 2011
		Atom D2700			640 MHz	10 W	Yes			November 2011
		Atom N2600			400 MHz	3.5 W				December 2011
		Atom N2800			640 MHz	6.5 W				December 2011
Server
Logo	Code-name	Series	Core	On-die GPU	GPU speed	TDP	HT	Intel 64	Intel VT-x	Release date
	Centerton	Atom S1220	dual (32 nm)	Unknown	1.60 GHz	8.1 W	Yes	Yes	Yes	December 2012
		Atom S1240			1.60 GHz	6.1 W
		Atom S1260			2.00 GHz	8.6 W
List of Intel Atom microprocessors

]

All Atom processors implement the x86 (IA-32) instruction set; however, support for the Intel 64 instruction set was not added until the desktop Diamondvilleand desktop and mobile Pineview cores. The Atom N2xx and Z5xx series Atom models cannot run x86-64 code.^[7]

]

Intel states the Atom supports 64-bit operation only "with a processor, chipset, BIOS" that all support Intel 64. Those Atom systems not supporting all of these cannot enable Intel 64.^[20]

Even among Atom-based systems which have Intel 64 enabled, not all are able to run 64-bit versions of Microsoft Windows. For those Pineview processors which support 64-bit operation, Intel Download Center currently provides 64-bit Windows 7 and Windows Vista drivers for Intel GMA 3150 graphics, found in Pineviewprocessors.^[22]

The lack of 64-bit Windows support for Cedarview processors appears to be due to a driver issue. A member of the Intel Enthusiast Team has stated in a series of posts on enthusiast site Tom's Hardware that while the Atom D2700 (Pineview) was designed with Intel 64 support, due to a "limitation of the board" Intel had pulled their previously-available 64-bit drivers for Windows 7 and would not provide any further 64-bit support.^[24] Because all Cedarviewprocessors use the same Intel GMA 3600 or 3650 graphics as the D2700, this indicates that Atom Cedarview systems will remain unable to run 64-bit versions of Windows, even those which have Intel 64 enabled and are able to run 64-bit versions of Linux.

]

Atom processors became available to system manufacturers in 2008. Because they are soldered, like northbridges and southbridges, onto a mainboard, Atom processors are not available to home users or system builders as separate processors, although they may be obtained preinstalled on some ITX motherboards. The Diamondville and Pineview^{MSI Wind PC netbooks, RedFox Wizbook 1020i, Sony Vaio X Series, Zenith Z-Book, a range of Aleutia desktops, Magic W3 and the Archos}

]

The performance of a single core Atom is about half that of a Pentium M of the same clock rate. For example, the Atom N270 (1.60 GHz) found in many netbookssuch as the Eee PC can deliver around 3300 MIPS and 2.1 GFLOPS in standard benchmarks,^[27]

The Pineview platform has proven to be only slightly faster than the previous Diamondville platform. This is because the Pineview platform uses the same Bonnell execution core as Diamondville and is connected to the memory controller via the FSB, hence memory latency and performance in CPU-intensive applications are minimally improved.^[28]

]

Main article: Bonnell (microarchitecture)

Intel Atom processors are based on the Bonnell microarchitecture,^[29]

]

In March 2009, Intel announced that it would be collaborating with TSMC for the production of the Atom processors.^[30] The deal was put on hold due to lack of demand in 2010.

On 13 September 2011 Intel and Google held a joint announcement of a partnership to provide support in Google's Android operating system for Intel processors (beginning with the Atom). This would allow Intel to supply chips for the growing smartphone and tablet market.^[31]

]

Embedded processors based on the ARM version 7 instruction set architecture (such as Nvidia's Tegra 3 series, TI's 4 series and Freescale's i.MX51 based on theCortex-A8 core, or the Qualcomm Snapdragon and Marvell Armada 500/600 based on custom ARMv7 implementations) offer similar performance to the low end Atom chipsets^{[dubious – discuss]} but at roughly one quarter the power consumption, and (like most ARM systems) as a single integrated system on a chip, rather than a two chip solution like the current Atom line. Although the second-generation Atom codenamed "Pineview" should greatly increase its competitiveness in performance/watt, ARM plans to counter the threat with the multi-core capable Cortex-A9 core as used in Nvidia's Tegra 2/3, TI's OMAP 4 series, and Qualcomm's next-generation Snapdragon series, among others.

The Nano and Nano Dual-Core series from VIA is slightly above the average thermal envelope of the Atom, but offers hardware AES support, random number generators, and out-of-order execution. Performance comparisons of the Intel Atom against the Via Nano indicate that a single core Intel Atom is outperformed by the Via Nano which is in turn outperformed by a dual core Intel Atom 330 in tests where the second core is used. The Core 2 Duo SU7300 outperforms the dual-core Nano.^[39]

The Xcore86 (also known as the PMX 1000) is x586 based System on Chip (SoC) that offers a below average thermal envelope compared to the Atom.

Kenton Williston of EE Times said that while Atom will not displace ARM from its current markets, the ability to apply the PC architecture into smaller, cheaper and lower power form factors will open up new markets for Intel.^[40]

]

A 22 nm Atom chip, code name Silvermont, is planned for 2013 release.

Intel has also released plans for Atom chips with 14 nm architecture. This chip, codenamed Airmont, is expected to be released in 2014.

Each chip is expected to provide improved performance while consuming less electricity. The Airmont Atom is expected to consume only 15 watts or less.

http://en.wikipedia.org/wiki/Atom_(system_on_chip)

Atom (system on chip)

From Wikipedia, the free encyclopedia

This article is about Atom system on chips processors. For the earlier line of Atom processors, see Intel Atom.

In 2012, Intel expanded the Atom processor family with a new system on chip (SoC) platform designed for smartphones and tablets.^[2]

Atom competes with existing SoCs developed for the smartphone and tablet market from companies like Texas instruments, Nvidia, Qualcomm and Samsung.^{Atom line CPU developed for low power usage in netbooks, to even lower power usage.}

In April 2012, several manufacturers have released Intel Atom-based phones.

[hide]

1 List of systems
2 Testing of Atom phones
3 Operating system support on Cloverview
4 New power states on Cloverview
5 Roadmap
6 Similar SoCs
7 See also
8 References

]

Model number (SOC codename, Platform codename)	Semiconductor technology	CPU instruction set	CPU	CPU cache	GPU	Memory technology	Availability	Utilizing devices
Atom Z2460 (Penwell, platformMedfield)^[5]	32 nm High-k/metal gate	x86	1.6 GHz single-coreSaltwell withHT^[6]	L1: 32kB Instruction + 24kB Data, L2: 512kB	PowerVR SGX 540 @ 400 MHz^[6]	32-bit Dual-channel 400 MHz LPDDR2-800 (6.4 GB/sec)^[6]	Q2 2012	Lenovo K800,^[12]
Atom Z2480 (platformMedfield)	32 nm High-k/metal gate	x86	2 GHz single-core Saltwellwith HT^[6]	L1: 32kB Instruction + 24kB Data, L2: 512kB	PowerVR SGX 540 @ 400 MHz^[6]	32-bit Dual-channel 400 MHz LPDDR2-800 (6.4 GB/sec)^[6]	2012	Motorola RAZR i, XOLO X1000,^[14]
Atom Z2420 (Lexington)^[15]	32 nm High-k/metal gate	x86	1.2 GHz single-coreSaltwell withHT	L1: 32kB Instruction + 24kB Data, L2: 512kB	PowerVR SGX 540 @ 400 MHz	32-bit Dual-channel 400 MHz LPDDR2-800 (6.4 GB/sec)	January 25, 2013^[16]	Xolo X500,^[22]
Atom Z2760 (Cloverview, platformClover Trail)^[24]	32 nm High-k/metal gate	x86	1.8 GHz dual-core Saltwellwith HT	L1: 32kB Instruction + 24kB Data, L2: 512kB (per core)	PowerVR SGX 545 @ 533 MHz^[25]	32-bit Dual-channel 400 MHz LPDDR2-800 (6.4 GB/sec)^[25]	Q4 2012	Asus VivoTab,^[40]Samsung ATIV Tab 3
Atom Z2520 (Cloverview, platformClover Trail+)^[41]	32 nm High-k/metal gate	x86	1.2 GHz dual-core Saltwellwith HT	L1: 32kB Instruction + 24kB Data, L2: 512kB (per core)	PowerVR SGX 544 MP2 @ 300 MHz ^[41]	32-bit Dual-channel 533 MHz LPDDR2-1066 (8.5 GB/sec)^[41]	2013
Atom Z2560 (Cloverview, platformClover Trail+)^[41]	32 nm High-k/metal gate	x86	1.6 GHz dual-core Saltwellwith HT	L1: 32kB Instruction + 24kB Data, L2: 512kB (per core)	PowerVR SGX 544 MP2 @ 400 MHz ^[41]	32-bit Dual-channel 533 MHz LPDDR2-1066 (8.5 GB/sec)^[42]	Q2 2013	Asus Memo Pad FHD 10,^[45]
Atom Z2580 (Cloverview, platformClover Trail+)^[46]	32 nm High-k/metal gate	x86	2 GHz dual-core Saltwellwith HT	L1: 32kB Instruction + 24kB Data, L2: 512kB (per core)	PowerVR SGX 544 MP2 @ 533 MHz ^[41]	32-bit Dual-channel 533 MHz LPDDR2-1066 (8.5 GB/sec)^[47]	Q2 2013	ASUS FonePad Note FHD 6,^[45]
Atom Z3680 (Valleyview, platform Bay Trail)^[55]	22 nm	x86-64	1.33 GHz (2 GHz turbo) dual-coreSilvermont^[56]		Intel Gen 7 (Ivy BridgeGPU architecture) @ 311-667 MHz	64-bit single-channel 533 MHz LPDDR3-1066 (8.5 GB/sec)	Q3 2013
Atom Z3680D (Valleyview, platform Bay Trail)^[57]	22 nm	x86-64	1.33 GHz (2 GHz turbo) dual-coreSilvermont^[58]		Intel Gen 7 (Ivy BridgeGPU architecture) @ 311-688 MHz	64-bit single-channel 666 MHz DDR3L-RS-1333 (10.6 GB/sec)	Q3 2013
Atom Z3740D (Valleyview, platform Bay Trail)^[59]	22 nm	x86-64	1.33 GHz (1.9 GHz turbo) quad-coreSilvermont^[60]		Intel Gen 7 (Ivy BridgeGPU architecture) @ 311-688 MHz	64-bit single-channel 666 MHz DDR3L-RS-1333 (10.6 GB/sec)	Q3 2013	Dell Venue 8 Pro
Atom Z3740 (Valleyview, platform Bay Trail)^[61]	22 nm	x86-64	1.33 GHz (1.9 GHz turbo) quad-coreSilvermont^[62]		Intel Gen 7 (Ivy BridgeGPU architecture) @ 311-667 MHz	64-bit dual-channel 533 MHz LPDDR3-1066 (17.1 GB/sec)	Q3 2013	ASUS T100, Acer Iconia W4, Toshiba Encore
Atom Z3770D (Valleyview, platform Bay Trail)^[63]	22 nm	x86-64	1.5 GHz (2.4 GHz turbo) quad-coreSilvermont^[64]		Intel Gen 7 (Ivy BridgeGPU architecture) @ 311-688 MHz	64-bit single-channel 666 MHz DDR3L-RS-1333 (10.6 GB/sec)	Q3 2013
Atom Z3770 (Valleyview, platform Bay Trail)^[65]	22 nm	x86-64	1.5 GHz (2.4 GHz turbo) quad-coreSilvermont^[66]		Intel Gen 7 (Ivy BridgeGPU architecture) @ 311-667 MHz	64-bit dual-channel 533 MHz LPDDR3-1066 (17.1 GB/sec)	Q3 2013	Fujitsu Stylistic Q584, Dell Venue 11 Pro, ^[68], Sharp Mebius Pad
Tangier, platformMerrifield	22 nm	x86-64	dual-coreSilvermont		PowerVR 6 (Rogue GPU architecture)		Q4 2013
Cherryview, platformCherry Trail	14 nm	x86-64	2.7 GHz,Airmont		Intel Gen 8 (Broadwell GPU architecture)		Q3 2014
Anniedale, platformMoorefield	14 nm	x86-64	2.7 GHz,Airmont		Intel Gen 8 (Broadwell GPU architecture)		Q3 2014
Broxton, platformsMorganfieldand Willow Trail	14 nm	x86-64	Goldmont		Intel Gen 9 (Skylake GPU architecture)		2015

]

In April 2012, Lava Xolo X900 was released as the first Intel Medfield phone.^[70]

]

While Penwell SoC supports, in addition to Microsoft Windows, both Linux and Android operating systems, Intel has announced that it won't provide support for Linux on Cloverview family of Atom systems-on-a-chip.^[75]

]

In May 2011, Intel announced an accelerated roadmap for Atom SoC. The 22 nm Silvermont microarchitecture was scheduled for 2013 release, and release of the14 nm Airmont microarchitecture was scheduled for 2014.^[77]

It has been reported that Silvermont-based Atom SoCs will be codenamed Tangier (Merrifield smartphones), Valleyview (Baytrail tablets),^[81]

Other upcoming Silvermont-based Atom SoCs include Rangeley^[83] (part of Edisonville platform).

Airmont-based Atom platforms will be codenamed Moorefield (smartphones)^[87] SoCs.

Goldmont-based Atom platforms will be codenamed Morganfield (smartphones) and Willow Trail (tablets) using the Broxton SoC.^[84]

]

Intel 80386EX: One of Intel's first SoCs
Tolapai: an earlier Intel SoC that was not marketed as Atom
Ax by Apple
Exynos by Samsung
NovaThor by ST-Ericsson
OMAP by Texas Instruments
Snapdragon by Qualcomm
Tegra by Nvidia

]

Mobile Internet device#Intel MID platforms
Tablet computer#Intel tablet platforms
Mobile Internet device
List of Intel Atom microprocessors
Bonnell and Saltwell microarchitectures
Silvermont and Airmont microarchitectures
Comparison of Intel graphics processing units
Allwinner
Rockchip
MIPS architecture

http://en.wikipedia.org/wiki/List_of_Intel_Atom_microprocessors

List of Intel Atom microprocessors

From Wikipedia, the free encyclopedia

Main article: Intel Atom

The Intel Atom is Intel's line of low-power, low-cost and low-performance x86 and x86-64 microprocessors. Atom, with codenames of Silverthorne andDiamondville, was first announced on March 2, 2008.

For Nettop and Netbook Atom microprocessors after Diamondville, the memory and graphics controller are moved from the northbridge to the CPU. This explains the drastically increased transistor count for post-Diamondville Atom microprocessors.

[hide]

1 Nettop processors (small desktop)
- 1.1 Single-core Nettop processors
  - 1.1.1 "Diamondville" (45 nm)
  - 1.1.2 "Pineview" (45 nm)
- 1.2 Dual-core Nettop processors
2 Netbook processors (sub-notebook)
- 2.1 Single-core Netbook processors
- 2.2 Dual-core Netbook processors
  - 2.2.1 "Pineview" (45 nm)
  - 2.2.2 "Cedarview" (32 nm)
3 MID processors/SoCs (UMPC/Smartphone)
- 3.1 Single-core MID processors
  - 3.1.1 "Silverthorne" (45 nm)
  - 3.1.2 "Lincroft" (45 nm)
- 3.2 Single-core MID SoCs
  - 3.2.1 "Penwell" (32 nm)
4 Tablet processors/SoCs
5 Embedded processors/SoCs
6 Server SoCs
7 CE SoCs
- 7.1 Single-core CE SoCs
  - 7.1.1 "Sodaville" (45 nm)
  - 7.1.2 "Groveland" (45 nm)
- 7.2 Dual-Core CE SoCs
  - 7.2.1 "Berryville" (32 nm)
8 See also
9 References
10 External links

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, XD bit (an NX bit implementation), hyper-threading
These models do not support Intel VT-x or SSE4.
Transistors: 47 million
Die size: 25.96 mm² (3.27 × 7.94)
Package size: 22 mm × 22 mm
Steppings: C0

Model number	sSpec number	Frequency	L2 cache	FSB	Mult.	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom 230	SLB6Z (C0)	1.6 GHz	512 KB	533 MT/s	12×	0.9–1.1625 V	4 W	BGA 437	June 3, 2008	AU80586RE025D	$29

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, XD bit (an NX bit implementation), hyper-threading
These models do not support Intel VT-x or SSE4.
GMA 3150 GPU and memory controller are integrated into the processor.
Transistors: 123 million
Die size: 66 mm² (9.56 × 6.89)
Package size: 22 mm × 22 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom D410	SLBMH (A0)	1.67 GHz	400 MHz	512 KB	DMI	1 × DDR2-800	0.8–1.175 V	10 W	FC-BGA 559	January 4, 2010	AU80610004671AA	$43
Atom D425	SLBXD (A0)	1.83 GHz	400 MHz	512 KB	DMI	1 × DDR2-800 1 × DDR3-800	0.8–1.175 V	10 W	FC-BGA 559	June 21, 2010	AU80610006252AA	$42

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, XD bit (an NX bit implementation), hyper-threading
These models do not support Intel VT-x or SSE4.
Transistors: 2 × 47 million
Die size: 2 × 25.96 mm²
Package size: 22 mm × 22 mm
Steppings: C0

Model number	sSpec number	Frequency	L2 cache	FSB	Mult.	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom 330	SLG9Y (C0)	1.6 GHz	2 × 512 KB	533 MT/s	12×	0.9–1.1625 V	8 W	BGA 437	June 3, 2008	AU80587RE0251M	$43

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, XD bit (an NX bit implementation), hyper-threading
These models do not support Intel VT-x or SSE4.
GMA 3150 GPU and memory controller are integrated into the processor.
Transistors: 176 million
Die size: 87 mm² (9.56 × 9.06)
Package size: 22 mm × 22 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom D510	SLBLA (B0)	1.67 GHz	400 MHz	2 × 512 KB	DMI	1 × DDR2-800	0.8–1.175 V	13 W	FC-BGA 559	December 21, 2009	AU80610004392AA	$63
Atom D525	SLBXC (B0)	1.83 GHz	400 MHz	2 × 512 KB	DMI	1 × DDR2-800 1 × DDR3-800	0.8–1.175 V	13 W	FC-BGA 559	June 21, 2010	AU80610006225AA	$63

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, XD bit (an NX bit implementation), hyper-threading (D2550, D2560, D2700 only), Intel VT-x (D2560 only)
These models do not support SSE4.
Intel GMA 3600/GMA 3650 GPU and memory controller are integrated into the processor.
Transistors: ?
Die size: ?
Package size: 22 mm × 22 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom D2500	SR0D8 (B2) SR0W0 (B3)	1.87 GHz	400 MHz	2 × 512 KB	DMI	1 × DDR3-800 1 × DDR3-1066	0.91–1.21 V	10 W	FC-BGA 559	November, 2011	DF8064101055400	$42
Atom D2550	SR0QB (B2) SR0VY (B3)	1.87 GHz	640 MHz	2 × 512 KB	DMI	1 × DDR3-800 1 × DDR3-1066	0.91–1.21 V	10 W	FC-BGA 559	March, 2012	DF8064101211300	$47
Atom D2560	SR0QD (B2) SR0W4 (B3)	2 GHz	640 MHz	2 × 512 KB	DMI	1 × DDR3-800 1 × DDR3-1066	0.91–1.21 V	10 W	FC-BGA 559	October, 2012	DF8064101213700	$47
Atom D2700	SR0D9 (B2)	2.13 GHz	640 MHz	2 × 512 KB	DMI	1 × DDR3-800 1 × DDR3-1066	0.91–1.21 V	10 W	FC-BGA 559	November, 2011	DF8064101055647	$52

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation), hyper-threading
These models do not support Intel 64, Intel VT-x, or SSE4.
Transistors: 47 million
Die size: 26 mm²
Package size: 22 mm × 22 mm
Steppings: C0

Model number	sSpec number	Frequency	L2 cache	FSB	Mult.	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom N270	SLB73 (C0)	1.6 GHz	512 KB	533 MT/s	12×	0.9–1.1625 V	2.5 W	BGA 437	June 3, 2008	AU80586GE025D	$44
Atom N280	SLGL9 (C0)	1.67 GHz	512 KB	667 MT/s	10×	0.9–1.1625 V	2.5 W	BGA 437	February 6, 2009	AU80586GF028D

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation), hyper-threading
These models do not support Intel VT-x or SSE4 and are limited to 2GB of memory.
Graphics GMA 3150 and memory controller are integrated into the processor, but graphics sometimes disabled in favor of discrete video chip.
Transistors: 123 million (a significant number of these are from the memory controller and GMA 3150)
Die size: 66 mm²
Package size: 22 mm × 22 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom N435	SLC4C (A0)	1.33 GHz	200 MHz	512 KB	DMI	1 × DDR2-667 1 × DDR3-800	0.8–1.175 V	5.0 W	FC-BGA 559	June 2011	AU80610007533AA
Atom N450	SLBMG (A0)	1.67 GHz	200 MHz	512 KB	DMI	1 × DDR2-667	0.8–1.175 V	5.5 W	FC-BGA 559	December 21, 2009	AU80610004653AA	$63
Atom N455	SLBX9 (A0)	1.67 GHz	200 MHz	512 KB	DMI	1 × DDR2-800 1 × DDR3-800	0.8–1.175 V	6.5 W	FC-BGA 559	June 1, 2010	AU80610006237AA	$75
Atom N470	SLBMF (A0)	1.83 GHz	200 MHz	512 KB	DMI	1 × DDR2-667	0.8–1.175 V	6.5 W	FC-BGA 559	March 1, 2010	AU80610003495AA	$75
Atom N475	SLBX5 (A0)	1.83 GHz	200 MHz	512 KB	DMI	1 × DDR2-800 1 × DDR3-800	0.8–1.175 V	6.5 W	FC-BGA 559	June 1, 2010	AU80610006240AA	$75

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation), hyper-threading
These models do not support Intel VT-x or SSE4.
Graphics GMA 3600 and memory controller are integrated into the processor.
Transistors: ? million
Die size: ?
Package size: ?

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom N2100	SR0DC (B2)	1.6 GHz	400 MHz	2 × 512 KB	DMI	1 × DDR3-800			FC-BGA 559		DF8064101064902

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, hyper-threading, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation)
These models do not support SSE4 and Intel VT-x!^[1]
GMA 3150 GPU and memory controller are integrated into the processor die
Transistors: 176 million
Die size: 87 mm²
Package size: 22 mm × 22 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom N550	SLBXF (B0)	1.5 GHz	200 MHz	2 × 512 KB	DMI	1 × DDR2-800 1 × DDR3-800	0.8–1.175 V	8.5 W	FC-BGA 559	August 23, 2010	AU80610006291AA	$86
Atom N570	SLBXE (B0)	1.67 GHz	200 MHz	2 × 512 KB	DMI	1 × DDR2-800 1 × DDR3-800	0.8–1.175 V	8.5 W	FC-BGA 559	March 1, 2011	AU80610006243AA	$86

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Intel 64, hyper-threading, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation)
These models do not support Intel VT-x or SSE4.
Die size: ? mm²
Intel GMA 3600/GMA 3650 GPU and memory controller are integrated into the processor.
Transistors: ? million
Package size: 22 × 22 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom N2600	SR0DB (B2) SR0W2 (B3)	1.6 GHz	400 MHz	2 × 512 KB	DMI	1 × DDR3-800	0.91–1.21 V	3.5 W	FC-BGA 559	December, 2011	DF8064101050706	$42
Atom N2800	SR0DA (B2) SR0W1 (B3)	1.87 GHz	640 MHz	2 × 512 KB	DMI	1 × DDR3-1066	0.91–1.21 V	6.5 W	FC-BGA 559	December, 2011	DF8064101050503	$47

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation)
Models Z520, Z520PT, Z530, Z530P, Z540 and Z550 support Hyper-Threading and Intel VT-x
Models Z500, Z510P, Z510PT, and Z515 support Hyper-Threading only
Model Z515 supports Intel Burst Performance Technology
Transistors: 47 million
Die size: 26 mm²
Package size: 13 mm × 14 mm / 22 mm × 22 mm(Processors ending with the P or PT sSpec number)
Steppings: C0

Model number	sSpec number	Frequency	L2 cache	FSB	Mult.	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom Z500	SLB6Q (C0)	800 MHz	512 KB	400 MT/s	8×	0.712–1.1 V	0.65 W	BGA 441	April 2, 2008	AC80566UC800DE	$45
Atom Z510	SLB2C (C0)	1.1 GHz	512 KB	400 MT/s	11×	0.75–1.1 V	2 W	BGA 441	April 2, 2008	AC80566UC005DE	$45
Atom Z510P	SLGPQ (C0)	1.1 GHz	512 KB	400 MT/s	11×	0.8–1.1 V	2.2 W	BGA 437	March 2, 2009	CH80566EC005DW	N/A
Atom Z510PT	SLGPR (C0)	1.1 GHz	512 KB	400 MT/s	11×	0.75–1.1 V	2.2 W	BGA 437	March 2, 2009	CH80566EC005DT	N/A
Atom Z515	SLGMG (C0)	1.2 GHz	512 KB	400 MT/s	12×	0.712–1 V	1.4 W	BGA 441	April 8, 2009	AC80566UC009DV	N/A
Atom Z520	SLB2H (C0)	1.33 GHz	512 KB	533 MT/s	10×	0.75–1.1 V	2 W	BGA 441	April 2, 2008	AC80566UE014DW	$65
Atom Z520PT	SLGPP (C0)	1.33 GHz	512 KB	533 MT/s	10×	0.9–1.1 V	2.2 W	BGA 437	March 2, 2009	CH80566EE014DT	N/A
Atom Z530	SLB6P (C0)	1.6 GHz	512 KB	533 MT/s	12×	0.75–1.1 V	2 W	BGA 441	April 2, 2008	AC80566UE025DW	$95
Atom Z530P	SLGPN (C0)	1.6 GHz	512 KB	533 MT/s	12×	0.8–1.1 V	2.2 W	BGA 437	March 2, 2009	CH80566EE025DW	N/A
Atom Z540	SLB2M (C0)	1.87 GHz	512 KB	533 MT/s	14×	0.75–1.1 V	2.4 W	BGA 441	April 2, 2008	AC80566UE036DW	$160
Atom Z550	SLGPT (C0)	2 GHz	512 KB	533 MT/s	15×	0.75–1.1 V	2.4 W	BGA 441	April 8, 2009	AC80566UE041DW	$249.47 retail
Atom Z560	SLH63 (C0)	2.13 GHz	512 KB	533 MT/s	16×	0.75–1.1 V	2.5 W	BGA 441	Q2 2010	AC80566UE046DW	$144

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation), Hyper-Threading. All except Z605 support Intel Burst Performance Technology (BPT).
GMA 600 GPU and memory controller are integrated onto the processor die
Transistors: 140 million
Die size: 7.34 mm × 8.89 mm = 65.2526 mm²
Package size: 13.8 mm × 13.8 × 1.0 mm
Steppings: C0

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)
Atom Z600	SLBZP (C0) SLBR9	1.2 GHz	200 MHz	512 KB	DMI	1 × LPDDR-400	0.7625–1.1 V	1.3 W	FC-BGA 518	May 4, 2010	AY80609004002AC
Atom Z605	SLC3C (C0) SLBSA SLC3C	1 GHz	N/A	512 KB	DMI	1 × DDR-400 1 × DDR2-800		2.2 W	FC-BGA 518	May 4, 2010	AY80609005805AA
Atom Z610	SLBZQ (C0) SLBS7	800 MHz	N/A	512 KB	DMI	1 × DDR-400 1 × DDR2-800		1.3 W	FC-BGA 518	May 4, 2010	AY80609005793AA
Atom Z612	SLBZN (C0) SLBS8	900 MHz	N/A	512 KB	DMI	1 × DDR-400 1 × DDR2-800		1.3 W	FC-BGA 518	May 4, 2010	AY80609003042AC
Atom Z615	SLBZL (C0) SLBS9	1.6 GHz	400 MHz	512 KB	DMI	1 × DDR2-800	0.7625–1.1 V	2.2 W	FC-BGA 518	May 4, 2010	AY80609005802AA
Atom Z620	SLBZE (C0) SLBR8	900 MHz	N/A	512 KB	DMI	1 × DDR-400 1 × DDR2-800		1.3 W	FC-BGA 518	May 4, 2010	AY80609003996AC
Atom Z625	SLBZD (C0) SLBR7	1.9 GHz	400 MHz	512 KB	DMI	1 × DDR2-800	0.7625–1.1 V	2.2 W	FC-BGA 518	May 4, 2010	AY80609003987AB

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation), All support Intel Burst Performance Technology (BPT).
Model Z2610 supports Hyper-Threading
GPU and memory controller are integrated onto the processor die
Package size: 12 mm × 12 × 1.0 mm
Steppings: D1
Currently used in the Motorola RAZR i smartphone.

Model number	sSpec number	Frequency	GPU frequency	L2 cache	Memory	Socket	Release date	Part number(s)
Atom Z2420	SR0YF (D1) SR0Z5 (D1)	1.2 GHz	400 MHz	512 KB	2 × LPDDR2-400	BGA617	January 2013	DG8064001195908
Atom Z2460	SR0PR (D1) SR0PS (D1) SR0PV (D1) SR0TM (D1) SR0U6 (D1) SR0VZ (D1) SR114 (D1) SR118 (D1)	1.3-1.6 GHz	400 MHz	512 KB	2 × LPDDR2-400	BGA617	January 2012	DG8064001211503 DG8064001194903 DG8064001195902 DG8064001195703
Atom Z2480	SR0U7 (D1) SR0ZK (D1) SR111 (D1) SR117 (D1)	1.3-2.0 GHz	400 MHz	512 KB	2 × LPDDR2-400	BGA617	Q4 2012	DG8064001195906
Atom Z2610	SR0PT (D1)	1.3-1.6 GHz	400 MHz	512 KB	2 × LPDDR2-400	BGA617	Q2 2012	DG8064001196004

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation), Hyper-Threading. All except Z605 support Intel Burst Performance Technology (BPT).
GMA 600 GPU and memory controller are integrated onto the processor die
Transistors: 140 million
Die size: 7.34 mm × 8.89 mm = 65.2526 mm²
Package size: 13.8 mm × 13.8 × 1.0 mm
Steppings: C0

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom Z650	SLC2Q (C0)	1.2 GHz	400 MHz	512 KB	DMI	1 × DDR2-800	1.1125–1.5 V	3 W	FC-BGA 518	April 11, 2011	AY80609007296AA
Atom Z670	SLC2P (C0)	1.5 GHz	400 MHz	512 KB	DMI	1 × DDR2-800	1.1125–1.5 V	3 W	FC-BGA 518	April 11, 2011	AY80609007293AA	$75

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), XD bit (an NX bit implementation), Hyper-Threading, Intel Burst Performance Technology (BPT).
GPU and memory controller are integrated onto the processor die
Package size: 13.8 mm × 13.8 × 1.0 mm
Steppings: C0

Model number	sSpec number	Frequency	GPU frequency	L2 cache	Memory	Voltage	Socket	Release date	Part number(s)	Release price (USD)
Atom Z2520		1.2 GHz	300 MHz	1 MB	2 × LPDDR2-1066			February 25, 2013
Atom Z2560		1.6 GHz	400 MHz	1 MB	2 × LPDDR2-1066	0.3–1.2 V		February 25, 2013
Atom Z2580	SR12U (C0) SR12V (C0)	2.0 GHz	400 MHz	1 MB	2 × LPDDR2-1066	0.3–1.2 V	FC-MB4760	February 25, 2013	DG8065101418902
Atom Z2760	SR0WW (C0) SR0Z4 (C0)	1.8 GHz	533 MHz	1 MB	2 × LPDDR2-800		FC-MB4760	September 27, 2012	DG8065001313500	$41

No official TDP available. For power data see [1] page 129-130.

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel 64, XD bit (an NX bit implementation), Intel Burst Performance Technology (BPT), Intel VT-x, AES-NI.
GPU and memory controller are integrated onto the processor die
GPU is based on Ivy Bridge Intel HD Graphics, with 4 execution units, and supports DirectX 11, OpenGL 4.0, OpenGL ES 3.0 and OpenCL 1.1 (on Windows).
Package size: 17 mm × 17 × 1.0 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	Memory	Socket	Release date	Part number(s)	Release price (USD)
Atom Z3740	SR1M5 (B2)	1.33-1.86 GHz	311-667 MHz	2 MB	2 × LPDDR3-1066	UTFCBGA1380	September 11, 2013	FH8065301455601	$32
Atom Z3740D	SR1M9 (B2)	1.33-1.86 GHz	313-688 MHz	2 MB	1 × DDR3L-1333	UTFCBGA1380	September 11, 2013	FH8065301574801	$32
Atom Z3770	SR1M3 (B2)	1.46-2.39 GHz	311-667 MHz	2 MB	2 × LPDDR3-1066	UTFCBGA1380	September 11, 2013	FH8065301455604	$37
Atom Z3770D	SR1M7 (B2)	1.5-2.41 GHz	313-688 MHz	2 MB	1 × DDR3L-1333	UTFCBGA1380	September 11, 2013	FH8065301574800	$37

]

CPU core supports IA-32 architecture, MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), hyper-threading, Intel VT-x. It has 32K L1 Instruction Cache, 24K L1 Data Cache, 512K L2 Cache.
Peripherals include GMA 600 GPU (two video outputs), memory controller (2GB max), HD Audio controller, SPI controller, 4 channels of PCI Express ×1, and various legacy devices.^[2]
Package size: 22 mm × 22 mm
Steppings: B0
Temperature range: for (E620, E640, E660, E680): 0°C to +70°C, for (E620T, E640T, E660T, E680T): -40°C to +85°C.

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom E620	SLH56 (B0) SLJ32 (B1)	600 MHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.3 W	FC-BGA 676	September 14, 2010	CT80618005844AA	$19
Atom E620T	SLH5N (B0) SLJ36 (B1)	600 MHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.3 W	FC-BGA 676	September 14, 2010	CT80618005844AB	$22
Atom E640	SLH55 (B0) SLJ33 (B1)	1 GHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 676	September 14, 2010	CT80618005841AA	$29
Atom E640T	SLH5M (B0) SLJ37 (B1)	1 GHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 676	September 14, 2010	CT80618005841AB	$37
Atom E660	SLH54 (B0) SLJ34 (B1)	1.3 GHz	400 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 676	September 14, 2010	CT80618003201AA	$54
Atom E660T	SLH5L (B0) SLJ38 (B1)	1.3 GHz	400 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 676	September 14, 2010	CT80618003201AB	$64
Atom E680	SLH94 (B0) SLJ35 (B1)	1.6 GHz	400 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	4.5 W	FC-BGA 676	September 14, 2010	CT80618007035AA	$74
Atom E680T	SLH95 (B0) SLJ39 (B1)	1.6 GHz	400 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	4.5 W	FC-BGA 676	September 14, 2010	CT80618007035AB	$85

]

"Tunnel Creek" CPU with an Altera Field Programmable Gate Array (FPGA)
CPU core supports IA-32 architecture, MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), hyper-threading, Intel VT-x. It has 32K L1 Instruction Cache, 24K L1 Data Cache, 512K L2 Cache.
Peripherals include graphics controller (two video outputs), memory controller (2GB max), HD Audio controller, SPI controller, 4 channels of PCI Express ×1, and various legacy devices.^[4]
Package size: 37.5 mm × 37.5 mm
Steppings: B0
TDP without FPGA. Total package TDP depends on functions included in FPGA. Max. TDP 7 W.
Temperature range: for (E625C, E645C, E665C): 0°C to +70°C, for (E625CT, E645CT, E665CT): -40°C to +85°C.

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom E625C	SLH9Z (B0)	600 MHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	2.7 W	FC-BGA 1466	November 22, 2010	CY80632007227AB	$61
Atom E625CT	SLH9K (B0)	600 MHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	2.7 W	FC-BGA 1466	November 22, 2010	CY80632007227AA	$65
Atom E645C	SLH9Y (B0)	1 GHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 1466	November 22, 2010	CY80632007221AB	$72
Atom E645CT	SLH9J (B0)	1 GHz	320 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 1466	November 22, 2010	CY80632007221AA	$79
Atom E665C	SLH9X (B0)	1.3 GHz	400 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 1466	November 22, 2010	CY80632007224AB	$97
Atom E665CT	SLH9H (B0)	1.3 GHz	400 MHz	512 KB	PCIe	1 × DDR2-800	0.8–1.175 V	3.6 W	FC-BGA 1466	November 22, 2010	CY80632007224AA	$106

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel 64, XD bit (an NX bit implementation), Intel VT-x, AES-NI,ECC memory.
GPU and memory controller are integrated onto the processor die
GPU is based on Ivy Bridge Intel HD Graphics, with 4 execution units, and supports 2 displays, DirectX 11, OpenGL 4.0, OpenGL ES 3.0 and OpenCL 1.1 (on Windows).
Peripherals include USB 2.0, HD Audio controller, SATA with 2 ports, UART, and 4 lanes of PCI Express 2.0, in x4, x2, and x1 configurations.
Package size: 25 mm × 27 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom E3815	SR1RA (B3)	1.46 GHz	400 MHz	512 KB	PCIe 2.0	1 × DDR3L-1066		5 W	FC-BGA 1170	October 2013	FH8065301567411	$31

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel 64, XD bit (an NX bit implementation), Intel VT-x, AES-NI,ECC memory.
GPU and memory controller are integrated onto the processor die
GPU is based on Ivy Bridge Intel HD Graphics, with 4 execution units, and supports 2 displays, DirectX 11, OpenGL 4.0, OpenGL ES 3.0 and OpenCL 1.1 (on Windows).
Peripherals include USB 2.0, HD Audio controller, SATA with 2 ports, UART, and 4 lanes of PCI Express 2.0, in x4, x2, and x1 configurations.
Package size: 25 mm × 27 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom E3825	SR1RB (B3)	1.33 GHz	533 MHz	2 × 512 KB	PCIe 2.0	1 × DDR3L-1066	6 W	FC-BGA 1170	October 2013	FH8065301567311	$34
Atom E3826	SR1RC (B3)	1.46 GHz	533 MHz	2 × 512 KB	PCIe 2.0	2 × DDR3L-1066	7 W	FC-BGA 1170	October 2013	FH8065301542213	$37
Atom E3827	SR1RD (B3)	1.75 GHz	542 MHz	2 × 512 KB	PCIe 2.0	2 × DDR3L-1333	8 W	FC-BGA 1170	October 2013	FH8065301487916	$41

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel 64, XD bit (an NX bit implementation), Intel VT-x, AES-NI,ECC memory.
GPU and memory controller are integrated onto the processor die
GPU is based on Ivy Bridge Intel HD Graphics, with 4 execution units, and supports 2 displays, DirectX 11, OpenGL 4.0, OpenGL ES 3.0 and OpenCL 1.1 (on Windows).
Peripherals include USB 2.0, HD Audio controller, SATA with 2 ports, UART, and 4 lanes of PCI Express 2.0, in x4, x2, and x1 configurations.
Package size: 25 mm × 27 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom E3845	SR1RE (B3)	1.91 GHz	542 MHz	4 × 512 KB	PCIe 2.0	1 × DDR3L-1333		10 W	FC-BGA 1170	October 2013	FH8065301487715	$52

]

All Atom server processors include ECC support.

]

Steppings: B1

Model number	sSpec number	Frequency	GPU frequency	L2 cache	Memory	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom S1220	SLK2K (B1)	1.6 GHz	N/A	2 × 512 KB	DDR3-1333	8.1 W	FC-BGA 1283	December 11, 2012	DH80S1220	$54
Atom S1240	SLK2J (B1)	1.6 GHz	N/A	2 × 512 KB	DDR3-1333	6.1 W	FC-BGA 1283	December 11, 2012	DH80S1240	$64
Atom S1260	SLK2H (B1)	2.0 GHz	N/A	2 × 512 KB	DDR3-1333	8.5 W	FC-BGA 1283	December 11, 2012	DH80S1260	$64

]

Steppings: B1

Model number	sSpec number	Frequency	GPU frequency	L2 cache	Memory	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom S1269	SLK2G (B1)	1.6 GHz	N/A	2 × 512 KB	DDR3-1333	11.7 W	FC-BGA 1283	Q2 2013	DH80S1269	$80
Atom S1279	SLK2F (B1)	1.6 GHz	N/A	2 × 512 KB	DDR3-1333	13.1 W	FC-BGA 1283	Q2 2013	DH80S1279	$103
Atom S1289	SLK2E (B1)	2.0 GHz	N/A	2 × 512 KB	DDR3-1333	14.1 W	FC-BGA 1283	Q2 2013	DH80S1289	$120

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel Turbo Boost, XD bit (an NX bit implementation), Intel VT-x, AES-NI, ECC memory.
SoC peripherals include 4 × USB 2.0, 2 × SATA, 2 × Integrated GbE LAN, 2 × UART, and 4 lanes of PCI Express 2.0, in x4, x2, and x1 configurations.
Package size: 34 mm × 28 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom C2350	SR1CV (B0)	1.7 - 2.0 GHz	N/A	2 × 512 KB	PCIe 2.0	DDR3/3L-1333		6 W	FC-BGA 1283	September 2013	FH8065401488914

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel Turbo Boost, Intel 64, XD bit (an NX bit implementation),Intel VT-x, AES-NI, ECC memory.
C2358 supports Intel QuickAssist Technology (cryptography accelerator)
SoC peripherals include 4 × USB 2.0, 4-6 × SATA, 4 × Integrated GbE LAN, 2 × UART, and 8 lanes of PCI Express 2.0, in x2 and x1 configurations.
Package size: 34 mm × 28 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom C2338	SR1S8 (B0)	1.7 - 2.0 GHz	N/A	2 × 512 KB	PCIe 2.0	DDR3/3L-1333		7 W	FC-BGA 1283	September 2013	FH8065501516761	$49
Atom C2358	SR1D2 (B0)	1.7 - 2.0 GHz	N/A	2 × 512 KB	PCIe 2.0	DDR3/3L-1333		7 W	FC-BGA 1283	September 2013	FH8065501516711

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel Turbo Boost, XD bit (an NX bit implementation), Intel VT-x, AES-NI, ECC memory.
SoC peripherals include 4 × USB 2.0, 2 (C2530) or 6 (C2550) × SATA, 2 × Integrated GbE LAN, 2 × UART, and 8 lanes of PCI Express 2.0, in x8, x4, x2, and x1 configurations.
Package size: 34 mm × 28 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom C2530	SR1CU (B0)	1.7 - 2.0 GHz	N/A	4 × 512 KB	PCIe 2.0	DDR3/3L-1333		9 W	FC-BGA 1283	September 2013	FH8065401488915
Atom C2550	SR1CT (B0)	2.4 - 2.6 GHz	N/A	4 × 512 KB	PCIe 2.0	DDR3/3L-1600		14 W	FC-BGA 1283	September 2013	FH8065401488912

]

All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel 64, XD bit (an NX bit implementation), Intel VT-x, AES-NI,ECC memory.
C2518, C2558 support Intel QuickAssist Technology (cryptography accelerator)
SoC peripherals include 4 × USB 2.0, 6 × SATA, 4 × Integrated GbE LAN, 2 × UART, and 16 lanes of PCI Express 2.0, in x16, x8, x4, x2, and x1 configurations.
Package size: 34 mm × 28 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom C2518	SR1D1 (B0)	1.7 GHz	N/A	4 × 512 KB	PCIe 2.0	DDR3/3L-1333	13 W	FC-BGA 1283	September 2013	FH8065501516710	$75
Atom C2538	SR1S9 (B0)	2.4 GHz	N/A	4 × 512 KB	PCIe 2.0	DDR3/3L-1600	15 W	FC-BGA 1283	September 2013	FH8065501516762	$86
Atom C2558	SR1CZ (B0)	2.4 GHz	N/A	4 × 512 KB	PCIe 2.0	DDR3/3L-1600	15 W	FC-BGA 1283	September 2013	FH8065501516709	$86

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All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel Turbo Boost, XD bit (an NX bit implementation), Intel VT-x, AES-NI, ECC memory.
C2730 SoC peripherals include 4 × USB 2.0, 2 × SATA, 2 × Integrated GbE LAN, 2 × UART, and 8 lanes of PCI Express 2.0, in x8, x4, x2, and x1 configurations.
C2750 SoC peripherals include 4 × USB 2.0, 6 × SATA, 4 × Integrated GbE LAN, 2 × UART, and 16 lanes of PCI Express 2.0, in x16, x8, x4, x2, and x1 configurations.
Package size: 34 mm × 28 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	Voltage	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom C2730	SR1CR (B0)	1.7 - 2.0 GHz	N/A	8 × 512 KB	PCIe 2.0	DDR3/3L-1333		12 W	FC-BGA 1283	September 2013	FH8065401488919	$150
Atom C2750	SR1CS (B0)	2.4 - 2.6 GHz	N/A	8 × 512 KB	PCIe 2.0	DDR3/3L-1600		20 W	FC-BGA 1283	September 2013	FH8065401488906	$171

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All models support: MMX, SSE, SSE2, SSE3, SSSE3, Enhanced Intel SpeedStep Technology (EIST), Intel 64, XD bit (an NX bit implementation), Intel VT-x, AES-NI,ECC memory.
C2718, C2758 support Intel QuickAssist Technology (cryptography accelerator)
SoC peripherals include 4 × USB 2.0, 6 × SATA, 4 × Integrated GbE LAN, 2 × UART, and 16 lanes of PCI Express 2.0, in x16, x8, x4, x2, and x1 configurations.
Package size: 34 mm × 28 mm

Model number	sSpec number	Frequency	GPU frequency	L2 cache	I/O bus	Memory	TDP	Socket	Release date	Part number(s)	Release price (USD)
Atom C2718	SR1CY (B0)	2.0 GHz	N/A	8 × 512 KB	PCIe 2.0	DDR3/3L-1333	18 W	FC-BGA 1283	September 2013	FH8065501516708	$150
Atom C2738	SR1SA (B0)	2.4 GHz	N/A	8 × 512 KB	PCIe 2.0	DDR3/3L-1600	20 W	FC-BGA 1283	September 2013	FH8065501516763	$171
Atom C2758	SR1CW (B0)	2.4 GHz	N/A	8 × 512 KB	PCIe 2.0	DDR3/3L-1600	20 W	FC-BGA 1283	September 2013	FH8065501516702	$171

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^[5]

Package size: 27 mm × 27 mm
GPU (based on the PowerVR SGX535 from Imagination Technologies)

Model number	Frequency	GPU frequency	L2 cache	TDP	Socket	Release date
Atom CE4110	1200 MHz	200 MHz	512	7 W	FC-BGA 951	September 24, 2009
Atom CE4130	1200 MHz	200 MHz	512	7 W	FC-BGA 951
Atom CE4150	1200 MHz	400 MHz	512	7 W	FC-BGA 951
Atom CE4170	1600 MHz	400 MHz	512		FC-BGA 951

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CE4200^[6]

Package size: ?? mm × ?? mm
GPU (based on the PowerVR SGX535 from Imagination Technologies)

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^[9]

Package size: ?? mm × ?? mm
GPU for 3D (based on the PowerVR SGX545 from Imagination Technologies)
GPU for 2D (GC300 from Vivanti)

Model number	Frequency	GPU frequency	Memory	TDP
Atom CE5310	1200 MHz	? MHz	DDR3-1600
Atom CE5315	1200 MHz	? MHz	DDR3-1600	10–15 W
Atom CE5318	1200 MHz	? MHz	DDR3-1600
Atom CE5320	1200 MHz	? MHz	DDR3-1600
Atom CE5328	1200 MHz	? MHz	DDR3-1600
Atom CE5338	1800 MHz	? MHz	DDR3-1600
Atom CE5343	1800 MHz	? MHz	DDR3-1600
Atom CE5348	1800 MHz	? MHz	DDR3-1600

Intel processor brand names-Xeon,Core,Pentium,Celeron----Atom Intel Atom Atom (system on chip) List of Intel Atom microprocessors

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Atom (system on chip)

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List of Intel Atom microprocessors

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