|Launched||2008–2009 (as Centrino Atom) |
2008–present (as Atom)
|Max. CPU clock rate||600 MHz to 2.6 GHz|
|FSB speeds||400 MHz to 667 MHz|
|Architecture and classification|
|Min. feature size||45 nm to 10 nm|
|Instruction set||MMX, SSE, SSE2, SSE3, SSSE3, SSE4, SSE4.1, SSE4.2|
VT-x, AES-NI, RDRAND, SHA
IA-32, x86-64 (not for the N2xx and Z5xx series)
|Products, models, variants|
Intel Atom is the brand name for a line of IA-32 and x86-64 instruction set ultra-low-voltage microprocessors by Intel Corporation designed to reduce electric consumption and power dissipation in comparison with ordinary processors of the Intel Core series. Atom is mainly used in netbooks, nettops, embedded applications ranging from health care to advanced robotics, and mobile Internet devices (MIDs). The line was originally designed in 45 nm complementary metal–oxide–semiconductor (CMOS) technology and subsequent models, codenamed Cedar, used a 32 nm process.
The first generation of Atom processors are based on the Bonnell microarchitecture. On December 21, 2009, Intel announced the Pine Trail platform, including new Atom processor code-named Pineview (Atom N450), with total kit power consumption down 20%. On December 28, 2011, Intel updated the Atom line with the Cedar processors.
In December 2012, Intel launched the 64-bit Centerton family of Atom CPUs, designed specifically for use in servers. Centerton adds features previously unavailable in Atom processors, such as Intel VT virtualization technology and support for ECC memory. On September 4, 2013 Intel launched a 22 nm successor to Centerton, codenamed Avoton.
In 2012, Intel announced a new system on chip (SoC) platform designed for smartphones and tablets which would use the Atom line of CPUs. It was a continuation of the partnership announced by Intel and Google on September 13, 2011 to provide support for the Android operating system on Intel x86 processors. This range competed with existing SoCs developed for the smartphone and tablet market from companies like Texas Instruments, Nvidia, Qualcomm and Samsung.
On April 29, 2016, Intel announced the decision to cancel the Broxton SoC for smartphones and tablets. Broxton was to use the newest Atom microarchitecture (Goldmont on a 14 nm node) in combination with an Intel modem. Apollo Lake, announced early the same month for low-cost entry PCs, will continue using Atom cores.
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 3 W TDP (Thermal Design Power). Prior to the Silverthorne announcement, outside sources had speculated that Atom would compete with AMD's Geode system-on-a-chip processors, used by the One Laptop per Child (OLPC) project, and other cost and power sensitive applications for x86 processors. However, Intel revealed on October 15, 2007 that it was developing another new mobile processor, codenamed Diamondville, for OLPC-type devices.
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 was to be used in Intel mobile Internet devices (MIDs) whereas Diamondville was to be used in low-cost desktop and notebooks. Several Mini-ITX motherboard samples have also been revealed. Intel and Lenovo also jointly announced an Atom powered MID called the IdeaPad U8.
In April 2008, a MID development kit was announced by Sophia Systems and the first board called CoreExpress-ECO was revealed by a German company LiPPERT Embedded Computers, GmbH. Intel offers Atom based motherboards.
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 the use of the Atom in mission-critical server environments that demand redundancy and memory failure protection.
|MID / Ultra-mobile PC / Lifestyle PC|
|Silverthorne||Z5xx||single (45 nm)||Yes||200 MHz||0.65...2 W||No||No||No||Apr 2008|
|Lincroft||Z6xx||single (45 nm)||Yes||400 MHz||1.3...3 W||Yes||No||No||May 2010|
|Classmate PC / Netbook / Nettop / Lifestyle PC|
|Diamondville||N2xx||single (45 nm)||No||n/a||2.5 W||Yes||No||No||Jun 2008|
|2xx||4 W||Yes |
|3xx||dual (45 nm)||8 W||Sep 2008|
|Pineview||N4xx||single (45 nm)||Yes||200 MHz||6.5 W||Yes||Yes
|D4xx||400 MHz||10 W|
|N5xx||dual (45 nm)||200 MHz||8.5 W|
|D5xx||400 MHz||13 W|
|Cedarview||D2500||dual (32 nm)||Yes||400 MHz||10 W||No||Yes
|D2550||640 MHz||Yes||Mar 2012|
|D2700||640 MHz||Nov 2011|
|N2600||400 MHz||3.5 W||Dec 2011|
|N2800||640 MHz||6.5 W|
|Server / Storage|
|Centerton||S1220||dual (32 nm)||1.60 GHz||8.1 W||No||Dec 2012|
|S1240||1.60 GHz||6.1 W|
|S1260||2.00 GHz||8.6 W|
|Briarwood||S1269||1.60 GHz||11.7 W|
|S1279||1.60 GHz||13.1 W|
|S1289||2.00 GHz||14.1 W|
|Avoton||C2350||dual (22 nm)||1.70 GHz||2.00 GHz||6 W||No||2||4||Sep 2013|
|C2530||quad (22 nm)||1.70 GHz||2.40 GHz||9 W||2||2|
|C2550||2.40 GHz||2.60 GHz||14 W||6||4|
|C2730||octa (22 nm)||1.70 GHz||2.40 GHz||12 W||2||2|
|C2750||2.40 GHz||2.60 GHz||20 W||6||4|
|List of Intel Atom microprocessors|
Atom processors became available to system manufacturers in 2008. Because they are soldered onto a mainboard, like northbridges and southbridges, 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 Atom is used in the HP Mini Series, Asus N10, Lenovo IdeaPad S10, Acer Aspire One & Packard Bell's "dot" (ZG5), recent ASUS Eee PC systems, Sony VAIO M-series, AMtek Elego, Dell Inspiron Mini Series, Gigabyte M912, LG X Series, Samsung NC10, Sylvania g Netbook Meso, Toshiba NB series (100, 200, 205, 255, 300, 500, 505), MSI Wind PC netbooks, RedFox Wizbook 1020i, Sony Vaio X Series, Zenith Z-Book, a range of Aleutia desktops, Magic W3, Archos and the ICP-DAS LP-8381-Atom. The Pineview line is also used in multiple AAC devices for the disabled individual who is unable to speak and the AAC device assists the user in everyday communication with dedicated speech software.
Intel has applied the Atom branding to product lines targeting several different market segments, including: MID/UMPC/Smartphone, Netbook/Nettop, Tablet, Embedded, Wireless Base Stations (for 5G networking infrastructure), Microserver/Server and Consumer electronics.
Intel consumer electronic (CE) SoCs are marketed under the Atom brand. Prior to application of the Atom brand, there were number of Intel CE SoCs including: Olo River (CE 2110 which had an XScale ARM architecture) and Canmore (CE 3100 which like Stealey and Tolapai had a 90 nm Pentium M microarchitecture). Intel Atom CE branded SoCs include: Sodaville, Groveland, and Berryville.
Instruction set architecture
32-bit and 64-bit hardware support
All Atom processors implement the x86 (IA-32) instruction set; however, support for the AMD 64 instruction set was not added until the desktop Diamondville and desktop and mobile Pineview cores. The Atom N2xx and Z5xx series Atom models cannot run x86-64 code. The Centerton server processors will support the Intel 64 instruction set.
Intel 64 software support
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. As a result, the ability of an Atom-based system to run 64-bit versions of operating systems may vary from one motherboard to another. Online retailer mini-itx.com has tested Atom-based motherboards made by Intel and Jetway, and while they were able to install 64-bit versions of Linux on Intel-branded motherboards with D2700 (Cedarview; supports maximum of 4 GB memory DDR3-800/1066) processors, Intel 64 support was not enabled on a Jetway-branded motherboard with a D2550 (Cedarview) processor.
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 Pineview processors. However, no 64-bit Windows drivers are available for Intel Atom Cedarview processors, released Q3 2011. However, Intel's Bay Trail-M processors, built on the Silvermont microarchitecture and released in the second half of 2013, regain 64-bit support, although driver support for Linux and Windows 7 is limited at launch.
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 (Cedarview) 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. Some system manufacturers have similarly stated that their motherboards with Atom Cedarview processors lack 64-bit support due to a "lack of Intel® 64-bit VGA driver support". Because all Cedarview processors 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.
Those Atom processors are able to execute up to two instructions per cycle. Like many other x86 microprocessors, they translate x86-instructions (CISC instructions) into simpler internal operations (sometimes referred to as micro-ops, i.e., effectively RISC style instructions) prior to execution. The majority of instructions produce one micro-op when translated, with around 4% of instructions used in typical programs producing multiple micro-ops. The number of instructions that produce more than one micro-op is significantly fewer than the P6 and NetBurst microarchitectures. In the Bonnell microarchitecture, internal micro-ops can contain both a memory load and a memory store in connection with an ALU operation, thus being more similar to the x86 level and more powerful than the micro-ops used in previous designs. This enables relatively good performance with only two integer ALUs, and without any instruction reordering, speculative execution, or register renaming. The Bonnell microarchitecture therefore represents a partial revival of the principles used in earlier Intel designs such as P5 and the i486, with the sole purpose of enhancing the performance per watt ratio. However, Hyper-Threading is implemented in an easy (i.e., low power) way to employ the whole pipeline efficiently by avoiding typical single thread dependencies.
Atom branded processors have historically featured the following microarchitectures:
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 netbooks such as the Eee PC can deliver around 3300 MIPS and 2.1 GFLOPS in standard benchmarks, compared to 7400 MIPS and 3.9 GFLOPS for the similarly clocked (1.73 GHz) Pentium M 740.
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.
On September 13, 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.
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 the Cortex-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 ] 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 easily outperformed by the Via Nano which is in turn outperformed by a dual core Intel Atom 330 in tests where multithreading is used. The Core 2 Duo SU7300 outperforms the dual-core Nano.[excessive citations]
In 2014, 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.
In 2014, ARM claimed that Intel's Atom processors offer less compatibility and lower performance than their chips when running Android, and higher power consumption and less battery life for the same tasks under both Android and Windows.
In February 2017 Cisco Systems reported a clock signal issue that would disable several of its products. Cisco stated, "we expect product failures to increase over the years, beginning after the unit has been in operation for approximately 18 months". Soon after, The Register broke the news that this issue was linked to the Intel Atom SoC, and reports of other vendors being affected started appearing online.
- "Product Fact Sheet: Accelerating 5G Network Infrastructure, from the Core to the Edge". Intel Newsroom (Press release). Retrieved April 12, 2020.
L1 cache of 32KB/core, L2 cache of 4.5MB per 4-core cluster and shared LLC cache up to 15MB.
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- - FYI: Ticking time-bomb fault will brick Cisco gear after 18 months
- - Intel Atom SoC bricking more than Cisco products
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