Engineering:Qualcomm Snapdragon
Logo | |
General Info | |
---|---|
Launched | November 2007 |
Marketed by | Qualcomm |
Designed by | Qualcomm |
Common manufacturer(s) | |
Products, models, variants | |
Core name(s) |
|
Model(s) | |
Brand name(s) |
|
History |
Snapdragon is a suite of system on a chip (SoC) semiconductor products for mobile devices designed and marketed by Qualcomm Technologies Inc. The Snapdragon's central processing unit (CPU) uses the ARM architecture. As such, Qualcomm often refers to the Snapdragon as a "mobile platform". Snapdragon semiconductors are embedded in devices of various systems, including vehicles, Android, Windows Phone and netbooks.[1] In addition to the processors, the Snapdragon line includes modems, Wi-Fi chips and mobile charging products.
The Snapdragon QSD8250 was released in December 2007. It included the first 1 GHz processor for mobile phones. Qualcomm introduced its "Krait" microarchitecture in the second generation of Snapdragon SoCs in 2011, allowing each processor core to adjust its speed based on the device's needs. At the 2013 Consumer Electronics Show, Qualcomm introduced the first of the Snapdragon 800 series and renamed prior models as the 200, 400 and 600 series. Several new iterations have been introduced since, such as the Snapdragon 805, 810, 615 and 410. Qualcomm re-branded its modem products under the Snapdragon name in February 2015. (As of 2018) Asus, HP and Lenovo have begun selling laptops with Snapdragon-based CPUs running Windows 10 under the name "Always Connected PCs", marking an entry into the PC market for Qualcomm and the ARM architecture.[2][3]
History
Pre-release
Qualcomm announced it was developing the Scorpion central processing unit (CPU) in November 2007.[4][5] The Snapdragon system on chip (SoC) was announced in November 2006 and included the Scorpion processor, as well as other semiconductors.[5][6] This also included Qualcomm's first custom Hexagon digital signal processor (DSP).[7]
According to a Qualcomm spokesperson, it was named Snapdragon, because "Snap and Dragon sounded fast and fierce."[8] The following month, Qualcomm acquired Airgo Networks for an undisclosed amount; it said Airgo's 802.11a/b/g and 802.11n Wi-Fi technology would be integrated with the Snapdragon product suite.[9][10] Early versions of Scorpion had a processor core design similar to the Cortex-A8.[5]
2007–2009: Early products
The first Snapdragon shipments were of the QSD8250 in November 2007.[11] According to CNET, Snapdragon's claim to fame was having the first 1 GHz mobile made processor.[11][12] Most smartphones at the time were using 500 MHz processors.[11] The first generation of Snapdragon products supported a 720p resolution, 3D graphics and a 12-megapixel camera.[11][13] By November 2008, 15 device manufacturers decided to embed Snapdragon chips in their consumer electronics products.[14][15][2]
In November 2008, Qualcomm announced it would also compete against Intel in the netbook processor market with dual-core Snapdragon system-on-chips planned for late 2009.[16] It demonstrated a Snapdragon processor that consumed less power than Intel chips announced around the same time and claimed it would also cost less when released.[17][18][19] That same month, Qualcomm introduced a Snapdragon-based prototype netbook called Kayak that used 1.5 GHz processors and was intended for developing markets.[15][16][20]
In May 2009, Java SE was ported and optimized for Snapdragon.[21] At the November 2009 Computex Taipei show, Qualcomm announced the QSD8650A addition to the Snapdragon product suite, which was based on 45 nanometer manufacturing processes. It featured a 1.2 GHz processor and had lower power consumption than prior models.[22][23]
2009–2010: Adoption
By late 2009, smartphone manufacturers announced they would be using Snapdragon SoCs in the Acer Liquid Metal, HTC HD2, Toshiba TG01 and the Sony Ericsson Xperia X10.[12][24][25] Lenovo announced the first netbook product using Snapdragon SoCs that December.[26] According to PC World, mobile devices using Snapdragon had longer battery life and were smaller in size than those using other SoCs.[27]
By June 2010, Snapdragon chips were embedded in 20 available consumer devices and incorporated into 120 product designs in development.[28] Apple had a dominant market position for smartphones at the time and did not incorporate Snapdragon into any of its products. The success of Snapdragon therefore relied on competing Android phones, such as Google's Nexus One and the HTC Incredible, challenging Apple's market position.[28] Android devices did end up taking market share from the iPhone and predominantly used Snapdragon.[29][30][31]
There was an "unconfirmed but widely circulated report" speculating that Apple was going to start using Snapdragon SoCs in Verizon-based iPhones.[29] As of 2012, Apple was still using their own Ax semiconductor designs.[32] Support for the Windows Phone 7 operating systems was added to Snapdragon in October 2010.[30]
By 2011 Snapdragon was embedded in Hewlett Packard's WebOS devices[33] and had a 50% market share of a $7.9 billion smartphone processor market.[34]
As of July 2014, the market share of Android phones had grown to 84.6 percent,[35] and Qualcomm's Snapdragon chips were embedded in 41% of smartphones.[36]
Snapdragon chips are also used in most Android-based smartwatches.[37] Snapdragon products have also been used in virtual reality products, in vehicles like the Maserati Quattroporte and Cadillac XTS and in other applications.[38]
2010–2015: 32-bit ARM
In June 2010, Qualcomm began sampling the third generation of Snapdragon products; two dual-core 1.2 GHz system on chips (SoC) called the Mobile Station Modem (MSM) 8260 and 8660.[39] The 8260 was for GSM, UMTS and HSPA+ networks, while the 8660 was for CDMA2000 and EVDO networks.[40] That November Qualcomm announced the MSM8960[41][42] for LTE networks.[40]
In early 2011, Qualcomm announced a new processor architecture called Krait,[43] which used the ARM v7 instruction set, but was based on Qualcomm's own processor design. The processors were called S4 and had a feature named Asynchronous Symmetrical Multi-Processing (aSMP), meaning each processor core adjusted its clock speed and voltage based on the device's activity in order to optimize battery usage.[44] Prior models were renamed to S1, S2 and S3 to distinguish each generation.[45]
The S4-based generation of Snapdragon SoCs began shipping to product manufacturers with the MSM8960 in February 2012.[46] In benchmark tests by Anandtech, the MSM8960 had better performance than any other processor tested. In an overall system benchmark, the 8960 obtained a score of 907, compared to 528 and 658 for the Galaxy Nexus and HTC Rezound respectively.[47] In a Quadrant benchmark test, which assesses raw processing power, a dual-core Krait processor had a score of 4,952, whereas the quad-core Tegra 3 was just under 4,000.[48] The quad-core version, APQ8064, was made available in July 2012. It was the first Snapdragon SoC to use Qualcomm's Adreno 320 graphics processing unit (GPU).[49]
Adoption of Snapdragon contributed to Qualcomm's transition from a wireless modem company to one that also produces a wider range of hardware and software for mobile devices.[50] In July 2011 Qualcomm acquired certain assets from GestureTek in order to incorporate its gesture recognition intellectual property into Snapdragon SoCs.[51] In mid-2012 Qualcomm announced the Snapdragon software development kit (SDK) for Android devices at the Uplinq developer conference.[52] The SDK includes tools for facial recognition, gesture recognition, noise cancellation and audio recording.[52] That November Qualcomm acquired some assets from EPOS Development in order to integrate its stylus and gesture recognition technology into Snapdragon products.[53] It also collaborated with Microsoft to optimize Windows Phone 8 for Snapdragon semiconductors.[54]
By 2012, the Snapdragon S4 (Krait core) had taken a dominant share from other Android system-on-chips like Nvidia Tegra and Texas Instruments OMAP which caused the latter to exit the market.[55] As of July 2014, the market share of Android phones had grown to 84.6 percent,[35] and Qualcomm's Snapdragon chips powered 41% of smartphones.[36]
However, the September 2013 debut of Apple's 64-bit A7 chip in the iPhone 5S forced Qualcomm to rush out a competing 64-bit solution, despite the capable performance of the Snapdragon 800/801/805, since their existing Krait cores were only 32-bit.[56] The first 64-bit SoCs, the Snapdragon 808 and 810, were rushed to market using generic Cortex-A57 and Cortex-A53 cores and suffered from overheating problems and throttling, particularly the 810, which led to Samsung ditching Snapdragon for its Galaxy S6 flagship phone.[57][58]
The entry-level 200 series was expanded with six new processors using 28 nanometer manufacturing and dual or quad-core options in June 2013.[59] The entry-level Snapdragon 210, intended for low-cost phones, was announced in September 2014.[60]
2016–present: Custom 64-bit ARM
After Qualcomm's first attempt at 64-bit system on a chip, they created a new in-house architecture that in later models showed better thermal performance, especially when compared to the Snapdragon models launched after 2015, like the Snapdragon 820.[61]
In early 2016, Qualcomm launched the Snapdragon 820, an ARM 64-bit quad-core processor using in-house designed Kryo cores. Qualcomm launched an updated Snapdragon 821 later in the year with higher clock speeds and slightly better performance. The Snapdragon 820 family uses Samsung's 14-nanometer FinFET process. Qualcomm also released the Qualcomm Snapdragon Neural Processing Engine SDK which was the first AI acceleration on smartphones.[62]
Qualcomm announced the octa-core Snapdragon 835 SoC on 17 November 2016. Released the following year, it uses Kryo 280 cores and is built using Samsung's 10 nanometer FinFET process. At initial launch, due to Samsung's role in manufacturing the chip, its mobile division also acquired the initial inventory of the chip. That means that no other phone maker was able to manufacture products containing the Snapdragon 835 until Samsung released its flagship device of the year, the Galaxy S8.[63]
At Computex 2017 in May, Qualcomm and Microsoft announced plans to launch Snapdragon-based laptops running Windows 10. Qualcomm partnered with HP, Lenovo, and Asus to release slim portables and 2-in-1 devices powered by the Snapdragon 835.[64]
In December 2017, Qualcomm announced the octa-core Snapdragon 845. It uses the same 10-nanometer manufacturing process as the earlier Snapdragon 835 but introduced a new processor architecture, Kryo 385,[65] designed for better battery life, photography, and for use with artificial intelligence apps.[66][65]
In early 2018, Qualcomm introduced the 7 series, which sits between the 6 and 8 series in terms of pricing and performance. The 700 launched with octa-core models Snapdragon 710 and 712, using the Kryo 360 processor architecture, and built on a 10-nanometer manufacturing process.[67][68][69]
In 2019, Qualcomm released new variants of its mobile processors, with the Snapdragon 855 replacing the 845. The Snapdragon 855 competes against other high end system-on-chip solutions like the Apple A12, and Kirin 980. The Snapdragon 855 features Kryo 485 cores, built on TSMC's 7 nanometer process.[70] The Snapdragon 730 and 730G replaced the 710 and 712. The newer 730 and 730G feature Kryo 460 cores, built on Samsung's 8-nanometer process.[71]
In December 2019, Qualcomm announced the Snapdragon 865 and Snapdragon 765, which succeeded the Snapdragon 855/855+ and Snapdragon 730/730G respectively. The Snapdragon 765 has integrated 5G, while the Snapdragon 865 is assisted by a separate Qualcomm X55 5G modem. Despite lacking integrated 5G, the Snapdragon 865 is incompatible with 4G phones.[72][73]
In May 2020, Qualcomm announced the new Snapdragon 768G 5G processor, an upgraded version of the 765G processor. The main difference between the 765G and 768G is that the 768G will offer 15 percent increase in performance and higher clock speed on the CPU, up to 2.8 GHz from 2.4 GHz.[74]
In September 2020, Qualcomm unveiled the Snapdragon 750G processor, the latest addition to the 7-series, designed to bring 5G support for low-latency mobile gaming.[75]
In December 2020, Qualcomm unveiled the Snapdragon 888. The major differences compared to the 865/+ is a new core, designed by ARM, the ARM Cortex X1, support for LPDDR5-6400 and a built in 5G modem, meaning the X55 Modem is not required. The 888 is based on Samsung 5 nm, with a TDP of 5 watts, but this can be altered by the manufacturer.[76]
NASA's Ingenuity helicopter, which landed on Mars in 2021, ran on a Snapdragon 801 processor.[77]
In May 2022, Qualcomm announced their new model Snapdragon 8 plus Gen 1. Qualcomm states the upgraded model will offer 10% faster CPU performance, 10% faster GPU clocks, 30% power efficiency from both the CPU and GPU, 20% better AI performance per watt and 15% less power usage total. Additionally, following this announcement, Qualcomm also announced the new Snapdragon 7 gen 1 aimed at gamers with a 20% better graphics performance over the prior gen. Honor, Oppo and Xiaomi are the only brands listed as building devices around the 7 Gen 1, and are listed for release in the second quarter of 2022, whereas the 8 plus 1 gen devices are expected in the third quarter.[78]
Description and current models
Snapdragon system on chip products typically include a graphics processing unit (GPU), a global positioning system (GPS) and a cellular modem integrated into a single package.[79] It has software included that operates graphics, video and picture-taking.[80] There are 23 different Snapdragon processors under the 200, 400, 600, 700, and the 800 product families spanning from low to high-end respectively, as well as Wi-Fi and mobile charging products.[81] Some of their components include the Adreno graphics processing, the Qualcomm Hexagon DSP and processors using Qualcomm's S4 processor architecture. In addition to smartphones, the 400 series is used in smart watches[82] and the 602A is intended for electronics in cars.[83]
The current Snapdragon naming scheme was implemented after the Snapdragon 800 family was announced at the 2013 Consumer Electronics Show; prior models were renamed to the 200, 400 or 600 series.[84][85] A new Snapdragon 600 was also released, which by mid-year was embedded in most new Android devices.[86] The 400 family is entry-level, the 600 is mass-market or mid-range, and 800 family is for high-end or flagship phones.[87][88]
The Snapdragon 805 was released in November 2013.[89] The 410, which is intended for low-cost phones in developing nations, was announced the following month.[90] In January 2014, Qualcomm introduced a modified version of the Snapdragon 600 called 602A[83] that is intended for in-car infotainment screens, backup cameras, and other driver assistance products.[91] The quad-core Snapdragon 610 and eight-core 615 were announced in February 2014.[92] The Snapdragon 808 and 810 were announced in April 2014.[93] The Snapdragon 835, announced in November 2017, is the first Qualcomm SOC that is built on a 10 nm architecture.[94] Qualcomm's new flagship chip for 2018, the 845, was announced in December 2017. According to Qualcomm, the 845 is 25-30% faster than the 835.
In February 2015, Qualcomm re-branded its stand-alone modem products under the Snapdragon name; they were distinguished from SoCs using the "x" designation, such as the X7 or X12 modem.[87] The first Snapdragon modem for 5G networks, the X50, was announced in October 2016.[95] This was followed by the 2GBs X24 modem on a 7 nanometer manufacturing process that was announced in February 2018.[96]
According to CNET, Windows phones were growing in US market share and ranked highly in CNET reviews due to their responsiveness.[97] Snapdragon SoCs are also used in most Windows phones[54] and most phones entering the market in mid-2013.[98] The LG G2 was the first phone to market using the Snapdragon 800 in August 2013.[99]
In 2017 the 660 and 630 replaced the 653 and 626 mid-range models[100] and several chips in the 400 product family were revised.[101][102] In February 2017, Qualcomm introduced the Snapdragon X20, intended for 5G cell phone networks,[103] and two new chips for 802.11ax commercial Wi-Fi networks.[104] This was followed by the addition of the 636 to the 600 product family that October, which Qualcomm said would be 40 percent faster than the 630.[105]
In August 2018, the Snapdragon 632, 439 and 429 were released.[106] The new SoC is aimed at mid-range devices such as the Moto G6 Play, Huawei Honor 7A and Nokia 5.[107]
In December 2018, Qualcomm announced the 8cx at their Snapdragon Tech Summit 2018. The 8cx is Qualcomm's first SoC specifically designed for Always Connected PC (ACPC) platform. Unlike Qualcomm's past ACPC SoCs which were just their respective mobile SoCs at higher TDP.[108] Qualcomm also showcased their Snapdragon X50 5G modem, Snapdragon 855 and QTM052 mmWave Antenna Module.
In February 2019, Qualcomm announced their Snapdragon X55 5G modem, QTM525 mmWave antenna module, QET6100 envelope tracker and the new QAT3555 antenna impedance tuner.[109]
In July 2019, Qualcomm announced a refresh of the Snapdragon 855, the Snapdragon 855+, which is essentially an overclocked version of the 855 with both faster CPU and GPU performance.
In December 2019, Qualcomm announced the Snapdragon X52 5G modem alongside the Snapdragon 765 and Snapdragon 865.
Benchmark tests
Benchmark tests of the Snapdragon 800's processor by PC Magazine found that its processing power was comparable to similar products from Nvidia.[110] Benchmarks of the Snapdragon 805 found that the Adreno 420 GPU resulted in a 40 percent improvement in graphics processing over the Adreno 330 in the Snapdragon 800, though there were only slight differences in processor benchmarks.[111] Benchmarks of the Snapdragon 801 inside an HTC One found a "bump all around" in benchmark improvements over the 800.[112] In 2015, Samsung's decision not to use the Snapdragon 810 in its Galaxy S6[57] had a significant detrimental impact on Snapdragon's revenues and reputation.[113] Benchmark tests by Ars Technica confirmed rumors that the 810 under-performed lower-end models and had overheating issues.[58][114] A Qualcomm spokesperson said these tests were done with early versions of the 810 that weren't ready for commercial use.[115] An updated version was released and was found to moderately improve thermal throttling, GPU clock speeds, memory latency, and memory bandwidth when tested in a commercial product, the Xiaomi Mi Note Pro.[116][117] Additionally, the 820/821, 835 and 845 performed substantially better.[118][119][120] The Snapdragon 865's memory was improved in a later update.[121] A 2019 benchmark test by PC World found that the 865's multi-core performance on the "default" setting was 30 percent higher than the 855 and comparable to the 855 Plus.[122] The benchmark score for Snapdragon 888 released in 2021 is higher than that of the existing Snapdragon 865 Plus and Apple A13, but the heat output has increased by 60 percent.[123]
Sponsoring
In September 2023 the brand made international headlines when it was announced that Qualcomm had signed a contract rumored to be worth $75 million per year for Snapdragon to be the primary shirt sponsor for England football giants Manchester United starting with the 2024–25 season, replacing Germany company TeamViewer.[124]
The brand also holds naming rights for Snapdragon Stadium in San Diego which hosts the NWSL's San Diego Wave FC, the San Diego State University football team, and a Major League Soccer team San Diego FC starting in 2025.
See also
- List of Qualcomm Snapdragon processors
- Adreno
- Qualcomm Hexagon
- Snapdragon Stadium
References
- ↑ "Snapdragon Phone Finder". Qualcomm. 2015-12-08. https://www.qualcomm.com/snapdragon/devices/phone-finder.
- ↑ 2.0 2.1 "ARM is going after Intel with new chip roadmap through 2020". Windows Central. https://www.windowscentral.com/arm-going-after-intel-new-chip-roadmap-through-2020.
- ↑ "Always Connected PCs, Extended Battery Life 4G LTE Laptops | Windows". https://www.microsoft.com/en-us/windows/always-connected-laptop-pcs.
- ↑ "Snapdragon seeds Qualcomm's future". Electronic Engineering Times. 4 June 2007. http://www.eetimes.com/document.asp?doc_id=1247637.
- ↑ 5.0 5.1 5.2 BDTI (5 December 2007). "Analysis: QualComm's 1 GHz ARM "Snapdragon"". Electronic Engineering Times. http://www.eetimes.com/document.asp?doc_id=1275485.
- ↑ "Qualcomm rolls out Snapdragon for mobile". New Media Age. 16 November 2006.
- ↑ Oram, John (12 October 2011). "Qualcomm announces its 2012 superchip: 28NM Snapdragon S4". VRWorld. http://www.vrworld.com/2011/10/12/qualcomm-announces-its-2012-superchip-28nm-snapdragon-s4/.
- ↑ Kewney, Guy (May 2009). "Puff the magic Snapdragon". Personal Computer World.
- ↑ Taylor, Colleen (December 2006). "Qualcomm's Q4 Shopping Spree". Electronics News. http://www.edn.com/electronics-news/4317346/Qualcomm-s-Q4-Shopping-Spree.
- ↑ Hachman, Mark (4 December 2006). "Qualcomm Buys Airgo, Bluetooth Assets". ExtremeTech. http://www.extremetech.com/extreme/77722-qualcomm-buys-airgo-bluetooth-assets.
- ↑ 11.0 11.1 11.2 11.3 Crothers, Brooke (3 February 2009). "Toshiba handheld hits 1GHz with 'Snapdragon'". CNET. http://www.cnet.com/news/toshiba-handheld-hits-1ghz-with-snapdragon/.
- ↑ 12.0 12.1 Crothers, Brooke (6 September 2009). "Intel and Qualcomm Eye Each Other's Terrain". The New York Times. https://www.nytimes.com/2009/09/07/technology/companies/07qualcomm.html?_r=0.
- ↑ Sidener, Jonathan (1 August 2008). "Qualcomm and Google prepare reply to iPhone". Union-Tribune. http://legacy.utsandiego.com/news/business/20080801-9999-1b1qcom.html.[yes|permanent dead link|dead link}}]
- ↑ Merritt, Rick (12 November 2008). "Qualcomm launches low-cost PC alternative". Electronic Engineering Times. http://www.eetimes.com/document.asp?doc_id=1169751.
- ↑ 15.0 15.1 Sidener, Jonathan (18 November 2008). "Qualcomm chip shows versatility". Union-Tribune San Diego. http://www.sandiegouniontribune.com/sdut-1b18qcom61011-qualcomm-chip-shows-versatility-2008nov18-story.html.
- ↑ 16.0 16.1 Clark, Don (13 November 2008). "Qualcomm Pushes Beyond Cellphones". The Wall Street Journal. https://www.wsj.com/articles/SB122646599469620261.
- ↑ Markoff, John (1 July 2008). "Chips for mobile world pose challenge to Intel". International Herald Tribune. http://www.redorbit.com/news/technology/1458010/chips_for_mobile_world_pose_challenge_to_intel/.
- ↑ Markoff, John (30 June 2008). "Intel's Dominance Is Challenged by a Low-Power Upstart". The New York Times. https://www.nytimes.com/2008/06/30/technology/30chip.html?pagewanted=1&_r=2&ref=technology&adxnnlx=1214891191-GtrG2GTUeyKX3CilQ6S%2F3A&.
- ↑ "Next battleground for processors: powering the consumer computing device". Electronic Engineering Times. 14 July 2008. http://www.eetimes.com/document.asp?doc_id=1309556.
- ↑ Merritt, Rick (12 November 2008). "Qualcomm launches low-cost PC alternative". http://www.eetimes.com/document.asp?doc_id=1169751.
- ↑ Taft, Darryl (6 May 2009). "Sun and Qualcomm Tweak Java for Netbooks". eWeek. http://www.eweek.com/development/sun-and-qualcomm-tweak-java-for-netbooks.
- ↑ Eddy, Nathan (1 June 2009). "Qualcomm Debuts 45nm Snapdragon Chipset". eWeek. http://www.eweek.com/c/a/Midmarket/Qualcomm-Debuts-45nm-Snapdragon-Chipset-822284/.
- ↑ Perez, Marin (1 June 2009). "Qualcomm Shows Off New Mobile Chips". InformationWeek. http://www.informationweek.com/desktop/qualcomm-shows-off-new-mobile-chips/d/d-id/1080062.
- ↑ Maisto, Michelle (14 October 2009). "Acer Liquid Smartphone Uses Android, Qualcomm's Snapdragon". eWeek. http://www.eweek.com/android/Acer-Liquid-Smartphone-Uses-Android-Qualcomms-Snapdragon/#sthash.oW6Xuvei.dpuf.
- ↑ Eddy, Nathan (13 November 2009). "Qualcomm Announces Smartphone Chipsets, Snapdragon Smartbook". http://www.eweek.com/small-business/qualcomm-announces-smartphone-chipsets-snapdragon-smartbook.
- ↑ Deagon, Brian (4 December 2009). "Qualcomm Plotting Ways To Push New Type Of Device". Investor's Business Daily.
- ↑ Allen, Danny; Nystedt, Dan; Fletcher, Owen; Shah, Agam (August 2009). "Latest Laptop Trends From Asia's Big Tech Show". PC World.
- ↑ 28.0 28.1 Freeman, Mike (17 June 2010). "Qualcomm hoping to feast on Snapdragon". Union Tribune San Diego. http://www.sandiegouniontribune.com/sdut-fresh-chip-spread-2010jun16-htmlstory.html.
- ↑ 29.0 29.1 Fikes, Bradley (10 January 2010). "Qualcomm pushes to get beyond cell phones". Union Tribune San Diego. http://www.utsandiego.com/news/2010/jan/10/telecom-qualcomm-pushes-to-get-beyond-cell-phones/.
- ↑ 30.0 30.1 Freeman, Mike (18 October 2010). "Qualcomm gets Snapdragon in new Windows phones". San Diego Union Tribune. http://www.mercurynews.com/ci_16348935.
- ↑ "Qualcomm to buy Atheros for $3.2 billion". Associated Press. 6 January 2011. https://www.washingtonpost.com/wp-dyn/content/article/2011/01/05/AR2011010506338_pf.html.
- ↑ Krause, Reinhardt (27 September 2012). "Qualcomm's Snapdragon Mobile Chips Take On MediaTek". Investor's Business Daily. http://news.investors.com/technology/092712-627235-qualcomm-snapdragon-targets-smartphones-china.htm.
- ↑ Fitchard, Kevin (1 June 2011). "Qualcomm struts is mobile gaming stuff". Connected Planet.
- ↑ Caulfield, Brian (18 July 2012). "No Factories, No Phones, No Fuss: How Qualcomm Grabs Wireless Profits". Forbes. https://www.forbes.com/sites/briancaulfield/2012/07/18/no-factories-no-phones-no-fuss-how-qualcomm-grabs-wireless-profits/.
- ↑ 35.0 35.1 Smith, Chris (31 July 2014). "Strategy Analytics: 85% of phones shipped last quarter run Android". BGR. http://bgr.com/2014/07/31/android-vs-ios-vs-windows-phone-vs-blackberry/.
- ↑ 36.0 36.1 Gwennap, Linley; Demler, Mike; Case, Loyd (August 2014). A Guide to Mobile Processors (Sixth ed.). https://www.linleygroup.com/report_detail.php?report_id=application_processor_guide. Retrieved 27 May 2022.
- ↑ Sun, Leo (29 March 2015). "Will Intel Corporation's Curie Conquer the Internet of Things and Wearables Markets?". Fox Business.
- ↑ Agomuoh, Fionna (8 January 2015). "Eyeing Growth, Mobile King Qualcomm Targets The Internet Of Things". International Business Times. http://www.ibtimes.com/eyeing-growth-mobile-king-qualcomm-targets-internet-things-1777142.
- ↑ Maisto, Michelle (1 June 2010). "Qualcomm Begins Shipping Dual-CPU, 1.2GHz Snapdragon". eWeek. http://www.eweek.com/c/a/Mobile-and-Wireless/Qualcomm-Begins-Shipping-DualCPU-12GHz-Snapdragon-668898/.
- ↑ 40.0 40.1 Klug, Brian (30 March 2011). "Dual Core Snapdragon GPU Performance Explored - 1.5 GHz MSM8660 and Adreno 220 Benchmarks". http://www.anandtech.com/show/4243/dual-core-snapdragon-gpu-performance-1-5-ghz-msm8660-adreno-220-benchmarks.
- ↑ Gardner, David (18 November 2010). "Qualcomm Details Faster Snapdragon Chipset". InformationWeek. http://www.darkreading.com/endpoint-security/qualcomm-details-faster-snapdragon-chipset/d/d-id/1094303.
- ↑ Maisto, Michelle (18 November 2010). "Qualcomm Snapdragon Processor Redesign Targets Smartphones, Tablets". eWeek. http://www.eweek.com/c/a/Mobile-and-Wireless/Qualcomm-Snapdragon-Processor-Redesign-Targets-Smartphones-Tablets-625255/.
- ↑ Clarke, Peter (16 February 2011). "Qualcomm tips quad-core Snapdragon plan". Electronic Engineering Times. http://www.eetimes.com/document.asp?doc_id=1258675.
- ↑ Whitwam, Ryan (13 October 2011). "How Snapdragon S4 and Tegra 3 manage ARM cores differently". http://www.extremetech.com/computing/99721-how-snapdragon-s4-and-tegra-3-manage-arm-cores-differently.
- ↑ Shimpi, Anand Lal (3 August 2011). "Qualcomm's Updated Brand: Introducing Snapdragon S1, S2, S3 & S4 Processors". AnandTech. http://www.anandtech.com/show/4565/.
- ↑ Whitwam, Ryan (22 February 2012). "Why Qualcomm's Snapdragon S4 has the competition on the defensive". ExtremeTech. http://www.extremetech.com/computing/119335-why-qualcomms-snapdragon-s4-has-the-competition-on-the-defensive.
- ↑ Klug, Brian; Shimpi, Anand (21 February 2012). "Qualcomm Snapdragon S4 (Krait) Performance Preview". AnAndTech. http://www.anandtech.com/show/5559/qualcomm-snapdragon-s4-krait-performance-preview-msm8960-adreno-225-benchmarks/2.
- ↑ Whitwam, Ryan (28 March 2012). "Early Snapdragon S4 benchmarks could spell trouble for Tegra 3". http://www.extremetech.com/computing/124023-early-snapdragon-s4-benchmarks-could-spell-trouble-for-tegra-3.
- ↑ Anthony, Sebastian (25 July 2012). "Qualcomm's quad-core Snapdragon S4 eats Tegra and Exynos for breakfast". ExtremeTech. http://www.extremetech.com/computing/133460-qualcomms-quad-core-snapdragon-s4-eats-tegra-and-exynos-for-breakfast.
- ↑ Fitchard, Kevin (3 June 2011). "The Rise of Qualcomm Computing". Connected Planet.
- ↑ Burt, Jeffrey (25 July 2011). "Qualcomm Buying Gesture Recognition Assets From GestureTek". http://www.eweek.com/c/a/Mobile-and-Wireless/Qualcomm-Buying-Gesture-Recognition-Assets-from-GestureTek-722014/#sthash.Pzpo3q8S.dpuf.
- ↑ 52.0 52.1 Kim, Ryan (16 July 2012). "Qualcomm Aims to Make Snapdragon a Consumer Brand". http://www.businessweek.com/articles/2012-07-16/qualcomm-aims-to-make-snapdragon-a-consumer-brand.
- ↑ Wauters, Robin (16 November 2012). "Qualcomm Technologies, a subsidiary of semiconductor". The Next Web. https://thenextweb.com/insider/2012/11/16/qualcomm-epos-snapdragon/.
- ↑ 54.0 54.1 Shah, Agam (21 June 2012). "Windows Phone 8 smartphones to run Qualcomm's Snapdragon S4 chip". IDG News Service. http://www.infoworld.com/article/2617378/processors/windows-phone-8-smartphones-to-run-qualcomm-s-snapdragon-s4-chip.html.
- ↑ "Wednesday Poll: Preferred Mobile Processor?". 26 September 2012. http://www.droid-life.com/2012/09/26/wednesday-poll-preferred-mobile-processor/.
- ↑ Cohen, Peter (16 December 2013). "Apple's 64-bit A7 chip "hit us in the gut," says Qualcomm employee". https://www.imore.com/apples-64-bit-a7-chip-hit-us-gut-says-qualcomm-employee.
- ↑ 57.0 57.1 Lee, Jungah; King, Ian (20 January 2015). "Samsung Said to Drop Qualcomm Chip From Next Galaxy S". Bloomberg. https://www.bloomberg.com/news/articles/2015-01-20/samsung-said-to-drop-qualcomm-chip-from-next-galaxy-smartphone.
- ↑ 58.0 58.1 Cunningham, Andrew (23 April 2015). "In-depth with the Snapdragon 810's heat problems". Ars Technica. https://arstechnica.com/gadgets/2015/04/in-depth-with-the-snapdragon-810s-heat-problems/.
- ↑ Gomez, Kevin (24 June 2013). "Qualcomm adds six new processors to its Snapdragon 200 class".
- ↑ Cunningham, Andrew (11 September 2014). "Snapdragon 210 brings LTE to entry-level phones, but not 64-bit Snapdragon 208 will also serve as a cheaper 3G-only option". Ars Technica. https://arstechnica.com/gadgets/2014/09/snapdragon-210-brings-lte-to-entry-level-phones-but-not-64-bit/.
- ↑ "Snapdragon 810 vs 820 comparison: heated competition". 12 November 2015. https://www.androidpit.com/snapdragon-810-vs-820-comparison.
- ↑ "On-Device AI with Qualcomm Snapdragon Neural Processing Engine SDK". https://developer.qualcomm.com/blog/device-ai-qualcomm-snapdragon-neural-processing-engine-sdk.
- ↑ "Report: Snapdragon 835 will launch first in Galaxy S8, others have to wait". 24 January 2017. http://www.pcworld.com/article/3161139/android/report-snapdragon-835-will-launch-first-in-galaxy-s8-others-have-to-wait.html.
- ↑ "Microsoft, Qualcomm Partner to Bring Windows 10 to Snapdragon-Powered Laptops". The Apps Central. 31 May 2017. http://theappscentral.com/microsoft-qualcomm-partner-to-bring-windows-10-to-snapdragon-powered-laptops/.
- ↑ 65.0 65.1 Low, Cherlynn (6 December 2017). "Qualcomm's Snapdragon 845 doubles down on cameras and AI". https://www.engadget.com/2017/12/06/qualcomm-snapdragon-845/.
- ↑ Simon, Michael (6 December 2017). "Five ways the Snapdragon 845 chip will impact 2018 Android flagship phones". https://www.pcworld.com/article/3240489/android/how-the-qualcomm-snapdragon-845-chip-will-impact-2018-android-phones.html.
- ↑ Tibken, Shara (27 February 2018). "Qualcomm's newest chips will give a boost to AI in lower-cost phones". https://www.cnet.com/news/qualcomm-snapdragon-700-new-chips-bring-ai-premium-features-into-cheaper-phones-china/.
- ↑ Smith, Ryan (27 February 2018). "Qualcomm Announces Snapdragon 700 Series Platform: Carving Out A Niche for Sub-Premium". https://www.anandtech.com/show/12488/qualcomm-announces-snapdragon-700-series-platform.
- ↑ "Snapdragon 710 Mobile Platform". 2018-10-02. https://www.qualcomm.com/products/snapdragon-710-mobile-platform.
- ↑ Frumusanu, Andrei. "The Snapdragon 855 Performance Preview: Setting the Stage for Flagship Android 2019". https://www.anandtech.com/show/13786/snapdragon-855-performance-preview.
- ↑ Frumusanu, Andrei. "Qualcomm Announces Snapdragon 665 & 730 Platforms: 11 & 8nm". https://www.anandtech.com/show/14190/qualcomm-announces-snapdragon-665-730-platforms.
- ↑ Gartenberg, Chaim (4 December 2019). "Qualcomm's Snapdragon 765 chip could usher in the first affordable 5G phones". Circuit Breaker. https://www.theverge.com/circuitbreaker/2019/12/4/20995714/qualcomm-snapdragon-765-chip-affordable-5g-phones-processor-low-price.
- ↑ Gartenberg, Chaim (4 December 2019). "Qualcomm's new Snapdragon 865 promises 5G, camera, and gaming improvements". Circuit Breaker. https://www.theverge.com/circuitbreaker/2019/12/4/20995562/qualcomm-snapdragon-865-5g-camera-gaming-artificial-intelligence-improvements.
- ↑ Gartenberg, Chaim (11 May 2020). "Qualcomm announces new Snapdragon 768G 5G processor". Circuit Breaker. https://www.theverge.com/circuitbreaker/2020/5/11/21252114/qualcomm-snapdragon-768g-5g-processor-765g-improvements-cpu-gpu-update.
- ↑ Osborne, Charlie. "Qualcomm unveils Snapdragon 750G processor for low-latency mobile gaming". https://www.zdnet.com/article/qualcomm-unveils-snapdragon-750g-processor-a-5g-chip-with-gaming-in-mind/.
- ↑ "Qualcomm Snapdragon 888 5G Processor - Benchmarks and Specs". https://www.notebookcheck.net/Qualcomm-Snapdragon-888-5G-Processor-Benchmarks-and-Specs.513906.0.html.
- ↑ "4 Android Smartphones With as Much Power as NASA's Mars Helicopter". https://www.pcmag.com/news/4-android-smartphones-with-as-much-power-as-nasas-mars-helicopter.
- ↑ "Qualcomm announces Snapdragon 8 Plus Gen 1, for when flagship isn't flagship enough". 20 May 2022. https://www.theverge.com/23131792/qualcomm-snapdragon-8-gen-1-plus-soc-cpu-gpu.
- ↑ Whitwam, Ryan (26 August 2011). "How Qualcomm's Snapdragon ARM chips are unique". ExtremeTech. http://www.extremetech.com/mobile/94064-how-qualcomms-snapdragon-arm-chips-are-unique.
- ↑ Veverka, Mark (17 March 2012). "Qualcomm Inside". Barron's. http://online.barrons.com/news/articles/SB50001424053111904797004577277753379860324.
- ↑ Snapdragon Processors, Qualcomm, https://www.qualcomm.com/products/snapdragon/processors, retrieved 17 April 2018
- ↑ Lipsky, Jessica (31 July 2014). "Q'comm Shares a Wearable Strategy". Electronic Engineering Times. http://www.eetimes.com/document.asp?doc_id=1323333.
- ↑ 83.0 83.1 Silbert, Sarah (6 January 2014). "With the Snapdragon 602A, Qualcomm looks to improve the connected car". Engadget. https://www.engadget.com/2014/01/06/snapdragon-602a-connected-car/.
- ↑ Hruska, Joel (8 January 2013). "Qualcomm's Keynote was the most awkward affair in the history of ever". ExtremeTech. http://www.extremetech.com/mobile/145117-qualcomms-ces-keynote-was-the-most-awkward-affair-in-the-history-of-ever.
- ↑ Nuttall, Chris (9 January 2013). "Qualcomm takes centre stage in Las Vegas". Financial Times. http://www.ft.com/intl/cms/s/0/ebef9752-5a47-11e2-bc93-00144feab49a.html#axzz3FICfqXqt.(Subscription content?)
- ↑ buttersWise, normally (19 June 2013). "Qualcomm's Snapdragon 800 benchmarked, sports extremely fast GPU". https://arstechnica.com/gadgets/2013/06/qualcomms-snapdragon-800-benchmarked-sports-extremely-fast-gpu/.
- ↑ 87.0 87.1 Hruska, Joel (18 February 2015). "Qualcomm rides to war: Multiple new CPUs, modems announced ahead of Mobile World Congress". ExtremeTech. http://www.extremetech.com/computing/199453-qualcomm-rides-to-war-multiple-new-cpus-modems-announced-ahead-of-mobile-world-congress.
- ↑ "Qualcomm outs Snapdragon 800 and 600: up to 2.3GHz quad-core, 4K video, due by mid 2013". 7 January 2013. https://www.engadget.com/2013/01/07/qualcomm-snapdragon-800-and-600-chips/.
- ↑ Poeter, Damon (20 November 2013). "Qualcomm Unveils Next-Gen Snapdragon 805". PC Magazine. https://www.pcmag.com/article2/0,2817,2427429,00.asp.
- ↑ Dolcourt, Jessica; Tibken, Shara (9 December 2013). "Qualcomm's Snapdragon 410 brings 64-bit, LTE to emerging markets". http://www.cnet.com/news/qualcomms-snapdragon-410-brings-64-bit-lte-to-emerging-markets/.
- ↑ Cunningham, Wayne (15 January 2015). "Smart phone, smarter car". CNET. http://www.cnet.com/news/smart-phone-smarter-car/.
- ↑ Poeter, Damon (24 February 2014). "Qualcomm Spices Up Snapdragon 600 Line With New 64-Bit Chips". PC Magazine. https://www.pcmag.com/article2/0,2817,2453916,00.asp.
- ↑ Poeter, Damon (7 April 2014). "Qualcomm Unveils Next-Gen Snapdragon 810, 808 Chips". PC Magazine. https://www.pcmag.com/article2/0,2817,2456088,00.asp.
- ↑ Shah, Agam (28 July 2014). "Qualcomm planting seeds for 4K video, silicon brains in mobile devices". PCWorld. http://www.pcworld.com/article/2458920/qualcomm-planting-seeds-for-4k-video-silicon-brains-in-mobile-devices.html.
- ↑ Captain, Sean (17 October 2016). "The Wild Technology That Will Make 5G Wireless Work". https://www.fastcompany.com/3064144/the-wild-technology-that-will-make-5g-wireless-work.
- ↑ "Qualcomm Unveils Fast Snapdragon X24 LTE Modem for Mobile Devices". 20 March 2018. http://www.eweek.com/mobile/qualcomm-unveils-fast-snapdragon-x24-lte-modem-for-mobile-devices.
- ↑ Dolcourt, Jessica (20 June 2012). "Qualcomm confirms Snapdragon S4 processor for Windows Phone". CNET. http://www.cnet.com/news/qualcomm-confirms-snapdragon-s4-processor-for-windows-phone/.
- ↑ Anthony, Sebastian (9 August 2013). "Surface RT 2: Tegra confirmed, despite superiority of Snapdragon and Bay Trail". http://www.extremetech.com/computing/163582-surface-rt-2-tegra-confirmed-despite-superiority-of-snapdragon-and-bay-trail.
- ↑ Whitwam, Ryan (7 August 2013). "LG G2 announced: 5.2-inch 1080p, first commercial Snapdragon 800 phone". ExtremeTech. http://www.extremetech.com/mobile/163322-lg-g2-announced-5-2-inch-1080p-first-commercial-snapdragon-800-phone-updated-live-blog.
- ↑ "Coming soon to a $250 phone near you: Qualcomm's Snapdragon 660 and 630 chips". 9 May 2017. https://arstechnica.com/gadgets/2017/05/qualcomms-snapdragon-660-and-630-bring-more-high-end-features-to-midrange-chips/.
- ↑ Frumusanu, Andrei (11 February 2016). "Qualcomm Announces Snapdragon 625, 425 & 435 Mid- and Low-End SoCs". https://www.anandtech.com/show/10030/qualcomm-announces-snapdragon-625-425-435-mid-and-lowend-socs.
- ↑ Low, Aloysius (27 June 2017). "Qualcomm's Snapdragon 450 makes $200 phones faster, last longer". https://www.cnet.com/news/qualcomm-adds-more-bang-for-200-phones-with-new-snapdragon-450-chips/.
- ↑ "Qualcomm's New Modem can Beat 1 Gigabit Speeds, in Theory". 21 February 2017. http://fortune.com/2017/02/21/qualcomm-speeds-4g-lte-modem/.
- ↑ Ngo, Dong (13 February 2017). "With Qualcomm's new 802.11ax chips, the future of Wi-Fi is here". https://www.cnet.com/news/qualcomm-new-802-11ax-chips-will-ramp-up-your-wi-fi/.
- ↑ Whitwam, Ryan (17 October 2017). "Qualcomm Announces Snapdragon 636 Chip with 40 Percent Speed Boost". https://www.extremetech.com/computing/257580-qualcomm-announces-snapdragon-636-chip-40-speed-boost.
- ↑ "Qualcomm Snapdragon 632, 439 & 429 For Mass Market Phones Announced | Android News". AndroidHeadlines.com |. 2018-06-26. https://www.androidheadlines.com/2018/06/qualcomm-snapdragon-632-439-429-for-mass-market-phones-announced.html.
- ↑ Kudev, Stefan. "Qualcomm releases Snapdragon 632, 439, 429 SoCs". https://www.insightportal.io/news/all-news/qualcomm-releases-snapdragon-632-439-429-socs.
- ↑ Cutress, Ian. "Qualcomm Tech Summit, Day 3: Snapdragon 8cx, the New ACPC SoC". https://www.anandtech.com/show/13688/qualcomm-tech-summit-day-3-snapdragon-8cx-the-new-acpc-soc.
- ↑ Frumusanu, Andrei. "Qualcomm Announces X55 Modem: 5G Multi-mode & New Advanced ICs". https://www.anandtech.com/show/13966/qualcomm-announces-x55-modem.
- ↑ Segan, Sascha (19 June 2013). "Benchmarking Qualcomm's Snapdragon 800". PC Magazine. https://www.pcmag.com/article2/0,2817,2420658,00.asp.
- ↑ Anthony, Sebastian (22 May 2014). "Snapdragon 805 benchmarked: Krait's last hurrah, and the arrival of a new GPU king". ExtremeTech. http://www.extremetech.com/computing/182899-snapdragon-805-detailed-benchmarked-kraits-last-hurrah-and-the-arrival-of-a-new-gpu-king.
- ↑ Segan, Sascha (25 March 2014). "Why the HTC One (M8)'s Snapdragon 801 Is So Snappy". PC Magazine. https://www.pcmag.com/article2/0,2817,2455413,00.asp.
- ↑ Rubin, Ben (2 March 2015). "What's inside your smartphone? Most customers don't care". CNET. http://www.cnet.com/news/whats-inside-your-smartphone-most-customers-dont-care/.
- ↑ Cunningham, Andrew (30 April 2015). "Qualcomm's Snapdragon 808 doesn't get so hot under the collar". https://arstechnica.com/gadgets/2015/04/qualcomms-snapdragon-808-doesnt-get-so-hot-under-the-collar/.
- ↑ McGregor, Jay (6 May 2015). "Qualcomm Finally Speaks Out About Samsung And Snapdragon". Forbes. https://www.forbes.com/sites/jaymcgregor/2015/05/06/qualcomm-finally-speaks-out-about-samsung-and-snapdragon/.
- ↑ D., Luis (6 May 2015). "Revised Snapdragon 810 boasts performance and thermal improvements in Xiaomi Mi Note Pro benchmarks". PhoneArena. http://www.phonearena.com/news/Revised-Snapdragon-810-boasts-performance-and-thermal-improvements-in-Xiaomi-Mi-Note-Pro-benchmarks_id69011.
- ↑ Ho, Joshua (18 June 2015). "Comparing Snapdragon 810 v2 and v2.1: More Memory Bandwidth, Higher Clocks". AnAndTech. http://www.anandtech.com/show/9388/comparing-snapdragon-810-v2-and-v21.
- ↑ Frumusanu, Ryan Smith, Andrei. "The Qualcomm Snapdragon 820 Performance Preview: Meet Kryo". https://www.anandtech.com/show/9837/snapdragon-820-preview.
- ↑ Frumusanu, Andrei; Smith, Ryan (12 February 2018). "The Snapdragon 845 Performance Preview: Setting the Stage for Flagship Android 2018". https://www.anandtech.com/show/12420/snapdragon-845-performance-preview.
- ↑ Humrick, Matt; Smith, Ryan (22 March 2017). "The Qualcomm Snapdragon 835 Performance Preview". https://www.anandtech.com/show/11201/qualcomm-snapdragon-835-performance-preview.
- ↑ Frumusanu, Andrei. "The Snapdragon 865 Performance Preview: Setting the Stage for Flagship Android 2020". https://www.anandtech.com/show/15207/the-snapdragon-865-performance-preview-setting-the-stage-for-flagship-android-2020.
- ↑ Hachman, Mark (December 16, 2019). "Qualcomm's Snapdragon 865 benchmarked: Performance soars, but not much". https://www.pcworld.com/article/3490156/qualcomm-snapdragon-865-benchmark-performance.html.
- ↑ "First Xiaomi Mi 11 Snapdragon 888 benchmarks: Comparable performance to the A13 Bionic but with up to 65% higher power consumption than the Snapdragon 865". https://www.notebookcheck.net/First-Xiaomi-Mi-11-Snapdragon-888-benchmarks-Comparable-performance-to-the-A13-Bionic-but-with-up-to-65-higher-power-consumption-than-the-Snapdragon-865.512607.0.html.
- ↑ "Man Utd name U.S. Tech brand as shirt sponsor". 13 September 2023. https://www.espn.com/soccer/story/_/id/38390901/man-united-announce-us-tech-brand-new-shirt-sponsor.
Further reading
- Boxall, Andy (24 January 2015). "When cities adopt smartphone chips, trash cans talk and street lamps have ears". Digital Trends. http://www.digitaltrends.com/mobile/how-smartphone-chips-are-connecting-cities/#ixzz3Zt7jvh00.
External links
Original source: https://en.wikipedia.org/wiki/Qualcomm Snapdragon.
Read more |