Supercomputing in China#Wuxi

The origins of these centers go back to the 1980s,{{Cite web |title=Brief Introduction----Computer Network Information Center, Chinese Academy of Science |url=http://english.cnic.cas.cn/about/brief/ |access-date=2022-10-11 |website=english.cnic.cas.cn |archive-date=11 October 2022 |archive-url=https://web.archive.org/web/20221011060125/http://english.cnic.cas.cn/about/brief/ |url-status=live }} when the State Planning Commission, the State Science and Technology Commission and the World Bank jointly launched a project to develop networking and supercomputer facilities in China. In addition to network facilities, the project included three supercomputer centers.{{cite book |author=Xing Fan |title=Communications and information in China |year=2001 |isbn=0-7618-1950-9 |pages=39–42, 90|publisher=University Press of America }} The progress of supercomputing in China has been rapid; the country's most powerful supercomputer placed 43rd in November 2002 (DeepComp 1800{{cite web|url=https://www.top500.org/system/173175|title=DeepComp 1800|publisher=TOP500|accessdate=20 May 2017}}), 11th by November 2003 (DeepComp 6800{{cite web|url=https://www.top500.org/system/173563|title=DeepComp 6800|publisher=TOP500|accessdate=20 May 2017|archive-date=1 July 2017|archive-url=https://web.archive.org/web/20170701120919/https://www.top500.org/system/173563|url-status=live}}), 10th by June 2004 (Dawning 4000A{{cite web|url=https://www.top500.org/system/173564|title=Dawning 4000A|publisher=TOP500|accessdate=20 May 2017|archive-date=1 July 2017|archive-url=https://web.archive.org/web/20170701123441/https://www.top500.org/system/173564|url-status=live}}), and by November 2010 (Tianhe-1A{{cite web|url=https://www.top500.org/system/176929|title=Tianhe-1A|publisher=TOP500|accessdate=20 May 2017|archive-date=1 July 2017|archive-url=https://web.archive.org/web/20170701093721/https://www.top500.org/system/176929|url-status=live}}) held top spot. China would go on to fall behind Japan in June 2011 until June 2013 when the country's most powerful supercomputer once again clocked in as the world record.{{Citation needed|date=April 2025}}

According to the MIT Technology Review, the Loongson processor would power the Dawning supercomputers by 2012, producing a line of totally Chinese-made supercomputers that reach petaflop speeds.{{cite web |last=Mims |first=Christopher |date=21 October 2010 |title=Chinese Chip Closes in on Intel, AMD |url=http://www.technologyreview.com/computing/26596/page1/?a=f |work=MIT Technology Review}}

Prior to the Sunway TaihuLight, Chinese supercomputers have used "off the shelf" processors, e.g. Tianhe-I uses thousands of Intel and Nvidia chips, and uses the Linux operating system which is open-source software. However, to avoid possible future technology embargo restrictions, the Chinese are developing their own processors such as the Loongson, a MIPS type processor.{{cite web |last=Vance |first=Ashlee |author-link=Ashlee Vance |date=28 October 2010 |title=China Wrests Supercomputer Title From U.S. |url=https://www.nytimes.com/2010/10/28/technology/28compute.html?partner=rss&emc=rss |work=The New York Times |access-date=25 February 2017 |archive-date=4 September 2017 |archive-url=https://web.archive.org/web/20170904020337/http://www.nytimes.com/2010/10/28/technology/28compute.html?partner=rss&emc=rss |url-status=live }}{{cite book |last1=Graham |first1=Susan L. |url=https://archive.org/details/gettinguptospeed00supe_702 |title=Getting up to speed: the future of supercomputing |last2=Snir |first2=Marc |last3=Patterson |first3=Cynthia A. |publisher=National Academies Press |year=2005 |isbn=0-309-09502-6 |page=[https://archive.org/details/gettinguptospeed00supe_702/page/n204 188] |url-access=limited}}

In November 2015, China increased its number of supercomputers on the TOP500 list to 109, up 196% from 37 just six months earlier. This expansion reflected growing investment in domestic innovation, with observers noting that “the Chinese government and companies want to become the creators and not just producer of products that are being designed elsewhere".{{Cite web |date=17 November 2015 |title=China nearly triples number of supercomputers, report says |url=https://www.bbc.com/news/technology-34840805 |access-date=11 April 2025 |website=BBC}}

In 2016, China's Sunway TaihuLight supercomputer became the world's fastest, achieving a peak performance of 93 petaflops per second. It was nearly three times faster than the next most powerful machine, Tianhe-2, and used over 10 million processor cores designed and manufactured in China. That year also marked the first time China surpassed the United States in total installed supercomputing capacity.{{Cite web |last=Service |first=Robert F. |date=20 June 2016 |title=China overtakes U.S. supercomputing lead |url=https://www.science.org/content/article/china-overtakes-us-supercomputing-lead |access-date=11 April 2025 |website=Science, American Association for the Advancement of Science (AAAS)}} China led in the number of systems on the TOP500 list, with 167 supercomputers compared to 165 from the United States.{{Cite web |date=20 June 2016 |title=China builds world's most powerful computer |url=https://www.bbc.com/news/technology-36575947 |access-date=11 April 2025 |website=BBC}}

In 2018, China extended its lead in the number of supercomputers on the TOP500 list, with 206 systems compared to 124 from the United States. While the United States regained the top spot for the fastest individual machine, the list showed that China remained the most prolific producer of supercomputers.{{Cite web |last=Lohr |first=Steve |date=25 June 2018 |title=China Extends Lead as Most Prolific Supercomputer Maker |url=https://www.nytimes.com/2018/06/25/technology/china-supercomputers.html |access-date=11 April 2025 |website=New York Times}}

In April 2021, seven Chinese supercomputing entities were added to the Entity List of the United States Department of Commerce's Bureau of Industry and Security.{{Cite news |last=Shepardson |first=David |date=2021-04-08 |title=U.S. adds Chinese supercomputing entities to economic blacklist |url=https://www.reuters.com/article/us-usa-china-commerce-idUSKBN2BV1XU |access-date=2021-04-08 |work=Reuters |language=en}} The U.S. government cited their involvement in supporting China's military modernization and weapons development programs. Placement on the list subjects these entities to additional license requirements for exports, re-exports, and in-country transfers of items subject to U.S. export regulations.{{Cite web |date=8 April 2021 |title=Commerce Adds Seven Chinese Supercomputing Entities to Entity List for their Support to China's Military Modernization, and Other Destabilizing Efforts |url=https://www.commerce.gov/news/press-releases/2021/04/commerce-adds-seven-chinese-supercomputing-entities-entity-list-their |access-date=10 April 2025 |website=U.S. Department of Commerce}}

In 2023, China's National Supercomputing Center in Guangzhou launched the Tianhe Xinyi supercomputer, claiming it to be about five times more powerful than Tianhe-2A. Specific performance metrics were not disclosed.{{Cite web |last=Pao |first=Jeff |date=13 December 2023 |title=China unveils new supercomputer but skips parameters |url=https://asiatimes.com/2023/12/china-unveils-new-supercomputer-but-skips-parameters/# |access-date=11 April 2025 |website=Asia Times}}

The scope of these restrictions widened in March 2025, when over 50 additional China-based firms were added to the Entity List. The U.S. government said the companies had sought advanced technologies in supercomputing, artificial intelligence, and quantum computing for military applications.{{Cite web |date=26 March 2025 |title=US adds Chinese tech firms to its export control list, says they sought US knowhow for military use |url=https://abcnews.go.com/Business/wireStory/us-adds-chinese-tech-firms-export-control-list-120164945 |access-date=10 April 2025 |website=ABC News}} The Commerce Department stated that 27 entities had acquired U.S.-origin items to support China's military modernization, while seven were involved in advancing China's quantum technology capabilities. The agency said the expanded restrictions were part of broader efforts to limit Beijing's access to sensitive technologies, including exascale computing and high-performance AI chips.{{Cite web |date=26 March 2025 |title=U.S. blacklists over 50 Chinese companies in bid to curb Beijing's AI, chip capabilities |url=https://www.cnbc.com/2025/03/26/us-blacklists-50-chinese-companies-in-bid-to-curb-beijings-ai-chip-capabilities.html |access-date=10 April 2025 |website=CNBC}}

Also in March 2025, researchers at the University of Science and Technology of China announced a breakthrough with the Zuchongzhi-3 quantum computer, claiming it to be a quadrillion times faster than the most powerful classical supercomputer. According to the team, the system completed a random circuit sampling task that would take the classical supercomputer Frontier approximately 5.9 billion years to simulate. The researchers attributed this performance to improvements in chip fabrication and wiring configuration.{{Cite web |date=4 March 2025 |title=China unveils quantum computer that's one quadrillion times faster than existing supercomputers |url=https://www.independent.co.uk/tech/quantum-computer-fastest-china-processors-b2708491.html |access-date=10 April 2025 |website=The Independent}}

The Supercomputing Center of the China Academy of Sciences (SCCAS) is a support service unit affiliated to the Computer Network Information Center (CNIC) of the Chinese Academy of Sciences with the origin going back to the 1980s. The Supercomputing Center of the China Academy of Sciences (SCCAS) provides academic support functions to the National Centers. SCCAS, which is located in Beijing, is the Northern main node and operation center for China National Grid (CNGrid).{{cite web |title=China National Grid |url=http://www.cngrid.org/ |accessdate=20 May 2017 |publisher=CNGrid Operation Center |archive-date=20 May 2017 |archive-url=https://web.archive.org/web/20170520170717/http://cngrid.org/ |url-status=live }}

Yinhe-1 was independently designed and manufactured as the first leading China's supercomputer in 1983 with a performance level of 100 MFLOPS.{{Cite web |date=2019-07-19 |title=The Race To Exascale |url=https://www.asianscientist.com/2019/07/print/china-exascale-lu-yutong/ |access-date=2022-11-19 |website=Asian Scientist Magazine |language=en-US |archive-date=27 November 2022 |archive-url=https://web.archive.org/web/20221127023427/https://www.asianscientist.com/2019/07/print/china-exascale-lu-yutong/ |url-status=live }}

Shanghai Supercomputer Center (SSC) is a high-performance computing facility located in the Zhangjiang Hi-Tech Park in Pudong, Shanghai, China. Established in December 2000, it was the country's first public high-performance computing service platform open for general use.{{Cite web |title=上海超级计算中心 |url=https://www.ssc.net.cn/en/about.html#:~:text=Established%20in%20December%202000%20and,scientific%20and%20engineering%20simulation%20software |access-date=2025-02-26 |website=www.ssc.net.cn}} Funded by the Shanghai Municipal Government, the SSC provides advanced supercomputing resources for scientific research and industrial applications.

The Shanghai Supercomputer Center was officially founded on December 28, 2000, as an initiative to bolster China's scientific computing capabilities.{{Cite web |title=上海超级计算中心 |url=https://www.ssc.net.cn/en/about-history.html#:~:text=Shanghai%20Supercomputer%20Center%20was%20founded,the%20whole%20society%20in%20China |access-date=2025-02-27 |website=www.ssc.net.cn}} From the outset, its mission was to offer high-performance computing services to a broad community of users, helping to bridge a crucial gap in the country's research infrastructure. Located in Shanghai's Zhangjiang Hi-Tech Park, the center was established with funding from the Shanghai Municipal Government. Upon opening, SSC deployed its first supercomputer, the Shenwei-I, a massively parallel system with a performance peak of 384 gigaflops (billion floating-point operations per second). Early applications included climate modeling and pharmaceutical research, demonstrating the practical value of shared supercomputing resources for China's scientific community.{{Cite web |title=亚洲第一超级计算机在沪投入运行----中国科学院 |url=https://www.cas.cn/xw/kjsm/gndt/200906/t20090615_2045904.shtml#:~:text=match%20at%20L49%20%E8%AE%A1%E8%AE%A1%E7%AE%97%E3%80%82%E5%9C%A82000%E5%B9%B4%E4%B8%8A%E6%B5%B7%E8%B6%85%E7%BA%A7%E8%AE%A1%E7%AE%97%E4%B8%AD%E5%BF%83%E5%88%9D%E5%88%9B%E4%B9%8B%E6%97%B6%EF%BC%8C%E2%80%9C%E7%A5%9E%E5%A8%81I%E5%8F%B7%E2%80%9D%E8%BF%98%E5%8F%AA%E6%98%AF%E4%B8%8A%E6%B5%B7%E5%B8%82%E6%B0%94%E8%B1%A1%E5%B1%80%E3%80%81%E4%B8%AD%E7%A7%91%E9%99%A2%E4%B8%8A%E6%B5%B7%E8%8D%AF%E7%89%A9%E7%A0%94%E7%A9%B6%E6%89%80%E7%AD%89%E5%B0%91%E9%87%8F%E9%AB%98%E7%AB%AF%E7%94%A8%E6%88%B7%E7%9A%84%E7%A7%98%E5%AF%86%E6%AD%A6%E5%99%A8%E3%80%82%E8%80%8C%E5%88%B02004%E5%B9%B4%E5%BC%95%E8%BF%9B%E7%9A%84%E2%80%9C%E6%9B%99%E5%85%894000A%20%E2%80%9D%E9%AB%98%E6%80%A7%E8%83%BD%E8%AE%A1%E7%AE%97%E6%9C%BA%EF%BC%8C%E5%88%99%E6%8A%8A%E5%BA%94%E7%94%A8%E6%8E%A8%E5%B9%BF%E5%88%B0%E6%9B%B4%E5%A4%A7%E8%8C%83%E5%9B%B4%EF%BC%9A%E6%88%91%E5%9B%BD%E8%87%AA%E8%A1%8C%E7%A0%94%E5%88%B6%E7%9A%84%E6%94%AF%E7%BA%BF%E9%A3%9E%E6%9C%BAARJ21%E2%80%94700%E5%AE%8C%E7%BE%8E%E9%A6%96%E9%A3%9E%EF%BC%8C%E8%83%8C%E5%90%8E%E6%9C%89%E7%9D%80%E8%B6%85%E7%BA%A7%E8%AE%A1%E7%AE%97%E6%9C%BA5%E5%B9%B4%E7%9A%84%E4%BF%9D%E9%A9%BE%E6%8A%A4%E8%88%AA%EF%BC%9B%E4%B8%8A%E6%B5%B7%E6%B1%BD%E8%BD%A6%E3%80%81%E5%A5%87%E7%91%9E%E6%B1%BD%E8%BD%A6%E7%A0%94%E5%8F%91%E7%9A%84%E8%87%AA%E4%B8%BB%E5%93%81%E7%89%8C%E8%BD%A6%E5%9E%8B,%25E4%25B9%259F%25E4%25BE%259D%25E9%259D%25A0%25E7%259D%2580%25E8%25B6%2585%25E7%25BA%25A7%25E8%25AE%25A1%25E7%25AE%2597%25E6%259C%25BA%25E7%259A%2584%25E5%258A%25A9%25E5%258A%259B%25E5%258A%25A0%25E6%25B2%25B9%25E3%2580%2582%25E7%2594%25A8%25E8%25B6%2585%25E7%25BA%25A7%25E8%25AE%25A1%25E7%25AE%2597%25E6%259C%25BA%25E6%259D%25A5%25E6%25A8%25A1%25E6%258B%259F%25E2%2580%259C%25E6%2592%259E%25E8%25BD%25A6%25E2%2580%259D%25EF%25BC%258C%25E4%25B8%258D%25E4%25BB%2585%25E8%258A%2582%25E7%25BA%25A6%25E4%25BA%2586%25E6%2588%2590%25E6%259C%25AC%25EF%25BC%258C%25E6%259B%25B4%25E7%25BC%25A9%25E7%259F%25AD%25E4%25BA%2586%25E7%25A0%2594%25E5%258F%2591%25E5%2591%25A8%25E6%259C%259F%25E3%2580%2582%25E8%25BF%2599%25E5%2587%25A0%25E4%25B9%258E%25E6%2588%2590%25E4%25BA%2586%25E5%2585%25A8%25E4%25B8%2596%25E7%2595%258C%25E6%25B1%25BD%25E8%25BD%25A6%25E5%25B7%25A8%25E5%25A4%25B4%25E6%2597%25A0%25E4%25B8%2580%25E4%25BE%258B%25E5%25A4%2596%25E9%2587%2587%25E7%2594%25A8%25E7%259A%2584%25E6%25B3%2595%25E5%25AE%259D%25E3%2580%2582%25E8%25BF%2591%25E5%2587%25A0%25E5%25B9%25B4%25EF |access-date=2025-02-27 |website=www.cas.cn}}

By late 2003, growing demand for HPC services led to a comprehensive upgrade, undertaken as part of Shanghai's broader “Information Port” initiative.{{Cite web |date=19 November 2004 |title=Supercomputer Advances To New Level In China |url=https://www.spacewar.com/reports/Supercomputer_Advances_To_New_Level_In_China.html#:~:text=In%20order%20to%20meet%20the,projects%20of%20Shanghai%20information%20port |access-date=2025-02-27 |website=www.spacewar.com}} This expansion culminated in the installation of the Dawning 4000A supercomputer—capable of 10 trillion computations per second—at SSC in November 2004.{{Cite web |title=The fastest super computer in China----Chinese Academy of Sciences |url=https://english.cas.cn/newsroom/archive/china_archive/cn2004/200909/t20090923_40984.shtml |access-date=2025-02-27 |website=english.cas.cn}} In June 2004, it became the first Chinese supercomputer to enter the world's top ten on the TOP500 list, ranking No. 10.{{Cite web |title=June 2004 {{!}} TOP500 |url=https://www.top500.org/lists/top500/2004/06/ |access-date=2025-02-27 |website=www.top500.org}} Ongoing government support and rapid technological advancements spurred further enhancements in the late 2000s. On June 15, 2009, SSC launched its next-generation system, nicknamed the “Magic Cube” (Dawning 5000A), reaching a maximum performance of 180.6 teraflops.{{Cite web |date=August 19, 2009 |title=Dawning 5000A made its way into Top 10 super computers in the world |url=http://english.ict.cas.cn/ns/es/200908/t20090819_33244.html |access-date=2025-02-27 |website=english.ict.cas.cn}} This milestone marked the first Chinese supercomputer to surpass 100 trillion calculations per second, positioning it as the fastest supercomputer in Asia at the time.{{Cite web |last=Na |first=Chen |date=April 8, 2009 |title=Supercomputer 'Magic Cube' to Be Installed in Shanghai----Chinese Academy of Sciences |url=https://english.cas.cn/newsroom/archive/china_archive/cn2009/200909/t20090923_43320.shtml |access-date=2025-02-27 |website=english.cas.cn}}

The Shanghai Supercomputer Center has continually enhanced its infrastructure to support advanced scientific research and industrial innovation. At the core of its capabilities is the Magic Cube III supercomputer, with a peak performance of 3.3 petaflops, ranking it among China's most powerful computing systems.{{Cite web |date=2023-06-02 |title=China Telecom plans huge computing centre in Shanghai's hi-tech zone |url=https://www.scmp.com/tech/big-tech/article/3222796/china-telecom-plans-huge-computing-centre-shanghais-hi-tech-zone-helping-build-computational-power? |access-date=2025-03-01 |website=South China Morning Post |language=en}} SSC offers computational support across diverse fields—including artificial intelligence, environmental modeling, and drug discovery—enabling researchers to address complex global challenges. The center's infrastructure also features a robust suite of scientific simulation software, boosting its effectiveness in areas such as climate forecasting and public health analytics.

SSC's AI platform supports the full lifecycle of artificial intelligence development, from data preprocessing to model training and deployment. This infrastructure fosters breakthroughs in domains such as autonomous technologies and machine learning. To meet increasing demands for high-performance computing, SSC continues to upgrade its systems and expand its partnerships with domestic and international research institutions. These developments not only reinforce SSC's central role in global scientific collaboration but also contribute to China's broader push for technological self-reliance, particularly in the fields of big data analytics, supercomputing, and AI.{{Cite web |title=HPC as a service {{!}} Scientific Computing World |url=https://www.scientific-computing.com/feature/hpc-service |access-date=2025-03-02 |website=www.scientific-computing.com}}

The SSC provides a suite of services tailored to meet the diverse high-performance computing needs of both scientific and industrial users. Approximately 70% of its user base consists of researchers from universities and public research institutions, while the remaining 30% includes industry clients from sectors such as automotive, aerospace, and energy

The center's service model comprises three core offerings. First, Computing Resource Leasing grants users access to SSC's high-performance computing clusters to run large-scale simulations, data analysis, and modeling tasks. Second, Technical Consulting Services provide expert guidance in areas such as computational fluid dynamics, structural mechanics, and algorithm optimization. Finally, Research and Development (R&D) Collaboration allows SSC to partner with external institutions on joint projects, offering technical support and co developing computational solutions.

The article effectively outlines the future goals of the Shanghai Supercomputer Center, emphasizing its strategic role in advancing China's high-performance computing capabilities. One of the primary objectives is the continued development of next-generation supercomputing systems, such as the Magic Cube III, which is designed to meet growing demands in fields like artificial intelligence, environmental modeling, and biomedicine.

While these future-oriented developments are well integrated into the article, the section could benefit from greater specificity—such as naming particular research partnerships, projected technological milestones, or policy frameworks guiding these advancements.

The National Supercomputing Center in Tianjin was approved in May 2009 as the country’s first state-level supercomputing facility.{{Cite web |date=November 20, 2017 |title=Supercomputing centers unveil new engine for innovation in China |url=http://english.scio.gov.cn/chinaprojects/2019-07/08/content_74963097.htm |url-status=live |archive-url=https://web.archive.org/web/20221011050523/http://english.scio.gov.cn/chinaprojects/2019-07/08/content_74963097.htm |archive-date=11 October 2022 |access-date=2022-10-11 |website=State Council Information Office}} It hosts the Tianhe-1 system, developed by the National University of Defense Technology and unveiled on October 29, 2009. The project began under China’s 863 Program in 2008. Tianhe-1 achieved a peak theoretical performance of 1,206 teraflops and a sustained LINPACK result of 563.1 teraflops, ranking first on the TOP500 list.{{Cite web |date=2010-11-15 |title=TOP500 List - November 2010 |url=https://top500.org/lists/top500/2010/11/ |access-date=2025-03-01 |website=top500.org}}{{cite web |date=2009-10-29 |title=中国成功研制千万亿次超级计算机"天河一号" |url=https://www.gov.cn/jrzg/2009-10/29/content_1451703.htm |access-date=2025-03-01 |website=中国政府网 |publisher=中华人民共和国中央人民政府 |language=zh}} It was the second system globally to exceed 10¹⁶ operations per second.

The Tianjin Computer Institute had been active since 1984 when it developed the 16-bit TQ-0671 microcomputer system.{{cite book |author=United States Committee on Science and Technology |url=http://babel.hathitrust.org/cgi/pt?id=uc1.31822003616331;view=1up;seq=108 |title=Technology transfer to China |date=July 1987 |page=96 |lccn=87619823 |oclc=624084757 |access-date=21 June 2014 |archive-url=https://web.archive.org/web/20170327124855/https://babel.hathitrust.org/cgi/pt?id=uc1.31822003616331;view=1up;seq=108 |archive-date=27 March 2017 |url-status=live}} A commercial affiliate of the Tianjin center had previously made the PHPC100 personal supercomputer in 2008 which was approximately twice the size of a desktop and offering forty times its performance; a second-generation model appeared in 2010.{{cite web |date=14 April 2010 |title=China to launch second generation of PHPC100 personal supercomputer in June |url=http://financial.tmcnet.com/news/2010/04/14/4729585.htm |url-status=live |archive-url=https://web.archive.org/web/20120404053221/http://financial.tmcnet.com/news/2010/04/14/4729585.htm |archive-date=4 April 2012 |accessdate=29 January 2013 |publisher=Financial Technology Spotlight}}

The National Supercomputing Center in Shenzhen (NSCS) was approved by the Ministry of Science and Technology in May 2009 as one of China's first national supercomputing centers in the central-southern region. It is the second national supercomputing center after the one based in Tianjin and houses the second fastest machine in China, and the third fastest in the world.{{Cite news |last=Branigan |first=Tania |date=2010-10-28 |title=China's Tianhe-1A takes supercomputer crown from US |url=https://www.theguardian.com/technology/2010/oct/28/china-tianhe-1a-fastest-supercomputer |access-date=2025-04-21 |work=The Guardian |language=en-GB |issn=0261-3077}}

Located in Xili Lake International Science & Education City, SSC Phase I occupies 43,400 square meters and is equipped with a world-class supercomputer system. In May 2010 the Nebulae computer in Shenzhen placed second on the Top 500 supercomputer list, after the Cray computer at the Oak Ridge National Laboratory in Tennessee.{{cite web |last=Fildes |first=Jonathan |date=31 May 2010 |title=China aims to become computer superpower |url=https://www.bbc.co.uk/news/10181725 |url-status=live |archive-url=https://web.archive.org/web/20180622073655/https://www.bbc.co.uk/news/10181725 |archive-date=22 June 2018 |access-date=20 June 2018 |work=BBC News}}

Phase II is located in Guangming Science City. It covers 46,000 square meters of land, has a total construction area of 116,800 square meters, and is scheduled for completion by 2025.{{cite web |date=2024-04-25 |title=National Supercomputing Shenzhen Center (Phase II) |url=https://www.szgm.gov.cn/english/topic/KeyFacilitiesinGM/content/post_11260363.html |access-date=2025-03-01 |website=Shenzhen Government Online |publisher=Shenzhen Municipal Government |language=en}} This phase aims to expand computational capacity while integrating sustainable design principles. The center will house a 2E-level supercomputer and work alongside Phase I to provide large-scale scientific computing, industrial computation, big data processing, and intelligent supercomputing services.{{cite web |title=国家超级计算深圳中心 |url=https://www.nsccsz.cn/nsccsz2024/zxgk2024/zxgk2024.shtml |access-date=2025-03-01 |website=国家超级计算深圳中心官方网站 |publisher=国家超级计算深圳中心 |language=zh}}

The Shenzhen Supercomputing Pingshan Service Platform is the first regional platform established by the National Supercomputing Shenzhen Center, with support from the Pingshan District Innovation Bureau. It aims to serve the "9+2" industrial clusters in Pingshan District, promote the development of technology industries in the Pingshan High-tech Zone, and enhance the district's innovation capacity.{{cite web |title=深圳超算坪山服务平台 |url=https://www.nsccsz.cn/nsccsz2024/psfwpt2024/psfwpt2024.shtml |access-date=2025-03-01 |website=国家超级计算深圳中心官方网站 |publisher=国家超级计算深圳中心 |language=zh}}

Foundations for a new major branch of the National Supercomputing Center (国家超级计算中心 Guójiā Chāojíjìsuàn Zhōngxīn) were laid in Hunan University, Changsha on 28 November 2010 as the first National Supercomputing Center in Central China and the third National Supercomputing Center in China apart from the two centers which are located in Tianjin and Shenzhen.{{Cite web |date=2010-11-28 |title=Hunan starts building supercomputing center |url=http://europe.chinadaily.com.cn/china/2010-11/28/content_11621864.htm |access-date=2010-11-28 |website=europe.chinadaily.com.cn |archive-date=24 July 2024 |archive-url=https://web.archive.org/web/20240724234734/http://europe.chinadaily.com.cn/china/2010-11/28/content_11621864.htm |url-status=live }} The National Supercomputing Changsha Center is managed and operated by Hunan University.{{Cite web |title=National Supercomputing Center in Changsha Settles in Hunan University |url=http://www-en.hnu.edu.cn/info/1010/1973.htm |access-date=2022-10-11 |website=www-en.hnu.edu.cn |archive-date=11 December 2022 |archive-url=https://web.archive.org/web/20221211152114/http://www-en.hnu.edu.cn/info/1010/1973.htm |url-status=live }} It operates the Tianhe-1A Hunan Solution – NUDT YH MPP supercomputer which runs at 1342 teraflops.[http://i.top500.org/site/50363 Top 500] {{Webarchive|url=https://web.archive.org/web/20121018165258/http://i.top500.org/site/50363|date=18 October 2012}} It was the most powerful supercomputer in the world at that time from its operation in November 2010 to November 2011.{{Cite web |title=Highlights - November 2010 {{!}} TOP500 |url=https://www.top500.org/lists/top500/2010/11/highlights/ |access-date=2022-10-11 |website=www.top500.org |archive-date=11 October 2022 |archive-url=https://web.archive.org/web/20221011040329/https://www.top500.org/lists/top500/2010/11/highlights/ |url-status=live }}{{Cite web |title=Highlights - November 2011 {{!}} TOP500 |url=https://www.top500.org/lists/top500/2011/11/highlights/ |access-date=2022-10-11 |website=www.top500.org |archive-date=24 July 2024 |archive-url=https://web.archive.org/web/20240724234735/https://www.top500.org/lists/top500/2011/11/highlights/ |url-status=live }}

The National Supercomputing Center in Jinan (NSCCJN) is located in the capital of Shandong Province in East China. It is situated inside the Jinan Supercomputing Center Science and Technology Park, which opened in May 2019.{{citation needed|date=April 2025}} The CPU runs the ShenWei processor SW1600 at 975 MHz, running at 796 teraflops and using 137,200 cores in the processor.{{cite web |title=National Supercomputing Center in Jinan |url=http://www.top500.org/site/50362 |accessdate=17 April 2015 |archive-date=24 July 2024 |archive-url=https://web.archive.org/web/20240724234738/https://top500.org/site/50362/ |url-status=live }}

The NSCCJN built the first prototype of the Sunway E-class computer in 2018.{{Cite web |title=Jinan, a City of Springs Industries Jinan spearheads supercomputing in China |url=http://english.jinan.gov.cn/art/2019/12/26/art_108329_4773219.html |access-date=2025-04-19 |website=english.jinan.gov.cn}}

The center has also worked on projects that strengthen the internet access across various regions in China. In May 2024, the NSCCJN launched the "Shandong Computing Network", the first supercomputing Internet project in China that covers 16 cities in the province.{{Cite web |title=Constructing the "Strongest Brain" with Billions of Calculations in One Second-瞭望新时代网-瞭望时代，放眼世界 |url=https://www.lwxsd.com/pcen/info_view.php?tab=mynews&VID=52589 |access-date=2025-04-19 |website=www.lwxsd.com}}

The National Supercomputer Center in Guangzhou operates the tenth most powerful supercomputer in the world (as of November 2022) Tianhe-2 (MilkyWay-2),{{cite web|url=http://www.top500.org/system/177999|title=Tianhe-2 (MilkyWay-2) – TH-IVB-FEP Cluster, Intel Xeon E5-2692 12C 2.200GHz, TH Express-2, Intel Xeon Phi 31S1P|accessdate=17 April 2015|archive-date=29 June 2013|archive-url=https://web.archive.org/web/20130629220635/http://www.top500.org/system/177999|url-status=live}} which runs at 33,000 teraflops. It also operates the Tianhe-1A Guangzhou Solution – NUDT YH MPP supercomputer that runs at 211 teraflops.[http://i.top500.org/site/50365 Top 500] {{Webarchive|url=https://web.archive.org/web/20120623195503/http://i.top500.org/site/50365 |date=23 June 2012 }}, also the world's fastest when it was launched in 2010. The center has been active since 2018.{{cn|date=April 2025}}

In December 2023, China unveiled the domestically developed supercomputing system "Tianhe Xingyi" at the National Supercomputing Center in Guangzhou. The new system is reported to outperform the previous Tianhe-2 in several areas, including CPU computing power, networking, storage, and applications.{{Cite web |date=6 December 2023 |title=China launches new homegrown supercomputer - Xinhua |url=https://www.reuters.com/technology/china-launches-new-homegrown-supercomputer-xinhua-2023-12-06/ |access-date=10 April 2025 |website=Reuters}}

Located in central China's Henan province, the National Supercomputing Zhengzhou Center passed the inspection for operation in December 2020, becoming the seventh national supercomputing center in China.{{Cite web |date=23 December 2020 |title=National Supercomputing Center (Zhengzhou) has passed the acceptance inspection |url=http://english.zzu.edu.cn/info/1024/1610.htm |access-date=2022-10-11 |website=english.zzu.edu.cn |archive-date=11 October 2022 |archive-url=https://web.archive.org/web/20221011050519/http://english.zzu.edu.cn/info/1024/1610.htm |url-status=live }}

In 2020, the National Supercomputing Kunshan Center successfully passed the acceptance of experts, becoming the second supercomputing center in Jiangsu Province and the eighth supercomputing center in China.{{Cite web |title=News Center National Major S&T Innovation Platforms Approved for Construction in Jiangsu |url=http://en.jiangsu.gov.cn/art/2021/4/10/art_54122_9748951.html |access-date=2022-10-11 |website=en.jiangsu.gov.cn |archive-date=11 October 2022 |archive-url=https://web.archive.org/web/20221011050518/http://en.jiangsu.gov.cn/art/2021/4/10/art_54122_9748951.html |url-status=live }}

The National Supercomputing Center in Chengdu, officially launched in September 2020, serves as a pivotal node in China's high-performance computing (HPC) infrastructure.{{Cite web |last=刘明 |title=New cross-regional computing service hub officially in operation in West China |url=https://www.chinadaily.com.cn/a/202501/03/WS67774881a310f1265a1d8cad.html |access-date=2025-04-19 |website=www.chinadaily.com.cn}} Situated in Tianfu New Area in the Sichuan province in southwest China, the center provides a range of services encompassing computing resources, software development, and talent cultivation.{{Cite web |last=Writers |first=KrASIA |date=2021-05-25 |title=A new route for Chengdu to develop its AI industry |url=https://kr-asia.com/a-new-route-for-chengdu-to-develop-its-ai-industry |access-date=2025-04-19 |website=KrASIA |language=en}} It collaborates with over 1,400 users across more than 30 sectors, including basic science, artificial intelligence (AI), and urban governance.{{Cite web |last=He |first=Chuanning |date=19 August 2024 |title=Chengdu continues to enhance the level of artificial intelligence industry-瞭望新时代网-瞭望时代，放眼世界 |url=https://www.lwxsd.com/pcen/info_view.php?tab=mynews&VID=55405 |access-date=2025-04-19 |website=www.lwxsd.com}}

Chengdu distinguishes itself as one of the few Chinese cities hosting both a national supercomputing center and an intelligent computing center. The Chengdu Intelligent Computing Center, located in Pidu, focuses on AI applications and integrates platforms for AI computing power, scientific research innovation, and urban intelligence. With an initial computing power scale of 300 petaflops, it supports over 120 enterprises in developing AI solutions across various domains such as intelligent governance, healthcare, and manufacturing.

In early 2025, Chengdu was designated as the main node in a new cross-regional computing service hub, with sub-nodes in Yibin and Lushan. This initiative aims to establish unified management and scheduling of computing resources, fostering an integrated ecosystem for the computing industry.

The city's commitment to AI development is further evidenced by its designation as the first national AI innovation application pilot zone in western China. By 2023, Chengdu's AI and robotics industry had grown to a scale of 78 billion RMB, with projections exceeding 100 billion RMB in 2024.{{Cite web |title=Chengdu: An AI Hub |url=https://www.stdaily.com/web/English/2024-12/13/content_267369.html |access-date=2025-04-19 |website=www.stdaily.com}}

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