Chapter 1: Overview of the development of China's supercomputing industry.
1.1 Industry definition and statistical description.
1.1.1 Industry concepts and definitions.
1) Supercomputing concepts and definitions.
2) Supercomputer concepts and definitions.
1.1.2 Distinguish and compare industry-related concepts.
1) Supercomputing and high-performance computing.
2) Supercomputers and general-purpose servers.
1.1.3. Industry evaluation system.
1.1.4. The strategic significance of industry development.
1) Promote the leapfrog development of national scientific and technological innovation capabilities.
2) Advanced computing technology supported by supercomputing platforms promotes the interdisciplinary integration and development of various disciplines.
3) Promote the improvement of the construction of strategic national basic information infrastructure.
4) Widely serve the national public livelihood industry and improve the sustainable development and happiness index of the society.
1.1.5 Statistical scope and data** description of this report.
1.2 Analysis of the industry policy environment.
1.2.1. Analysis of the industry regulatory system.
1.2.2 Analysis of industry-related standards.
1.2.3 Interpretation of industry-related policies.
1.2.4 Analysis of the impact of the 14th Five-Year Plan on the development of the supercomputing industry.
1.2.5 Analysis of the impact of the "carbon neutrality and carbon peak" strategy on the supercomputing industry.
1.3. Analysis of the economic environment of the industry.
1.3.1 Current status of macroeconomic development.
1) China's GDP growth.
2) Changes in China's industrial added value.
3) Investment in fixed assets.
1.3.2 Macroeconomic outlook.
1.3.3. Analysis of the impact of macroeconomics on the development of the industry.
1.4 Analysis of the social demand environment of the industry.
1.4.1 The need for supercomputing in economic development.
1.4.2 The demand for supercomputing in production and construction.
1.5. Analysis of the technical environment of the industry.
1.5.1 Overview of industry technology.
1) Base layer: It is composed of heterogeneous and behavior-based supercomputers.
2) Middle layer: six types of equipment + three major networks.
3) Application Layer: Solution.
1.5.2 Analysis of key technologies in the industry.
1) Processor acceleration components.
2) Large-scale system interconnection.
3) High-performance communication software.
4) High-performance algorithm library and application.
5) Supercomputing cloud.
1.5.3 The status quo of domestic technology development.
1) System interconnection network.
2) Supercomputing cloud technology.
3) Messaging programming model.
4) Hyperscale parallel applications.
1.6 Industry-related industry analysis.
1.6.1 Artificial Intelligence.
1) Overview of the development of the artificial intelligence industry.
2) Correlation analysis between artificial intelligence and supercomputing industry.
1.6.2 Big data.
1) Overview of the development of the big data industry.
2) Correlation analysis between big data and supercomputing industry.
1.6.3 Cloud computing.
1) Overview of the development of the cloud computing industry.
2) Correlation analysis between cloud computing and supercomputing industry.
1.6.4 5g
1) Overview of the development of the 5G industry.
2) Analysis of the correlation between 5G and the supercomputing industry.
Chapter 2: Analysis of the development status of the global supercomputing industry.
2.1 Analysis of the development status of the global supercomputing industry.
2.1.1 The development stage and history of the global supercomputing industry.
1) The evolution stage of global high-performance computing.
2) The development history of the global supercomputing industry.
2.1.2 Analysis of the development status of the global supercomputing industry.
1) Market size analysis of the global supercomputing industry.
2) Analysis of the market structure of the global supercomputing industry.
2.1.3 Analysis of the world's leading supercomputers.
2.1.4 Analysis of the development trend of the global supercomputing industry.
2.1.5 Application and prospect analysis of the global supercomputing industry.
1) Application prospects in the global supercomputing industry.
2) The development prospect of the global supercomputing industry.
2.2 Analysis of the development of the supercomputing industry in major countries and regions.
2.2.1 Analysis of the development of the supercomputing industry in the United States.
1) Analysis of the development plan of the supercomputing industry in the United States.
2) Investment analysis in the field of supercomputing in the United States.
3) Market size analysis of the U.S. supercomputing industry.
2.2.2 Analysis of the development of Japan's supercomputing industry.
1) Analysis of the development plan of Japan's supercomputing industry.
2) Analysis of major Japanese supercomputers.
2.2.3 Analysis of the development of the supercomputer industry in Europe.
1) Analysis of the development plan of the European supercomputing industry.
2) Analysis of the development scale of the European supercomputing industry.
3) Analysis of the international competitiveness of the European supercomputing industry.
2.3 Analysis of leading companies in the global supercomputing industry.
2.3.1 Hewlett Packard Enterprise (HPE) of the United States.
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise business structure.
4) Enterprise supercomputing business analysis.
5) Analysis of the latest development trends of the enterprise.
2.3.2 ATOS.
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise business structure.
4) Enterprise supercomputing business analysis.
5) Analysis of the latest development trends of the enterprise.
2.3.3 Dell Inc.
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise business structure.
4) Enterprise supercomputing business analysis.
5) Analysis of the latest development trends of the enterprise.
2.3.4 AMD.
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise business structure.
4) Enterprise supercomputing business analysis.
5) Analysis of the latest development trends of the enterprise.
2.3.5 IBM Corporation, USA.
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise business structure.
4) Enterprise supercomputing business analysis.
5) Analysis of the latest development trends of the enterprise.
2.3.6 Intel Corporation.
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise business structure.
4) Enterprise supercomputing business analysis.
5) Enterprise supercomputing application cases.
6) Analysis of the latest development trends of the enterprise.
2.3.7 Fujitsu Corporation, Japan.
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise business structure.
4) Enterprise supercomputing business analysis.
5) Analysis of the latest development trends of the enterprise.
Chapter 3: Analysis of the development status of China's supercomputing industry.
3.1 Analysis of the development process of China's supercomputing industry.
3.1.1 The development history of China's supercomputing industry.
1) Breaking the blockade (1983-2023).
2) Breaking the monopoly (2003-2023).
3) Leading innovation (2016-present).
3.1.2 R&D analysis of China's key supercomputers.
3.2 Analysis of the development status of China's supercomputing industry.
3.2.1 Analysis of the layout of R&D and production institutions in China's supercomputing industry.
1) Analysis of core R&D institutions in China's supercomputing industry.
2) The main production and manufacturing layout of China's supercomputer industry.
3.2.2 Introduction to China's major supercomputers.
1) Sunway Taihulight
2) TH-2 Tianhe-2.
3) Inner Mongolia High Performance Computing Public Service Platform (Qingcheng Light).
3.2.3 Overall performance analysis of China's supercomputing industry.
3.2.4 Analysis of market characteristics of China's supercomputing industry.
3.2.5 Analysis of the development pain points of China's supercomputing industry.
1) The core technology is still dependent on foreign countries to a certain extent.
2) The R&D and industrialization of industry application software and the cultivation of high-level application talents need to be strengthened urgently.
3) The input-output ratio of supercomputing infrastructure needs to be improved to further play a role in the economy and industry.
3.3 Analysis of the construction and development of the National Supercomputer Center.
3.3.1 The overall construction and layout of the National Supercomputer Center.
1) The current situation of the layout of the National Supercomputer Center.
2) The overall construction and deployment of the National Supercomputer Center.
3.3.2 National Supercomputing Center in Tianjin.
1) Introduction to the center.
2) Organizational structure of the center.
3) The business scope of the center.
4) Center achievements and property rights.
5) Resource analysis of the central supercomputing platform.
6) The service content of the central supercomputing platform.
7) Application field of central supercomputing platform.
8) The cooperation between industry, university and research of the center.
9) Analysis of the latest development trends of the center.
3.3.3 National Supercomputing Center in Guangzhou.
1) Introduction to the center.
2) Organizational structure of the center.
3) Analysis of high-performance computing services in the center.
4) Central Tianhe Xingguang Cloud Supercomputing Platform.
5) Central supercomputing application analysis.
6) The construction of the center and sub-centers.
7) Analysis of the latest development of the center.
3.3.4 National Supercomputing Center in Shenzhen.
1) Introduction to the center.
2) The development history of the center.
3) Analysis of central supercomputing resources.
4) Case analysis of the center's services.
5) Analysis of the latest development of the center.
3.3.5 Changsha National Supercomputing Center.
1) Introduction to the center.
2) Organizational structure of the center.
3) Analysis of software and hardware resources of the center.
4) Analysis of central products and services.
5) Application fields of central products and services.
6) Analysis of scientific research cooperation of the center.
7) Analysis of the latest development of the center.
3.3.6 National Supercomputing Center in Wuxi.
1) Introduction to the center.
2) Organizational structure of the center.
3) Analysis of the business direction of the center.
4) Analysis of software and hardware resources of the center.
5) Analysis of the latest development of the center.
3.3.7 National Supercomputing Zhengzhou Center.
1) Introduction to the center.
2) Analysis of the business direction of the center.
3) Resource allocation of the center.
4) Center Planning Objectives.
5) Analysis of the latest development of the center.
3.3.8 National Supercomputing Center in Jinan.
1) Introduction to the center.
2) Organizational structure of the center.
3) Center business analysis.
4) Analysis of software and hardware resources of the center.
5) Analysis of the application results of the center.
6) Analysis of the objectives of the center planning.
7) Analysis of the latest development of the center.
Chapter 4: Global and China Supercomputing Industry Competitive Landscape Analysis.
4.1 Analysis of the competitive landscape of the global supercomputing industry.
4.1.1 Analysis of the regional competition pattern of the global supercomputing industry.
4.1.2 Analysis of the competitive landscape of enterprises in the global supercomputing industry.
1) The competitive landscape of global supercomputer manufacturers.
2) The competitive landscape of players in the global supercomputing industry segment.
4.2 Analysis of the competitive landscape of China's supercomputing industry.
4.2.1 Analysis of the pattern of manufacturers in China's supercomputing industry.
4.2.2 Analysis of the international competitiveness of China's supercomputing industry.
1) Analysis of the international competitiveness of supercomputers.
2) Analysis of the international competitiveness of supercomputing performance.
4.2.3 The competitive landscape of China's supercomputing industry application field.
Chapter 5: Analysis of the development layout of China's supercomputing industry application industry chain.
5.1 Sorting out the industrial chain structure and ecological map of China's supercomputing industry.
5.1.1 Sort out the industrial chain structure of China's supercomputing industry.
5.1.2 Ecological map of the industrial chain of China's supercomputing industry.
5.2 Analysis of the upstream market development of China's supercomputing industry chain.
5.2.1 CPU Market Analysis.
1) Analysis of the current situation of the CPU market.
2) Analysis of domestic CPU supply capacity.
3) CPU development trends.
5.2.2 Analysis of the localization route of China's supercomputing chips.
5.2.3 Memory chip market analysis.
1) Analysis of the current situation of the memory chip market.
2) Memory chip competitive landscape.
3) The future development trend of memory chips.
5.3 Analysis of the downstream application fields of the industrial chain of China's supercomputing industry.
5.3.1 Overall overview of downstream applications in China's supercomputing industry.
5.3.2 Petroleum gas exploration.
1) Application analysis of supercomputing in the field of petroleum gas exploration.
2) Case study of supercomputing in the field of petroleum gas exploration.
3) Analysis of the application prospect of supercomputing in the field of petroleum gas exploration.
5.3.3 Biomedicine and intelligent medical field.
1) Application analysis of supercomputing in the field of biomedicine and intelligent medicine.
2) Case study of supercomputing in the field of biomedicine and intelligent medicine.
3) Analysis of the application prospect of supercomputing in the field of biomedicine and intelligent medicine.
5.3.4 Engineering** and spacecraft R&D.
1) Application analysis of supercomputing in the field of engineering and spacecraft research and development.
2) Case study of the application of supercomputing in the field of engineering and spacecraft research and development.
3) Analysis of the application prospect of supercomputing in the field of engineering and spacecraft research and development.
5.3.5 Weather forecasting and haze warning.
1) Application analysis of supercomputing in the field of weather forecasting and haze warning.
2) Case study of supercomputing in the field of weather forecasting and haze warning.
3) Analysis of the application prospect of supercomputing in the field of weather forecasting and haze warning.
5.3.6 Marine Environmental Engineering.
1) Application analysis of supercomputing in the field of marine environmental engineering.
2) Case study of supercomputing in the field of marine environmental engineering.
3) Analysis of the application prospect of supercomputing in the field of marine environmental engineering.
5.3.7 Building Information Modelling Domain.
1) Supercomputing in the field of building information modeling.
2) Case study of supercomputing in the field of building information modeling.
3) Analysis of the application prospect of supercomputing in the field of building information modeling.
5.3.8 Basic science research areas.
1) Application analysis of supercomputing in the field of basic scientific research.
2) Case study of the application of supercomputing in the field of basic scientific research.
3) Analysis of the application prospect of supercomputing in the field of basic scientific research.
5.3.9 Basic smart city field.
1) Application analysis of supercomputing in the field of smart cities.
2) Case study of supercomputing in the field of smart city exploration.
3) Analysis of the application prospect of supercomputing in the field of smart city exploration.
5.3.10 Analysis of other application areas.
1) The application of supercomputing in the field of network information security.
2) The application of supercomputing in the field of intelligent manufacturing.
Chapter 6: Analysis of Leading Companies in China's Supercomputing Industry.
6.1 Overview of the overall development of leading enterprises in the supercomputing industry.
6.2 Analysis of leading enterprises in the domestic supercomputing industry.
6.2.1 Shuguang Information Industry Co., Ltd. ***
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise product structure.
4) Enterprise R&D and technical level.
5) Enterprise supercomputing product analysis.
6) Construction of enterprise supercomputer projects.
7) Analysis of the advantages and disadvantages of enterprise supercomputing operation.
8) Analysis of the latest development trends of enterprise supercomputing.
6.2.2 Legend Holdings***
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise product structure.
4) Product analysis of enterprise supercomputing business.
5) Analysis of the advantages and disadvantages of enterprise supercomputer operation.
6) Analysis of the latest development trends of enterprise supercomputing.
6.2.3 Inspur Electronic Information Industry Co., Ltd. ***
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise product structure.
4) Enterprise R&D and technical level.
5) Product analysis of enterprise supercomputing business.
6) Application cases of enterprise supercomputing products.
7) Analysis of the advantages and disadvantages of enterprise supercomputing operation.
8) Analysis of the latest development trends of enterprise supercomputing.
6.2.4 Huawei Technologies***
1) Brief analysis of enterprise development.
2) Analysis of business conditions.
3) Analysis of enterprise product structure.
4) Product analysis of enterprise supercomputing business.
5) Analysis of the advantages and disadvantages of enterprise supercomputer operation.
6) Analysis of the latest development trends of enterprise supercomputing.
6.2.5 National University of Defense Technology.
1) Brief analysis of the development of the National University of Defense Technology.
2) The level of supercomputer technology of the National University of Defense Technology.
3) Research and development of supercomputing chips at the National University of Defense Technology.
4) Analysis of supercomputing system of National University of Defense Technology.
5) Analysis of the latest development of supercomputing at the National University of Defense Technology.
6.2.6 National Research Center for Parallel Computer Engineering Technology.
1) Brief analysis of the development of the center.
2) Central supercomputing system analysis.
3) Analysis of the latest development trends of the center.
6.2.7 Jiangnan Institute of Computing Technology.
1) Brief analysis of the development of the institute.
2) Analysis of the supercomputing results of the institute.
3) Analysis of the latest development trends of the Institute.
Chapter 7: Development Opportunities and Opportunity Analysis of China's Supercomputing Industry.
7.1 Analysis of the development prospects and trends of China's supercomputing industry.
7.1.1. Analysis of industry development opportunities.
1) China's first-class informatization construction provides development opportunities for the supercomputing industry.
2) There is a strong demand for informatization construction in China's energy industry.
3) The expansion of China's Internet market has brought development space for the supercomputer industry.
4) Cloud computing is an important direction for the future development of the supercomputer industry.
7.1.2 Industry market trend analysis.
1) Product trends.
2) Technology trends.
3) Application trends.
7.2 Analysis of investment characteristics of China's supercomputing industry.
7.2.1. Analysis of the current situation of industry investment.
7.2.2 Analysis of industry barriers to entry.
1) Brand barriers.
2) Technical barriers.
3) Talent barriers.
4) Service system barriers.
7.2.3. Industry investment risk analysis.
1) Policy risk.
2) Industry technology risks.
3) Market competition risk.
4) Other risks in the industry.
7.3 Analysis of investment opportunities and suggestions in China's supercomputing industry.
7.3.1. Analysis of the investment value of the industry.
7.3.2 Industry investment opportunity analysis.
7.3.3. Industry development strategies and suggestions.
1) Analysis of the development strategy of China's supercomputing industry.
2) Analysis of the sustainable development strategy of China's supercomputing industry.
Table of Contents of Charts. Figure 1: Differences between supercomputers and general-purpose servers.
Figure 2: Supercomputer evaluation system.
Exhibit 3: Methodology and data** illustration of the report.
Figure 4: Summary of current standards in the supercomputing industry.
Figure 5: Summary of relevant policies in China's supercomputing industry from 2018 to 2023.
Figure 6: China's GDP and its growth from 2011 to 2023 (in trillion yuan, %)
Figure 7: Trend chart of the added value and growth rate of China's industrial enterprises above designated size from 2014 to 2023 (unit: trillion yuan, %)
Figure 8: Growth rate of China's fixed asset investment (excluding rural households) from 2012 to 2023 (unit: trillion yuan, %)
Chart 9: China's GDP by institution** in 2024 (in %)
Figure 10: Supercomputer technology stratification.
Figure 11: Architectural classification of supercomputer systems.
Figure 12: Six types of supercomputer middle layer devices.
Figure 13: Three types of supercomputer middle layer networks.
Figure 14: Supercomputer applications.
Figure 15: Prototype and investigational network interconnect technologies for E-level computing.
Figure 16: Interconnect network between compute units in Summit and Sierra cabinets.
Exhibit 17: Interconnect network between Summit and Sierra system cabinets.
Figure 18: NOC structure of the A64FX compute node.
Exhibit 19: Based on "Kamui? The kmeans algorithm of "Taihu Light" data partitioning and parallelism method.
Figure 20: Market size of Chinese artificial intelligence industry from 2018 to 2023 (unit: 100 million yuan).
Figure 21: The development direction of the big data industry chain of different types of enterprises.
Figure 22: Market size growth of China's big data industry from 2018 to 2023 (unit: 100 million yuan).
Figure 23: Market size growth of China's cloud computing industry from 2018 to 2023 (unit: 100 million yuan).
Figure 24: China's public cloud and private cloud market size from 2018 to 2023 (unit: 100 million yuan).
Figure 25: The scale and growth of China's 5G communication industry from 2024 to 2030 (unit: 100 million yuan, %)
Figure 26: Two phases of the 60-year evolution of global high-performance computing.
Figure 27: The development of the global supercomputing industry.
Figure 28: Analysis of the development history of the global supercomputing industry.
Figure 29: Market size and growth rate of the global supercomputing industry from 2017 to 2023 (unit: US$100 million, %)
Figure 30: Global HPC cloud spending market size and growth rate from 2018 to 2023 (unit: US$ 100 million, %)
Figure 31: Market structure of the global supercomputing industry from 2017 to 2023 (unit: %)
Exhibit 32: Top 20 of the world's top 500 supercomputers in 2023 (unit: TFLOPS).
Figure 33: Trends in the global supercomputing industry.
Figure 34: Proportion and prospect analysis of the application field of the global supercomputing industry from 2024 to 2030 (unit: %)
Exhibit 35: Global Supercomputing Industry Development Prospects, 2024-2030** (in US$100 million).
Exhibit 36: U.S. HPC National Policy Planning Roadmap.
Exhibit 37: Specifics of the US HPC National Policy Plan.
Exhibit 38: U.S. Exascale Computing Project (ECP) focus areas.
Figure 39: U.S. supercomputing technology R&D and infrastructure development goals.
Exhibit 40: U.S.** Supercomputer Investment Analysis, 2018-2023.
Exhibit 41: National Academy of Sciences** Supercomputing System Investment Analysis.
Exhibit 42: North American Supercomputing Industry Market Size and Prospects, 2024-2030** (in USD 100 million).
Figure 43: Japan's development plan for the Post-K E-class high-performance computer.
Exhibit 44: Japan's 2023 ranking of the world's top 500 supercomputers in terms of performance (unit: TFLOPS).
Exhibit 45: Details of planning events related to the EU supercomputing industry as of 2023.
Figure 46: Summary of development plans related to the supercomputing industry in European countries as of 2023.
Exhibit 47: European Supercomputing Industry Market Size 2018-2023 (in USD 100 million).
Figure 48: Percentage of Europe's top 500 global supercomputer performance in 2023 (unit: %)
Exhibit 49: Hewlett Packard Enterprise (HPE) Company Profile.
Exhibit 50: Analysis of key economic indicators of Hewlett Packard Enterprise (HPE) Corporation in the United States, fiscal year 2018-2023 (unit: $100 million, %)
Exhibit 51: Revenue structure of Hewlett Packard Enterprise (HPE) in fiscal 2023 (in %)
Exhibit 52: Hewlett Packard Enterprise (HPE) Company's supercomputing business profile.
Exhibit 53: Atos company profile.
Exhibit 54: Analysis of key economic indicators of ATOS from 2018 to 2023 (in billions of euros, %)
Exhibit 55: Revenue structure of Atos in 2023 (in %)
Exhibit 56: Introduction to the supercomputing business of Atos.
Exhibits57: Dell Company Profile.
Exhibit 58: Analysis of key economic indicators of Dell in the United States for fiscal years 2017-2023 (unit: $100 million, %)
Exhibit 59: U.S. Dell Inc. revenue structure in fiscal 2021 (in %)
Exhibit 60: Dell Supercomputing Business Introduction.
Exhibit 61: Dell supercomputing business applications.
Exhibit 62: AMD Company Profile.
Exhibit 63: Analysis of key economic indicators of AMD from 2018 to 2023 (unit: US$ billion, %)
Exhibit 64: 2023 revenue structure of AMD (unit: %)
Exhibit 65: Introduction to AMD's supercomputing business.
Exhibit 66: IBM Company Profile.
Exhibit 67: Analysis of key economic indicators of IBM in the United States, 2018-2023 (unit: US$ billion, %)
Exhibit 68: 2023 revenue structure of IBM in the United States (unit: %)
Figure 69: The history of IBM supercomputing in the United States.
Exhibit 70: Introduction to IBM supercomputer systems in the United States.
Exhibit 71: IBM Supercomputing Product Presentation in the United States.
Exhibit 72: Intel company profile.
Exhibit 73: Analysis of key economic indicators of Intel Corporation in the United States, 2018-2023 (unit: $100 million, %)
Exhibit 74: 2023 revenue structure of Intel Corporation in the United States (in %)
Exhibit 75: Intel Corporation's supercomputing business-related product introduction.
Figure 76: Intel supercomputing application case.
Exhibits77: Company profile of Fujitsu Japan.
Exhibit 78: Analysis of key economic indicators of Fujitsu Corporation of Japan, 2018-2023 (in million yen).
Exhibit 79: Fujitsu Japan's product and business composition.
Figure 80: Introduction to Fujitsu's supercomputer "Fugaku" in Japan.
Exhibit 81: Fujitsu supercomputing product introduction.
Exhibit 82: History of China's supercomputing industry.
Exhibit 83: R&D events in China's key supercomputing industries as of 2023.
Figure 84: Layout of core R&D institutions in China's supercomputing industry.
Figure 85: Major manufacturing layout of China's supercomputing industry.
Exhibit 86: Top 20 of China's Top 100 Supercomputer Performance in 2023 (unit: TFLOPS).
Exhibit 87: Basic information about Sunway Taihulight.
Exhibit 88: Sunway Taihu Light shortlisted for the Gordon Bell Prize.
Figure 89: Introduction to the basic information of the Tianhe-2 supercomputer.
Figure 90: Introduction to the basic information of Inner Mongolia High Performance Computing Public Service Platform (Qingcheng Light).
Figure 91: Annual performance development of China's supercomputers from 2015 to 2023 (unit: TFLOPS).
Exhibit 92: Market characteristics of China's supercomputing industry.
Figure 93: Layout of National Supercomputing Centers.
Exhibit 94: Summary of operations, resources and supercomputer deployments of the National Supercomputing Center.
Figure 95: Organizational structure of the National Supercomputing Center in Tianjin.
Figure 96: Main business scope of the National Supercomputing Center in Tianjin.
Figure 97: Introduction to the Tianhe-1 supercomputer system.
Figure 98: Advantages of the Tianhe-1 supercomputer system.
Figure 99: System configuration of the Tianhe-3 prototype.
Figure 100: Service content of the National Supercomputing Center in Tianjin.
Figure 101: Test and application of large-scale** data processing software on the supercomputing platform of the National Supercomputing Center in Tianjin.
Figure 102: Application of offset processing of petroleum exploration data on the supercomputing platform of the National Supercomputing Center in Tianjin.
Figure 103: Optimization and application of processing software for petroleum exploration data on the supercomputing platform of the National Supercomputing Center in Tianjin.
Figure 104: Application of the supercomputing platform of the National Supercomputing Center in Tianjin in the field of automotive engineering.
Figure 105: Application of supercomputing platform equipment manufacturing in Tianjin National Supercomputing Center.
Figure 106: Application of the supercomputing platform of the National Supercomputing Center in Tianjin in the field of construction and civil engineering.
Figure 107: Application of the supercomputing platform of the National Supercomputing Center in Tianjin in the field of marine ships.
Figure 108: Flow field structure of a quadrotor UAV.
Figure 109: Aerodynamic noise field of the wing excited by the fan noise field and turbulent incoming flow of an aero engine.
Figure 110: Industry-University-Research Cooperation at the National Supercomputing Center in Tianjin.
Exhibit 111: Introduction to the National Supercomputing Center in Guangzhou.
Figure 112: Organizational structure of the National Supercomputing Center in Guangzhou.
Figure 113: Analysis of the characteristics of high-performance computing services at the National Supercomputing Center in Guangzhou.
Figure 114: Types of high-performance computing services at the National Supercomputing Center in Guangzhou.
Figure 115: National Supercomputing Center Guangzhou Center Starlight Supercomputing Application Platform.
Figure 116: Analysis of the advantages of the Starlight Supercomputing Application Platform of the National Supercomputing Center in Guangzhou.
Figure 117: Software deployment of the Starlight Supercomputing Application Platform of the National Supercomputing Center in Guangzhou.
Figure 118: Analysis of supercomputing applications at the National Supercomputing Center in Guangzhou.
Figure 119: National Supercomputing Center Guangzhou Sub-center.
Figure 120: Development of the National Supercomputing Center in Shenzhen.