The Latest High Performance Computing Industry Statistics Explained
The global High Performance Computing (HPC) market size was valued at USD 39.1 billion in 2020.
The statistic that the global High Performance Computing (HPC) market size was valued at USD 39.1 billion in 2020 indicates the total economic value of all goods and services related to HPC technology that were produced, bought, and sold during that year. This market size figure reflects the substantial demand for high-performance computing solutions in various industries such as scientific research, financial services, healthcare, and manufacturing, as organizations increasingly rely on HPC to solve complex problems and process vast amounts of data efficiently. The significant market valuation suggests a growing recognition of the importance of HPC in driving innovation, improving decision-making processes, and enhancing computational capabilities across sectors worldwide.
It is anticipated to expand at a compound annual growth rate (CAGR) of 6.5% from 2021 to 2028.
This statistic indicates that the subject in question, likely a market, industry, or product, is expected to experience consistent growth over the period from 2021 to 2028. The compound annual growth rate (CAGR) of 6.5% suggests that the growth will be compounded annually at this rate. This means that the growth of the subject will not be linear but will accelerate over time due to the compounding effect. The anticipation of a 6.5% CAGR gives stakeholders an idea of the expected rate of expansion and helps in forecasting future trends, making strategic decisions, and assessing the potential investment opportunities in relation to the subject.
Cloud-based deployment mode is anticipated to expand at the fastest CAGR of 7.5% from 2021 to 2028.
The statistic indicates that the cloud-based deployment mode, which involves hosting software and services on remote servers accessed over the internet, is expected to experience the highest Compound Annual Growth Rate (CAGR) of 7.5% between the years 2021 and 2028. This suggests that businesses and organizations are increasingly adopting cloud-based solutions for their technology needs due to benefits such as scalability, cost-effectiveness, and flexibility. The forecasted rapid growth rate in the adoption of cloud-based deployment indicates a shift towards more modern and efficient technology infrastructures, highlighting the continued trend towards digital transformation across various industries.
The High Performance Computing Market in government sector is expected to reach USD 4.8 billion by 2028.
The statistic states that the High Performance Computing (HPC) market within the government sector is projected to grow and reach a value of USD 4.8 billion by the year 2028. This implies a significant increase in the adoption and utilization of HPC technologies by governmental entities for various purposes such as research, defense, cybersecurity, and data analysis among others. The expected growth suggests a growing recognition of the importance and benefits of high performance computing in enhancing capabilities, efficiency, and decision-making processes within government agencies. This growth may be driven by advancements in technology, increasing data complexity, and the growing need for computational power to address complex challenges and drive innovation within the public sector.
The largest share of High Performance Computing market in 2020 was held by North America, accounting for over 38% share globally.
In the High Performance Computing market in 2020, North America held the largest share, with a substantial portion of over 38% of the market globally. This statistic indicates that North America’s presence in the High Performance Computing industry was significant and dominant compared to other regions around the world during that year. The strong market share suggests that North America likely had a robust infrastructure, investment, and innovation in the field of High Performance Computing, positioning it as a key player in advancing technologies and applications that require high computational power and speed.
The Asia Pacific HPC market is projected to witness the fastest growth over the forecast period.
The statistic indicates that the Asia Pacific High-Performance Computing (HPC) market is anticipated to experience the most rapid expansion compared to other regions during the specified forecast period. This suggests that the demand for HPC solutions, which enable efficient and high-speed computational capabilities for complex scientific, engineering, and data-intensive tasks, is likely to surge in the Asia Pacific region. The projected growth could be driven by factors such as increasing investments in technology infrastructure, emerging economies adopting HPC for research and development purposes, and a growing focus on innovation and competitiveness within the region’s industries. This trend also reflects a potential shift towards more advanced computing technologies in Asia Pacific, presenting opportunities for vendors and organizations operating in the HPC space to tap into this expanding market.
In 2020, the Large Enterprises end-use segment accounted for the largest revenue share of over 60% in the HPC market.
The statistic indicates that in the High-Performance Computing (HPC) market in 2020, the Large Enterprises end-use segment generated the highest proportion of total revenue, with a share exceeding 60%. This suggests that large companies were the primary consumers of HPC products and services during that year, indicating a significant demand and investment from this particular segment of customers. The dominance of Large Enterprises in terms of revenue share highlights their reliance on HPC technologies for various applications such as data analysis, computational modeling, and research, underscoring the importance of these solutions in driving innovation and competitiveness within the business landscape.
The market size of the High Performance Computing industry in the U.S. has grown 3.2% per year on average between 2016 and 2021.
This statistic indicates that the market size of the High Performance Computing (HPC) industry in the United States has experienced annual growth of 3.2% on average over the five-year period from 2016 to 2021. This growth rate suggests that the demand for high-performance computing services and products has been steadily increasing over time. The consistent expansion of the HPC market implies that organizations and industries in the U.S. are increasingly relying on advanced computing technologies to enhance their operations, drive innovation, and stay competitive in their respective sectors. This trend of growth highlights the importance and relevance of high-performance computing solutions in today’s rapidly evolving technological landscape.
The sector within High Performance Computing showing the most growth currently is bioinformatics.
The statistic suggests that within the field of High Performance Computing (HPC), which involves the use of advanced computing technologies to solve complex problems and process large datasets, the sector experiencing the most significant growth is bioinformatics. Bioinformatics is a specialized branch of science that combines biology, genetics, and computer science to analyze and interpret biological data, such as genetic sequences and protein structures. The notable growth in bioinformatics within HPC could be attributed to the increasing volume and complexity of biological data generated by advancements in biotechnology and genomics research, driving the demand for faster and more powerful computing systems to process and analyze this data efficiently. This trend highlights the crucial role of HPC in advancing research and innovation in the field of bioinformatics, ultimately leading to breakthrough discoveries in areas such as drug development, personalized medicine, and understanding complex biological processes.
Energy exploration and military defense are the two sectors most commonly associated with the use of High Performance Computing.
The statistic indicates that high performance computing (HPC) is most frequently utilized in the sectors of energy exploration and military defense. This suggests that these industries rely heavily on HPC systems to process vast amounts of data, conduct complex simulations, and improve decision-making processes. In the context of energy exploration, HPC can be used for seismic imaging, reservoir simulation, and well optimization, leading to more efficient resource extraction. Similarly, in military defense, HPC enables advanced modeling and simulation for training, mission planning, and weapon development, enhancing strategic capabilities. Overall, the prominence of HPC in these sectors highlights the significance of computational power in driving innovation, productivity, and competitiveness in energy and defense operations.
Leading vendors in the global High Performance Computing market as of 2019 include Hewlett-Packard, IBM, and Dell.
The statistic indicates that as of 2019, Hewlett-Packard, IBM, and Dell were identified as the top vendors in the global High Performance Computing (HPC) market. This suggests that these companies were dominant players in the industry and likely held significant market shares compared to their competitors. The inclusion of these three vendors as leading players highlights their strong presence in providing high-performance computing solutions to various industries and organizations around the world. The market dominance of these key players may signify their technological capabilities, innovation, and strategic positioning in the HPC market landscape as of 2019.
The market for High Performance Computing is expected to reach $49.4 billion in 2025.
The statistic that the market for High Performance Computing (HPC) is projected to reach $49.4 billion in 2025 indicates the anticipated total value of the industry by that year. This figure suggests a significant growth trajectory for HPC technologies and services, reflecting increasing demand for computing solutions that can process large volumes of data and perform complex calculations at high speeds. The growth in the HPC market is likely driven by advancements in areas such as artificial intelligence, machine learning, scientific research, and data analytics, all of which require powerful computing capabilities. This statistic serves as a key indicator for businesses, investors, and policymakers to understand the growing importance and economic value of HPC in various industries.
High Performance Computing servers accounted for around 22% of total server revenues in 2018.
This statistic indicates that in 2018, High Performance Computing (HPC) servers contributed to approximately 22% of the total revenues generated from server sales. HPC servers are specifically designed to deliver high computational power and performance for applications that require intense processing capabilities, such as scientific research, weather modeling, financial analysis, and simulations. The fact that HPC servers accounted for a significant portion of total server revenues highlights the growing demand for high-performance computing solutions across various industries that rely on advanced data processing and analysis. This trend underscores the importance of investing in cutting-edge technology to support complex workloads and drive innovation in today’s data-driven world.
HPC cloud market is expected to grow to $11 billion in 2022.
The statistic ‘HPC cloud market is expected to grow to $11 billion in 2022’ indicates the projected growth in the market size of High Performance Computing (HPC) services delivered through cloud technology. This forecast suggests that there is a growing demand for HPC solutions that leverage cloud infrastructure, which is expected to result in a total market value of $11 billion by the year 2022. This growth is likely driven by advancements in cloud computing technology, increasing adoption of HPC solutions across various industries, and the benefits of scalability, flexibility, and cost-effectiveness offered by cloud-based HPC services. Overall, this statistic highlights the expanding opportunities and potential for businesses operating in the HPC cloud market.
As of 2020, Cray had the largest share of the supercomputing market, around 30%.
The statistic indicates that as of 2020, Cray, a renowned supercomputer manufacturer, held the leading position in the supercomputing market with a market share of approximately 30%. This suggests that a significant portion of supercomputers in use around the world were manufactured by Cray, highlighting the company’s strong presence and dominance in the industry at that time. With supercomputers being crucial for complex computations in various fields such as scientific research, weather forecasting, and artificial intelligence, Cray’s substantial market share underscores its technological prowess and the trust placed in its products by institutions and organizations requiring high-performance computing capabilities.
China held 45 percent of the world’s TOP500 supercomputers, while the U.S. had 21 percent.
This statistic indicates the distribution of the world’s most powerful supercomputers among different countries, specifically highlighting China and the United States. China’s possession of 45 percent of the TOP500 supercomputers signifies its significant investment and advancement in high-performance computing technology. In contrast, the U.S. holding 21 percent shows that it is also a key player in this field but trails behind China in terms of the sheer number of top-tier supercomputers. This distribution suggests that China is making substantial strides in the development of supercomputing technology and indicates a potential shift in global technological leadership in this particular area.
The number of High Performance Computing systems using accelerator/coprocessor has increased to 137 in 2020.
The statistic states that there were 137 High Performance Computing systems equipped with accelerators or coprocessors in use in the year 2020, representing an increase from previous years. High Performance Computing systems are computer systems capable of processing data at extremely high speeds and are often used in scientific research, simulations, and large-scale data analysis. Accelerators and coprocessors are additional processing units that assist in speeding up computations and improving overall performance. The increase in the number of HPC systems using these technologies indicates a growing trend towards leveraging accelerators and coprocessors to enhance computational capabilities and handle increasingly complex and data-intensive tasks in various fields of study.
As of 2020, public research institution has the most installed systems with 213 supercomputers.
The statistic states that as of 2020, public research institutions have the largest number of installed supercomputing systems compared to other types of institutions or organizations, with a total of 213 supercomputers in operation. This suggests that public research institutions are leading in the adoption and utilization of high-performance computing technology for scientific research, data analysis, and other computationally intensive tasks. The significant presence of supercomputers in public research institutions reflects their emphasis on cutting-edge technology and the importance of advanced computing capabilities in advancing scientific knowledge and innovation.
World’s fastest supercomputer, Fugaku in Japan, is powered by ARM an architecture in High Performance Computing.
The statistic highlights that the world’s fastest supercomputer, Fugaku in Japan, is utilizing the ARM architecture to achieve its high performance computing capabilities. ARM architecture is known for its energy efficiency and scalability, making it a preferred choice for a wide range of computing applications, including supercomputers. By leveraging ARM technology, Fugaku is able to deliver exceptional processing power and computational performance, positioning it at the forefront of supercomputing capabilities globally. This statistic underscores the significance of ARM architecture in pushing the boundaries of high-performance computing and showcases Japan’s leadership in the field of supercomputing technology.
References
0. – https://www.www.ibisworld.com
1. – https://www.www.grandviewresearch.com
2. – https://www.www.top500.org
3. – https://www.www.marketsandmarkets.com
4. – https://www.www.hpcwire.com
