High Performance Computing Market Forecast
The High Performance Computing market is expected to be worth USD 30 billion by 2025 and is expected to account for 20% of the total market size. Many companies are involved in developing hardware products, software solutions, and service delivery services for the High Performance Computing. The High Performance Computing market is expected to be dominated by major manufacturers and several end-user industries like the Oil and Natural Gas industries, the Aerospace industry, and the Electronics and Communication Industries. The major high-end products are based on server farms and clusters that are capable of providing high processing power. These servers, with their huge number of processors and complex software, can efficiently handle highly scaled and complex workloads. Companies are also producing servers, cluster software, and storage products to provide high throughput of data. The High Performance Computing industry is expected to grow at a high CAGR over the forecast period.
The demand for High Performance computing is expected to continue its strong growth over the forecast period. A market with a relatively stable revenue structure is attractive. The high end systems that run servers, clusters, and storage and that run on high speed processors, are in high demand.
Semiconductor companies are leading in the High Performance Computing market. Advanced microprocessors and large amounts of memory can also help these companies. These companies offer servers that can run various applications (e. , Internet browsing, game applications, web services, business intelligence, social networking, etc. ) that are not well suited for large systems. These systems have to be designed to provide high processing power, highly scalable capabilities, and multiple functionalities. In addition, a large amount of memory is also desired.
In terms of the global pipeline, the High Performance Computing market is expected to grow at a CAGR of 7. 2% during the forecast period. The High Performance Computing market consists of server farms and clusters that have higher throughput, low latency, and low power consumption. By 2018, it is expected that the number of data centers will grow from 1. 3 billion in 2016 to 2. 1 billion and the number of systems will grow from 6. 3 billion in 2016 to over 10 billion in 2018.
Market research report on the market of High Performance Computing ( HPC ).
Article Title: Market research report on the market of High Performance Computing ( HPC ) | Software.
The market for high performance computing (HPC) has a rapidly growing trend over the past 5-10 years. The growing demand for HPC is driven by the need for high end scientific applications and scientific applications in industry. HPC application has a wide range of applications including simulation, prediction and prediction of time in order to increase the efficiency and cost of scientific processing. This makes HPC an important application for the industry.
The software segment has a share of almost 30% in the global HPC market. The software segment has been expected to grow at a CAGR of 15. 5% during the forecast period. Software segments offer a wide range of applications, such as scientific simulation packages for applications where the analysis of an enormous amount of information is necessary, such as drug drug interaction analysis, molecular dynamics, etc.
The major market players operating in the global high performance computing market are IBM, Fujitsu, Intel, AMD, Mellanox and NVIDIA. The global HPC market is expected to reach USD 6. 4 billion by 2025, from USD 2. 7 billion in 2015.
The research methodology adopted in the report for the market is multidimensional and quantitative. The estimation and analysis have been performed using the data collected from primary sources such as interviews, surveys and primary and secondary research such as peer-reviewed publications and company websites. The primary inputs for the forecast are the number of users, applications and services for HPC in a country, and the revenue generated by the application. Secondary inputs include the technology, software version and hardware used in a country.
The research methodology adopted in the report has been developed in light of the information collected from a number of primary sources and based on inputs taken into account, the research methodology and forecast have been developed. The report presents the market dynamics as well as the overall driver and the restraints to this market. The report covers the technological advancements, and market segments analyzed in this research report. The primary research of the market dynamics and the market restraints have been carried out through extensive interviews with senior researchers in leading and emerging countries.
The report provides extensive information on the segments of the market and their dynamics.
Market Players profiled in the High Performance Computing Research Report.
Article Title: Market Players profiled in the High Performance Computing Research Report | Software. Full Article Text: The following pages present the results of a High Performance Computing Research Report for the second quarter of the 2008 fiscal year. Market players who are profiled here include Intel, IBM, SGI, Cray, and Fujitsu—with more than 20 companies participating in the report. High Performance Computing Market Forecast: The study finds that the computer-aided manufacturing industry has a strong growth prospect. The computer-aided manufacturing market is projected to grow at a CAGR of 14. 2% during the forecast period from 2012 to 2015. The market is estimated to be valued at USD 578. 6 million in 2015 and is projected to reach USD 628. 2 million by 2020. Hardware Equipment Manufacturing, Software, and Services Manufacture are expected to be the leading players. The software-aided manufacturing sector is the fastest-growing segment within the hardware equipment market and is expected to be valued at USD 478. 2 million by 2015. Hardware Equipment Manufacturing Market: The key players operating in the market include Intel Corporation, HP Inc, IBM Corp. , Siemens AG, AMD Inc. , Fujitsu Solutions, and SGI Corporation. Software/Services Manufacture: Intel Corporation is expected to lead the high-performance computing market, primarily due to its robust product portfolio. The company has recently introduced the Xeon E3840/E3940 Series and the Xeon E3200/E3600 Series processors to expand its product base. IBM is expected to generate a major chunk of the revenue through the sales and marketing of its operating systems for several years.
The market is increasingly driven by a growing number of emerging and established computer users with Internet connectivity.
The computer-aided manufacturing industry is projected to grow at a CAGR of 8. 7% during the forecast period from 2012 to 2015. The segment is estimated to be valued at USD 578. 6 million in 2015 and is expected to reach USD 628. 2 million by 2020. Hardware Equipment Manufacturing: The segment is the largest among all other manufacturing segments in terms of the total revenue, market share, and is expected to grow at the highest CAGR during the forecast period. Hardware equipment manufacturers are the leading product vendors in the hardware equipment market. This is due to their large market shares and to the fact that they provide end to end solutions for customizing an end product for various customers.
SOURCE Markets and Markets.
Article Title: SOURCE Markets and Markets | Software. Full Article Text: Source Markets and Markets | Software.
In this article, Richard S. Smith, the author of Source Markets and Markets, argues for a shift in the dominant understanding of the roles markets play in the development of software, in which the traditional idea of a separate market for a computer is being superseded by the new idea of a market for software. Smith argues for a new understanding of the relationship between software, software vendors and the broader software industry.
This article draws out some of the main issues underlying the emergence of a new understanding of this relationship. First, he addresses the nature of the new software market and its importance for software developers and consumers. He contends that if we accept the new market as a reality, we have to accept the existence of a larger and more comprehensive relationship between software development and its vendors, with the relationship not being a simple matter of supply and demand, but of an increasingly complex set of relationships between these two sets of parties.
Second, Smith addresses several of the major challenges facing a community of software developers and software vendors, problems which are related to the nature of the market for software. To do this, he describes the existing commercial and professional development organizations which exist in the community, and the problem currently confronting software vendors, who do not have sufficient experience in building and growing their businesses to effectively compete with these existing organizations.
Finally, Smith argues that it would be unwise for either a community or a single set of software vendors to pursue a strategy of relying on the existence of a particular market in trying to develop and deliver software.