Posted quarterly, using FDCCI Task Force data reported to OMB through the quarterly Integrated Data Collection (IDC) deadline. Federal Data Center Consolidation Initiative (FDCCI) Data Center Closures 2010-2015. Under the FDDCI, agencies have categorized their agency data center populations into two categories: core and non-core. The government is closing 40% of agency-identified, non-core data centers, while optimizing agency-identified core-data centers, according to a series of total cost of ownership metrics (see OMB M-13-09 and OMB M-14-08). This dataset reflects information only for agency-identified, non-core closures. All questions or inquiries should be directed to the specific agencies. The FY2010 through FY2015 dataset provides a list of planned or closed data centers by agency and by city/state location since the FDCCI started. Please note ?OTHER? is listed for data centers in cloud, co-located or managed service data centers, where square footage is unavailable. See related information about the FDCCI, including the definition of a data center and other FAQs at http://cio.gov/fdcci.

The surface area of U.S. data centers certified by Energy Star in 2024 was slightly lower than in the previous year. In fact, the gross surface area of data centers certified by Energy Star in 2023 amounted to **** million square feet, which was the highest value in the timeline. Meanwhile, the federal program Energy Star has awarded more certificates in 2018 than in any other year.

The Switzerland Data Center Market size was valued at USD 519 Million in 2024 and is projected to reach USD 1,036 Million by 2032, growing at a CAGR of 8.88% from 2026 to 2032.Key Market Drivers:Increasing Digital Transformation and Cloud Adoption: The continuous digital transformation of businesses and the quick uptake of cloud-based solutions are anticipated to propel the expansion of the data center market in Switzerland. According to the Swiss Federal Statistical Office, 96% of Swiss enterprises with 10 or more employees will use the internet for business in 2023, with cloud service adoption increasing from 34% in 2018 to 53% in 2023. This digital transformation has accelerated since the pandemic and continues to drive data center demand.Strong Focus on Data Privacy and Security: Switzerland's strict data protection regulations make it a desirable location for data centers. According to the Swiss Federal Statistical Office, Switzerland ranked fourth in the ITU Global Cybersecurity Index with a score of 97.64 out of 100, demonstrating the country's dedication to security frameworks that protect sensitive data.

Abstract

FSRDC allows qualified researchers to securely use restricted-access data from the U.S. Census Bureau, the National Center for Health Statistics (NCHS), the Agency for Healthcare Research and Quality (AHRQ), and the Bureau of Labor Statistics. These data are extraordinarily rich and virtually the only source for many important questions in health and social sciences. The Stanford Federal Statistical Research Data Center (FSRDC) allows qualified researchers to securely use restricted-access data from the U.S. Census Bureau, the National Center for Health Statistics (NCHS), the Agency for Healthcare Research and Quality (AHRQ), and the Bureau of Labor Statistics. For example, researchers can access detailed geographic indicators that are not publicly available in data such as the National Health Interview Survey (NHIS) and National Health and Nutrition Examination Survey (NHANES).

PHS does not host FSRDC data. If you wish to use FSRDC data for a health related project, please reach out to the Stanford FSRDC: https://iriss.stanford.edu/fsrdc

Before Manuscript Submission

All manuscripts (and other items you'd like to publish) must be submitted to

phsdatacore@stanford.edu for approval prior to journal submission.

We will check your cell sizes and citations.

For more information about how to cite PHS and PHS datasets, please visit:

https:/phsdocs.developerhub.io/need-help/citing-phs-data-core

Documentation

Metadata access is required to view this section.

The Israel Data Center Cooling Market report segments the industry into By Cooling Technology (Air-based Cooling, Liquid-based Cooling), By Type (Hyperscalers (Owned & Leased), Enterprise (On-premise), Colocation), and By End User Vertical (IT & Telecom, Retail & Consumer Goods, Healthcare, Media & Entertainment, Federal & Institutional Agencies, Other End-users).

IM3 Projected US Data Center Locations This dataset contains model projections of new data center facilities in the contiguous United States (CONUS) through 2035 using the CERF – Data Centers model. Data center locations are modeled across four data center electricity demand growth scenarios (low, moderate, high, higher) and five market gravity scenarios (0%, 25%, 50%, 75%, 100%). Projected locations are intended to be regional representations of feasible siting locations in the future to assess potential grid and water stress impacts. The data center load growth scenarios correspond with the rates outlined in EPRI (2024) and include 3.71%, 5%, 10%, and 15% annual growth of electricity demand for data centers from 2023 values in 37 states across the CONUS. Market gravity scenarios correspond to the relative importance of proximity to data center markets or high population areas compared to locational cost in the siting algorithm. 0% market gravity means that siting decisions were entirely determined by the locational cost in each feasible location. 100% market gravity means that only market proximity was considered when siting. Other scenarios have weight placed on both components where total weight always equals 100%. Locational cost is dependent on facility cooling type and corresponding electricity cost, taxes, andmore » other factors. Facility cooling type is spatially determined where high water stress and/or areas with high summer wet bulb temperatures are assumed to operate with mechanical cooling for a higher fraction of the year rather than evaporative cooling. Feasible data center siting areas are based on geospatial suitability raster data developed with open-source information. The following areas are excluded from siting: Areas within 300 m of a federal airport runway Waterbodies Areas with slope >16% Areas susceptible to sinkholes High coastal or inland flood risk areas Local, state, and federal parks, leisure areas, and cemeteries Areas >2 km away from electric substations Areas >5 km away from a municipal water supplier service area Areas >2 km away from high-speed fiber provider service territory Protected Areas Database of the United States (PAD-US) areas Railroads, major roadways, and minor roadways Military areas and training grounds NLCD developed lands Areas >0.8 km (0.5 miles) from NLCD developed lands Because we use open-source information, proprietary information that can influence siting decisions such as individual tax agreements with cities, detailed fiber line connectivity, electric grid power capacity agreements, and others, are not currently accounted for in the modeling process. Using specific building locations and footprints in the dataset for local planning purposes is not advised. Technical Information Geospatial data is provided in geojson format using the Albers Equal Area Conic (ESRI:102003) coordinate reference system. The datasets contain the following parameters: id - unique identification number within given scenario file growth_scenario – data center demand growth scenario market_gravity_weight – market gravity weight scenario (%) region – name of region (i.e., US State) total_cost_million_usd – locational siting cost ($million) campus_size_square_ft – total land acquired for data center facility (square ft) data_center_it_power_mw – IT power of data center facility (MW) mechanical_cooling_frac – fraction of year when data center uses mechanical cooling system water_cooling_frac– fraction of year when data center uses evaporative cooling system cooling_energy_demand_mwh – total annual facility energy demand for cooling (MWh) cooling_water_demand_mgy – total annual facility water demand for cooling (MG) cooling_water_consumption_mgy – total annual facility water consumed (MG) normalized_locational_cost – normalized total locational cost score for location normalized_gravity_score – normalized market gravity score for location weighted_siting_score – total weighted siting score of locational cost and gravity score geometry – polygon geometry of facility Acknowledgment IM3 is a multi-institutional effort led by Pacific Northwest National Laboratory and supported by the U.S. Department of Energy's Office of Science as part of research in MultiSector Dynamics, Earth and Environmental Systems Modeling Program. License This data is made available under a CCBY4.0 License Disclaimer This material was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor the United States Department of Energy, nor the Contractor, nor any or their employees, nor any jurisdiction or organization that has cooperated in the development of these materials, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness or any information, apparatus, product, software, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or any agency thereof, or Battelle Memorial Institute. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or any agency thereof. PACIFIC NORTHWEST NATIONAL LABORATORYoperated byBATTELLEfor theUNITED STATES DEPARTMENT OF ENERGYunder Contract DE-AC05-76RL01830« less

China Data Center Cooling Market size was valued at USD 4.2 Billion in 2024 and is projected to reach USD 9.90 Billion by 2032, growing at a CAGR of 11.32% from 2025 to 2032.

China Data Center Cooling Market: Definition/ Overview

Data center cooling refers to the methods and technologies used to control temperature and airflow within data centers, maintaining peak performance and keeping servers and IT equipment from overheating. It is commonly used in hyperscale, enterprise, and colocation data centers to support industries including as information technology, cloud computing, telecommunications, finance, and healthcare. The future of data center cooling is centered on energy efficiency and sustainability, with innovations such as liquid cooling, immersion cooling, and AI-powered cooling optimization gaining traction. Edge computing and green data centers are becoming increasingly popular, expanding their worldwide growth potential.

The Netherlands Data Center Cooling Market report segments the industry into By Cooling Technology (Air-based Cooling, Liquid-based Cooling), By Type (Hyperscalers (owned & Leased), Enterprise (On-premise), Colocation), and By End User Vertical (IT & Telecom, Retail & Consumer Goods, Healthcare, Media & Entertainment, Federal & Institutional Agencies, Other End-users).

The Denmark Data Center Cooling Market report segments the industry into By Cooling Technology (Air-based Cooling, Liquid-based Cooling), By Type (Hyperscalers (owned & Leased), Enterprise (On-premise), Colocation), and By End User Vertical (IT & Telecom, Retail & Consumer Goods, Healthcare, Media & Entertainment, Federal & Institutional Agencies, Other End-users). Get five years of historical data and five-year forecasts.

Data Center Managed Services Market size was valued at USD 684.71 Billion in 2024 and is projected to reach USD 2022.79 Billion by 2032, growing at a CAGR of 14.5% during the forecast period 2026 to 2032.Increasing Adoption of Cloud Computing: The demand for managed data center services is driven by the increasing adoption of cloud computing, with cloud usage among businesses reported to have risen above 70% in recent years by the U.S. Census Bureau.Growing Demand for Data Security and Compliance: The need for advanced managed security services is fueled by a 30% increase in cyberattacks targeting data centers, as reported by the Cybersecurity & Infrastructure Security Agency (CISA).Expanding Digital Transformation Initiatives: The prioritization of digital modernization by 85% of federal agencies, according to NIST, is supported by managed services that optimize IT infrastructure and operations.

The Sweden Data Center Cooling Market report segments the industry into By Cooling Technology (Air-based Cooling, Liquid-based Cooling), By Type (Hyperscalers (Owned & Leased), Enterprise (On-premise), Colocation), and By End User Vertical (IT & Telecom, Retail & Consumer Goods, Healthcare, Media & Entertainment, Federal & Institutional Agencies, Other End-users). Get five years of historical trends and detailed forecasts.

Explore the impact of AI data centers on energy stocks, highlighting major gains for Constellation Energy and Vistra, driven by federal deals and a focus on sustainable power sources.

The Mexico Data Center Cooling Market report segments the industry into Cooling Technology (Air-Based Cooling, Liquid-Based Cooling), Type (Hyperscale (Owned and Leased), Enterprise (On-Premise), Colocation), End-User Industry (IT And Telecom, Retail And Consumer Goods, Healthcare, Media And Entertainment, Federal And Institutional Agencies, Other End-User Industries).

Graph and download economic data for Producer Price Index by Industry: Data Processing, Hosting and Related Services: Hosting, Active Server Pages (ASP), and Other Information Technology (IT) Infrastructure Provisioning Services (PCU5182105182105) from Dec 2006 to Aug 2025 about infrastructure, information technology, processed, services, PPI, industry, inflation, price index, indexes, price, and USA.

Austria Data Center Power Market size was valued at USD 211.5 Million in 2024 and is projected to reach USD 354.8 Million by 2032, growing at a CAGR of 6.7% from 2026 to 2032.

Key Market Drivers Rising Investments in Data Center Infrastructure: Austria is seeing a spike in data center investments as digitalization and cloud use grow. In 2023, the Austrian government proposed a €3 billion investment plan to enhance digital infrastructure, including data centers. This expansion is fueling demand for efficient and dependable electricity solutions.

Increasing Focus on Renewable Energy for Data Centers: Austria's commitment to sustainable energy is influencing data center power plans. The country intends to generate 100% of its electricity from renewable sources by 2030, with 78% coming from renewables in 2022 (Austrian Federal Government, 2023). This trend encourages the use of energy-efficient power solutions in data centers.

The CDC is one of the major operating components of the Department of Health and Human Services. View CDC’s Official Mission Statements/Organizational Charts to learn more about CDC′s organizational structure.

CDC works 24/7 to protect America from health, safety and security threats, both foreign and in the U.S. Whether diseases start at home or abroad, are chronic or acute, curable or preventable, human error or deliberate attack, CDC fights disease and supports communities and citizens to do the same.

CDC increases the health security of our nation. As the nation’s health protection agency, CDC saves lives and protects people from health threats. To accomplish our mission, CDC conducts critical science and provides health information that protects our nation against expensive and dangerous health threats, and responds when these arise.

A federal government website managed and paid for by the U.S. Centers for Medicare & Medicaid Services. 7500 Security Boulevard, Baltimore, MD 21244

This statistic provides a forecast of the actual amount of data stored by data centers worldwide, from 2015 to 2020. In 2018, data centers will store an estimated *** exabytes of actual data.

The France Data Center Cooling Market report segments the industry into By Cooling Technology (Air-based Cooling, Liquid-based Cooling), By Type (Hyperscalers (owned & Leased), Enterprise (On-premise), Colocation), and By End User Vertical (IT & Telecom, Retail & Consumer Goods, Healthcare, Media & Entertainment, Federal & Institutional Agencies, Other End-users).

Hydrogen Fuel Cell Data Center UPS Market Outlook

According to our latest research, the global Hydrogen Fuel Cell Data Center UPS market size reached USD 1.18 billion in 2024, driven by the rising demand for sustainable and resilient backup power solutions in data centers. The market is experiencing a robust growth trajectory, registering a CAGR of 23.6% from 2025 to 2033. By 2033, the market is forecasted to attain a value of USD 9.86 billion, reflecting the accelerating adoption of hydrogen fuel cell technologies as organizations seek to decarbonize their operations and enhance energy reliability. As per the latest research, the marketÂ’s expansion is primarily fueled by increasing investments in green data center infrastructure, stringent environmental regulations, and the growing need for uninterrupted power supply in mission-critical applications.

The primary growth factor for the hydrogen fuel cell data center UPS market is the escalating demand for clean and sustainable power backup solutions. With global data center electricity consumption surging due to the proliferation of cloud computing, artificial intelligence, and IoT, traditional diesel generators are increasingly viewed as unsustainable due to their carbon footprint and operational inefficiencies. Hydrogen fuel cells, with their capability to deliver zero-emission backup power, are rapidly emerging as the preferred alternative. Leading data center operators, hyperscalers, and colocation providers are actively piloting and deploying hydrogen-based UPS systems to achieve ambitious net-zero targets, reduce dependence on fossil fuels, and future-proof their energy infrastructure against evolving regulatory standards.

Another significant driver propelling market growth is the technological advancement and commercialization of various hydrogen fuel cell types, such as Proton Exchange Membrane (PEM), Phosphoric Acid, Molten Carbonate, and Solid Oxide Fuel Cells. These innovations have led to enhanced fuel cell efficiency, scalability, and reduced total cost of ownership, making them viable for large-scale data center applications. Strategic collaborations between fuel cell manufacturers, data center operators, and government agencies are fostering the development of robust supply chains, standardized integration protocols, and cost-effective hydrogen production and storage solutions. These collaborative efforts are accelerating the transition from pilot projects to mainstream adoption, further stimulating market expansion.

The market is also benefitting from favorable government policies and incentives promoting green hydrogen production and deployment. Regulatory frameworks in regions such as North America, Europe, and parts of Asia Pacific are supporting investments in hydrogen infrastructure, including electrolyzers, refueling stations, and grid integration. Subsidies, tax credits, and research grants are reducing the financial barriers associated with hydrogen fuel cell adoption, encouraging data center operators to transition away from diesel-based UPS systems. Furthermore, growing awareness of the risks associated with grid instability and the increasing frequency of extreme weather events are compelling data centers to seek resilient, long-duration backup power solutions, further driving demand for hydrogen fuel cell-based UPS systems.

From a regional perspective, North America currently dominates the hydrogen fuel cell data center UPS market, accounting for the largest revenue share in 2024, followed closely by Europe and Asia Pacific. The United States, in particular, is witnessing rapid deployment of hydrogen-powered backup systems in hyperscale and enterprise data centers, supported by federal and state-level decarbonization initiatives. In Europe, stringent emissions regulations and ambitious climate targets are driving substantial investments in hydrogen infrastructure, while Asia Pacific is emerging as a key growth market due to the rapid expansion of digital infrastructure and government-led hydrogen strategies in countries like Japan, South Korea, and China. Latin America and the Middle East & Africa are at the nascent stage, but are expected to witness increased adoption as the global hydrogen economy matures and local data center markets expand.

As the hydrogen economy continues to gain momentum, the concept of "https://growthmarketreports.com/report/hydrogen-fuel-cell-site-power-market" target="_blank">Hydro