The Business Dynamics Statistics (BDS) includes measures of establishment openings and closings, firm startups, job creation and destruction by firm size, age, and industrial sector, and several other statistics on business dynamics. The U.S. economy is comprised of over 6 million establishments with paid employees. The population of these businesses is constantly churning -- some businesses grow, others decline and yet others close. New businesses are constantly replenishing this pool. The BDS series provide annual statistics on gross job gains and losses for the entire economy and by industrial sector, state, and MSA. These data track changes in employment at the establishment level, and thus provide a picture of the dynamics underlying aggregate net employment growth.

There is a longstanding interest in the contribution of small businesses to job and productivity growth in the U.S. Some recent research suggests that it is business age rather than size that is the critical factor. The BDS permits exploring the respective contributions of both firm age and size.

BDS is based on data going back through 1976. This allows business dynamics to be tracked, measured and analyzed for young firms in their first critical years as well as for more mature firms including those that are in the process of reinventing themselves in an ever changing economic environment.

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Data Dictionary

Abstract

UNIDO maintains a variety of databases comprising statistics of overall industrial growth, detailed data on business structure and statistics on major indicators of industrial performance by country in the historical time series. Among which is the UNIDO Industrial Statistics Database at the 3 & 4-digit levels of ISIC Revision 3 (INDSTAT4- Rev.3).

INDSTAT4 contains highly disaggregated data on the manufacturing sector for the period 1985 onwards. Comparability of data over time and across the countries has been the main priority of developing and updating this database. INDSTAT4 offers a unique possibility of in-depth analysis of the structural transformation of economies over time. The database contains seven principle indicators of industrial statistics. The data are arranged at the 3- and 4-digit levels of the International Standard Industrial Classification of All Economic Activities (ISIC) Revision 3 pertaining to the manufacturing, which comprises more than 150 manufacturing sectors and sub-sectors. The time series can either be used to compare a certain branch or sector of countries or – if present in the data set – some sectors of one country.

For more information, please visit: http://www.unido.org/resources/statistics/statistical-databases.html

Analysis unit

Sectors

Kind of data

Aggregate data [agg]

Mode of data collection

Other [oth]

The data set records the statistical data of added value and growth rate of different industries in Qinghai Province from 2014 to 2018, and the data is divided by year. The data are collected from the statistical yearbook of Qinghai Province issued by the Bureau of statistics of Qinghai Province. The data set contains two data tables, which are: value added and growth rate by industry 2014-2017.xls, value added and growth rate by industry 2015-2018.xls. The data table structure is the same. For example, the data table from 2014 to 2017 has five fields: Field 1: Industry Field 2: 2014 Field 3: 2015 Field 4: 2016 Field 5: 2017

The 2021 PREDICT Dataset updates and substitutes the 2020 PREDICT Dataset.

PREDICT includes statistics on ICT industries and their R&D in Europe since 2006. The project covers major world competitors including 40 advanced and emerging countries - the EU28 plus Norway, Russia and Switzerland in Europe, Canada, the United States and Brazil in the Americas, China, India, Japan, South Korea and Taiwan in Asia, and Australia -. The dataset provides indicators in a wide variety of topics, including value added, employment, labour productivity and business R&D expenditure (BERD), distinguishing fine grain economic activities in ICT industries (up to 22 individual activities, 14 of which at the class level, i.e. at 4 digits in the ISIC/NACE classification), media and content industries (15 activities, 11 of them at 4 digit level) and at a higher level of aggregation for all the other industries in the economy. It also produces data on Government financing of R&D in ICTs, and total R&D expenditure. Nowcasting of more relevant data in these domains is also performed until a year before the reference date, while time series go back to 1995.

ICTs determine competitive power in the knowledge economy. The ICT sector alone originates almost one fourth of total Business expenditure in R&D (BERD) for the aggregate of the 40 economies under scrutiny in the project. It also has a huge enabling role for innovation in other technological domains. This is reflected at the EU policy level, where the Digital Agenda for Europe in 2010 was identified as one of the seven pillars of the Europe 2020 Strategy for growth in the Union; and the achievement of a Digital Single Market (DSM) is one of the 10 political priorities set by the Commission since 2015.

A broad dataset providing insights into artificial intelligence statistics and trends for 2025, covering market growth, adoption rates across industries, impacts on employment, AI applications in healthcare, education, and more.

PREDICT includes statistics on ICT industries and their R&D in Europe since 2006. The project covers major world competitors including 40 advanced and emerging countries - the EU28 plus Norway, Russia and Switzerland in Europe, Canada, the United States and Brazil in the Americas, China, India, Japan, South Korea and Taiwan in Asia, and Australia -. The dataset provides indicators in a wide variety of topics, including value added, employment, labour productivity and business R&D expenditure (BERD), distinguishing fine grain economic activities in ICT industries (up to 22 individual activities, 14 of which at the class level, i.e. at 4 digits in the ISIC/NACE classification), media and content industries (15 activities, 11 of them at 4 digit level) and at a higher level of aggregation for all the other industries in the economy. It also produces data on Government financing of R&D in ICTs, and total R&D expenditure. Nowcasting of more relevant data in these domains is also performed until a year before the reference date, while time series go back to 1995.

ICTs determine competitive power in the knowledge economy. The ICT sector alone originates almost one fourth of total Business expenditure in R&D (BERD) for the aggregate of the 40 economies under scrutiny in the project. It also has a huge enabling role for innovation in other technological domains. This is reflected at the EU policy level, where the Digital Agenda for Europe in 2010 was identified as one of the seven pillars of the Europe 2020 Strategy for growth in the Union; and the achievement of a Digital Single Market (DSM) is one of the 10 political priorities set by the Commission since 2015.

The total amount of data created, captured, copied, and consumed globally is forecast to increase rapidly, reaching *** zettabytes in 2024. Over the next five years up to 2028, global data creation is projected to grow to more than *** zettabytes. In 2020, the amount of data created and replicated reached a new high. The growth was higher than previously expected, caused by the increased demand due to the COVID-19 pandemic, as more people worked and learned from home and used home entertainment options more often. Storage capacity also growing Only a small percentage of this newly created data is kept though, as just * percent of the data produced and consumed in 2020 was saved and retained into 2021. In line with the strong growth of the data volume, the installed base of storage capacity is forecast to increase, growing at a compound annual growth rate of **** percent over the forecast period from 2020 to 2025. In 2020, the installed base of storage capacity reached *** zettabytes.

The number of enterprises and the value of support to enterprises broken down into various industries of the North American Industrial Classification System (NAICS).

A comprehensive dataset analyzing the beauty industry in 2025, including market size, product categories, consumer behavior, emerging trends, and global growth statistics.

Average yearly revenue growth expected by businesses or organizations over the next three years, by North American Industry Classification System (NAICS), business employment size, type of business, business activity and majority ownership, third quarter of 2024.

Dataset from Singapore Department of Statistics. For more information, visit https://data.gov.sg/datasets/d_0f69131e77043a8369dfdc066fd7dfab/view

Statistical Analysis Software Market size was valued at USD 7,963.44 Million in 2023 and is projected to reach USD 13,023.63 Million by 2030, growing at a CAGR of 7.28% during the forecast period 2024-2030.

Global Statistical Analysis Software Market Drivers

The market drivers for the Statistical Analysis Software Market can be influenced by various factors. These may include:

Growing Data Complexity and Volume: The demand for sophisticated statistical analysis tools has been fueled by the exponential rise in data volume and complexity across a range of industries. Robust software solutions are necessary for organizations to evaluate and extract significant insights from huge datasets. Growing Adoption of Data-Driven Decision-Making: Businesses are adopting a data-driven approach to decision-making at a faster rate. Utilizing statistical analysis tools, companies can extract meaningful insights from data to improve operational effectiveness and strategic planning. Developments in Analytics and Machine Learning: As these fields continue to progress, statistical analysis software is now capable of more. These tools' increasing popularity can be attributed to features like sophisticated modeling and predictive analytics. A greater emphasis is being placed on business intelligence: Analytics and business intelligence are now essential components of corporate strategy. In order to provide business intelligence tools for studying trends, patterns, and performance measures, statistical analysis software is essential. Increasing Need in Life Sciences and Healthcare: Large volumes of data are produced by the life sciences and healthcare sectors, necessitating complex statistical analysis. The need for data-driven insights in clinical trials, medical research, and healthcare administration is driving the market for statistical analysis software. Growth of Retail and E-Commerce: The retail and e-commerce industries use statistical analytic tools for inventory optimization, demand forecasting, and customer behavior analysis. The need for analytics tools is fueled in part by the expansion of online retail and data-driven marketing techniques. Government Regulations and Initiatives: Statistical analysis is frequently required for regulatory reporting and compliance with government initiatives, particularly in the healthcare and finance sectors. In these regulated industries, statistical analysis software uptake is driven by this. Big Data Analytics's Emergence: As big data analytics has grown in popularity, there has been a demand for advanced tools that can handle and analyze enormous datasets effectively. Software for statistical analysis is essential for deriving valuable conclusions from large amounts of data. Demand for Real-Time Analytics: In order to make deft judgments fast, there is a growing need for real-time analytics. Many different businesses have a significant demand for statistical analysis software that provides real-time data processing and analysis capabilities. Growing Awareness and Education: As more people become aware of the advantages of using statistical analysis in decision-making, its use has expanded across a range of academic and research institutions. The market for statistical analysis software is influenced by the academic sector. Trends in Remote Work: As more people around the world work from home, they are depending more on digital tools and analytics to collaborate and make decisions. Software for statistical analysis makes it possible for distant teams to efficiently examine data and exchange findings.

Industrial Production in Japan decreased 1.80 percent in May of 2025 over the same month in the previous year. This dataset provides - Japan Industrial Production - actual values, historical data, forecast, chart, statistics, economic calendar and news.

The global big data market is forecasted to grow to 103 billion U.S. dollars by 2027, more than double its expected market size in 2018. With a share of 45 percent, the software segment would become the large big data market segment by 2027.

What is Big data?

Big data is a term that refers to the kind of data sets that are too large or too complex for traditional data processing applications. It is defined as having one or some of the following characteristics: high volume, high velocity or high variety. Fast-growing mobile data traffic, cloud computing traffic, as well as the rapid development of technologies such as artificial intelligence (AI) and the Internet of Things (IoT) all contribute to the increasing volume and complexity of data sets.

Big data analytics

Advanced analytics tools, such as predictive analytics and data mining, help to extract value from the data and generate new business insights. The global big data and business analytics market was valued at 169 billion U.S. dollars in 2018 and is expected to grow to 274 billion U.S. dollars in 2022. As of November 2018, 45 percent of professionals in the market research industry reportedly used big data analytics as a research method.

Index values and growth rates for production, manufacturing and the main industrial groupings in the UK.

Industrial Production in China increased 5.80 percent in May of 2025 over the same month in the previous year. This dataset provides - China Industrial Production - actual values, historical data, forecast, chart, statistics, economic calendar and news.

The Vector Database Software market has emerged as a vital component in the realm of data management, particularly for businesses that rely on advanced analytics, artificial intelligence, and machine learning applications. These databases are specifically designed to handle high-dimensional data, making them indispe

The Academic Database market plays a vital role in the modern educational and research landscape, providing organizations with the essential tools they need to access, manage, and analyze vast sets of information. These databases serve as repositories that supply researchers, educators, and students with critical da

Dataset Summary: This dataset analyzes layoff trends globally from 1995 to 2024, highlighting the evolution of job sectors and the influence of AI technologies on workforce dynamics. It provides insights into layoffs, reasons behind workforce changes, industry-specific impacts, and future job trends, making it a valuable resource for workforce analytics, AI adoption studies, and economic impact modeling.

Sources and Methodology: This dataset is modeled based on historical events, industry analyses, and logical extrapolations. Key data sources include:

Historical Trends:

Events like the dot-com bubble, global financial crises, and COVID-19.

Reliable sources: U.S. Bureau of Labor Statistics, World Bank, IMF Economic Outlook.

AI Trends and Projections:

Reports from McKinsey & Company, World Economic Forum, and Gartner.

Data on AI job growth and adoption: LinkedIn Economic Graphs, Crunchbase Layoff Tracker.

Skills and Future Jobs:

Reports on emerging skills and workforce trends: Future of Jobs Report 2023, TechCrunch, and Business Insider.

Projections and Logical Assumptions:

Projections for AI adoption, job creation, and displacement are based on publicly available research and extrapolation of trends.

Modeled features like "Future_Job_Trends" and "AI_Job_Percentage" combine factual data with predictive insights.

Potential Use Cases:

Economic Analysis: Study the impact of global events and technological advancements on workforce trends.

AI Adoption Trends: Explore how AI is influencing job creation and displacement across industries.

Policy Planning: Inform government and organizational policies on workforce development and reskilling.

Industry Insights: Gain insights into which industries are most affected by layoffs and which are adopting AI technologies.

Future Workforce Development: Identify emerging skills and prepare for future job market demands.

Disclaimer: This dataset is a combination of historical data, trends, and reasonable projections for future job markets influenced by AI technologies. Projections and estimates should be treated as approximations and not definitive predictions. All efforts have been made to use reliable sources and logical assumptions to ensure accuracy and usefulness for analytical purposes.

Citations:

U.S. Bureau of Labor Statistics (bls.gov)

McKinsey & Company (mckinsey.com)

World Economic Forum (weforum.org)

Gartner Reports (gartner.com)

Crunchbase Layoff Tracker (crunchbase.com)

Future of Jobs Report 2023 (weforum.org/reports)

LinkedIn Economic Graph (economicgraph.linkedin.com)

Number of employees by North American Industry Classification System (NAICS) and type of employee, last 5 years.