A data warehouse (or enterprise data warehouse) stores large amounts of data that has been collected and integrated from multiple sources. Because organisations depend on this data for analytics or reporting purposes, the data needs to be consistently formatted and easily accessible – two qualities that define data warehousing and makes it essential to today’s businesses.
History of the Data Warehouse
In the 1970s and '80s, data began to proliferate and organisations needed an easy way store and access their information. Computer scientist Bill Inmon, who’s considered the father of data warehousing, began to define the concept in the 1970s and is credited as coining the term “data warehouse.” He published Building the Data Warehouse, a book lauded as a fundamental source on data warehousing technology, in 1992. Inmon’s definition of the data warehouse takes a “top-down” approach, where a centralised repository is established first, and then data marts – which contain specific subsets of data – are created within that repository.
Ralph Kimball, another technology expert who published The Data Warehouse Toolkit in the mid '90s, took a slightly different tactic to the data warehousing concept with his “bottom up” approach, where individual data marts are developed first and later integrated together to create a data warehouse.
Data warehousing remains relevant today, yet it’s evolving as the industry changes to accommodate cloud computing and real-time analytics. One emerging data storage tool that's similar to a data warehouse is a data lake, which was brought about by disruptive low-cost technologies such as Apache Hadoop. Data lakes are often used in conjunction with unfettered data streaming in and storing without processing or building schemas.
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With a rapidly growing business and an increasingly dispersed workforce, 1-800-FLOWERS.COM turned to SAS® Viya® hosted on Azure to obtain a more flexible, scalable infrastructure. To get data ready for analytics, the company first consolidates its databases and feeds them into Snowflake, a cloud-based data warehouse.
Data warehousing in today’s world
A data warehouse often means the difference between informed decisions and data chaos. Learn how and why data warehouses and related technologies are being used in our world today.
What is a data catalog?
Searching for big data across the business can waste valuable time. A data catalog uses metadata to help users quickly search an organization’s entire data landscape.
Who's using data warehouses?
With multiple programs, we quickly found ourselves in a situation with data living in silos. To understand how we were doing as an institute, we needed to find a better, more efficient way to integrate and manage multiple data sources across the enterprise. Bonnie Chapman-Beers Director of Evaluation and Innovation Institute for Veterans & Military Families
How a data warehouse works
A data warehouse starts with the data itself, which is collected and integrated from both internal and external sources. Business users access this standardized data in a warehouse so they can use it for analytics and reporting. Business intelligence tools help them explore the data to make better-informed business decisions.
Data is typically stored in a data warehouse through an extract, transform and load (ETL) process. The information is extracted from the source, transformed into high-quality data and then loaded into the warehouse. Businesses perform this process on a regular basis to keep data updated and prepared for the next step.
When an organization is ready to use its data for analytics or reporting, the focus shifts from data warehousing to business intelligence (BI) tools. BI technologies like visual analytics and data exploration help organizations glean important insights from their business data. On the back end, it’s important to understand how the data warehouse architecture organizes data and how the database execution model optimizes queries – so developers can write data applications with reasonably high performance.
In addition to a traditional data warehouse and ETL process, many organizations use a variety of other methods, tools and techniques for their workloads. For example:
- Data pipelines can be used to populate cloud data warehouses, which can be fully managed by the organization or by the cloud provider.
- Continuously streaming data can be stored in a cloud data warehouse.
- A centralized data catalog is helpful in uniting metadata, making it easier to find data and track its lineage.
- Data warehouse automation tools get new data into warehouses faster.
- Data virtualization solutions create a logical data warehouse so users can view the data from their choice of tools.
- Online analytical processing (OLAP) is a way of representing data that has been summarized into multidimensional views and hierarchies. When used with an integrated ETL process, it allows business users to get reports without IT assistance.
- An operational data store (ODS) holds a subset of near-real-time data that’s used for operational reporting or notifications.
Why are data warehouses important?
Enterprise data warehouses are vital because they integrate and store – in a central database and standard format – all the valuable data organizations use for enterprise decisioning. In turn, organizations can avoid the unpredictable results of taking an ad hoc approach to data access and integration. Data warehouses:
- Maintain historical data records – storing months or even years’ worth of information.
- Keep data secure by storing it in a single location where only those who need specific data are granted access to it.
- Provide easy access to high-quality data, which enables faster, more-informed business decisions.
- Make big data available for basic reporting as well as for advanced analytics, like machine learning and natural language processing.
Comparison: Data warehouse, data mart and data lake
Data warehouse
- Purpose: Stores a large amount of enterprise data encompassing several subject areas across the business.
- Advantages: Is very large; holds vast amounts of data.
- Disadvantages: Can be difficult to build.
- Outcome: Data is structured and ready to use for analytics or reporting.
Data mart
- Purpose: Stores a smaller amount of data, typically covering a single subject area that’s used by one department (like marketing or sales).
- Advantages: Is faster and easier to build than a data warehouse.
- Disadvantages: Has limited memory – so it can’t store as much information as a data warehouse.
- Outcome: Data is structured and ready to extract for analytics or reporting.
Data lake
- Purpose: Stores a large amount of raw data in its native format – ideal for unstructured big data like tweets, images, voice and streaming data.
- Advantages: Rapidly ingests data and gives business users fast, self-service access, exploration and visualization capabilities.
- Disadvantages: Does not provide data that is standardized, unduplicated, quality-checked or transformed.
- Outcome: Data stays in its raw format and can be repurposed – multiple metadata tags can be assigned for the same data.
SAS® Data Management
Data stored in a data warehouse doesn’t deliver value unless it’s managed well. With data management technology from SAS, you can transform big data into big opportunities with data integration, data governance, event stream processing and data quality technologies.