With the advent of digital transformation, data-centric architecture has begun to rule the worldwide market. To embrace digital transformation, the corporate sector has already started implementing cutting-edge technologies like artificial intelligence, big data, data science, and many more.
At the end of the year, it contributes to higher profit levels and more significant customer involvement. But the business ecosystem should understand how to leverage and use adequate and relevant data for a more effective service.
Data-centric architecture is essential for a business’s efficient data management in the digital age. With the help of big data and efficient data management, it may turn conventional procedures into intelligent processes.
What Exactly Is Data-Centric Architecture?
Through appropriate data change, the data-centric architecture aids in achieving data integrity for efficient data management. It comprises various parts, including a central data repository and a data accessor for big data communication. Database architecture, web architecture, and other forms of data-centric architecture are only a few examples.
The organization must have a data-centric architecture available to gather pertinent data for project development and business choices. Big data analysis of databases aids in the development of more intelligent, risk-averse, and objective business judgments. An organization’s standard benchmark can constantly be raised by getting excellent data management from appropriate data.
Importance Of Big Data Architecture?
Big data can help a company replace the conventional approach to project execution with a smart one. It can assist with many potential business difficulties, including errors, misalignment, delayed response, static data, and many others that may arise due to the millions of data businesses generate.
A single source of truth and current data in business is the direct contrast between traditional methods and the data-centric architecture for boosting customer engagement in this fiercely competitive digital market.
Companies are concentrating on developing a data-centric architecture using big data to power the data in business in this present and trending digital environment. For a corporation to effectively adopt digital business transformation, now is the ideal time to implement big data and data science.
From massive datasets, AI/ML has extracted valuable in-depth insights that can attract customers’ attention. Data management is a business opportunity that enables any application to have the storage it needs without encountering any challenging problems.
How To Create A Game-Changing Data Architecture For Your Business?
The following are a few fundamental shifts and tactical strategies to build a robust data architecture for your business:
From on-premise to cloud-based data platforms
Because it allows businesses to expand AI tools and capabilities for competitive advantage quickly, the cloud is perhaps the most disruptive driver of a fundamentally new data-architecture approach.
The way businesses of all sizes source, deploy and operate data infrastructure, platforms, and applications at scale have been transformed by the likes of Amazon (with Amazon Web Services), Microsoft (with Microsoft Azure) and Google (with the Google Cloud Platform).
To modularize application capabilities, one provider of utility services, for instance, paired a cloud-based data platform with container technology, which houses micro-services like searching billing data or adding new attributes to the account.
By “buffering” transactions in the cloud rather than on more expensive on-premise legacy systems, the company was able to deploy new self-service capabilities to about 100,000 business customers in days as opposed to months, deliver massive amounts of real-time inventory and transaction data to end users for analytics, and lower costs.
From pre-integrated commercial solutions to modular, best-of-breed platforms
Companies frequently need to go beyond the limitations of legacy data ecosystems from major solution suppliers to scale applications. Today, many are moving toward a highly modular data architecture that uses best-of-breed and frequently open-source components that can be upgraded to new technologies without affecting other data architecture components.
The previously mentioned utility services provider is switching to this strategy to link cloud-based apps at scale and quickly deliver new, data-heavy digital services to millions of clients. It provides consumers with detailed daily views of their energy usage and real-time analytics insights comparing their consumption to that of their peers.
From batch to real-time data processing
Real-time data communications and streaming capabilities are much more affordable, opening the door for widespread adoption. These technologies provide a wide range of novel business applications.
For example, transportation companies can provide customers with up-to-the-second arrival predictions as their taxi approaches; insurance companies can use real-time behavioural data from smart devices to personalize rates, and manufacturers may predict infrastructure issues based on real-time sensor data.
Data consumers, such as data marts and data-driven employees, can subscribe to “topics” with real-time streaming services, such as a subscription mechanism, to receive a continuous feed of the transactions they require. Such systems frequently have a shared data lake as their “brain” where all granular transactions are stored.
From an enterprise warehouse to domain-based architecture
To reduce the time it takes to launch new data products and services, many data-architecture leaders have switched from a central business data lake to “domain-driven” architectures.
This method necessitates that “product owners” in each industry (such as marketing, sales, manufacturing, and so on) organize their data sets such that users both inside and outside of their industry may access them. Although the data sets can still be located on the same physical platform, data consumers in various business sectors exist.
Careful balancing is required with this method to avoid fragmentation and inefficiency. It may be more straightforward and effective when conforming to legal limits on data mobility or replicating a federated organizational structure. Still, in exchange, it can initially cut the time required to build new data models into the lake, frequently from months to days.
From point-to-point to decoupled data access
Data exposure via APIs can guarantee that direct access to see and change data is restricted and secure while delivering speedier, more up-to-date access to popular data sets. By simplifying data reuse across teams, accelerating access, and providing seamless communication among analytics teams, the development of AI use cases is made more effective.
Instead of depending on proprietary interfaces, one pharmaceutical business, for instance, is establishing an internal “data marketplace” for all employees using APIs to standardize and streamline access to critical data assets.
Over 18 months, the business will gradually migrate its most valuable existing data feeds to an API-based structure, exposing the APIs to users through an API management platform.
Conclusion
A fundamentally different approach to data architecture is required to build and expand the data-centric enterprise as data, analytics, and AI become more integrated into most firms’ daily operations. Data and technology leaders that adopt this new strategy will put their businesses in a better position to be adaptable, resilient, and competitive.
