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Data Lakes: What Are They and Why Are They Important?
Learn what data lakes are, how they store and analyze raw data, and how InterSystems IRIS helps manage them effectively.

A data lake is a centralized repository that allows you to store all your structured and unstructured data at any scale.

Data lakes store data in its raw, original form, and allow data engineers to conduct various types of analytics, such as:

These help business analysts make better and more data-driven decisions.

While technologies like our very own InterSystems IRIS® provide interfaces to interact with data lakes, the data lake itself is more of a conceptual design pattern for data storage than a software application with a traditional GUI.

When explaining a data lake to someone or demonstrating it, you'd likely log into one of these storage tools or services to show how data is organized, accessed, and analyzed.

In this post, you'll learn everything you need to know about data lakes, including:

  • What they are and how they work
  • How they differ from other sorts of data management structures
  • The benefits they bring to organizations
  • Whether or not you need one

Let's jump in.

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Evolution of Data Lakes from Traditional Data Management Systems

Often, data is stored in structured databases called data warehouses, where the data needs to be cleaned and structured before it can be used. While effective for periodic batch reporting, data warehouses are not as flexible for the needs of some real-time processing and analytics. They work well for some business applications, but require the data to fit into a predefined schema before being written into the warehouse.

Some businesses are gathering thousands of data points every day from dozens of sources (and that's on the low end). When these rarely share the same schema or format it can make refining raw data time-consuming and inefficient in a traditional data warehouse.

Data lakes, by contrast, accept data in raw form from various sources, including IoT devices, social media feeds, mobile apps, and more. Rather than having schema enforcement like data warehouses, data lakes usually utilize "schema-on-read" technology. This means data is only structured when it's read for analysis, giving data analysts much more agility and efficiency.

Data lakes are primarily used by data scientists and data engineers to extract meaningful business insights, which are then visualized for presentation.

Key Characteristics of Data Lakes

Data lakes are designed with several key characteristics in mind:

  • Scalability: they can scale massively to store petabytes of data, accommodating the exponential growth of data in modern enterprises.
  • Flexibility: data lakes support various data types, from CSV files and images to binary data, without the need for converting into a predefined schema.
  • Cost-effectiveness: by using inexpensive commodity hardware or cost-efficient cloud storage solutions, data lakes can be a more economical option for massive data storage.

These features make data lakes an indispensable asset for businesses looking to leverage big data analytics for deep insights and informed decision-making.

As we dive deeper into the architecture, implementation, and operation of data lakes, you'll soon see why they're pivotal in modern data management landscape.

Is a Data Lake Right for Your Business?

When considering whether a data lake is the right solution for your organization, stakeholders should ask a series of diagnostic questions to evaluate their current data capabilities, needs, and future goals.

Here are some crucial questions to guide this assessment:

1. What is the volume and variety of data we currently manage?

Determine if your organization handles large volumes of structured, semi-structured, or unstructured data. Data lakes are particularly beneficial for organizations dealing with diverse and large-scale data sets.

2. Are our current data storage and analysis capabilities meeting our needs?

Consider whether existing data management systems (like traditional databases or data warehouses) are sufficient for your organization's needs, particularly in terms of scalability, flexibility, and cost-effectiveness.

3. Do we need to perform advanced analytics or real-time data processing?

If you want to enhance your capabilities in predictive analytics, machine learning, or real-time analytics, a data lake might be necessary to handle and process large datasets dynamically.

4. Do we have the necessary IT infrastructure and expertise?

Consider whether your organization has the IT infrastructure and technical expertise required to implement and maintain a data lake. This includes evaluating the availability of skilled personnel and the need for potential training or hiring.

5. What is our budget for implementing a new data management solution?

Determine the financial resources available for investing in a data lake. While data lakes can be cost-effective in the long term, setting up and maintaining a data lake may require significant initial and ongoing investments.

6. How will a data lake integrate with our existing IT ecosystem?

Assess how a new data lake will integrate with existing IT systems and business processes. Effective integration is crucial for maximizing the benefits of a data lake. By thoroughly considering these questions, stakeholders can make an informed decision about whether a data lake is suitable for their organization’s needs. This strategic approach ensures that the investment in a data lake aligns with broader business objectives and technological capabilities.

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Implementing a Data Lake: A Step-by-Step Guide

If you've gone through these questions and believe you're a prime candidate for a data lake, here is a high-level overview of how to implement one.

1. Define Business Objectives and Requirements

Engage with stakeholders from risk management, customer service, and operations to gather specific data needs. Determine how the data lake will be used to conduct real-time risk analysis, provide personalized customer experiences, and streamline back-office processes.

2. Choose the Right Technology Platform

Opt for a robust data management platform like InterSystems IRIS that can accommodate all the specific needs of a data lake architecture.

InterSystems IRIS is:

  • Flexible, supporting the integration of data from multiple sources and data types
  • Scalable, built to efficiently manage large scale datasets
  • Interoperable, allowing seamless communication between different systems and applications

3. Design Data Governance and Security Measures

InterSystems IRIS provides robust security features, including encryption, authentication, and auditing, which are critical for managing sensitive data in a data lake. Additionally, it supports data governance practices to help ensure data quality and compliance with various regulations.

4. Data Ingestion and Storage

Include data from transaction systems, customer interaction logs, market data feeds, and regulatory reports. InterSystems IRIS can ingest data from a variety of sources, including relational databases, NoSQL databases, file systems, and even real-time data streams. This flexibility is crucial for data lake architectures that need to consolidate data from disparate sources.

5. Data Organization and Optimization

Establish clear data zones such as raw for unprocessed data, trusted for validated and cleansed data, and refined for data ready for analytics.

6. Enable Data Processing and Analytics

InterSystems IRIS's ability to integrate seamlessly with analytics tools means that data stored in the data lake can be directly accessed and analyzed using SQL and other querying languages. This direct integration helps bypass the need for moving data into separate analytical databases, thereby reducing complexity and enhancing performance.

Next Steps

Data lakes are essential for businesses dealing with large volumes of diverse data and needing sophisticated analysis capabilities. InterSystems IRIS stands out as a powerful platform that can help organizations effectively implement and manage data lakes, ensuring they can maximize the value of their data assets.

InterSystems IRIS can help you
gain next-level business intelligence
insights and make data-driven decisions
for your organization.

FAQs About Data Lakes

What's the difference between data lakes and data lakehouses?
Data Lakes store raw data in its native format, including structured, semi-structured, and unstructured data. They are ideal for big data analytics and machine learning with a schema-on-read approach.

Data Lakehouses combine the best features of data lakes and data warehouses. They maintain the flexibility of data lakes to handle various data types and add the management features of data warehouses, such as ACID transactions and schema enforcement, to support both machine learning and BI applications efficiently.
What are the differences between data lakes and data marts?
Data Lakes are large-scale storage solutions that hold a vast amount of raw data in various formats. They are designed for flexibility and scalability, supporting complex analytics and data discovery.

Data Marts are subsets of data warehouses optimized for a specific business line or department. They contain structured data and are designed for fast access to support specific, routine business insights rather than extensive exploration.
How does a data lake convert unstructured data to structured data during analysis?
In a data lake, unstructured data is typically converted to structured data during the analysis phase using a process called schema-on-read.

This involves applying a structure or schema to the data as it is read for analysis, using data transformation tools and querying languages specific to the analysis task at hand.
What are the differences between on-premise and cloud data lakes?
On-Premise Data Lakes are hosted within an organization’s own infrastructure, offering full control over the data environment but requiring significant management and maintenance.

Cloud Data Lakes are hosted on cloud platforms, providing scalability, flexibility, and often cost-effectiveness with less maintenance burden. They leverage cloud storage and computing capabilities to process data, facilitating easier integration with various data analytics services.
How does a data lake use historical data to drive insights?
Data lakes store vast amounts of historical data across different time frames, which can be used to identify trends, patterns, and anomalies.

Engineers and data scientists use this historical data to build models and analyze data, enabling them to forecast future events and inform strategic decision-making based on past and present data insights.

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