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As data-driven decision-making gains popularity, more tech graduates are learning data science to enter the job market. While Python and R are popular for analysis and machine learning, SQL and database management are often overlooked.

However, data is typically stored in databases and requires SQL or business intelligence tools for access. In this guide, we provide a comprehensive overview of various types of databases and their differences.

Through this guide, we give you a larger picture to get started with your database journey. So, if you are a beginner with no prior experience, this guide is a must-read for you 

What is a database? 

Databases are used to store and organize large amounts of data in a structured way. They are designed to manage and handle large volumes of information efficiently and effectively, making it easy to retrieve, update, and delete data as needed.

In simple terms, it is a collection of data that is organized in a specific way, making it easy to search, sort, and analyze. It is like a digital filing cabinet, where information is stored and accessed by different users, applications, or systems.

There are various types of databases, such as relational, NoSQL, and object-oriented, each with its own unique characteristics and applications. However, the core purpose of any database is to provide a centralized and secure location for storing and managing data, ensuring data consistency and accuracy, and making it accessible to authorized users or applications.

Understanding databases
Understanding databases

Types of databases

There are several types of databases that are used for different purposes. The main types of databases include:

1. Relational databases:

A relational database is the most common type of database used today. It stores data in tables that are related to each other through keys. Each table in a relational database has a unique primary key, which is used to link it to other tables. They use Structured Query Language (SQL) for managing and querying data. Some popular examples of relational databases are Oracle, Microsoft SQL Server, MySQL, and PostgreSQL.

2. NoSQL databases

NoSQL databases are used for unstructured and semi-structured data. They do not use tables, rows, and columns like relational databases. Instead, they store data in a flexible format, such as key-value pairs, document-based, or graph-based. NoSQL are commonly used in big data and real-time applications. Some popular examples of NoSQL databases are MongoDB, Cassandra, and Couchbase.

3. Object-oriented databases

Object-oriented databases store data in objects, which are similar to the objects used in object-oriented programming languages like Java and C#. They allow for complex data relationships and provide a more natural way of storing data for object-oriented applications. They are commonly used in computer-aided design, web development, and artificial intelligence. Some popular examples of object-oriented databases are ObjectDB and db4o.

4. Hierarchical databases

Hierarchical databases organize data in a tree-like structure, with each record having one parent record and many child records. They are suitable for storing data with a fixed and predictable structure. These were popular in the past, but they have been largely replaced by other types of databases. IBM Information Management System (IMS) is a popular example of a hierarchical database.

5. Network databases

Network databases are similar to hierarchical databases, but they allow for more complex relationships between records. In a network database, each record can have multiple parent and child records. They are suitable for storing data with a complex structure that cannot be easily represented in a hierarchical database. They are not widely used today, but some examples include Integrated Data Stores (IDS) and CA-IDMS.

What is RDBMS?

RDBMS stands for Relational Database Management System. It is defined as a type of database management system that is based on the relational model. In an RDBMS, data is organized into tables and relationships between tables, allowing for easy retrieval and manipulation of the information. The most popular RDBMSs include MySQL, Oracle, PostgreSQL, SQL Server, and SQLite. 

  1. MySQLMySQL is an open-source RDBMS that is widely used for web-based applications. It is known for its high performance, reliability, and ease of use. MySQL is compatible with a wide range of operating systems, including Windows, Linux, and macOS.
  2. OracleOracle is a commercial RDBMS that is widely used in enterprise environments. It is known for its high performance, scalability, and security. Oracle is compatible with a wide range of operating systems, including Windows, Linux, and Solaris. 
  3. PostgreSQLPostgreSQL is an open-source RDBMS known for its advanced features, such as support for complex data types, concurrency control, and full-text search. It is widely used in data warehousing, business intelligence, and scientific applications.
  4. SQL ServerSQL Server is a commercial RDBMS developed and maintained by Microsoft. It is known for its high performance, scalability, and security. SQL Server is compatible with Windows operating system only. 
  5. SQLiteSQLite is a small, lightweight RDBMS that is embedded into the application. It is known for its high performance, reliability, and ease of use. SQLite is compatible with a wide range of operating systems, including Windows, Linux, and macOS.

Database design

Designing a database is a critical step in creating a functional and efficient database system. It involves creating a structure that will organize the data and enable efficient storage, retrieval, and manipulation. The following are the key components of design:

Designing a database

Designing a database involves identifying the data that needs to be stored and organizing it into tables that are related to each other. The tables should be designed in a way that minimizes redundancy and ensures data consistency.

Entity-relationship diagrams (ERD)

An entity-relationship diagram (ERD) is a visual representation of the its structure. It shows the tables, their relationships, and the attributes that are stored in each table. ERDs are essential as they provide a clear and concise view of the database structure.

Normalization

Normalization is the process of organizing data in a database to minimize redundancy and ensure data consistency. It involves breaking down large tables into smaller, more manageable tables that are related to each other. Normalization helps to eliminate data redundancy and ensures that each table contains only the data that is relevant to it.

There are several levels of normalization, with each level building upon the previous level. The most common levels of normalization are:

  1. First Normal Form (1NF)
  2. Second Normal Form (2NF)
  3. Third Normal Form (3NF)
  4. Boyce-Codd Normal Form (BCNF)

Normalization is an important aspect of design as it helps to minimize data redundancy, ensure data consistency, and improve its performance.

What is SQL?

SQL is used to manage and manipulate databases. Whether you are a beginner or a seasoned developer, understanding the basics of this programming language is essential for anyone working with data.  

Types of SQL commands 

First, let us talk about the several types of SQL commands. SQL commands are grouped into four main categories:  

1. Data definition language (DDL) – DDL commands are used to create and modify a database’s structure, such as creating tables, altering table structures, and deleting tables. Some examples of DDL commands include CREATE, ALTER, and DROP. 

2. Data manipulation language (DML) – DML commands are used to manipulate the data within a database. These commands include SELECT, INSERT, UPDATE, and DELETE.  

3. Data control language (DCL) – DCL commands are used to manage access such as granting and revoking permissions. Examples of DCL commands include GRANT and REVOKE. 

4. Data query language (DQL) – Primarily, DQL commands are used to query the data. Most used commands include SELECT which are used to retrieve data from a table. 

Difference between SQL and NoSQL 

One of the main differences between SQL and NoSQL databases is how they store and retrieve data. SQL databases use tables and rows to store the data, while NoSQL databases use documents, collections, or key-value pairs. SQL databases are better suited for structured data, while NoSQL databases are better suited for unstructured data. 

Another difference between SQL and NoSQL databases is the way they handle scalability. As these databases are vertically scalable, SQL databases can handle more load by adding more resources to the same server. NoSQL databases are horizontally scalable and can handle the additional load by adding more servers. 

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Conclusion 

In conclusion, this guide provides a comprehensive overview of various types and their differences, including relational, non-relational, object-oriented, hierarchical, and network databases. Designing a database is a critical step in creating a functional and efficient database system. By understanding the types and their unique features, you can choose the right database for your specific use case and design one that meets your data management needs.

April 6, 2023

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