Introduction of Programming Paradigms
Last Updated :
08 Apr, 2025
A paradigm can also be termed as a method to solve a problem or accomplish a task. A programming paradigm is an approach to solving a problem using a specific programming language. In other words, it is a methodology for problem-solving using the tools and techniques available to us, following a particular approach. While there are many programming languages, each of them typically adheres to one or more paradigms that guide how the language is implemented.
These methodologies or strategies are referred to as programming paradigms. Apart from the variety of programming languages available, there are several paradigms that address different demands and challenges in software development. These paradigms are discussed below:
1. Imperative programming paradigm: It is one of the oldest programming paradigm. It features close relation to machine architecture. It is based on Von Neumann architecture. It works by changing the program state through assignment statements. It performs step by step task by changing state. The main focus is on how to achieve the goal. The paradigm consist of several statements and after execution of all the result is stored.
Advantages:
- Very simple to implement
- It contains loops, variables etc.
Disadvantage:
- Complex problem cannot be solved
- Less efficient and less productive
- Parallel programming is not possible
Examples of Imperative programming paradigm:
C : developed by Dennis Ritchie and Ken Thompson
Fortran : developed by John Backus for IBM
Basic : developed by John G Kemeny and Thomas E Kurtz
C++
#include <iostream>
int main() {
// Array to store marks
int marks[5] = { 12, 32, 45, 13, 19 };
// Variable to store the sum of marks
int sum = 0;
// Variable to store the average
float average = 0.0;
// Calculate the sum of marks
for (int i = 0; i < 5; i++) {
sum = sum + marks[i];
}
// Calculate the average
average = sum / 5.0;
// Output the average
std::cout << "Average of five numbers: " << average << std::endl;
return 0;
}
#include <stdio.h>
int main() {
// Array to store marks
int marks[5] = { 12, 32, 45, 13, 19 };
// Variable to store the sum of marks
int sum = 0;
// Variable to store the average
float average = 0.0;
// Calculate the sum of marks
for (int i = 0; i < 5; i++) {
sum = sum + marks[i];
}
// Calculate the average
average = (float)sum / 5.0;
// Output the average
printf("Average of five numbers: %.2f\n", average);
return 0;
}
public class Main {
public static void main(String[] args) {
// Array to store marks
int[] marks = {12, 32, 45, 13, 19};
// Variable to store the sum of marks
int sum = 0;
// Variable to store the average
float average = 0.0f;
// Calculate the sum of marks
for (int i = 0; i < 5; i++) {
sum = sum + marks[i];
}
// Calculate the average
average = sum / 5.0f;
// Output the average
System.out.println("Average of five numbers: " + average);
}
}
def main():
# Array to store marks
marks = [12, 32, 45, 13, 19]
# Variable to store the sum of marks
total_marks = sum(marks)
# Calculate the average
average = total_marks / len(marks)
# Output the average
print("Average of five numbers:", average)
if __name__ == "__main__":
main()
#this code is added by Utkarsh
// Array to store marks
let marks = [12, 32, 45, 13, 19];
// Variable to store the sum of marks
let sum = 0;
// Variable to store the average
let average = 0.0;
// Calculate the sum of marks
for (let i = 0; i < 5; i++) {
sum = sum + marks[i];
}
// Calculate the average
average = sum / 5.0;
// Output the average
console.log("Average of five numbers: " + average);
OutputAverage of five numbers: 24.2
Imperative programming is divided into three broad categories: Procedural, OOP and parallel processing. These paradigms are as follows:
- Procedural programming paradigm -
This paradigm emphasizes on procedure in terms of under lying machine model. There is no difference in between procedural and imperative approach. It has the ability to reuse the code and it was boon at that time when it was in use because of its reusability.
Examples of Procedural programming paradigm:
C : developed by Dennis Ritchie and Ken Thompson
C++ : developed by Bjarne Stroustrup
Java : developed by James Gosling at Sun Microsystems
ColdFusion : developed by J J Allaire
Pascal : developed by Niklaus Wirth
C++
#include <iostream>
using namespace std;
int main()
{
int i, fact = 1, num;
cout << "Enter any Number: ";
cin >> number;
for (i = 1; i <= num; i++) {
fact = fact * i;
}
cout << "Factorial of " << num << " is: " << fact << endl;
return 0;
}
import java.util.Scanner;
public class Main {
public static void main(String[] args) {
// Create a Scanner object for reading input
Scanner scanner = new Scanner(System.in);
// Prompt user to enter a number
System.out.println("Enter any Number: ");
// Read number from user input
int num = scanner.nextInt();
// Initialize factorial to 1
int fact = 1;
// Calculate factorial using a for loop
for (int i = 1; i <= num; i++) {
fact = fact * i;
}
// Print the factorial of the number
System.out.println("Factorial of " + num + " is: " + fact);
}
}
# Prompt user to enter a number
num = int(input("Enter any Number: "))
fact = 1 # Initialize factorial variable
# Calculate factorial
for i in range(1, num + 1):
fact = fact * i
# Print the factorial
print("Factorial of", num, "is:", fact)
// Prompt the user for input
let num = prompt("Enter any Number: ");
// Initialize the factorial value to 1
let fact = 1;
// Calculate the factorial of the number
for (let i = 1; i <= num; i++) {
fact = fact * i;
}
// Print the factorial of the number
console.log("Factorial of " + num + " is: " + fact);
Then comes OOP,
- Object oriented programming -
The program is written as a collection of classes and object which are meant for communication. The smallest and basic entity is object and all kind of computation is performed on the objects only. More emphasis is on data rather procedure. It can handle almost all kind of real life problems which are today in scenario.
Advantages:
- Data security
- Inheritance
- Code reusability
- Flexible and abstraction is also present
Examples of Object Oriented programming paradigm:
Simula : first OOP language
Java : developed by James Gosling at Sun Microsystems
C++ : developed by Bjarne Stroustrup
Objective-C : designed by Brad Cox
Visual Basic .NET : developed by Microsoft
Python : developed by Guido van Rossum
Ruby : developed by Yukihiro Matsumoto
Smalltalk : developed by Alan Kay, Dan Ingalls, Adele Goldberg
C++
// C++ program for the above approach
#include <bits/stdc++.h>
using namespace std;
// Class Signup
class Signup {
int userid;
string name;
string emailid;
char sex;
long mob;
public:
// Function to create and object using
// the parameters
void create(int userid, string name, string emailid,
char sex, long mob)
{
cout << "Welcome to GeeksforGeeks\nLets create "
"your account\n";
this->userid = 132;
this->name = "Radha";
this->emailid = "[email protected]";
this->sex = 'F';
this->mob = 900558981;
cout << "your account has been created" << endl;
}
};
// Driver Cpde
int main()
{
cout << "GfG!" << endl;
// Creating Objects
Signup s1;
s1.create(22, "riya", "[email protected]", 'F', 89002);
return 0;
}
import java.io.*;
class GFG {
public static void main(String[] args)
{
System.out.println("GfG!");
Signup s1 = new Signup();
s1.create(22, "riya", "[email protected]", 'F',
89002);
}
}
class Signup {
int userid;
String name;
String emailid;
char sex;
long mob;
public void create(int userid, String name,
String emailid, char sex, long mob)
{
System.out.println(
"Welcome to GeeksforGeeks\nLets create your account\n");
this.userid = 132;
this.name = "Radha";
this.emailid = "[email protected]";
this.sex = 'F';
this.mob = 900558981;
System.out.println("your account has been created");
}
}
class Signup:
def __init__(self):
self.userid = 0
self.name = ""
self.emailid = ""
self.sex = ""
self.mob = 0
def create(self, userid, name, emailid, sex, mob):
print("Welcome to GeeksforGeeks\nLets create your account\n")
self.userid = 132
self.name = "Radha"
self.emailid = "[email protected]"
self.sex = 'F'
self.mob = 900558981
print("your account has been created")
if __name__ == "__main__":
print("GfG!")
s1 = Signup()
s1.create(22, "riya", "[email protected]", 'F', 89002)
using System;
class GFG {
static void Main(string[] args)
{
Console.WriteLine("GfG!");
Signup s1 = new Signup();
s1.create(22, "riya", "[email protected]", 'F',
89002);
}
}
class Signup {
public int userid;
public string name;
public string emailid;
public char sex;
public long mob;
public void create(int userid, string name,
string emailid, char sex, long mob)
{
Console.WriteLine(
"Welcome to GeeksforGeeks\nLets create your account\n");
this.userid = 132;
this.name = "Radha";
this.emailid = "[email protected]";
this.sex = 'F';
this.mob = 900558981;
Console.WriteLine("your account has been created");
}
}
// This code is contributed by akshatve2zi2
class Signup {
constructor(userid, name, emailid, sex, mob) {
this.userid = userid;
this.name = name;
this.emailid = emailid;
this.sex = sex;
this.mob = mob;
}
create(userid, name, emailid, sex, mob) {
console.log("Welcome to GeeksforGeeks\nLets create your account\n");
this.userid = 132;
this.name = "Radha";
this.emailid = "[email protected]";
this.sex = 'F';
this.mob = 900558981;
console.log("your account has been created");
}
}
console.log("GfG!");
let s1 = new Signup();
s1.create(22, "riya", "[email protected]", 'F', 89002);
// This code is contributed by akshatve2zi2
OutputGfG!
Welcome to GeeksforGeeks
Lets create your account
your account has been created
- Parallel processing approach -
Parallel processing is the processing of program instructions by dividing them among multiple processors. A parallel processing system posses many numbers of processor with the objective of running a program in less time by dividing them. This approach seems to be like divide and conquer. Examples are NESL (one of the oldest one) and C/C++ also supports because of some library function.
2. Declarative programming paradigm:
It is divided as Logic, Functional, Database. In computer science the declarative programming is a style of building programs that expresses logic of computation without talking about its control flow. It often considers programs as theories of some logic.It may simplify writing parallel programs. The focus is on what needs to be done rather how it should be done basically emphasize on what code is actually doing. It just declares the result we want rather how it has be produced. This is the only difference between imperative (how to do) and declarative (what to do) programming paradigms. Getting into deeper we would see logic, functional and database.
- Logic programming paradigms -
It can be termed as abstract model of computation. It would solve logical problems like puzzles, series etc. In logic programming we have a knowledge base which we know before and along with the question and knowledge base which is given to machine, it produces result. In normal programming languages, such concept of knowledge base is not available but while using the concept of artificial intelligence, machine learning we have some models like Perception model which is using the same mechanism.
In logical programming the main emphasize is on knowledge base and the problem. The execution of the program is very much like proof of mathematical statement, e.g., Prolog
predicates
sumoftwonumber(integer, integer).
clauses
sumoftwonumber(0, 0).
sumoftwonumber(N, R) :-
N > 0,
N1 is N - 1,
sumoftwonumber(N1, R1),
R is R1 + N.
- Functional programming paradigms -
The functional programming paradigms has its roots in mathematics and it is language independent. The key principle of this paradigms is the execution of series of mathematical functions. The central model for the abstraction is the function which are meant for some specific computation and not the data structure. Data are loosely coupled to functions.The function hide their implementation. Function can be replaced with their values without changing the meaning of the program. Some of the languages like perl, javascript mostly uses this paradigm.
Examples of Functional programming paradigm:
JavaScript : developed by Brendan Eich
Haskell : developed by Lennart Augustsson, Dave Barton
Scala : developed by Martin Odersky
Erlang : developed by Joe Armstrong, Robert Virding
Lisp : developed by John Mccarthy
ML : developed by Robin Milner
Clojure : developed by Rich Hickey
The next kind of approach is of Database.
- Database/Data driven programming approach -
This programming methodology is based on data and its movement. Program statements are defined by data rather than hard-coding a series of steps. A database program is the heart of a business information system and provides file creation, data entry, update, query and reporting functions. There are several programming languages that are developed mostly for database application. For example SQL. It is applied to streams of structured data, for filtering, transforming, aggregating (such as computing statistics), or calling other programs. So it has its own wide application.
CREATE DATABASE databaseAddress;
CREATE TABLE Addr (
PersonID int,
LastName varchar(200),
FirstName varchar(200),
Address varchar(200),
City varchar(200),
State varchar(200)
);
Similar Reads
System Design Tutorial System Design is the process of designing the architecture, components, and interfaces for a system so that it meets the end-user requirements. This specifically designed System Design tutorial will help you to learn and master System Design concepts in the most efficient way, from the basics to the
4 min read
System Design Bootcamp - 20 System Design Concepts Every Engineer Must Know We all know that System Design is the core concept behind the design of any distributed system. Therefore every person in the tech industry needs to have at least a basic understanding of what goes behind designing a System. With this intent, we have brought to you the ultimate System Design Intervi
15+ min read
What is System Design
What is System Design? A Comprehensive Guide to System Architecture and Design PrinciplesSystem Design is the process of defining the architecture, components, modules, interfaces, and data for a system to satisfy specified requirements. It involves translating user requirements into a detailed blueprint that guides the implementation phase. The goal is to create a well-organized and ef
11 min read
System Design Life Cycle | SDLC (Design)System Design Life Cycle is defined as the complete journey of a System from planning to deployment. The System Design Life Cycle is divided into 7 Phases or Stages, which are:1. Planning Stage 2. Feasibility Study Stage 3. System Design Stage 4. Implementation Stage 5. Testing Stage 6. Deployment S
7 min read
What are the components of System Design?The process of specifying a computer system's architecture, components, modules, interfaces, and data is known as system design. It involves looking at the system's requirements, determining its assumptions and limitations, and defining its high-level structure and components. The primary elements o
10 min read
Goals and Objectives of System DesignThe objective of system design is to create a plan for a software or hardware system that meets the needs and requirements of a customer or user. This plan typically includes detailed specifications for the system, including its architecture, components, and interfaces. System design is an important
5 min read
Why is it Important to Learn System Design?System design is an important skill in the tech industry, especially for freshers aiming to grow. Top MNCs like Google and Amazon emphasize system design during interviews, with 40% of recruiters prioritizing it. Beyond interviews, it helps in the development of scalable and effective solutions to a
6 min read
Important Key Concepts and Terminologies – Learn System DesignSystem Design is the core concept behind the design of any distributed systems. System Design is defined as a process of creating an architecture for different components, interfaces, and modules of the system and providing corresponding data helpful in implementing such elements in systems. In this
9 min read
Advantages of System DesignSystem Design is the process of designing the architecture, components, and interfaces for a system so that it meets the end-user requirements. System Design for tech interviews is something that can’t be ignored! Almost every IT giant whether it be Facebook, Amazon, Google, Apple or any other asks
4 min read
System Design Fundamentals
Analysis of Monolithic and Distributed Systems - Learn System DesignSystem analysis is the process of gathering the requirements of the system prior to the designing system in order to study the design of our system better so as to decompose the components to work efficiently so that they interact better which is very crucial for our systems. System design is a syst
10 min read
What is Requirements Gathering Process in System Design?The first and most essential stage in system design is requirements collecting. It identifies and documents the needs of stakeholders to guide developers during the building process. This step makes sure the final system meets expectations by defining project goals and deliverables. We will explore
7 min read
Differences between System Analysis and System DesignSystem Analysis and System Design are two stages of the software development life cycle. System Analysis is a process of collecting and analyzing the requirements of the system whereas System Design is a process of creating a design for the system to meet the requirements. Both are important stages
4 min read
Horizontal and Vertical Scaling | System DesignIn system design, scaling is crucial for managing increased loads. This article explores horizontal and vertical scaling, detailing their differences. Understanding these approaches helps organizations make informed decisions for optimizing performance and ensuring scalability as their needs evolveH
8 min read
Capacity Estimation in Systems DesignCapacity Estimation in Systems Design explores predicting how much load a system can handle. Imagine planning a party where you need to estimate how many guests your space can accommodate comfortably without things getting chaotic. Similarly, in technology, like websites or networks, we must estimat
10 min read
Object-Oriented Analysis and Design(OOAD)Object-Oriented Analysis and Design (OOAD) is a way to design software by thinking of everything as objects similar to real-life things. In OOAD, we first understand what the system needs to do, then identify key objects, and finally decide how these objects will work together. This approach helps m
6 min read
How to Answer a System Design Interview Problem/Question?System design interviews are crucial for software engineering roles, especially senior positions. These interviews assess your ability to architect scalable, efficient systems. Unlike coding interviews, they focus on overall design, problem-solving, and communication skills. You need to understand r
5 min read
Functional vs. Non Functional RequirementsRequirements analysis is an essential process that enables the success of a system or software project to be assessed. Requirements are generally split into two types: Functional and Non-functional requirements. functional requirements define the specific behavior or functions of a system. In contra
6 min read
Communication Protocols in System DesignModern distributed systems rely heavily on communication protocols for both design and operation. They facilitate smooth coordination and communication by defining the norms and guidelines for message exchange between various components. Building scalable, dependable, and effective systems requires
6 min read
Web Server, Proxies and their role in Designing SystemsIn system design, web servers and proxies are crucial components that facilitate seamless user-application communication. Web pages, images, or data are delivered by a web server in response to requests from clients, like browsers. A proxy, on the other hand, acts as a mediator between clients and s
9 min read
Scalability in System Design
Databases in Designing Systems
Complete Guide to Database Design - System DesignDatabase design is key to building fast and reliable systems. It involves organizing data to ensure performance, consistency, and scalability while meeting application needs. From choosing the right database type to structuring data efficiently, good design plays a crucial role in system success. Th
11 min read
SQL vs. NoSQL - Which Database to Choose in System Design?When designing a system, one of the most critical system design choices you will face is choosing the proper database management system (DBMS). The choice among SQL vs. NoSQL databases can drastically impact your system's overall performance, scalability, and usual success. This is why we have broug
7 min read
File and Database Storage Systems in System DesignFile and database storage systems are important to the effective management and arrangement of data in system design. These systems offer a structure for data organization, retrieval, and storage in applications while guaranteeing data accessibility and integrity. Database systems provide structured
4 min read
Block, Object, and File Storage in System DesignStorage is a key part of system design, and understanding the types of storage can help you build efficient systems. Block, object, and file storage are three common methods, each suited for specific use cases. Block storage is like building blocks for structured data, object storage handles large,
6 min read
Database Sharding - System DesignDatabase sharding is a technique for horizontal scaling of databases, where the data is split across multiple database instances, or shards, to improve performance and reduce the impact of large amounts of data on a single database.Table of ContentWhat is Sharding?Methods of ShardingKey Based Shardi
9 min read
Database Replication in System DesignDatabase replication is essential to system design, particularly when it comes to guaranteeing data scalability, availability, and reliability. It involves building and keeping several copies of a database on various servers to improve fault tolerance and performance.Table of ContentWhat is Database
7 min read
High Level Design(HLD)
What is High Level Design? – Learn System DesignHLD plays a significant role in developing scalable applications, as well as proper planning and organization. High-level design serves as the blueprint for the system's architecture, providing a comprehensive view of how components interact and function together. This high-level perspective is impo
9 min read
Availability in System DesignIn system design, availability refers to the proportion of time that a system or service is operational and accessible for use. It is a critical aspect of designing reliable and resilient systems, especially in the context of online services, websites, cloud-based applications, and other mission-cri
6 min read
Consistency in System DesignConsistency in system design refers to the property of ensuring that all nodes in a distributed system have the same view of the data at any given point in time, despite possible concurrent operations and network delays. In simpler terms, it means that when multiple clients access or modify the same
8 min read
Reliability in System DesignReliability is crucial in system design, ensuring consistent performance and minimal failures. The reliability of a device is considered high if it has repeatedly performed its function with success and low if it has tended to fail in repeated trials. The reliability of a system is defined as the pr
5 min read
CAP Theorem in System DesignThe CAP Theorem explains the trade-offs in distributed systems. It states that a system can only guarantee two of three properties: Consistency, Availability, and Partition Tolerance. This means no system can do it all, so designers must make smart choices based on their needs. This article explores
8 min read
What is API Gateway | System Design?An API Gateway is a key component in system design, particularly in microservices architectures and modern web applications. It serves as a centralized entry point for managing and routing requests from clients to the appropriate microservices or backend services within a system.Table of ContentWhat
9 min read
What is Content Delivery Network(CDN) in System DesignThese days, user experience and website speed are crucial. Content Delivery Networks (CDNs) are useful in this situation. It promotes the faster distribution of web content to users worldwide. In this article, you will understand the concept of CDNs in system design, exploring their importance, func
8 min read
What is Load Balancer & How Load Balancing works?A load balancer is a crucial component in system design that distributes incoming network traffic across multiple servers. Its main purpose is to ensure that no single server is overburdened with too many requests, which helps improve the performance, reliability, and availability of applications.Ta
9 min read
Caching - System Design ConceptCaching is a system design concept that involves storing frequently accessed data in a location that is easily and quickly accessible. The purpose of caching is to improve the performance and efficiency of a system by reducing the amount of time it takes to access frequently accessed data.Table of C
10 min read
Communication Protocols in System DesignModern distributed systems rely heavily on communication protocols for both design and operation. They facilitate smooth coordination and communication by defining the norms and guidelines for message exchange between various components. Building scalable, dependable, and effective systems requires
6 min read
Activity Diagrams - Unified Modeling Language (UML)Activity diagrams are an essential part of the Unified Modeling Language (UML) that help visualize workflows, processes, or activities within a system. They depict how different actions are connected and how a system moves from one state to another. By offering a clear picture of both simple and com
10 min read
Message Queues - System DesignMessage queues enable communication between various system components, which makes them crucial to system architecture. Because they serve as buffers, messages can be sent and received asynchronously, enabling systems to function normally even if certain components are temporarily or slowly unavaila
9 min read
Low Level Design(LLD)
What is Low Level Design or LLD?Low-Level Design (LLD) plays a crucial role in software development, transforming high-level abstract concepts into detailed, actionable components that developers can use to build the system. In simple terms, LLD is the blueprint that guides developers on how to implement specific components of a s
7 min read
Difference between Authentication and Authorization in LLD - System DesignTwo fundamental ideas in system design, particularly in low-level design (LLD), are authentication and authorization. While authorization establishes what resources or actions a user is permitted to access, authentication confirms a person's identity. Both are essential for building secure systems b
4 min read
Performance Optimization Techniques for System DesignThe ability to design systems that are not only functional but also optimized for performance and scalability is essential. As systems grow in complexity, the need for effective optimization techniques becomes increasingly critical. Here we will explore various strategies and best practices for opti
13 min read
Object-Oriented Analysis and Design(OOAD)Object-Oriented Analysis and Design (OOAD) is a way to design software by thinking of everything as objects similar to real-life things. In OOAD, we first understand what the system needs to do, then identify key objects, and finally decide how these objects will work together. This approach helps m
6 min read
Data Structures and Algorithms for System DesignSystem design relies on Data Structures and Algorithms (DSA) to provide scalable and effective solutions. They assist engineers with data organization, storage, and processing so they can efficiently address real-world issues. In system design, understanding DSA concepts like arrays, trees, graphs,
6 min read
Containerization Architecture in System DesignIn system design, containerization architecture describes the process of encapsulating an application and its dependencies into a portable, lightweight container that is easily deployable in a variety of computing environments. Because it makes the process of developing, deploying, and scaling appli
10 min read
Introduction to Modularity and Interfaces In System DesignIn software design, modularity means breaking down big problems into smaller, more manageable parts. Interfaces are like bridges that connect these parts together. This article explains how using modularity and clear interfaces makes it easier to build and maintain software, with tips for making sys
9 min read
Unified Modeling Language (UML) DiagramsUnified Modeling Language (UML) is a general-purpose modeling language. The main aim of UML is to define a standard way to visualize the way a system has been designed. It is quite similar to blueprints used in other fields of engineering. UML is not a programming language, it is rather a visual lan
14 min read
Data Partitioning Techniques in System DesignUsing data partitioning techniques, a huge dataset can be divided into smaller, easier-to-manage portions. These techniques are applied in a variety of fields, including distributed systems, parallel computing, and database administration. Data Partitioning Techniques in System DesignTable of Conten
9 min read
How to Prepare for Low-Level Design Interviews?Low-Level Design (LLD) interviews are crucial for many tech roles, especially for software developers and engineers. These interviews test your ability to design detailed components and interactions within a system, ensuring that you can translate high-level requirements into concrete implementation
4 min read
Essential Security Measures in System DesignIn today's digitally advanced and Interconnected technology-driven worlds, ensuring the security of the systems is a top-notch priority. This article will deep into the aspects of why it is necessary to build secure systems and maintain them. With various threats like cyberattacks, Data Breaches, an
12 min read
Design Patterns
Software Design Patterns TutorialSoftware design patterns are important tools developers, providing proven solutions to common problems encountered during software development. This article will act as tutorial to help you understand the concept of design patterns. Developers can create more robust, maintainable, and scalable softw
9 min read
Creational Design PatternsCreational Design Patterns focus on the process of object creation or problems related to object creation. They help in making a system independent of how its objects are created, composed, and represented. Creational patterns give a lot of flexibility in what gets created, who creates it, and how i
4 min read
Structural Design PatternsStructural Design Patterns are solutions in software design that focus on how classes and objects are organized to form larger, functional structures. These patterns help developers simplify relationships between objects, making code more efficient, flexible, and easy to maintain. By using structura
7 min read
Behavioral Design PatternsBehavioral design patterns are a category of design patterns that focus on the interactions and communication between objects. They help define how objects collaborate and distribute responsibility among them, making it easier to manage complex control flow and communication in a system. Table of Co
5 min read
Design Patterns Cheat Sheet - When to Use Which Design Pattern?In system design, selecting the right design pattern is related to choosing the right tool for the job. It's essential for crafting scalable, maintainable, and efficient systems. Yet, among a lot of options, the decision can be difficult. This Design Patterns Cheat Sheet serves as a guide, helping y
7 min read
Interview Guide for System Design
How to Crack System Design Interview Round?In the System Design Interview round, You will have to give a clear explanation about designing large scalable distributed systems to the interviewer. This round may be challenging and complex for you because you are supposed to cover all the topics and tradeoffs within this limited time frame, whic
9 min read
System Design Interview Questions and Answers [2025]In the hiring procedure, system design interviews play a significant role for many tech businesses, particularly those that develop large, reliable software systems. In order to satisfy requirements like scalability, reliability, performance, and maintainability, an extensive plan for the system's a
7 min read
Most Commonly Asked System Design Interview Problems/QuestionsThis System Design Interview Guide will provide the most commonly asked system design interview questions and equip you with the knowledge and techniques needed to design, build, and scale your robust applications, for professionals and newbiesBelow are a list of most commonly asked interview proble
1 min read
5 Common System Design Concepts for Interview PreparationIn the software engineering interview process system design round has become a standard part of the interview. The main purpose of this round is to check the ability of a candidate to build a complex and large-scale system. Due to the lack of experience in building a large-scale system a lot of engi
12 min read
5 Tips to Crack Low-Level System Design InterviewsCracking low-level system design interviews can be challenging, but with the right approach, you can master them. This article provides five essential tips to help you succeed. These tips will guide you through the preparation process. Learn how to break down complex problems, communicate effectivel
6 min read