Introduction to Algorithmic Design and Analysis

Learn The Art of Computer Programming

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Introduction to Algorithmic Design and Analysis

What You Will Learn!

  • Learn how to design & analyze algorithms.
  • Become a better programmer.
  • Enhance your problem solving and critical thinking skills.
  • Learn to think like a computer scientist.

Description

In this comprehensive course, students will embark on a journey to explore the fundamental principles and techniques of algorithmic design and analysis. With a strong focus on practical applications, this course is tailored to equip learners with the knowledge and skills required to solve complex computational problems efficiently.

Throughout the course, students will delve into various essential algorithmic concepts, including:


  1. Divide and Conquer Algorithms: Learn to break down complex problems into simpler subproblems, solve them recursively, and combine the solutions to conquer the original problem.

  2. Sorting: Gain insights into various sorting techniques, such as bubble sort, and mergesort, and how to analyze these algorithms.

  3. Hash Maps: Understand the power of hashing and its role in creating efficient data structures for fast data retrieval and storage.

  4. Stacks and Queues: Explore the functionality of these linear data structures and their applications in algorithmic design.

  5. Linked Lists: Grasp the intricacies of linked lists and their role in dynamic memory allocation and data manipulation.

  6. Dynamic Programming: Unravel the art of solving problems by breaking them down into overlapping subproblems and solving them in a bottom-up manner.

  7. Graphs, BFS, and DFS: Delve into graph theory, and master breadth-first search (BFS) and depth-first search (DFS) algorithms to traverse and analyze complex networks.

  8. Binary Search Trees: Learn about the structure and operations of binary search trees, and understand their importance in organizing hierarchical data efficiently.

  9. Asymptotic Analysis: Develop a solid understanding of Big O, Big Omega, and Big Theta notations to evaluate the efficiency and scalability of algorithms.

By the end of this course, students will have a strong foundation in algorithmic design and analysis, empowering them to tackle complex computational challenges with confidence and precision.

Who Should Attend!

  • Beginner developers
  • Math or computer science students

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Tags

  • Algorithms

Subscribers

1374

Lectures

32

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