• Post last modified:October 13, 2024
  • Reading time:8 mins read
  • Post category:IT & Software

Welcome to the Data Structures and Algorithms Coding Interview Bootcamp with Python!

The primary goal of this course is to prepare you for coding interviews at top tech companies. By tackling one problem at a time and understanding its solution, you'll accumulate a variety of tools and techniques for conquering any coding interview.

Daily Data Structures and Algorithms Python Coding Challenges:

The course is structured around daily coding challenges. Consistent practice will equip you with the skills required to ace coding interviews, for the next 40 days commit to yourself to practice atleast 2 coding interview questions everyday. You don't need any setup for this as the daily coding problem challenges can be solved in the coding environment provided by Udemy. The course will automatically track your progress and you just need to spend your time making actual progress everyday.

 

 

Topics Covered:

We start from the basics with Big O analysis, then move on to very important algorithmic techniques such as Recursion, Backtracking and Dynamic Programming Patters. After this we move to cover common data structures, and discuss real problems asked in interviews at tech giants such as Google, Meta, Amazon, Netflix, Apple, and Microsoft.

For each question, we will:

  1. Discuss the optimal approach
  2. Explain time and space complexity
  3. Code the solution in Python (you can follow along in your preferred language)

 

 

Course Overview

 

 

In the rapidly evolving landscape of technology, proficiency in data structures and algorithms (DSA) is paramount for aspiring software developers, data scientists, and computer engineers. 50-Day DSA Python: Patterns, Data Structures, and Algorithms is a meticulously crafted course designed to equip learners with a deep understanding of fundamental and advanced DSA concepts using Python. Over the span of 50 days, this course offers a structured and immersive learning experience that blends theoretical knowledge with practical application, ensuring that students not only grasp the concepts but also know how to implement them effectively in real-world scenarios.

Python, renowned for its simplicity and versatility, serves as the perfect language for mastering DSA. Its robust libraries and supportive community make it an ideal choice for both beginners and seasoned programmers aiming to enhance their problem-solving skills. This course delves into a wide array of data structures, algorithmic paradigms, and design patterns, providing learners with the tools necessary to tackle complex computational problems efficiently.

Whether you are preparing for competitive programming, aiming to excel in technical interviews, or seeking to bolster your programming foundation, this 50-day journey will transform your understanding of DSA. By the end of the course, you will have built a strong foundation in data structures and algorithms, enabling you to write optimized and effective Python code for a variety of applications.

Who Is This Course For?

  • Aspiring Software Developers: Individuals looking to build a strong foundation in DSA to enhance their programming skills and career prospects.
  • Computer Science Students: Students aiming to supplement their academic studies with practical DSA knowledge and Python implementation.
  • Data Scientists and Analysts: Professionals seeking to improve their data manipulation and algorithmic problem-solving abilities using Python.
  • Competitive Programmers: Enthusiasts preparing for coding competitions and technical interviews who need a comprehensive understanding of DSA.
  • Self-Learners and Enthusiasts: Individuals passionate about programming and eager to deepen their knowledge of data structures and algorithms.
  • Tech Professionals: Developers looking to transition into roles that require strong DSA skills or to enhance their current technical expertise.

 

 

Additional Resources :

The course includes downloadable resources, motivational trackers, and cheat sheets.

Course Outline:

  • Day 1: Arrays, Big O, Sorted Squared Array, Monotonic Array
  • Day 2:Recursion,k-th symbol in Grammar,Josephus problem
  • Day 3:Recursion, Tower of Hanoi, Power Sum
  • Day 4:Backtracking, Permutations, Permutations 2
  • Day 5:Backtracking, Subsets, Subsets 2
  • Day 6:Backtracking, Combinations, Combinations Sum 1
  • Day 7:Backtracking,Combinations Sum 2,Combinations Sum 3
  • Day 8:Backtracking,Sudoku Solver, N Queens
  • Day 9:Dynamic Programming, Fibonacci, Climbing Stairs
  • Day 10:Dynamic Programming, Min Cost Climbing Stairs, Tribonacci
  • Day 11:Dynamic Programming, 01 Knapsack, Unbounded Knapsack
  • Day 12:Dynamic Programming, Target Sum, Partition Equal Subset Sum
  • Day 13:Dynamic Programming, LCS, Edit Distance
  • Day 14:Dynamic Programming, LIS, Max Length of Pair Chain, Russian Doll Envelopes
  • Day 15:Dynamic Programming, Palindromic Substrings, Longest Palindromic Substring, Longest Palindromic Subsequence
  • Day 16:Dynamic Programming, Palindrome Partitioning, Palindrome Partitioning 2
  • Day 17:Dynamic Programming, Word Break, Matrix Chain Multiplication
  • Day 18:Dynamic Programming, Kadane's algorithm – Max Subarray, Maximum Product Subarray
  • Day 19:Greedy Algorithms – Fractional Knpasack, Non overlapping Intervals
  • Day 20:Greedy Algorithms – Jump Game 1, Minimum # of arrows to burst baloons
  • Day 21:Greedy Algorithms – Two City Scheduling, Boats to Save people
  • Day 22:Greedy Algorithms – Task Scheduler, Largest Number
  • Day 23:Greedy Algorithms – Gas Stations,  Jump Game 2
  • Day 24: Arrays, Rotate Array, Container with Most Water
  • Day 25: Hash Tables, Two Sum, Isomorphic Strings
  • Day 26: Strings, Non-Repeating Character, Palindrome
  • Day 27: Strings, Longest Unique Substring, Group Anagrams
  • Day 28: Searching, Binary Search, Search in Rotated Sorted Array
  • Day 29: Searching, Find First and Last Position, Search in 2D Array
  • Day 30: Sorting, Bubble Sort, Insertion Sort
  • Day 31: Sorting, Selection Sort, Merge Sort
  • Day 32: Sorting, Quick Sort, Radix Sort
  • Day 33: Singly Linked Lists, Construct SLL, Delete Duplicates
  • Day 34: Singly Linked Lists, Reverse SLL, Cycle Detection
  • Day 35: Singly Linked Lists, Find Duplicate, Add 2 Numbers
  • Day 36: Doubly Linked Lists, DLL Remove Insert, DLL Remove All
  • Day 37: Stacks, Construct Stack, Reverse Polish Notation
  • Day 38: Queues, Construct Queue, Implement Queue with Stack
  • Day 39: Binary Trees, Construct BST, Traversal Techniques
  • Day 40: Pre order and In order Traversal of Binary Tree – Iterative
  • Day 41: Post Order Traversal Iterative, Path Sum 2
  • Day 42: Construct Binary Tree from Pre and In order Traversal ^ In and Post order Traversal
  • Day 43: Binary Trees, Level Order Traversal, Left/Right View
  • Day 44: Level order Trav 2, ZigZag Traversal
  • Day 45: Vertical order Traversal, Sum root to leaf numbers
  • Day 46: Binary Trees, Invert Tree, Diameter of Tree
  • Day 47: Binary Trees, Convert Sorted Array to BST, Validate BST
  • Day 48: Lowest common Ancestor of BST, Unique BST 2
  • Day 49: Lowest common Ancestor of Binary Tree, Unique BST 1
  • Day 50: Serialize and Deserialize Binary Tree, N-ary Tree Level Order Traversal
  • Day 51: Heaps, Max Heap, Min Priority Queue
  • Day 52: Graphs, BFS, DFS
  • Day 53: Graphs, Number of Connected Components, Topological Sort
  • Day 54: Number of Provinces, Find if path exists in Graph
  • Day 55: Number of Islands, Numbers with same consecutive differences

My confidence in your satisfaction with this course is so high that we offer a complete money-back guarantee for 30 days! Thus, it's a totally risk-free opportunity. Register today, facing ZERO risk and standing to gain EVERYTHING.

 

 

 

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