DSA 90 patterns sheet Options to Consider

The Essential Ninety DSA Patterns That Cover Nearly All Coding Interviews

You’ve spent hours grinding LeetCode problems — yet still find yourself freezing during live interviews?

Most companies reuse recurring data structure and algorithm (DSA) templates to evaluate problem-solving skills.

Tech giants like Google, Meta, Amazon, and Microsoft repeatedly test the same core ideas.

If you internalize these 90 key templates, recognizing the logic behind any problem becomes second nature.

What You’ll Learn

You’ll explore 15 foundational categories containing 90 powerful coding patterns.

On Thita.ai, you can experience pattern-based learning with interactive guidance and feedback.

Why Random LeetCode Grinding Doesn’t Work

Solving problems at random doesn’t build intuition for recurring logic patterns.

Each DSA pattern functions as a reusable design you can apply to multiple situations.

Sample applications:
– Target sum in sorted list ? Two Pointer technique
– Substring without duplicates ? Sliding Window
– Cycle detection ? Slow & Fast Pointers.

Elite developers rely on pattern familiarity, not brute-force memorization.

The 15 Core DSA Pattern Families

Every pattern family addresses specific classes of problems that recur across companies.

1. Two Pointer Patterns (7 Patterns)

Ideal for array manipulation and pointer-based optimization problems.

Includes logic for in-place edits, fixed gaps, and center-based expansion techniques.

? Tip: Sorted inputs often signal a two-pointer approach.

2. Sliding Window Patterns (4 Patterns)

Best for problems requiring flexible range adjustments.

Focuses on dynamically resizing sequences to DSA roadmap meet constraints.

? Tip: Efficiency lies in the ability to manage window size dynamically.

3. Tree Traversal Patterns (7 Patterns)

Encompasses standard and advanced traversal techniques like LCA and serialization.

4. Graph Traversal Patterns (8 Patterns)

Focuses on efficient exploration and connection validation in networks.

5. Dynamic Programming Patterns (11 Patterns)

Central to solving resource allocation and sequence-based problems efficiently.

6. Heap (Priority Queue) Patterns (4 Patterns)

Helps in scheduling and optimization tasks.

7. Backtracking Patterns (7 Patterns)

Relies on decision trees and pruning to find valid outcomes.

8. Greedy Patterns (6 Patterns)

Relies on sorted order or prioritization strategies.

9. Binary Search Patterns (5 Patterns)

Applied in finding thresholds, boundaries, or minimum feasible values.

10. Stack Patterns (6 Patterns)

Involves handling nested structures and validation problems.

11. Bit Manipulation Patterns (5 Patterns)

Use Case: XOR-based logic, bit counting, and power checks.

12. Linked List Patterns (5 Patterns)

Common in list-based storage and cache designs.

13. Array & Matrix Patterns (8 Patterns)

Applied in image processing, pathfinding, and transformation tasks.

14. String Manipulation Patterns (7 Patterns)

Includes palindrome checking, encoding/decoding, and pattern validation.

15. Design Patterns (Meta Category)

Includes LRU Cache, LFU Cache, Min Stack, Trie, and Design Twitter.

How to Practice Effectively on Thita.ai

Learning the 90 DSA patterns is only the beginning — mastering their application is the key.

Begin by opening the full Thita.ai DSA pattern catalog.

Choose one category (e.g., Sliding Window) to practice related LeetCode-style problems.

Engage Thita.ai’s AI tutor for instant suggestions and solution breakdowns.

Step 4: Track Progress ? Analyze performance and identify weak zones.

The Smart Way to Prepare

Stop random practice; focus on mastering logic templates instead.

Use Thita.ai’s roadmap to learn, practice, and refine through intelligent feedback.

Why Choose Thita.ai?

Thita.ai empowers learners to:

– Master 90 reusable DSA patterns
– Practice interactively with AI feedback
– Experience realistic mock interviews
– Prepare for FAANG and top-tier interviews
– Build a personalized, AI-guided learning path.