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Efficient Algorithm Design

You're reading from   Efficient Algorithm Design Unlock the power of algorithms to optimize computer programming

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Product type Paperback
Published in Oct 2024
Publisher Packt
ISBN-13 9781835886823
Length 360 pages
Edition 1st Edition
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Author (1):
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Masoud Makrehchi Masoud Makrehchi
Author Profile Icon Masoud Makrehchi
Masoud Makrehchi
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Table of Contents (21) Chapters Close

Preface 1. Part 1: Foundations of Algorithm Analysis
2. Chapter 1: Introduction to Algorithm Analysis FREE CHAPTER 3. Chapter 2: Mathematical Induction and Loop Invariant for Algorithm Correctness 4. Chapter 3: Rate of Growth for Complexity Analysis 5. Chapter 4: Recursion and Recurrence Functions 6. Chapter 5: Solving Recurrence Functions 7. Part 2: Deep Dive in Algorithms
8. Chapter 6: Sorting Algorithms 9. Chapter 7: Search Algorithms 10. Chapter 8: Symbiotic Relationship between Sort and Search 11. Chapter 9: Randomized Algorithms 12. Chapter 10: Dynamic Programming 13. Part 3: Fundamental Data Structures
14. Chapter 11: Landscape of Data Structures 15. Chapter 12: Linear Data Structures 16. Chapter 13: Non-Linear Data Structures 17. Part 4: Next Steps
18. Chapter 14: Tomorrow’s Algorithms 19. Index 20. Other Books You May Enjoy

Unfolding recurrence functions

So far, we have discussed the recursive structures in algorithm design and introduced different types of recursions. We then focused on two types of recurrence functions: subtractive and divide-and-conquer. Table 4.2 provides a summary of the properties of these two recurrence functions. As the table illustrates, divide-and-conquer recurrences generally offer more efficient solutions, although the efficiency highly depends on the specific problem being solved.

In this section, we will demystify recurrence functions. This understanding will be essential in the next chapter, where we will solve recurrence functions and estimate their computational complexity, or in other words, their rate of growth. By unfolding these functions, we can gain insights into how recursive algorithms operate and how their performance scales with input size. This knowledge will enable us to analyze and optimize algorithms more effectively.

Regardless of the type of recurrence...

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