Normal view MARC view ISBD view

Data Structures and Algorithms with Python [electronic resource] : With an Introduction to Multiprocessing / by Kent D. Lee, Steve Hubbard.

By: Lee, Kent D [author.].
Contributor(s): Hubbard, Steve [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Undergraduate Topics in Computer Science: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2024Edition: 2nd ed. 2024.Description: XVI, 398 p. 156 illus., 144 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783031422096.Subject(s): Data structures (Computer science) | Information theory | Algorithms | Python (Computer program language) | Computer programming | Data Structures and Information Theory | Algorithms | Python | Programming TechniquesAdditional physical formats: Printed edition:: No title; Printed edition:: No titleDDC classification: 005.73 | 003.54 Online resources: Click here to access online
Contents:
1. Python Programming 101 -- 2. Computational Complexity -- 3. Recursion -- 4. Sequences -- 5. Sets and Maps -- 6. Trees -- 7. Graphs -- 8. Membership Structures -- 9. Heaps -- 10. Balanced Binary Search Trees -- 11. B-Trees -- 12. Heuristic Search.
In: Springer Nature eBookSummary: This textbook explains the concepts and techniques required to write programs that can handle large amounts of data efficiently. Project-oriented and classroom-tested, the book presents a number of important algorithms-supported by motivating examples-that bring meaning to the problems faced by computer programmers. The idea of computational complexity is introduced, demonstrating what can and cannot be computed efficiently at scale, helping programmers make informed judgements about the algorithms they use. The easy-to-read text assumes some basic experience in computer programming and familiarity in an object-oriented language, but not necessarily with Python. Topics and features: Includes introductory and advanced data structures and algorithms topics, with suggested chapter sequences for those respective courses Provides learning goals, review questions, and programming exercises in each chapter, as well as numerous examples Presents a primer on Python for those coming from a different language background Adds a new chapter on multiprocessing with Python using the DragonHPC multinode implementation of multiprocessing (includes a tutorial) Reviews the use of hashing in sets and maps, and examines binary search trees, tree traversals, and select graph algorithms Offers downloadable programs and supplementary files at an associated website to help students Students of computer science will find this clear and concise textbook invaluable for undergraduate courses on data structures and algorithms, at both introductory and advanced levels. The book is also suitable as a refresher guide for computer programmers starting new jobs working with Python. Dr. Kent D. Lee is a Professor Emeritus of Computer Science at Luther College, Decorah, Iowa, USA. He is the author of the successful Springer books, Python Programming Fundamentals, and Foundations of Programming Languages. Dr. Steve Hubbard is a Professor Emeritus of Mathematics and Computer Science at Luther College.
    average rating: 0.0 (0 votes)
No physical items for this record

1. Python Programming 101 -- 2. Computational Complexity -- 3. Recursion -- 4. Sequences -- 5. Sets and Maps -- 6. Trees -- 7. Graphs -- 8. Membership Structures -- 9. Heaps -- 10. Balanced Binary Search Trees -- 11. B-Trees -- 12. Heuristic Search.

This textbook explains the concepts and techniques required to write programs that can handle large amounts of data efficiently. Project-oriented and classroom-tested, the book presents a number of important algorithms-supported by motivating examples-that bring meaning to the problems faced by computer programmers. The idea of computational complexity is introduced, demonstrating what can and cannot be computed efficiently at scale, helping programmers make informed judgements about the algorithms they use. The easy-to-read text assumes some basic experience in computer programming and familiarity in an object-oriented language, but not necessarily with Python. Topics and features: Includes introductory and advanced data structures and algorithms topics, with suggested chapter sequences for those respective courses Provides learning goals, review questions, and programming exercises in each chapter, as well as numerous examples Presents a primer on Python for those coming from a different language background Adds a new chapter on multiprocessing with Python using the DragonHPC multinode implementation of multiprocessing (includes a tutorial) Reviews the use of hashing in sets and maps, and examines binary search trees, tree traversals, and select graph algorithms Offers downloadable programs and supplementary files at an associated website to help students Students of computer science will find this clear and concise textbook invaluable for undergraduate courses on data structures and algorithms, at both introductory and advanced levels. The book is also suitable as a refresher guide for computer programmers starting new jobs working with Python. Dr. Kent D. Lee is a Professor Emeritus of Computer Science at Luther College, Decorah, Iowa, USA. He is the author of the successful Springer books, Python Programming Fundamentals, and Foundations of Programming Languages. Dr. Steve Hubbard is a Professor Emeritus of Mathematics and Computer Science at Luther College.

There are no comments for this item.

Log in to your account to post a comment.