Presentation is loading. Please wait.

Presentation is loading. Please wait.

B + TREE. INTRODUCTION A B+ tree is a balanced tree in which every path from the root of the tree to a leaf is of the same length, and each non leaf node.

Published byBritney Rogers Modified over 8 years ago

Similar presentations

Presentation on theme: "B + TREE. INTRODUCTION A B+ tree is a balanced tree in which every path from the root of the tree to a leaf is of the same length, and each non leaf node."— Presentation transcript:

1 B + TREE

2 INTRODUCTION A B+ tree is a balanced tree in which every path from the root of the tree to a leaf is of the same length, and each non leaf node of the tree has between [n/2] and [n] children, where n is fixed for a particular tree. In a B+ tree, in contrast to a B-tree, all records are stored at the leaf level of the tree; only keys are stored in internal nodes. All the leaf nodes are interconnected for faster access. Fill factor is 50%.

3 E XAMPLE B+ Trees use a "fill factor" to control the growth and the shrinkage. A 50% fill factor would be the minimum for any B+. Example : A B+ tree of order 5. Number of Keys 4 Number of Pointers 5 Fill Factor 50% Minimum Keys in each node 2

4 B+ TREE INTERNAL NODE / INDEX nodeS LEAF NODES / DATA nodeS The linked list allows rapid in-order traversal.

5 OPERATIONS IN B+ TREE SEARCH INSERTION DELETION

6 B+ TREE- SEARCH OPERATION TWO CASES: Successful Search Unsuccessful Search

7 S EARCHING Compare the key value with the data in the tree, then give the result back. For example: find the value 45, and 15 in below tree.

8 B+ TREE- INSERTION OPERATION Inserting a record when Case 1:If both leaf node and index node is not full. Case 2:If leaf node is full and index node is not full. Case 3:If both leaf node and index node is full.

9 INSERTION –CASE 1 Add Record with Key 28

10 INSERTION –CASE 2 Adding a record when the leaf node is full but the index node is not full. Add Record with Key 70

11 AFTER INSERTING A Record With Key 70. This record should go in the leaf node containing 50, 55, 60, and 65. Left Leaf node Right Leaf node 50 55 60 65 70

12 INSERTION –CASE 3 Adding a record when both the leaf node and the index node are full. Add a record containing a key value of 95 to the following tree.

13 This record belongs in the node containing 75, 80, 85, and 90. Since this node is full we split it into two nodes: Left Leaf Node Right Leaf node 75 80 85 90 95 The middle key, 85, rises to the index node. But the index node is also full, so we split the index node: Left Index node Right Index node New Index node 25 50 75 85 60

14 After the record containing 95 is inserted. Leaf nodes are at same level only.

15 B+ TREE – D ELETION O PERATION Deleting a record from B+ tree may result in Case 1: If both the leaf node and index node does not go below the fill factor. Case 2: If the leaf node goes below fill factor and index node does not go below the fill factor. Case 3: If both the leaf node and index node goes below the fill factor.

16 DELETION –CASE 1 If both the leaf node and index node does not go below the fill factor. Delete 70 from the following B+ Tree

17 This node will contain 2 records after the deletion. So, simply delete 70 from the leaf node.

18 Delete 25 from the B+ tree when we delete 25 we must replace it with 28 in the index node.

19 D ELETE 60 FROM THE B+ TREE The leaf node containing 60 will be below the fill factor after the deletion. Thus, we must combine leaf nodes. With recombined nodes, the index node will be reduced by one key. Hence, it will also fall below the fill factor. Thus, we must combine index nodes. 60 appears as the only key in the root index node.

20 After deleting 60

21 B+ TREES AS FILE INDEXES B+ Trees are descendants of B Trees. Retrieval of records from large files or databases stored in external memory is time consuming. To promote Efficient Retrievals, file indexes are used. An index is a pair.

22 The records of the file are sequentially stored and for each block of records, the largest key and the block address is stored in an index. In B+ Tree to retrieve a record given its key, it is essential that the search traverses down to a leaf node to retrieve its address. The non leaf nodes only serve to help the process traverse downwards towards the appropriate leaf node.

23 A DVANTAGE OF B+ TREE B+ Trees are much easier and higher performing to do a full scan, since the terminal nodes form a linked list. But to do a full scan in B tree, a complete inorder traversal is to be made. Any search will end at leaf node only. Time complexity for every search results in O(h). H-height of the B+ tree. Waste of Memory. In comparing to B+ trees, B trees are efficient. D ISADVANTAGE OF B+ TREE

24 THANK YOU

Download ppt "B + TREE. INTRODUCTION A B+ tree is a balanced tree in which every path from the root of the tree to a leaf is of the same length, and each non leaf node."

Similar presentations

 Definition of B+ tree  How to create B+ tree  How to search for record  How to delete and insert a data.

 Definition of B+ tree  How to create B+ tree  How to search for record  How to delete and insert a data.
Binary Trees CSC 220. Your Observations (so far data structures) Array –Unordered Add, delete, search –Ordered Linked List –??

Binary Trees CSC 220. Your Observations (so far data structures) Array –Unordered Add, delete, search –Ordered Linked List –??
B+-Trees (PART 1) What is a B+ tree? Why B+ trees? Searching a B+ tree

B+-Trees (PART 1) What is a B+ tree? Why B+ trees? Searching a B+ tree
1 Lecture 8: Data structures for databases II Jose M. Peña

1 Lecture 8: Data structures for databases II Jose M. Peña
CS 171: Introduction to Computer Science II

CS 171: Introduction to Computer Science II
Indexes. Primary Indexes Dense Indexes Pointer to every record of a sequential file, (ordered by search key). Can make sense because records may be much.

Indexes. Primary Indexes Dense Indexes Pointer to every record of a sequential file, (ordered by search key). Can make sense because records may be much.
Indexes. Primary Indexes Dense Indexes Pointer to every record of a sequential file, (ordered by search key). Can make sense because records may be much.

Indexes. Primary Indexes Dense Indexes Pointer to every record of a sequential file, (ordered by search key). Can make sense because records may be much.
COMP 451/651 Indexes Chapter 1.

COMP 451/651 Indexes Chapter 1.
Chapter 15 B External Methods – B-Trees. © 2004 Pearson Addison-Wesley. All rights reserved 15 B-2 B-Trees To organize the index file as an external search.

Chapter 15 B External Methods – B-Trees. © 2004 Pearson Addison-Wesley. All rights reserved 15 B-2 B-Trees To organize the index file as an external search.
Processing Data in External Storage CS 302 - Data Structures Mehmet H Gunes Modified from authors’ slides.

Processing Data in External Storage CS Data Structures Mehmet H Gunes Modified from authors’ slides.
Data Structures and Algorithms1 B-Trees with Minimum=1 2-3 Trees.

Data Structures and Algorithms1 B-Trees with Minimum=1 2-3 Trees.
Liang, Introduction to Java Programming, Eighth Edition, (c) 2011 Pearson Education, Inc. All rights reserved. 0132130807 1 Chapter 46 2-4 Trees and B-Trees.

Liang, Introduction to Java Programming, Eighth Edition, (c) 2011 Pearson Education, Inc. All rights reserved Chapter Trees and B-Trees.
CPSC 231 B-Trees (D.H.)1 LEARNING OBJECTIVES Problems with simple indexing. Multilevel indexing: B-Tree. –B-Tree creation: insertion and deletion of nodes.

CPSC 231 B-Trees (D.H.)1 LEARNING OBJECTIVES Problems with simple indexing. Multilevel indexing: B-Tree. –B-Tree creation: insertion and deletion of nodes.
Data Indexing Herbert A. Evans. Purposes of Data Indexing What is Data Indexing? Why is it important?

Data Indexing Herbert A. Evans. Purposes of Data Indexing What is Data Indexing? Why is it important?
B+ - Tree & B - Tree By Phi Thong Ho.

B+ - Tree & B - Tree By Phi Thong Ho.
File Organizations March 2007R McFadyen ACS - 39021 In SQL Server 2000 Tree terms root, internal, leaf, subtree parent, child, sibling balanced, unbalanced.

File Organizations March 2007R McFadyen ACS In SQL Server 2000 Tree terms root, internal, leaf, subtree parent, child, sibling balanced, unbalanced.
1 Indexing Structures for Files. 2 Basic Concepts  Indexing mechanisms used to speed up access to desired data without having to scan entire.

1 Indexing Structures for Files. 2 Basic Concepts  Indexing mechanisms used to speed up access to desired data without having to scan entire.
B-Trees Chapter 9. Limitations of binary search Though faster than sequential search, binary search still requires an unacceptable number of accesses.

B-Trees Chapter 9. Limitations of binary search Though faster than sequential search, binary search still requires an unacceptable number of accesses.
Primary Indexes Dense Indexes

Primary Indexes Dense Indexes
General Trees and Variants CPSC 335. General Trees and transformation to binary trees B-tree variants: B*, B+, prefix B+ 2-4, Horizontal-vertical, Red-black.

General Trees and Variants CPSC 335. General Trees and transformation to binary trees B-tree variants: B*, B+, prefix B+ 2-4, Horizontal-vertical, Red-black.

Similar presentations

Ads by Google