1. Database Conceptual �and Logical Design Susan B. Davidson
University of Pennsylvania
CIS330 – Database Management Systems
2. 2 Databases Anonymous:�A 6-Step Program Requirements Analysis: what data, apps, critical operations
Conceptual DB Design: high-level description of data and constraints – typically using ER model
Logical DB Design: conversion into a schema
Schema Refinement: normalization (eliminating redundancy)
Physical DB Design: consider workloads, indexes and clustering of data
Application/Security Design
3. 3 Entity-Relationship Diagram
4. 4 Conceptual Design Process What are the entities being represented?
What are the relationships?
What info (attributes) do we store about each?
What keys & integrity constraints do we have?
5. 5 Translating Entity Sets to�Logical Schemas & SQL DDL
6. 6 Translating Relationship Sets Generate schema with attributes consisting of:
Key(s) of each associated entity (foreign keys)
Descriptive attributes
7. 7 … OK, But What about Connectivity�in the E-R Diagram? Attributes can only be connected to entities or relationships
Entities can only be connected via relationships
As for the edges, let’s consider kinds of relationships and integrity constraints…
8. 8 Logical Schema Design Roughly speaking, each entity set or relationship set becomes a table (not always be the case; we’ll discuss this later)
Attributes associated with each entity set or relationship set become attributes of the relation; the key is also copied (ditto with foreign keys in a relationship set)
9. 9 Binary Relationships & Participation Binary relationships can be classified as 1:1, 1:Many, or Many:Many, as in:
10. 10 1:Many (1:n) Relationships Placing an arrow in the many ? one direction, i.e. towards the entity that’s ref’d via a foreign key
Suppose profs teach multiple courses, but may not have taught yet:
Suppose profs must teach to be on the roster:
11. 11 Many-to-Many Relationships Many-to-many relationships have no arrows on edges
The “relationship set” relation has a key that includes the foreign keys, plus any other attributes specified as key
12. 12 Examples Suppose courses must be taught to be on the roster
Suppose students must have enrolled in at least one course
13. 13 Representing 1:n Relationships �in Tables
14. 14 1:1 Relationships If you borrow money or have credit, you might get:
What are the table options?
15. 15 Roles: Labeled Edges Sometimes a relationship connects the same entity, and the entity has more than one role:
This often indicates the need for recursive queries
16. 16 DDL for Role Example
17. 17 Roles vs. Separate Entities
18. 18 ISA Relationships: Subclassing�(Structurally) Inheritance states that one entity is a “special kind” of another entity: “subclass” should be member of “base class”
19. 19 But How Does this Translate�into the Relational Model? Compare these options:
Two tables, disjoint tuples
Two tables, disjoint attributes
One table with NULLs
20. 20 Weak Entities A weak entity can only be identified uniquely using the primary key of another (owner) entity.
Owner and weak entity sets in a one-to-many relationship set, 1 owner : many weak entities
Weak entity set must have total participation
21. 21 Translating Weak Entity Sets Weak entity set and identifying relationship set are translated into a single table; when the owner entity is deleted, all owned weak entities must also be deleted
22. 22 Let’s rethink the schema for running example… Problem: currently, information about the subject is repeated for every offering of the course.
23. 23 N-ary Relationships Relationship sets can relate an arbitrary number of entity sets:
24. 24 Summary of ER Diagrams One of the primary ways of designing logical schemas
CASE tools exist built around ER �(e.g. ERWin, PowerBuilder, etc.)
Translate the design automatically into DDL, XML, UML, etc.
Use a slightly different notation that is better suited to graphical displays
Some tools support constraints beyond what ER diagrams can capture
