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1 Pertemuan 02 Database environment Matakuliah: >/ > Tahun: > Versi: >
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2 Learning Outcomes Pada akhir pertemuan ini, diharapkan mahasiswa akan mampu : Mahasiswa dapat Menerangkan 3 level arsitektur Ansi SPARC
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3 Outline Materi Arsitektur three level AnsiSPARC Level eksternal Level conceptual Level Internal Logikal independensi dan physical independensi data
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4 Chapter 2 Database Environment Transparencies
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5 Chapter 2 - Objectives u Purpose of three-level database architecture. u Contents of external, conceptual, and internal levels. u Purpose of external/conceptual and conceptual/internal mappings. u Meaning of logical and physical data independence. u Distinction between DDL and DML. u A classification of data models. u Purpose/importance of conceptual modeling. u Typical functions and services a DBMS provide. u Software components of a DBMS. u Meaning of client–server architecture and advantages of this type of architecture for a DBMS. u Function & uses Transaction Processing Monitors. u Function and importance of the system catalog.
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6 Objectives of Three-Level Architecture u All users should be able to access same data. u A user’s view is immune to changes made in other views. u Users should not need to know physical database storage details.
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7 Objectives of Three-Level Architecture u DBA should be able to change database storage structures without affecting the users’ views. u Internal structure of database should be unaffected by changes to physical aspects of storage. u DBA should be able to change conceptual structure of database without affecting all users.
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8 ANSI-SPARC Three-Level Architecture
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9 u External Level –Users’ view of the database. –Describes that part of database that is relevant to a particular user. u Conceptual Level –Community view of the database. –Describes what data is stored in database and relationships among the data.
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10 ANSI-SPARC Three-Level Architecture u Internal Level –Physical representation of the database on the computer. –Describes how the data is stored in the database.
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11 Differences between Three Levels of ANSI- SPARC Architecture
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12 Data Independence u Logical Data Independence –Refers to immunity of external schemas to changes in conceptual schema. –Conceptual schema changes (e.g. addition/removal of entities). –Should not require changes to external schema or rewrites of application programs.
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13 Data Independence u Physical Data Independence –Refers to immunity of conceptual schema to changes in the internal schema. –Internal schema changes (e.g. using different file organizations, storage structures/devices). –Should not require change to conceptual or external schemas.
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14 Data Independence and the ANSI-SPARC Three-Level Architecture
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15 Database Languages u Data Definition Language (DDL) –Allows the DBA or user to describe and name entities, attributes, and relationships required for the application –plus any associated integrity and security constraints.
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16 Database Languages u Data Manipulation Language (DML) –Provides basic data manipulation operations on data held in the database. u Procedural DML –allows user to tell system exactly how to manipulate data. u Non-Procedural DML –allows user to state what data is needed rather than how it is to be retrieved.
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17 Database Languages u Fourth Generation Language (4GL) –Query Languages –Forms Generators –Report Generators –Graphics Generators –Application Generators.
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18 Data Model Integrated collection of concepts for describing data, relationships between data, and constraints on the data in an organization. u Data Model comprises: –a structural part; –a manipulative part; –possibly a set of integrity rules.
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19 Data Model u Purpose –To represent data in an understandable way. u Categories of data models include: –Object-based –Record-based –Physical.
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20 Data Models u Object-Based Data Models –Entity-Relationship –Semantic –Functional –Object-Oriented. u Record-Based Data Models –Relational Data Model –Network Data Model –Hierarchical Data Model. u Physical Data Models
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21 Conceptual Modeling u Conceptual schema is the core of a system supporting all user views. u Should be complete and accurate representation of an organization’s data requirements. u Conceptual modeling is process of developing a model of information use that is independent of implementation details. u Result is a conceptual data model.
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22 Functions of a DBMS u Data Storage, Retrieval, and Update. u A User-Accessible Catalog. u Transaction Support. u Concurrency Control Services. u Recovery Services.
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23 Functions of a DBMS u Authorization Services. u Support for Data Communication. u Integrity Services. u Services to Promote Data Independence. u Utility Services.
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24 Components of a DBMS
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25 Components of Database Manager (DM)
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26 Multi-User DBMS Architectures u Teleprocessing u File-server u Client-server
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27 Teleprocessing u Traditional architecture. u Single mainframe with a number of terminals attached. u Trend is now towards downsizing.
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28 Teleprocessing Topology
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29 File-Server u File-server is connected to several workstations across a network. u Database resides on file-server. u DBMS and applications run on each workstation. u Disadvantages include: –Significant network traffic. –Copy of DBMS on each workstation. –Concurrency, recovery and integrity control more complex.
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30 File-Server Architecture
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31 Client-Server u Server holds the database and the DBMS. u Client manages user interface and runs applications. u Advantages include: –wider access to existing databases; –increased performance; –possible reduction in hardware costs; –reduction in communication costs; –increased consistency.
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32 Client-Server Architecture
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33 Alternative Client-Server Topologies
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34 Transaction Processing Monitors u Program that controls data transfer between clients and servers in order to provide a consistent environment, particularly for Online Transaction Processing (OLTP).
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35 Transaction Processing Monitor as middle tier of a three-tier client-server architecture
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36 System Catalog u Repository of information (metadata) describing the data in the database. u Typically stores: –names of authorized users; –names of data items in the database; –constraints on each data item; –data items accessible by a user and the type of access. u Used by modules such as Authorization Control and Integrity Checker.
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37 Information Resource Dictionary System (IRDS) u Response to an attempt to standardize data dictionary interfaces. u Objectives: –extensibility of data; –integrity of data; –controlled access to data.
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38 IRDS services interface
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