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Chapter 01

Chapter 01. Introduction to Distributed Database. Overview. File System Menyediakan suatu prosedur bagi suatu program untuk menyimpan, melakukan update, dan mengambil data pada suatu media penyimpanan atau storage. Overview. Database Management System

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Chapter 01

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  1. Chapter 01 Introduction to Distributed Database

  2. Overview • File System • Menyediakan suatu prosedur bagi suatu program untuk menyimpan, melakukan update, dan mengambil data pada suatu media penyimpanan atau storage

  3. Overview • Database Management System • Suatu paket software yang melakukan kontrol, dan pengelolaan data di dalam database (kumpulan data)

  4. DB Clients, Servers, and Environments • DB-Server, a collection of programs that execute all DBMS function • DB-Client, any application program that needs to connect to a DB-Server • DB Environment (DBE), one or more DBs along with any software providing at least minimum set of required data operation and management.

  5. DBE Architectural concept • Service, logical collections of related functionality. Example: Query Service • Sites, represents a logical location in an architectural diagram or deployment diagram • Component and Subsystem (COS) • Component, Deployable bundle of software that provide reasonability cohesive set of functionality • Subsystem, collection of one or more components that work together toward a common goal

  6. DBE Architectures • Required Services • Data Read Service (Drd-S) • Security Service (Sec-S) • Semantic Integrity Service (Semi-S)

  7. DBE Architectures • Basic Services • Data Read Service (Drd-S) • Security Service (Sec-S) • Semantic Integrity Service (Semi-S) • Data Write Service (Dwr-S)

  8. DBE Architectures • Expected Service • Data Read Service (Drd-S) • Security Service (Sec-S) • Semantic Integrity Service (Semi-S) • Data Write Service (Dwr-S) • Query Request Service (Qreq-S) • Query Optimization Service • Execution Service • Execution Optimization Service

  9. DBE Architectures • Expected Subsystem • Data Read Service (Drd-S) • Security Service (Sec-S) • Semantic Integrity Service (Semi-S) • Data Write Service (Dwr-S) • Query Request Service (Qreq-S) • Query Optimization Service • Execution Service • Execution Optimization Service • User Interface

  10. DBE Architectures • Typical DBMS Service • Drd-S, Sec-S, Semi-S, Dwr-S, Qreq-S • Query Optimization Service • Execution Service • Execution Optimization Service • User Interface • Transaction Management (Trans-S) • Locking Service (Lock-S) • Timestamping Service (Times-S) • Deadlock Handling Service • Fallback and Recovery Service

  11. Motivation Database Technology Computer Networks integration distribution Distributed Database Systems integration integration ≠ centralization

  12. DBMS Schema Architecture

  13. DDBMS Schema Architecture

  14. Top Down DDBMS Software Architecture

  15. Bottom Up DDBMS Software Architecture

  16. Generic DDBMS architecture

  17. Distributed Computing • A concept in search of a definition and a name. • A number of autonomous processing elements (not necessarily homogeneous) that are interconnected by a computer network and that cooperate in performing their assigned tasks.

  18. Distributed Computing • Synonymous terms • distributed function • distributed data processing • multiprocessors/multicomputers • satellite processing • backend processing • dedicated/special purpose computers • timeshared systems • functionally modular systems

  19. What is distributed … • Processing logic • Functions • Data • Control

  20. What is a Distributed Database System? A distributed database (DDB) is a collection of multiple, logically interrelateddatabases distributed over a computer network. A distributed database management system (D–DBMS) is the software that manages the DDB and provides an access mechanism that makes this distribution transparent to the users. Distributed database system (DDBS) = DDB + D–DBMS

  21. What is not a DDBS? • A timesharing computer system • A loosely or tightly coupled multiprocessor system • A database system which resides at one of the nodes of a network of computers - this is a centralized database on a network node

  22. Centralized DBMS on a Network Site 1 Site 2 Site 5 Communication Network Site 4 Site 3

  23. Distributed DBMS Environment Site 1 Site 2 Site 5 Communication Network Site 4 Site 3

  24. Implicit Assumptions • Data stored at a number of sites each site logically consists of a single processor. • Processors at different sites are interconnected by a computer network no multiprocessors • parallel database systems • Distributed database is a database, not a collection of files data logically related as exhibited in the users’ access patterns • relational data model • D-DBMS is a full-fledged DBMS • not remote file system, not a TP system

  25. D Shared-Memory Architecture Examples : symmetric multiprocessors (Sequent, Encore) and some mainframes (IBM3090, Bull's DPS8) P1 Pn M

  26. P1 M1 Shared-Disk Architecture Pn D Mn Examples : DEC's VAXcluster, IBM's IMS/VS Data Sharing

  27. P1 D1 M1 Shared-Nothing Architecture Examples : Teradata's DBC, Tandem, Intel's Paragon, NCR's 3600 and 3700 Pn Dn Mn

  28. Applications • Manufacturing - especially multi-plant manufacturing • Military command and control • EFT • Corporate MIS • Airlines • Hotel chains • Any organization which has a decentralized organization structure

  29. Distributed DBMS Promises • Transparent management of distributed, fragmented, and replicated data • Improved reliability/availability through distributed transactions • Improved performance • Easier and more economical system expansion

  30. Transparency • Transparency is the separation of the higher level semantics of a system from the lower level implementation issues. • Fundamental issue is to provide data independence in the distributed environment • Network (distribution) transparency • Replication transparency • Fragmentation transparency • horizontal fragmentation: selection • vertical fragmentation: projection • hybrid

  31. E1 J. Doe Elect. Eng. E2 M. Smith Syst. Anal. E3 A. Lee Mech. Eng. E4 J. Miller Programmer E5 B. Casey Syst. Anal. E6 L. Chu Elect. Eng. E7 R. Davis Mech. Eng. E8 J. Jones Syst. Anal. 150000 Instrumentation P1 40000 Elect. Eng. P2 Database Develop. 135000 Syst. Anal. 34000 P3 CAD/CAM 250000 27000 Mech. Eng. P4 Maintenance 310000 Example ASG EMP ENO ENAME TITLE ENO PNO RESP DUR E1 P1 Manager 12 E2 P1 Analyst 24 E2 P2 Analyst 6 E3 P3 Consultant 10 E3 P4 Engineer 48 E4 P2 Programmer 18 E5 P2 Manager 24 E6 P4 Manager 48 E7 P3 Engineer 36 E7 P5 Engineer 23 E8 P3 Manager 40 PROJ PAY PNAME PNO BUDGET TITLE SAL Programmer 24000

  32. Tokyo Paris Boston Paris projects Paris employees Paris assignments Boston employees Communication Network Boston projects Boston employees Boston assignments Montreal New York Montreal projects Paris projects New York projects with budget > 200000 Montreal employees Montreal assignments Boston projects New York employees New York projects New York assignments Transparent Access SELECT ENAME,SAL FROM EMP,ASG,PAY WHERE DUR > 12 AND EMP.ENO = ASG.ENO AND PAY.TITLE = EMP.TITLE

  33. Distributed Database - User View Distributed Database

  34. Distributed DBMS - Reality User Query DBMS Software User Application DBMS Software DBMS Software Communication Subsystem User Application DBMS Software User Query DBMS Software User Query

  35. Potentially Improved Performance • Proximity of data to its points of use • Requires some support for fragmentation and replication • Parallelism in execution • Inter-query parallelism • Intra-query parallelism

  36. Parallelism Requirements • Have as much of the data required by each application at the site where the application executes • Full replication • How about updates? • Updates to replicated data requires implementation of distributed concurrency control and commit protocols

  37. System Expansion • Issue is database scaling • Emergence of microprocessor and workstation technologies • Demise of Grosh's law • Client-server model of computing • Data communication cost vs telecommunication cost

  38. Distributed DBMS Issues • Distributed Database Design • how to distribute the database • replicated & non-replicated database distribution • a related problem in directory management • Query Processing • convert user transactions to data manipulation instructions • optimization problem • min{cost = data transmission + local processing} • general formulation is NP-hard

  39. Distributed DBMS Issues • Concurrency Control • synchronization of concurrent accesses • consistency and isolation of transactions' effects • deadlock management • Reliability • how to make the system resilient to failures • atomicity and durability

  40. Relationship Between Issues Directory Management Query Processing Distribution Design Reliability Concurrency Control Deadlock Management

  41. Related Issues • Operating System Support • operating system with proper support for database operations • dichotomy between general purpose processing requirements and database processing requirements • Open Systems and Interoperability • Distributed Multidatabase Systems • More probable scenario • Parallel issues

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