ch1 intro hh
TRANSCRIPT
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Database Management Systems
Chapter 1
Hazem HajjPresentations based on Course Material
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DBMS A Historical Perspective
1960s:Data collection, database creation, IDS (early 60s Integrated data store) and network DBMS.ACM Turing Award for Charles Bachman (GE).
1970s:Relational data model, relational DBMS implementation. ACM Turing Award to EdgardCodd (IBM)
1980s:RDBMS, advanced data models (extended-relational, OO, deductive, etc.)Application-oriented DBMS (spatial, scientific, engineering, etc.)SQL standard query Language
1990s:Data mining, data warehousing, multimedia databases, and Web databases
2000sStream data management and mining Data mining and its applicationsMajor DB Projects: NASAs Earth Observation System and Human Genome Mapping ProjectWeb technology (XML, data integration) and global information systems
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Why Study Databases??
Shift from computation to information at the low end : scramble to webspace (a mess!)
at the high end : scientific applications Datasets increasing in diversity and volume.
Digital libraries, interactive video, HumanGenome project, EOS project... need for DBMS exploding
DBMS encompasses most of CSOS, languages, theory, multimedia, logic
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Why Study DBMS For data mining
Data mining Gettingthe golden data nuggetsout of data tombs
Data Cleaning
Data Integration
Databases
Data Warehouse
Task-relevant Data
Selection
Data Mining
Pattern Evaluation
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What Is a DBMS?
A very large, integrated collection of data.
Models real-world enterprise (one or morerelated organizations, e.g. university)
Entities (e.g., students, courses)Relationships (e.g., Obama is taking EECE433)
A Database Management System (DBMS) is asoftware package designed to store andmanage databases.
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Files vs. DBMS
Using Files, the programmer would need tohandle:
Application must stage large datasets betweenmain memory and secondary storage (e.g.,buffering, page-oriented access, 32-bit addressing,etc.)Special code for different queries
Must protect data from inconsistency due tomultiple concurrent usersCrash recoverySecurity and access control
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Why Use a DBMS?A DBMS would address all previous issues. It wouldprovide:
Data independence (No need to know how the data isstored in a class/data structure)
Efficient access (e.g. use of indexing and hashing)Reduced application development timeData integrity (e.g. integrity constraints- no grade above 100)and security (need to know access)Uniform data administration (one for all users)Concurrent access (multiple users), recovery from crashes.
Are there cases where we would not want to use a DBMS?
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Content
What is a DBMS? Why use it?Describing and Storing data in a DBMS
Relational ModelLevels of abstraction
Queries in DBMS
Transaction ManagementConcurrent executionIncomplete transaction and system crash
Structure of a DBMS
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Describing & Storing Data in aDBMS - Data Models
The relational model of datais the mostwidely used model today.
Main concept: relation, basically a table withrows and columns.
Every relation has a schema, which describes thecolumns, or fields.
Example: Table with: SID | NAME | LOGIN|AGE
Semantic data model higher level ofabstraction Use ER model
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Lec2
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Describing & Storing Data in aDBMS - Levels of Abstraction
Three Levels ofAbstractionMany views, single
conceptual (logical) schemaand physical schema.Views describe how userssee the data.Conceptual schema defines
logical structurePhysical schema describesthe files and indexes used.
NOTE Schemas & views are defined using DDL; data is modified/queried using
DML.
Physical Schema
Conceptual Schema
View 1 View 2 View 3
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Example: University Database
Conceptual schema: Students(sid: string, name: string, login: string,
age: integer, gpa:real)Courses(cid: string, cname:string, credits:integer)Enrolled(sid:string, cid:string, grade:string)
Physical schema:
Relations stored as unordered files.Index on first column of Students.
External Schema (View):Course_info(cid:string,enrollment:integer)
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Describing & Storing Data in aDBMS - Data Independence *
Applications insulated from how data isstructured and stored.
Logical data independence: Protection fromchanges in logical structure of data.Physical data independence: Protection fromchanges in physical structure of data.
* One of the most important benefits of using a DBMS!
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Content
What is a DBMS? Why use it?Describing and Storing data in a DBMS
Relational ModelLevels of abstraction
Queries in DBMS
Transaction ManagementConcurrent executionIncomplete transaction and system crash
Structure of a DBMS
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Queries in a DBMS
What is the name of the student with studentID = 2345?
How many students are enrolled inEECE433?
Use SQL
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Content
What is a DBMS? Why use it?Describing and Storing data in a DBMS
Relational ModelLevels of abstraction
Queries in DBMS
Transaction ManagementConcurrent executionIncomplete transaction and system crash
Structure of a DBMS
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Transaction Management -Concurrency ControlConcurrent execution of user programsis essential for good DBMS performance.
Because disk accesses are frequent, and relatively
slow, it is important to keep the cpu humming byworking on several user programs concurrently.
Interleaving actions of different user programscan lead to inconsistency: e.g., check is clearedwhile account balance is being computed.DBMS ensures such problems dont arise: userscan pretend they are using a single-user system.
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Transaction Management - Transaction: An Execution of a DB Program
Key concept is transaction , which is an atomic sequence ofdatabase actions (reads/writes). Atomic => All happensor none.Each transaction, executed completely, must leave the DB
in a consistent state if DB is consistent when thetransaction begins.Users can specify some simple integrity constraints on the data,and the DBMS will enforce these constraints.Beyond this, the DBMS does not really understand the semanticsof the data. (e.g., it does not understand how the interest on abank account is computed).Thus, ensuring that a transaction (run alone) preservesconsistency is ultimately the users responsibility!
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Transaction Management - SchedulingConcurrent Transactions
DBMS ensures that execution of {T1, ... , Tn} isequivalent to some serial execution T1 ... Tn.
Before reading/writing an object, a transaction requests
a lock on the object, and waits till the DBMS gives it thelock. All locks are released at the end of the transaction.(Strict 2PL: Two-Phase locking protocol.)Idea: If an action of Ti (say, writing X) affects Tj (whichperhaps reads X), one of them, say Ti, will obtain thelock on X first and Tj is forced to wait until Ti completes;this effectively orders the transactions.What if Tj already has a lock on Y and Ti later requests alock on Y? (Deadlock!) Ti or Tj is aborted and restarted!
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Transaction Management - Ensuring Atomicity &Dealing with Incomplete transaction, e.g crash
DBMS ensures atomicity (all-or-nothing property)even if system crashes in the middle of a Xact.Idea: Keep a log (history) of all actions carried outby the DBMS while executing a set of Xacts:
Before a change is made to the database, thecorresponding log entry is forced to a safe location.(WAL: Write Ahead Log protocol; OS support for this isoften inadequate.)After a crash, the effects of partially executedtransactions are undone using the log. (Thanks to WAL, iflog entry wasnt saved before the crash, corresponding
change was not applied to database!)
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Transaction Management - The Log
The following actions are recorded in the log:Ti writes an object: the old value and the new value.
Log record must go to disk before the changed page!
Ti commits/aborts: a log record indicating this action.Log records chained together by Xact id, so its easy toundo a specific Xact (e.g., to resolve a deadlock).Log is often duplexed and archived on stable storage. All log related activities (and in fact, all CC relatedactivities such as lock/unlock, dealing with deadlocksetc.) are handled transparently by the DBMS.
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Content
What is a DBMS? Why use it?Describing and Storing data in a DBMS
Relational ModelLevels of abstraction
Queries in DBMS
Transaction ManagementConcurrent executionIncomplete transaction and system crash
Structure of a DBMS
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Structure of a DBMS
A typical DBMS has alayered architecture.
This is one of severalpossible architectures;each system has its ownvariations.
Query Optimizationand Execution
Relational OperatorsFiles and Access Methods
Buffer Management
Disk Space Management
DB
concurrencycontrolandrecovery
SQL Commands
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Databases make these folks happy ...
End users and DBMS vendorsDB application programmers
E.g. smart webmastersDatabase administrator (DBA)
Designs logical /physical schemasHandles security and authorizationData availability, crash recoveryDatabase tuning as needs evolve
Must understand how a DBMS works!
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SummaryDBMS used to maintain, query large datasets.Benefits include recovery from system crashes,concurrent access, quick application
development, data integrity and security.Levels of abstraction give data independence.A DBMS typically has a layered architecture.DBAs hold responsible jobsand are well-paid !DBMS R&D is one of the broadest,most exciting areas in CS.