1. Database creation Using a script: Connect internal as sysdba; create database NAME….; Using the OEM GUI –Parameters stored in a small DB –Access to other utility pgms – eg: RMAN –Can accommodate several DBAs Key decisions on sizing –Eg: assign a block size – once and for all

2. Block size Smallest unit of storage in oracle DB Critical perf. Factor as inefficient space use leads to increase I/O activity Block overhead –Integrity section (90 bytes) –Runtime overhead (136 bytes) –Transactional header (24 bytes and growing) –Directory section (Pointers…) –And then………..data Big is beautiful? Percentage of overhead decreases when block size increases, but no right answer here } Approx. 256 b

3. 2 K, 4K, 8K or 16K? OLTP prefer smaller – small granularity increase likelihood that data is in buffer (indexed access) DW or DSS prefer larger – physically close data used together + less movement In practice constraint on memory will also dictate Buffer size + now split in 3 areas: –KEEP pool –RECYCLE pool –DEFAULT pool

4. Block size and row size Table with average row length = 2236 b (10m records) Block size 4k = 4006 b => one row per block 8 k => 3 rows per block

5. Opening and closing the DB Startup open NAME; Or Startup mount NAME; Alter database open; Shutdown; Else – use OEM menus

6. When DB is started 1.System Global Area (SGA) created: a)Data block buffer cache created Size is key for performance of DB fraction of whole DB DB_BLOCK_BUFFERS / DB_BLOCK_SIZE Least Recently Used (LRU) method Too small means fight for space between objects => increase in misses => increase in I/O Too big = crippling for other operations page846

7. When DB created (2) b)Shared SQL Pool created: Stores DD cache: info about data structure Stores library cache: info about SQL statements run LRU algorithm Too small => no re-use and low performance SHARED_POOL_SIZE in init.ora

8. Parameter files: INIT.ORA Initialisation file for each DB MYDB = > initmydb.ora Contains sizing of SGA and number of parameters, DB name and block size Read at startup means changes only implemented at next startup

9. The control file Each DB also has a control file Contains Dbname, name and location of files and redo logs, timestamp of DB creation Can be mirrored for added security Identifies all files that must be opened when Db is loaded Also used in DB recovery

10. Data hierarchy in Oracle Data hierarchy in Oracle is specific (and demented!) Normally, unit of storage is file… –Managed by OS –Can grow / shrink –Physical sections logically connected by OS In Oracle a DB = one or more tablespaces –One or more objects, indexes, clusters… –Fixed size – gets full –Extended by DBA only –One file can support only ONE tablespace See figure 3.1

11. About tablespaces Kind of partitioning –Except fixed size Extended by dba –Oracle very strong at TS level Optimal seems to be around 2GB Strategy = isolate aged data into one tablespace => can be made read-only Should store similar objects together

12. Reasoning behind TS creation Business relevance Size of objects Type of activity Volume of activity Backup Transportability Time-based changes in activity

13. Reasoning behind TS creation Business relevance Size of objects Type of activity Volume of activity Backup Transportability Time-based changes in activity e.g. modular design / keep data togegther Object of similar sizes – reuse of space e.g. index VS table / full scan VS rowID Low I/O VS high I/O objects TS is smallest unit for Bcup and restore Cloning copy is done by TS as well DW env. Aged archived system better – access time related Bias towards more rather than less = > compromise Also perf reading P 148

14. Create a tablespace Create tablespace FREDDY datafile ‘path\freddy.dbf’ size 1000K Default storage (initial 10K next 10K Minextent 1 maxextents 100 Pctincrease 0) Permanent; 10101010101010101010 102030405060708090100 10101214.417.220.725303642.3 10203246.463.684.3109.3139.3175.3218.5

15. Tables = one physical space on disk [segment] – same for any object Each segment = space set out in tablespace [initial extent] When table grows allocate next extent – set of adjacent blocks Until tablespace is full see figure 20.3 Object creation

16. What a segment looks like Each segment contains a header block Space directory for other blocks Properly sized tables = few extents (low fragmentation) Additional extents are never lost until drop or delete commands are used Can also adjust pctfree value (to fill a Null value column)

17. Sizing extents Try to match the max capacity of your storage device to limit I/O operations For single objects, It is beneficial to keep extents of same size (deletion) Try to limit the number of extents below 50 (measure of the growth of the object) If too many, rebuild object with larger size extents

18. Oracle “space allocation” DBA allocates space for table after 2 days of hard thinking Oracle ignores it blatantly as follows: Table nameinitial sizenext extentoracle sizingnext extent Smalltab7K7K20K20K Mediumtab103K103K120K120K Total size after growth smalltab = 40K instead of 14K mediumtab = 206K instead of 240K

19. Creating and using tables Table creation with CREATE TABLE statement Syntax: Create table NAME ( field1datatypespecial constraint field2datatype etc… ); Special constraint: e.g. NOT NULL or PRIMARY KEY or CHECK

20. Constraints Candidate key: Create table fred ( namevarchar2(10) NOT NULL firstnamevarchar2(10) NOT NULL agenumber Constraint FRED_UQ unique (name, firstname) );

21. Primary Key Create table fred ( namevarchar2(10) firstnamevarchar2(10) agenumber Constraint FRED_PK Primary Key (name, firstname) ); Same apart: always NOT NULL + can only have one of them in a table If only one field just list primary key as special constraint

22. Foreign key – aka referential integrity constraint Create table fred ( IDnumber NOT NULL namevarchar2(10) firstnamevarchar2(10) agenumber Constraint FRED_PK Primary Key (ID), foreign key (age) references OTHERTAB(age) ); Use ON DELETE CASCADE to maintain constraint

23. Check constraint Create table fred ( IDnumber NOT NULL namevarchar2(10) firstnamevarchar2(10) agenumber CHECK (age between 18 and 65) );

24. Deleting data Drop table statement – remove table Or truncate table statement – empty it Warning: neither can be rolled back Otherwise: Alter table NAME Add (…) Alter table NAME modify (…) drop column fieldname See rules on handout

25. Now what? Clusters To store different tables in physically close areas on disk Create a cluster to store both objects Cluster key is any useful field that links the tables Can keep name of field or pick new one –e.g. Create cluster fred (name datatype) –then assign tables: create table…cluster fred (name)

26. What this cluster looks like 12 Cork fred adam French 13MidletonBobFitzIrish 14Bally…BrianO’reillyEnglish Cluster Key Table 1 Table 2

27. Finally… Users can have different logical views on a database These views are called…..? They allow for a re-organisation of physical DB objects for each users Each ? can contain elements from different tablespaces Has limited size allocated to each user

28. Summary: storage in Oracle Keywords: tablespace / datafiles / database objects / segments / extents When you create an object: –Specify size / tablespace info = storage clause –Otherwise: default values Pctincrease should be used with care (affects re- usability of reclaimed space – i.e. extents) Wise use of tablespace eases admin (like partitioning) –sizing follows sizing of device – e.g. 2GB –Many utilities to work with tablespaces –Isolate processes – e.g. a report running inside a TS –Also for archiving

29. Performance issues Extent sizing a key Oracle has 2 ways to read data: –By rowID – typically thru an index –Full table scan In second case, oracle reads several blocks at a time –Set with DB_FILE_MULTIBLOCK_READ_COUNT –Limited only by I/O device buffer capacity –E.g. block = 4K, I/O buffer = 64K => ????? –Extent size should be multiple of 64K

30. example Table with 10 extents 64 K each I/O device buffer = 64K => 10 reads If extent = 640K => ???? Reads If 8 extents 80K each => ??? Reads –Reads cannot span extents => 16 reads or an increase of 60% in I/O operations Cl: either use extents much larger than buffer or use multiple of buffer size

31. And for roll back segments Should be kept small enough Current wisdom is to ensure TS for rollback is normally 50% free Not always possible to use only one RB size –For different types of processes – e.g. TPS –Use two different TB to isolate activites –Easier trouble shooting Discarded rollback segments go into the log file