What is An Oracle Database?Basically, there are two main components of Oracle database –– instance and database itself. An instance consists of some memory structures and the background processes, whereas a database refers to the disk resources. Figure 1 will show you the relationship.Figure 1. Two main components of Oracle databaseInstanceDatabase files themselves are useless without the memory structures and processes to interact with the database. Oracle defines the term instance as the memory structure and the background processes used to access data from a database. The memory structures and background processes contitute an instance. The memory structure itself consists of System Global Area (SGA), Program Global Area (PGA), and an optional area –– Software Area Code. In the other hand, the mandatory background processes are Database Writer (DBWn), Log Writer (LGWR), Checkpoint (CKPT), System Monitor (SMON), and Process Monitor (PMON). And another optional background processes are Archiver (ARCn), Recoverer (RECO), etc. Figure 2 will illustrate the relationship for those components on an instance.Figure 2. The instance componentsSystem Global AreaSGA is the primary memory structures. When Oracle DBAs talk about memory, they usually mean the SGA. This area is broken into a few of part memory –– Buffer Cache, Shared Pool, Redo Log Buffer, Large Pool, and Java Pool.Buffer CacheBuffer cache is used to stores the copies of data block that retrieved from datafiles. That is, when user retrieves data from database, the data will be stored in buffer cache. Its size can be manipulated via DB_CACHE_SIZE parameter in init.ora initialization parameter file.Shared PoolShared pool is broken into two small part memories –– Library Cache and Dictionary Cache. The library cache is used to stores information about the commonly used SQL and PL/SQL statements; and is managed by a Least Recently Used (LRU) algorithm. It is also enables the sharing those statements among users. In the other hand, dictionary cache is used to stores information about object definitions in the database, such as columns, tables, indexes, users, privileges, etc.The shared pool size can be set via SHARED_POOL_SIZE parameter in init.ora initialization parameter file.Redo Log BufferEach DML statement (select, insert, update, and delete) executed by users will generates the redo entry. What is a redo entry? It is an information about all data changes made by users. That redo entry is stored in redo log buffer before it is written into the redo log files. To manipulate the size of redo log buffer, you can use the LOG_BUFFER parameter in init.ora initialization parameter file.Large PoolLarge pool is an optional area of memory in the SGA. It is used to relieves the burden place on the shared pool. It is also used for I/O processes. The large pool size can be set by LARGE_POOL_SIZE parameter in init.ora initialization parameter file.Java PoolAs its name, Java pool is used to services parsing of the Java commands. Its size can be set by JAVA_POOL_SIZE parameter in init.ora initialization parameter file.Program Global AreaAlthough the result of SQL statemen parsing is stored in library cache, but the value of binding variable will be stored in PGA. Why? Because it must be private or not be shared among users. The PGA is also used for sort area.Software Area CodeSoftware area code is a location in memory where the Oracle application software resides.Oracle processesThere are two categories of processes that run with an Oracle database. They are mentioned below:User processesSystem processesThe following figure illustrates the relationship between user processes, server processes, PGA, and session:The first interaction with the Oracle-based application comes from the user computer that creates a user process. The user process then communicates with the server process on the host computer. Here, PGA is used to store session specific information.Oracle Background ProcessesOracle background processes is the processes behind the scene that work together with the memories.DBWnDatabase writer (DBWn) process is used to write data from buffer cache into the datafiles. Historically, the database writer is named DBWR. But since some of Oracle version allows us to have more than one database writer, the name is changed to DBWn, where n value is a number 0 to 9.LGWRLog writer (LGWR) process is similar to DBWn. It writes the redo entries from redo log buffer into the redo log files.CKPTCheckpoint (CKPT) is a process to give a signal to DBWn to writes data in the buffer cache into datafiles. It will also updates datafiles and control files header when log file switch occurs.SMONSystem Monitor (SMON) process is used to recover the system crash or instance failure by applying the entries in the redo log files to the datafiles.PMONProcess Monitor (PMON) process is used to clean up work after failed processes by rolling back the transactions and releasing other resources.ARCHThe ARCH background process is invoked when your database is running in ARCHIVELOG mode. If you are archiving your redo logs, the redo logs are touched by several background processes. First, the LGWR process copies the log_buffer contents to the online redo log files, and then the ARCH process copies the online redo log files to the archived redo log filesystem on UNIX. The ARCH process commonly offloads the most recent online redo log file whenever a log switch operation occurs in Oracle.The figure 4: shows various components of SGA, Oracle background processes, and their interactions with control files, data files, Redo Log files, and archived redo logs.DatabaseThe database refers to disk resources, and is broken into two main structures –– Logical structures and Physical structures.Logical Structures:~Oracle database is divided into smaller logical units to manage, store, and retrieve data effeciently. The logical units are tablespace, segment, extent, and data block. Figure 5 will illustrate the relationships between those units.Figure 5. The relationships between the Oracle logical structuresTablespaceA Tablespace is a grouping logical database objects. A database must have one or more tablespaces. In the Figure 5, we have three tablespaces –– SYSTEM tablespace, Tablespace 1, and Tablespace 2. Tablespace is composed by one or more datafiles.There are three types of tablespaces in Oracle:Permanent tablespacesUndo tablespacestemporary tablespacesSegmentA Tablespace is further broken into segments. A segment is used to stores same type of objects. That is, every table in the database will store into a specific segment (named Data Segment) and every index in the database will also store in its own segment (named Index Segment). The other segment types are Temporary Segment and Rollback Segment.A segment is a container for objects (such as tables, views, packages . . . indexes). A segment consists of Extends.There are 11 types of Segments in oracle 10g.TableTable PartitionIndexIndex PartitionClusterRollbackDeferred RollbackTemporaryCacheLobsegmentLobindexExtentA segment is further broken into extents. An extent consists of one or more data block. When the database object is enlarged, an extent will be allocated. Unlike a tablespace or a segment, an extent cannot be named. Space for a data on a hard disk is allocated in extends.Data BlockA data block is the smallest unit of storage in the Oracle database. The data block size is a specific number of bytes within tablespace and it has the same number of bytes.Physical Structures:~The physical structures are structures of an Oracle database (in this case the disk files) that are not directly manipulated by users. The physical structure consists of datafiles, redo log files, and control files.DatafilesA datafile is a file that correspondens with a tablespace. One datafile can be used by one tablespace, but one tablespace can has more than one datafiles. An Oracle databae include of a number of physical files called datafile.Redo Log FilesA Redo Log is a file that is part of an Oracle Database. When a transaction is committed the transaction’s details in the redo log buffer is written in a redo log file. These files contain information that helps in recovery in the event of system failure.The figure 6: shows three Redo Log groups. Each group consists of two members. The first member of each Redo Log group is stored in directory D1 and the second member is stored in directory D2.Control FilesControl files are used to store information about physical structure of database. The control file is absolutely crucial to database operations. It contains the following types of information:Database InformationArchive log historyTablespace and datafile recordsRedo threadsDatabase’s creation dataDatabase nameCurrent Archive informationLog recordsDatabase Id which is unique to each Database