Basic Memory Structures

Basic Memory Structures

The basic memory structures associated with Oracle Database include:

• System global area (SGA)

  The SGA is a group of shared memory structures, known as SGA components, that contain data and control information for one Oracle Database instance. The SGA is shared by all server and background processes. Examples of data stored in the SGA include cached data blocks and shared SQL areas.

• Program global area (PGA)

  A PGA is a nonshared memory region that contains data and control information exclusively for use by an Oracle process. The PGA is created by Oracle Database when an Oracle process is started.

  One PGA exists for each server process and background process. The collection of individual PGAs is the total instance PGA, or instance PGA. Database initialization parameters set the size of the instance PGA, not individual PGAs.

• User Global Area (UGA)

  The UGA is memory associated with a user session.

• Software code areas

  Software code areas are portions of memory used to store code that is being run or can be run. Oracle Database code is stored in a software area that is typically at a different location from user programs—a more exclusive or protected location.

Figure 14-1 illustrates the relationships among these memory structures.

Figure 14-1 Oracle Database Memory Structures

Description of "Figure 14-1 Oracle Database Memory Structures"

Oracle Database Memory Management

Memory management involves maintaining
optimal sizes for the Oracle instance memory structures as demands on
the database change. Oracle Database manages memory based on the
settings of memory-related initialization parameters. The basic options for memory management are as follows:

• Automatic memory management

  You specify the target size for instance memory. The database
  instance automatically tunes to the target memory size, redistributing
  memory as needed between the SGA and the instance PGA.

• Automatic shared memory management

  This management mode is partially automated. You set a target size
  for the SGA and then have the option of setting an aggregate target size
  for the PGA or managing PGA work areas individually.

• Manual memory management

  Instead of setting the total memory size, you set many initialization
  parameters to manage components of the SGA and instance PGA
  individually.

If you create a database with Database Configuration Assistant (DBCA)
and choose the basic installation option, then automatic memory
management is the default.

See Also:

• "Memory Management" for more information about memory management options for DBAs
• "Tools for Database Installation and Configuration" to learn about DBCA
• Oracle Database 2 Day DBA and Oracle Database Administrator‘s Guide to learn about memory management options

Overview of the User Global Area

The UGA is session memory, which is memory
allocated for session variables, such as logon information, and other
information required by a database session. Essentially, the UGA stores
the session state. Figure 14-2 depicts the UGA.

Figure 14-2 User Global Area (UGA)

Description of "Figure 14-2 User Global Area (UGA)"

If a session loads a PL/SQL package into memory, then the UGA contains the package state, which is the set of values stored in all the package variables at a specific time (see "PL/SQL Packages").
The package state changes when a package subprogram changes the
variables. By default, the package variables are unique to and persist
for the life of the session.

The OLAP page pool is also stored in the UGA. This pool manages OLAP
data pages, which are equivalent to data blocks. The page pool is
allocated at the start of an OLAP session and released at the end of the
session. An OLAP session opens automatically whenever a user queries a
dimensional object such as a cube.

The UGA must be available to a database session for the life of the
session. For this reason, the UGA cannot be stored in the PGA when using
a shared server
connection because the PGA is specific to a single process. Therefore,
the UGA is stored in the SGA when using shared server connections,
enabling any shared server process access to it. When using a dedicated server connection, the UGA is stored in the PGA.

See Also:

• "Connections and Sessions"
• Oracle Database Net Services Administrator‘s Guide to learn about shared server connections
• Oracle OLAP User‘s Guide for an overview of Oracle OLAP

Overview of the Program Global Area

The PGA is memory specific to an operating process or thread that is
not shared by other processes or threads on the system. Because the PGA
is process-specific, it is never allocated in the SGA.

The PGA is a memory heap that contains session-dependent variables
required by a dedicated or shared server process. The server process
allocates memory structures that it requires in the PGA.

An analogy for a PGA is a temporary countertop workspace used by a
file clerk. In this analogy, the file clerk is the server process doing
work on behalf of the customer (client process). The clerk clears a
section of the countertop, uses the workspace to store details about the
customer request and to sort the folders requested by the customer, and
then gives up the space when the work is done.

Figure 14-3
shows an instance PGA (collection of all PGAs) for an instance that is
not configured for shared servers. You can use an initialization
parameter to set a target maximum size of the instance PGA (see "Summary of Memory Management Methods"). Individual PGAs can grow as needed up to this target size.

Figure 14-3 Instance PGA

Description of "Figure 14-3 Instance PGA"

Note:

Background processes also allocate their own PGAs. This discussion focuses on server process PGAs only.

Contents of the PGA

The PGA is subdivided into different areas, each with a different purpose. Figure 14-4 shows the possible contents of the PGA for a dedicated server session. Not all of the PGA areas will exist in every case.

Figure 14-4 PGA Contents

Description of "Figure 14-4 PGA Contents"

Private SQL Area

A private SQL area holds information about a
parsed SQL statement and other session-specific information for
processing. When a server process executes SQL or PL/SQL code, the
process uses the private SQL area to store bind variable values, query execution state information, and query execution work areas.

Do not confuse a private SQL area, which is in the UGA, with the shared
SQL area, which stores execution plans in the SGA. Multiple private SQL
areas in the same or different sessions can point to a single execution
plan in the SGA. For example, 20 executions of SELECT * FROM employees
in one session and 10 executions of the same query in a different
session can share the same plan. The private SQL areas for each
execution are not shared and may contain different values and data.

A cursor is a name or handle to a specific private SQL area. As shown in Figure 14-5,
you can think of a cursor as a pointer on the client side and as a
state on the server side. Because cursors are closely associated with
private SQL areas, the terms are sometimes used interchangeably.

Figure 14-5 Cursor

Description of "Figure 14-5 Cursor"

A private SQL area is divided into the following areas:

• The run-time area

  This area contains query execution state information. For example,
  the run-time area tracks the number of rows retrieved so far in a full table scan.

  Oracle Database creates the run-time area as the first step of an execute request. For DML statements, the run-time area is freed when the SQL statement is closed.

• The persistent area

  This area contains bind variable values. A
  bind variable value is supplied to a SQL statement at run time when the
  statement is executed. The persistent area is freed only when the cursor
  is closed.

The client process is responsible for managing
private SQL areas. The allocation and deallocation of private SQL areas
depends largely on the application, although the number of private SQL
areas that a client process can allocate is limited by the
initialization parameter OPEN_CURSORS.

Although most users rely on the automatic cursor handling of database
utilities, the Oracle Database programmatic interfaces offer developers
more control over cursors. In general, applications should close all
open cursors that will not be used again to free the persistent area and
to minimize the memory required for application users.

See Also:

• "Shared SQL Areas"
• Oracle Database Advanced Application Developer‘s Guide and Oracle Database PL/SQL Language Reference to learn how to use cursors

SQL Work Areas

A work area is a private allocation of PGA memory used for memory-intensive operations. For example, a sort operator uses the sort area to sort a set of rows. Similarly, a hash join operator uses a hash area to build a hash table from its left input, whereas a bitmap merge uses the bitmap merge area to merge data retrieved from scans of multiple bitmap indexes.

Example 14-1 shows a join of employees and departments with its query plan.

Example 14-1 Query Plan for Table Join

SQL> SELECT *
  2  FROM   employees e JOIN departments d
  3  ON     e.department_id=d.department_id
  4  ORDER BY last_name;
.
.
.
----------------------------------------------------------------------------------
| Id  | Operation           | Name        | Rows  | Bytes | Cost (%CPU)| Time    |
----------------------------------------------------------------------------------
|   0 | SELECT STATEMENT    |             |   106 |  9328 |    7  (29)| 00:00:01 |
|   1 |  SORT ORDER BY      |             |   106 |  9328 |    7  (29)| 00:00:01 |
|*  2 |   HASH JOIN         |             |   106 |  9328 |    6  (17)| 00:00:01 |
|   3 |    TABLE ACCESS FULL| DEPARTMENTS |    27 |   540 |    2   (0)| 00:00:01 |
|   4 |    TABLE ACCESS FULL| EMPLOYEES   |   107 |  7276 |    3   (0)| 00:00:01 |
----------------------------------------------------------------------------------

In Example 14-1, the run-time area tracks the progress of the full table scans. The session performs a hash join in the hash area to match rows from the two tables. The ORDER BY sort occurs in the sort area.

If the amount of data to be processed by the operators does not fit into a work area, then Oracle Database divides the input data into smaller pieces. In this way, the database processes some data pieces in memory while writing the rest to temporary disk storage for processing later.

The database automatically tunes work area sizes when automatic PGA memory management is enabled. You can also manually control and tune the size of a work area. See "Memory Management" for more information.

Generally, larger work areas can significantly improve performance of an operator at the cost of higher memory consumption. Optimally, the size of a work area is sufficient to accommodate the input data and auxiliary memory structures allocated by its associated SQL operator. If not, response time increases because part of the input data must be cached on disk. In the extreme case, if the size of a work area is too small compared to input data size, then the database must perform multiple passes over the data pieces, dramatically increasing response time.

See Also:

• Oracle Database Administrator‘s Guide to learn how to use automatic PGA management
• Oracle Database Performance Tuning Guide to learn how to tune PGA memory

PGA Usage in Dedicated and Shared Server Modes

PGA memory allocation depends on whether the database uses dedicated or shared server connections. Table 14-1 shows the differences.

Table 14-1 Differences in Memory Allocation Between Dedicated and Shared Servers

See Also:

Oracle Database Net Services Administrator‘s Guide to learn how to configure a database for shared server

Overview of the System Global Area

The SGA is a read/write memory area that, along with the Oracle background processes, make up a database instance. All server processes that execute on behalf of users can read information in the instance SGA. Several processes write to the SGA during database operation.

Note:

The server and background processes do not reside within the SGA, but exist in a separate memory space.

Each database instance has its own SGA. Oracle Database automatically allocates memory for an SGA at instance startup and reclaims the memory at instance shutdown. When you start an instance with SQL*Plus or Oracle Enterprise Manager, the size of the SGA is shown as in the following example:

SQL> STARTUP
ORACLE instance started.

Total System Global Area  368283648 bytes
Fixed Size                  1300440 bytes
Variable Size             343935016 bytes
Database Buffers           16777216 bytes
Redo Buffers                6270976 bytes
Database mounted.
Database opened.

As shown in Figure 14-1, the SGA consists of several memory components, which are pools of memory used to satisfy a particular class of memory allocation requests. All SGA components except the redo log buffer allocate and deallocate space in units of contiguous memory called granules. Granule size is platform-specific and is determined by total SGA size.

You can query the V$SGASTAT view for information about SGA components.

The most important SGA components are the following:

• Database Buffer Cache
• Redo Log Buffer
• Shared Pool
• Large Pool
• Java Pool
• Streams Pool
• Fixed SGA

See Also:

• "Introduction to the Oracle Database Instance"
• Oracle Database Performance Tuning Guide to learn more about granule sizing

Database Buffer Cache

http://docs.oracle.com/cd/E25178_01/server.1111/e25789/memory.htm#i8451