4 Enabling Objects for In-Memory Population
This chapter explains how to enable and disable objects for population in the IM column store, including setting compression and priority options.
This chapter contains the following topics:
4.1 About Manually Enabling Objects for In-Memory Population
Only objects with the INMEMORY
clause are eligible for population into the IM column store. To apply this clause manually, you must use DDL statements such as CREATE TABLE
or ALTER TABLE
.
4.1.1 Purpose of Enabling Objects for In-Memory Population
By default, objects implicitly have the NO INMEMORY
attribute, which means they are ineligible for population into the IM column store.
Only when you use DDL to specify objects as INMEMORY
are they eligible for population. Enabling an object as INMEMORY
is specifying that an object can potentially reside in the IM column store. In-Memory population is a separate step that occurs when the database reads existing row-format data from disk, transforms it into columnar format, and then stores it in the IM column store.
Population, which transforms existing data on disk into columnar format, is different from repopulation, which transforms new data into columnar format. Because IMCUs are read-only structures, Oracle Database does not populate them when rows change. Rather, the database records the row changes in a transaction journal, and then creates new IMCUs as part of repopulation.
4.1.2 How In-Memory Population Works
You can specify that the database populates objects in the IM column store either at database instance startup or when INMEMORY
objects are accessed.
The population algorithm also varies depending on whether you use single-instance or Oracle RAC.
This section contains the following topics:
4.1.2.1 Prioritization of In-Memory Population
DDL statements include an INMEMORY PRIORITY
subclause that provides more control over the population queue.
Note:
The INMEMORY PRIORITY
subclause controls the priority of population, but not the speed of population.
The priority level setting applies to an entire table, partition, or subpartition, not to different column subsets. Setting the INMEMORY
attribute on an object means that this object is a candidate for population in the IM column store. It does not mean that the database immediately populates the object.
Note:
If a segment on disk is 64 KB or less, then it is not populated in the IM column store. Therefore, some small database objects that were enabled for the IM column store might not be populated.
Oracle Database manages prioritization as follows:
-
On-demand population
By default, the
INMEMORY PRIORITY
parameter is set toNONE
. In this case, the database only populates the object when it is accessed through a full table scan. If the object is never accessed, or if it is accessed only through an index scan or fetch by rowid, then population never occurs. -
Priority-based population
When
PRIORITY
is set to a value other thanNONE
, Oracle database automatically populates the objects using an internally managed priority queue. In this case, a full scan is not a necessary condition for population. The database does the following:-
Populates columnar data in the IM column store automatically after the database instance restarts
-
Queues population of
INMEMORY
objects based on the specified priority levelFor example, a table altered with
INMEMORY PRIORITY CRITICAL
takes precedence over a table altered withINMEMORY PRIORITY HIGH
, which in turn takes precedence over a table altered withINMEMORY PRIORITY LOW
. If the IM column store has insufficient space, then Oracle Database does not populate additional objects until space is available. -
Waits to return from
ALTER TABLE
orALTER MATERIALIZED VIEW
statements until the changes to the object are recorded in the IM column store
-
After a segment is populated in the IM column store, the database only evicts it when the segment is dropped or moved, or the segment is updated with the NO INMEMORY
attribute. You can evict a segment manually or by means of an ADO policy.
Example 4-1 Population of an Object in the IM Column Store
Before completing this example, the IM column store must be enabled for the database.
-
Log in to the database as an administrator, and then query the
customers
table as follows:SELECT cust_id, cust_last_name, cust_first_name FROM sh.customers WHERE cust_city = 'Hyderabad' AND cust_income_level LIKE 'C%' AND cust_year_of_birth > 1960;
-
Display the execution plan for the query:
SQL> SELECT * FROM TABLE(DBMS_XPLAN.DISPLAY_CURSOR(FORMAT=>'+ALLSTATS')); SQL_ID frgk9dbaftmm9, child number 0 ------------------------------------- SELECT cust_id, cust_last_name, cust_first_name FROM sh.customers WHERE cust_city = 'Hyderabad' AND cust_income_level LIKE 'C%' AND cust_year_of_birth > 1960 Plan hash value: 2008213504 ------------------------------------------------------------------------------- | Id| Operation | Name |Starts|E-Rows|A-Rows| A-Time |Buffers| ------------------------------------------------------------------------------- | 0| SELECT STATEMENT | | 1| | 6 |00:00:00.01 | 1523| |* 1| TABLE ACCESS FULL| CUSTOMERS | 1| 6 | 6 |00:00:00.01 | 1523| ------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - filter(("CUST_CITY"='Hyderabad' AND "CUST_YEAR_OF_BIRTH">1960 AND "CUST_INCOME_LEVEL" LIKE 'C%'))
-
Enable the
sh.customers
table for population in the IM column store:ALTER TABLE sh.customers INMEMORY;
The preceding statement uses the default priority of
NONE
. A full scan is required to populate objects with no priority. -
To determine whether data from the
sh.customers
table has been populated in the IM column store, execute the following query (sample output included):SELECT SEGMENT_NAME, POPULATE_STATUS FROM V$IM_SEGMENTS WHERE SEGMENT_NAME = 'CUSTOMERS'; no rows selected
In this case, no segments are populated in the IM column store because the
sh.customers
table has not yet been scanned. -
Query
sh.customers
using the same statement as in Step 1:SELECT cust_id, cust_last_name, cust_first_name FROM sh.customers WHERE cust_city = 'Hyderabad' AND cust_income_level LIKE 'C%' AND cust_year_of_birth > 1960;
-
Querying the cursor shows that the database performed a full scan and accessed the IM column store:
SQL> SELECT * FROM TABLE(DBMS_XPLAN.DISPLAY_CURSOR(FORMAT=>'+ALLSTATS')); SQL_ID frgk9dbaftmm9, child number 0 ------------------------------------- SELECT cust_id, cust_last_name, cust_first_name FROM sh.customers WHERE cust_city = 'Hyderabad' AND cust_income_level LIKE 'C%' AND cust_year_of_birth > 1960 Plan hash value: 2008213504 --------------------------------------------------------------------------------- | Id| Operation | Name |Starts|E-Rows|A-Rows|A-Time|Buffers| --------------------------------------------------------------------------------- | 0| SELECT STATEMENT | | 1| | 6 |00:00:00.02| 1523 | |* 1| TABLE ACCESS INMEMORY FULL| CUSTOMERS | 1| 6| 6 |00:00:00.02| 1523 | --------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - inmemory(("CUST_CITY"='Hyderabad' AND "CUST_YEAR_OF_BIRTH">1960 AND "CUST_INCOME_LEVEL" LIKE 'C%')) filter(("CUST_CITY"='Hyderabad' AND "CUST_YEAR_OF_BIRTH">1960 AND "CUST_INCOME_LEVEL" LIKE 'C%'))
-
Query
V$IM_SEGMENTS
again (sample output included):COL SEGMENT_NAME FORMAT a20 SELECT SEGMENT_NAME, POPULATE_STATUS FROM V$IM_SEGMENTS WHERE SEGMENT_NAME = 'CUSTOMERS'; SEGMENT_NAME POPULATE_STATUS -------------------- --------------- CUSTOMERS COMPLETED
The value
COMPLETED
inPOPULATE_STATUS
means that the table is populated in the IM column store. -
The
DBA_FEATURE_USAGE_STATISTICS
view confirms that the database used the IM column store to retrieve the results:COL NAME FORMAT a25 SELECT ul.NAME, ul.DETECTED_USAGES FROM DBA_FEATURE_USAGE_STATISTICS ul WHERE ul.VERSION= (SELECT MAX(u2.VERSION) FROM DBA_FEATURE_USAGE_STATISTICS u2 WHERE u2.NAME = ul.NAME AND ul.NAME LIKE '%Column Store%'); NAME DETECTED_USAGES ------------------------- --------------- In-Memory Column Store 1
See Also:
"Priority Options for the Population of In-Memory Objects"
Oracle Database SQL Language Reference to learn about the INMEMORY PRIORITY
clause
4.1.2.2 How Background Processes Populate IMCUs
During population, the database reads data from disk in its row format, pivots the rows to create columns, and then compresses the data into In-Memory Compression Units (IMCUs).
Worker processes (Wnnn) populate the data in the IM column store. Each worker process operates on a subset of database blocks from the object. Population is a streaming mechanism, simultaneously compressing the data and converting it into columnar format.
The INMEMORY_MAX_POPULATE_SERVERS
initialization parameter specifies the maximum number of worker processes to use for IM column store population. By default, the setting is one half of CPU_COUNT
. Set this parameter to an appropriate value for your environment. More worker processes result in faster population, but they use more CPU resources. Fewer worker processes result in slower population, which reduces CPU overhead.
Note:
If INMEMORY_MAX_POPULATE_SERVERS
is set to 0
, then population is disabled.
See Also:
Oracle Database Reference for more information about the INMEMORY_MAX_POPULATE_SERVERS
initialization parameter
4.1.3 Controls for In-Memory Objects
Use the INMEMORY
clause in DDL statements to specify which objects are eligible for population into the IM column store. You can enable tablespaces, tables (internal and external), partitions, and materialized views.
This section contains the following topics:
4.1.3.1 The INMEMORY Subclause
INMEMORY
is a segment-level attribute, not a column-level attribute. However, you can apply the INMEMORY
attribute to a subset of columns within a specific object.
To enable or disable an object for the IM column store, specify the INMEMORY
clause in DDL statements for tablespaces, tables, and materialized views. The INMEMORY
column in the DBA_TABLES
view indicates which tables have the INMEMORY
attribute set (ENABLED
) or not set (DISABLED
).
The following objects are not eligible for population in the IM column store:
-
Indexes
-
Index-organized tables
-
Hash clusters
-
Objects owned by the
SYS
user and stored in theSYSTEM
orSYSAUX
tablespace
4.1.3.1.1 In-Memory Tables
To make heap-organized tables eligible for population, specify INMEMORY
on the CREATE TABLE
or ALTER TABLE
statements.
By default, the IM column store populates all nonvirtual columns in the table. You can specify all or some columns of an internal table. For example, you might exclude the weight_class
and catalog_url
columns in oe.product_information
from eligibility.
For a partitioned table, you can populate all or some partitions in the IM column store. By default, all partitions in a partitioned table inherit the INMEMORY
attribute. For hybrid partitioned tables, which contain both internal and external partitions, only internal partitions inherit the INMEMORY
attribute.
On Oracle Exadata Storage Server, the CELLMEMORY
keyword (default) enables the flash cache to store data in the In-Memory format. You can use ALTER TABLE
to choose FOR QUERY
or FOR CAPACITY
compression. Specifying NO CELLMEMORY
disables columnar storage in the flash cache.
If you enable a table for the IM column store and it contains any of the following types of columns, then they will not be populated in the IM column store:
-
Out-of-line columns (varrays, nested table columns, and out-of-line LOBs)
Note:
For inline LOB columns, the IM column store allocates up to 4 KB of contiguous buffer storage, and up to 32 KB when the inline LOBs contain OSON (binary JSON) data. For out-of-line LOBs, the IM column store allocates up to 40 bytes for the locator, but does not store the LOB itself.
-
Columns that use the
LONG
orLONG RAW
data types -
Extended data type columns
Example 4-2 Specifying a Table as INMEMORY
Assume that you are connected to the database as user sh
. You enable the customers
table for population in the IM column store, using the default compression level of FOR QUERY LOW
:
SQL> SELECT TABLE_NAME, INMEMORY FROM USER_TABLES WHERE TABLE_NAME = 'CUSTOMERS';
TABLE_NAME INMEMORY
---------- --------
CUSTOMERS DISABLED
SQL> ALTER TABLE customers INMEMORY;
Table altered.
SQL> SELECT TABLE_NAME, INMEMORY, INMEMORY_COMPRESSION FROM USER_TABLES WHERE TABLE_NAME='CUSTOMERS';
TABLE_NAME INMEMORY INMEMORY_COMPRESS
---------- -------- -----------------
CUSTOMERS ENABLED FOR QUERY LOW
See Also:
-
Oracle Exadata System Software User's Guide to learn more about
ALTER TABLE ... CELLMEMORY
-
Oracle Database SQL Language Reference for information about
INMEMORY
clause of theCREATE TABLE
statement
4.1.3.1.2 In-Memory External Tables
To make external tables eligible for population, specify the EXTERNAL ... INMEMORY
clause in CREATE TABLE
or ALTER TABLE
.
Purpose of In-Memory External Tables
In-Memory external tables are useful in the following cases:
-
Short-term data that must be scanned repeatedly in a short time span and does not require retention in Oracle Database
-
External data that must be joined to relational data for fast analytic processing
-
Data that is accessed by analytic queries in both Oracle Database and external tools, and which does not need to be materialized in database storage
Restrictions for In-Memory External Tables
The IM column store manages the data for external tables in the same way as for heap-organized tables. For example, a full table scan populates both internal tables and external tables into the IM column store. The same drivers supported for external tables are supported for In-Memory external tables. However, note the following differences:
-
Some
INMEMORY
subclauses for external tables are not valid, including the column clause, distribute clause, and priority clause. -
In-Memory Optimized Arithmetic does not support external tables.
-
Partitioning is not supported for In-Memory external tables. For hybrid partitioned tables, which contain both internal and external partitions, only internal partitions—not external partitions—support the
INMEMORY
attribute. -
Join groups are not supported for In-Memory external tables.
-
IM expressions are not supported for In-Memory external tables.
-
In-Memory external tables do not support the
DISTRIBUTE ... FOR SERVICE
clause for Oracle Active Data Guard instances.
Note:
Sessions that query In-Memory external tables must have the initialization parameter
QUERY_REWRITE_INTEGRITY
set to stale_tolerated
.
It is important to keep in mind that if an external table is modified, then
the results from the IM column store are undefined. Results are also undefined if a
partition is altered (by dropping or adding values). This may lead to differences in
results between IM and non-IM based scans. You can run
DBMS_INMEMORY.REPOPULATE
to refresh the IM store so that it is
resynchronized with the table data.
See Also:
-
"Populating an In-Memory External Table Using DBMS_INMEMORY.POPULATE: Example"
-
Oracle Database SQL Language Reference for information about
INMEMORY
clause of theCREATE TABLE ... EXTERNAL
statement -
Oracle Database Licensing Information User Manual for details on which features are supported for different editions and services
4.1.3.1.3 In-Memory Materialized Views
You can make materialized views eligible for population by specifying INMEMORY
on the CREATE MATERIALIZED VIEW
or ALTER MATERIALIZED VIEW
statements.
For a partitioned materialized view, you can populate all or a subset of the partitions in the IM column store.
See Also:
Oracle Database SQL Language Reference for ALTER MATERIALIZED VIEW
syntax and semantics
4.1.3.1.4 In-Memory Tablespaces
You can make permanent tablespaces eligible for population by specifying INMEMORY
on the CREATE TABLESPACE
or ALTER TABLESPACE
statements.
By default, all tables and materialized views in the tablespace are enabled for the IM column store. Individual tables and materialized views in the tablespace may have different INMEMORY
attributes. The attributes for individual database objects override the attributes for the tablespace.
Note:
Temporary tablespaces are not eligible for In-Memory population.
See Also:
Oracle Database SQL Language Reference for ALTER TABLESPACE
syntax and semantics
4.1.3.2 Priority Options for the Population of In-Memory Objects
When you enable an object for the IM column store, you can either let Oracle Database control when the object is populated (default), or you can specify a level that determines the priority of the object in the population queue.
Oracle SQL includes an INMEMORY PRIORITY
clause that provides more control over the queue for population. For example, it might be more important or less important to populate a database object's data before populating the data for other database objects.
Video:
The following table describes the supported priority levels.
Table 4-1 Priority Levels for Populating a Database Object in the IM Column Store
CREATE/ALTER Syntax | Description |
---|---|
|
The database populates the object on demand only. A full scan of the database object triggers the population of the object into the IM column store. This is the default level when |
|
The database assigns the object a low priority and populates it after startup based on its position in the queue. Population does not depend on whether the object is accessed. The object is populated in the IM column store before database objects with the following priority level: |
|
The database assigns the object a medium priority and populates it after startup based on its position in the queue. Population does not depend on whether the object is accessed. The database object is populated in the IM column store before database objects with the following priority levels: |
|
The database assigns the object a high priority and populates it after startup based on its position in the queue. Population does not depend on whether the object is accessed. The database object's data is populated in the IM column store before database objects with the following priority levels: |
|
The database assigns the object a low priority and populates it after startup based on its position in the queue. Population does not depend on whether the object is accessed. The database object's data is populated in the IM column store before database objects with the following priority levels: |
When more than one database object has a priority level other than NONE
, Oracle Database queues the data for objects to be populated based on priority level. Database objects with the CRITICAL
priority level are populated first; database objects with the HIGH
priority level are populated next, and so on. If no space remains in the IM column store, then no additional objects are populated in it until space becomes available.
Note:
If you specify all objects as CRITICAL
, then the database does not consider any object as more critical than any other.
When a database is restarted, all of the data for database objects with a priority level other than NONE
are populated in the IM column store during startup. For a database object with a priority level other than NONE
, an ALTER
TABLE
or ALTER MATERIALIZED VIEW
DDL statement involving the database object does not return until the DDL changes are recorded in the IM column store.
Note:
-
The priority level setting must apply to an entire table or to a table partition. Specifying different IM column store priority levels for different subsets of columns in a table is not permitted.
-
If a segment on disk is 64 KB or less, then it is not populated in the IM column store. Therefore, some small database objects that were enabled for the IM column store might not be populated.
See Also:
-
Oracle Database SQL Language Reference for
CREATE TABLE ... INMEMORY PRIORITY
syntax and semantics
4.1.3.3 IM Column Store Compression Methods
Depending on your requirement, you can compress In-Memory objects at different levels.
Typically, compression is a space-saving mechanism. However, the IM column store can compress data using a new set of algorithms that also improve query performance. If the columnar data is compressed using the FOR DML
or FOR QUERY
options, then SQL queries execute directly on the compressed data. Thus, scanning and filtering operations execute on a much smaller amount of data. The database only decompresses data when it is required for the result set.
Video:
The V$IM_SEGMENTS
and V$IM_COLUMN_LEVEL
views indicate the current compression level. You can change compression levels by using the appropriate ALTER
command. If a table is currently populated in the IM column store, and if you change any INMEMORY
attribute of the table other than PRIORITY
, then the database evicts the table from the IM column store. The repopulation behavior depends on the PRIORITY
setting.
The following table summarizes the data compression methods supported in the IM column store.
Table 4-2 IM Column Store Compression Methods
CREATE/ALTER Syntax | Description |
---|---|
|
The data is not compressed. |
|
This method results in the best DML performance. This method compresses IM column store data the least, with the exception of Note: This compression method is not supported for |
|
This method results in the best query performance. This method compresses IM column store data more than This method is the default when the Note: If the |
|
This method results in good query performance, and saves space. This method compresses IM column store data more than |
|
This method balances space saving and query performance, with a bias toward space saving. This method compresses IM column store data more than This method is the default when |
|
This method results in the best space saving. This method compresses IM column store data the most. |
In a SQL statement, the MEMCOMPRESS
keyword must be preceded by the INMEMORY
keyword.
See Also:
-
Oracle Exadata System Software User's Guide to learn more about
ALTER TABLE ... CELLMEMORY
-
Oracle Database SQL Language Reference for
CREATE TABLE ... INMEMORY PRIORITY
syntax and semantics
4.1.3.4 Oracle Compression Advisor
Oracle Compression Advisor estimates the compression ratio that you can realize using the MEMCOMPRESS
clause. The advisor uses the DBMS_COMPRESSION
interface.
When you run DBMS_COMPRESSION.GET_COMPRESSION_RATIO
for a table, Oracle Database analyzes a sample of the rows. For this reason, Oracle Compression Advisor provides a good estimate of the compression results that a table achieves after it is populated into the IM column store.
See Also:
Oracle Database PL/SQL Packages and Types Reference to learn about DBMS_COMPRESSION.GET_COMPRESSION_RATIO
4.2 Enabling and Disabling Tables for the IM Column Store
Enable a table for the IM column store by including an INMEMORY
clause in a CREATE TABLE
or ALTER TABLE
statement. Disable a table for the IM column store by including a NO INMEMORY
clause in a CREATE TABLE
or ALTER TABLE
statement.
4.2.1 Enabling New Tables for the In-Memory Column Store
You enable a new table for the IM column store by including an INMEMORY
clause in a CREATE TABLE
statement.
You can enable either internal or external tables for the IM column store. Some INMEMORY
subclauses, including the columns and priority subclauses, are not valid for external tables.
Prerequisites
Ensure that the IM column store is enabled for the database. See "Enabling the IM Column Store for a Database".
To enable a new table for the IM column store:
-
Log in to the database as a user with the necessary privileges to create the table.
-
Run a
CREATE TABLE
statement with anINMEMORY
clause.
See Also:
-
"Enabling and Disabling Tables for the IM Column Store: Examples"
-
"Enabling a Subset of Columns for the IM Column Store: Example"
-
Oracle Database SQL Language Reference for information about
INMEMORY
clause of theCREATE TABLE
statement
4.2.2 Enabling and Disabling Existing Tables for the IM Column Store
Enable or disable an existing table for the IM column store by including an INMEMORY
or NO INMEMORY
clause in an ALTER TABLE
statement.
Prerequisites
Ensure that the IM column store is enabled for the database. See "Enabling the IM Column Store for a Database".
To enable or disable an existing table for the IM column store:
-
Log in to the database as a user with
ALTER TABLE
privileges. -
Run an
ALTER TABLE
statement with anINMEMORY
clause or aNO INMEMORY
clause. -
Optionally, to view metadata (size, priority, compression level) about the In-Memory segment, query
V$IM_SEGMENTS
.
See Also:
-
"Enabling and Disabling Tables for the IM Column Store: Examples"
-
"Enabling a Subset of Columns for the IM Column Store: Example"
-
Oracle Database SQL Language Reference for information about the
ALTER TABLE
statement -
Oracle Database Reference for information about the
V$IM_SEGMENTS
view
4.2.3 Enabling and Disabling Tables for the IM Column Store: Examples
The following examples illustrate how to enable or disable tables for the IM column store.
4.2.3.1 Creating an In-Memory Table: Example
This example creates the test_inmem
table and enables it for the IM column store.
In SQL*Plus, log in to the database as the user who will own the table, and then execute the following SQL statement:
CREATE TABLE test_inmem (
id NUMBER(5) PRIMARY KEY,
test_col VARCHAR2(15))
INMEMORY;
The preceding statement uses the defaults for the INMEMORY
clause: MEMCOMPRESS FOR QUERY
and PRIORITY NONE
. Because PRIORITY
is NONE
, the database will not automatically populate the table.
4.2.3.2 Creating a Table with In-Memory Partitions: Example
This example creates a partitioned table named range_sales
, specifying a subset of the partitions as INMEMORY
.
Log in to SQL*Plus as the user that will own the new table, and then execute the following DDL statement:
CREATE TABLE range_sales
( prod_id NUMBER(6)
, cust_id NUMBER
, time_id DATE
, channel_id CHAR(1)
, promo_id NUMBER(6)
, quantity_sold NUMBER(3)
, amount_sold NUMBER(10,2)
)
PARTITION BY RANGE (time_id)
(PARTITION SALES_Q4_1999
VALUES LESS THAN (TO_DATE('01-JAN-2015','DD-MON-YYYY'))
INMEMORY MEMCOMPRESS FOR DML,
PARTITION SALES_Q1_2000
VALUES LESS THAN (TO_DATE('01-APR-2015','DD-MON-YYYY'))
INMEMORY MEMCOMPRESS FOR QUERY,
PARTITION SALES_Q2_2000
VALUES LESS THAN (TO_DATE('01-JUL-2015','DD-MON-YYYY'))
INMEMORY MEMCOMPRESS FOR CAPACITY,
PARTITION SALES_Q3_2000
VALUES LESS THAN (TO_DATE('01-OCT-2015','DD-MON-YYYY'))
NO INMEMORY,
PARTITION SALES_Q4_2000
VALUES LESS THAN (MAXVALUE));
The preceding SQL specifies a different compression level for the first three partitions in the IM column store. The last two partitions are not eligible for population in the IM column store.
4.2.3.3 Creating an In-Memory External Table: Example
This example creates an external table with the INMEMORY
option.
This example assumes that the host has the directories /tmp/data/
, /tmp/log/
, and /tmp/bad/
.
The following SQL script creates the comma-delimited flat file /tmp/data/sh_sales.csv
from the sh.sales
table. Execute the script as user sh
.
SET HEAD OFF
SET TRIMSPOOL ON
SET PAGES 0
SET FEEDBACK OFF
SET TERMOUT OFF
SPOOL /tmp/data/sh_sales.csv
SELECT prod_id || ',' || cust_id || ',' || time_id || ',' ||
channel_id || ',' || promo_id || ',' ||
quantity_sold || ',' || amount_sold
FROM sales;
SPOOL OFF
Using the sh_sales.csv
file, the following SQL script creates the external table sh.admin_ext_sales
with the INMEMORY
option:
CONNECT / AS SYSDBA;
-- Set up directories and grant access to sh
CREATE OR REPLACE DIRECTORY admin_dat_dir
AS '/tmp/data';
CREATE OR REPLACE DIRECTORY admin_log_dir
AS '/tmp/log';
CREATE OR REPLACE DIRECTORY admin_bad_dir
AS '/tmp/bad';
GRANT READ ON DIRECTORY admin_dat_dir TO sh;
GRANT WRITE ON DIRECTORY admin_log_dir TO sh;
GRANT WRITE ON DIRECTORY admin_bad_dir TO sh;
-- sh connects. Provide the user password (sh) when prompted.
CONNECT sh
-- create the external table
DROP TABLE admin_ext_sales;
CREATE TABLE admin_ext_sales
( prod_id NUMBER,
cust_id NUMBER,
time_id DATE,
channel_id NUMBER,
promo_id NUMBER,
quantity_sold NUMBER(10,2),
amount_sold NUMBER(10,2)
)
ORGANIZATION EXTERNAL
( TYPE ORACLE_LOADER
DEFAULT DIRECTORY admin_dat_dir
ACCESS PARAMETERS
( records delimited by newline
badfile admin_bad_dir:'empxt%a_%p.bad'
logfile admin_log_dir:'empxt%a_%p.log'
fields terminated by ','
missing field values are null
( prod_id, cust_id,
time_id char date_format date mask "dd-mon-yy",
channel_id, promo_id, quantity_sold, amount_sold
)
)
LOCATION ('sh_sales.csv')
)
REJECT LIMIT UNLIMITED
INMEMORY;
The following query of ALL_EXTERNAL_TABLES
shows that the admin_ext_sales
table is enabled for INMEMORY
:
COL OWNER FORMAT A10
COL TABLE_NAME FORMAT A15
SELECT OWNER, TABLE_NAME,
INMEMORY, INMEMORY_COMPRESSION
FROM ALL_EXTERNAL_TABLES
WHERE TABLE_NAME = 'ADMIN_EXT_SALES';
OWNER TABLE_NAME INMEMORY INMEMORY_COMPRESS
---------- --------------- -------- -----------------
SH ADMIN_EXT_SALES ENABLED FOR QUERY LOW
Related views include ALL_XTERNAL_PART_TABLES
, ALL_XTERNAL_TAB_PARTITIONS
, and ALL_XTERNAL_TAB_SUBPARTITIONS
.
See Also:
-
"Populating an In-Memory External Table Using DBMS_INMEMORY.POPULATE: Example"
-
Oracle Database Reference to learn about
ALL_EXTERNAL_TABLES
and the related external table views
4.2.3.4 Creating and Populating a Hybrid External Table: Example
This example creates a hybrid external table with the INMEMORY
option, and then populates both the internal and external partitions.
This example assumes the existence of the sh.sales
table. The goal is to create a hybrid partitioned table sales_hpt
with two internal partitions, one of which uses the data from sh.sales
, and then add one external partition. When you apply the INMEMORY
attribute to sales_hpt
, this attribute applies to all partitions.
-
In Linux, create a temporary directory, and then create a text file with one row of sales data.
rm -rf /tmp/sales_data mkdir /tmp/sales_data echo "1002,110,19-MAR-2016,12,18,150,4800" > /tmp/sales_data/sales2016_data.txt
-
In SQL*Plus, log is with administrator privileges, and then create a directory object for the sales data:
CONNECT / AS SYSDBA CREATE DIRECTORY sales_data AS '/tmp/sales_data'; GRANT READ,WRITE ON DIRECTORY sales_data TO sh;
-
Log in as user
sh
, and then create thesales_hpt
table:CONNECT sh DROP TABLE sales_hpt; CREATE TABLE sales_hpt ( prod_id NUMBER NOT NULL, cust_id NUMBER NOT NULL, time_id DATE NOT NULL, channel_id NUMBER NOT NULL, promo_id NUMBER NOT NULL, quantity_sold NUMBER(10,2) NOT NULL, amount_sold NUMBER(10,2) NOT NULL ) EXTERNAL PARTITION ATTRIBUTES ( TYPE ORACLE_LOADER DEFAULT DIRECTORY sales_data ACCESS PARAMETERS( FIELDS TERMINATED BY ',' (prod_id,cust_id,time_id DATE 'dd-mm-yyyy',channel_id,promo_id,quantity_sold,amount_sold) ) REJECT LIMIT UNLIMITED ) PARTITION BY RANGE (time_id) ( PARTITION sales_2014 VALUES LESS THAN (TO_DATE('01-01-2015','dd-mm-yyyy')), PARTITION sales_2015 VALUES LESS THAN (TO_DATE('01-01-2016','dd-mm-yyyy')), PARTITION sales_2016 VALUES LESS THAN (TO_DATE('01-01-2017','dd-mm-yyyy')) EXTERNAL LOCATION ('sales2016_data.txt') );
The preceding statement shows that the table has three partitions:
sales_2014
,sales_2015
, andsales_2016
. Onlysales_2016
is designated as external. -
Query the data dictionary to confirm that the table is a hybrid (sample output included):
COL TABLE_NAME FORMAT a25 SELECT TABLE_NAME, HYBRID FROM USER_TABLES WHERE HYBRID = 'YES'; TABLE_NAME HYB ------------------------- --- SALES_HPT YES
-
Insert rows into the internal partitions
sales_2014
andsales_2015
:INSERT INTO sh.sales_hpt (SELECT * FROM sales); INSERT INTO sh.sales_hpt VALUES (30, 21086, TO_DATE('2015-12-30','SYYYY-MM-DD'), 2, 999, 1, 10.19); COMMIT;
The first of the preceding statements inserts all rows from the
sales
table. All dates insales
are before 2002, so all rows fromsales
are inserted into thesales_2014
partition. The second statement inserts a single row into thesales_2015
partition. -
Query the partitions to confirm that the correct data exists:
SQL> SELECT COUNT(*) FROM sales_hpt PARTITION(sales_2014); COUNT(*) ---------- 918843 SQL> SELECT COUNT(*) FROM sales_hpt PARTITION(sales_2015); COUNT(*) ---------- 1 SQL> SELECT COUNT(*) FROM sales_hpt PARTITION(sales_2016); COUNT(*) ---------- 1
-
Apply the
INMEMORY
attribute at the table level, and then force the database to populate the table into the IM column store:ALTER TABLE sales_hpt INMEMORY; EXEC DBMS_INMEMORY.POPULATE('SH', 'SALES_HPT');
-
Query the population status of the
sales_hpt
partitions:COL OWNER FORMAT a3 COL SEGMENT FORMAT a18 COL PARTITION FORMAT a13 COL STATUS FORMAT a9 COL BNP FORMAT 99999 SELECT OWNER, SEGMENT_NAME SEGMENT, PARTITION_NAME PARTITION, IS_EXTERNAL AS EXT, POPULATE_STATUS STATUS, BYTES_NOT_POPULATED AS "BNP" FROM V$IM_SEGMENTS WHERE SEGMENT_NAME = 'SALES_HPT' ORDER BY PARTITION; OWN SEGMENT PARTITION EXT STATUS BNP --- ------------------ ------------- ----- --------- ------ SH SALES_HPT SALES_2014 FALSE COMPLETED 0 SH SALES_HPT SALES_2015 FALSE COMPLETED 0 SH SALES_HPT SALES_2016 TRUE COMPLETED 0
The query shows that all partitions, both internal and external, were populated.
4.2.3.5 Enabling an Existing Table for the IM Column Store: Example
This example enables the existing sh.sales
table for the IM column store.
In SQL*Plus, log in to the database as the sh
user, and then execute the following DDL statement:
ALTER TABLE sales INMEMORY;
The preceding statement uses the defaults for the INMEMORY
clause: MEMCOMPRESS FOR QUERY
and PRIORITY NONE
.
4.2.3.6 Setting In-Memory Compression to FOR CAPACITY LOW: Example
This example enables the existing oe.product_information
table for the IM column store and specifies the compression method FOR CAPACITY LOW
.
In SQL*Plus, log in to the database as the oe
user, and then execute the following DDL statement:
ALTER TABLE product_information
INMEMORY
MEMCOMPRESS FOR CAPACITY LOW;
The preceding statement uses the default for the PRIORITY
clause of NONE
. Populate the table by forcing a full table scan as follows (sample output included):
SELECT /*+ FULL(p) NO_PARALLEL(p) */ COUNT(*)
FROM product_information p;
COUNT(*)
----------
288
In a separate session, log in as a user with administrative privileges, and then calculate the compression ratio by executing the following query (sample output included):
COL OWNER FORMAT a5
COL SEGMENT_NAME FORMAT a19
SET PAGESIZE 50000
SELECT OWNER, SEGMENT_NAME, BYTES ORIG_SIZE,
INMEMORY_SIZE IN_MEM_SIZE,
ROUND (BYTES / INMEMORY_SIZE, 2) COMP_RATIO
FROM V$IM_SEGMENTS
WHERE SEGMENT_NAME LIKE 'P%'
ORDER BY 4;
OWNER SEGMENT_NAME ORIG_SIZE IN_MEM_SIZE COMP_RATIO
----- ------------------- ---------- ----------- ----------
OE PRODUCT_INFORMATION 98304 1310720 .08
4.2.3.7 Setting In-Memory Priority to HIGH: Example
This example enables the oe.product_information
table for the IM column store and specifies PRIORITY HIGH
for populating the table data in the IM column store.
In SQL*Plus, log in to the database as the oe
user, and then execute the following DDL statement:
ALTER TABLE
product_information
INMEMORY
PRIORITY HIGH;
4.2.3.8 Changing the Compression and Priority Settings for an In-Memory Table: Example
This example alters the oe.product_information
table to use FOR CAPACITY HIGH
table compression and a LOW
priority setting.
In SQL*Plus, log in to the database as an administrative user, and then execute the following query to show the current priority and compression setting for the oe.product_information
table:
COL OWNER FORMAT a5
COL SEGMENT_NAME FORMAT a19
SET PAGESIZE 50000
SELECT v.OWNER, v.SEGMENT_NAME, v.INMEMORY_PRIORITY,
v.INMEMORY_COMPRESSION
FROM V$IM_SEGMENTS v
WHERE SEGMENT_NAME LIKE 'P%';
OWNER SEGMENT_NAME INMEMORY INMEMORY_COMPRESS
----- ------------------- -------- -----------------
OE PRODUCT_INFORMATION HIGH FOR CAPACITY LOW
The following DDL statement alters oe.product_information
to use FOR CAPACITY HIGH
table compression and PRIORITY LOW
:
ALTER TABLE oe.product_information
INMEMORY
MEMCOMPRESS FOR CAPACITY HIGH
PRIORITY LOW;
4.2.3.9 Disabling a Table for the IM Column Store: Example
To disable a table for the IM column store, specify the NO INMEMORY
clause.
Log in to the database as the user oe
, and then execute the following statement to disable the product_information
table for the IM column store:
ALTER TABLE oe.product_information NO INMEMORY;
The V$IM_SEGMENTS
view lists the database objects that are populated in the IM column store.
4.2.3.10 Disabling Columnar Format on Exadata Smart Flash Cache: Example
This example disables the columnar format for oe.product_information
on Exadata Smart Flash Cache storage.
By default, Exadata Smart Flash Cache compresses data using the level MEMCOMPRESS FOR CAPACITY LOW
. To change the compression level or disable the columnar format altogether, use the ALTER TABLE ... NO CELLMEMORY
statement.
Log in to the database as user oe
, and execute the following DDL statement:
ALTER TABLE product_information NO CELLMEMORY;
4.3 Enabling and Disabling Columns for In-Memory Tables
You can specify the INMEMORY
clause for individual columns in an internal table. External tables do not support specifying INMEMORY
at the column level.
4.3.1 About Enabling INMEMORY Columns
For internal tables, both In-Memory virtual columns (IM virtual columns) and nonvirtual columns are eligible for IM population. For external tables, only nonvirtual columns are eligible.
NO INMEMORY Columns in INMEMORY Objects
By default, if an internal object has the INMEMORY
attribute, then all columns in this object are eligible for population into the IM column store. However, you can specify that some columns in an INMEMORY
table should have the NO INMEMORY
attribute, in which case only the INMEMORY
columns are eligible for population.
To apply the INMEMORY
attribute to a subset of columns, specify ALTER TABLE table_name INMEMORY ... NO INMEMORY excluded_columns
, where excluded_columns lists the columns to be specified as NO INMEMORY
. Only the columns that are not specified as NO INMEMORY
, that is, the columns that are not in the excluded columns list, inherit the segment-level INMEMORY
attribute.
Specifying NO INMEMORY
columns in an INMEMORY
table has an important consequence. A query that references a NO INMEMORY
column uses the row store exclusively. For example, if sales
is an INMEMORY
table with 7 columns, and if only the promo_id
column has the NO INMEMORY
attribute, then any query whose SELECT
list includes promo_id
retrieves data from the row store rather than the IM column store. Likewise, any query whose predicate references promo_id
, regardless of whether promo_id
is in the SELECT
list, retrieves data exclusively from the row store.
Virtual Columns
An IM virtual column is like any other column, except that its value is derived by evaluating an expression. Storing the precalculated IM virtual column values in the IM column store can improve query performance. The expression can include columns from the same table, constants, SQL functions, and user-defined PL/SQL functions (DETERMINISTIC
only). You cannot explicitly write to an IM virtual column.
Note:
A virtual column or IM expression counts toward the limit of 1000 columns per populated object.
To populate IM virtual columns in the IM column store, set the INMEMORY_VIRTUAL_COLUMNS
initialization parameter to one of the following values:
-
MANUAL
(default): If a table is enabled for the IM column store, then no IM virtual columns defined on this table are eligible for population, unless they are explicitly set asINMEMORY
. -
ENABLE
: If a table is enabled for the IM column store, then all IM virtual columns defined on this table are eligible for population, unless they are explicitly set asNO INMEMORY
.By default, the compression level of the column in the IM column store is the same as the table or partition in which it is stored. However, when a different compression level is specified for the IM virtual column, it is populated at the specified compression level.
To specify that no IM virtual columns are populated in the IM column store, set this initialization parameter to DISABLE
.
The underlying storage structures for IM virtual columns and IM expressions are the same. However, different mechanisms control IM expressions and IM virtual columns.
Note:
-
The IM column store only populates virtual columns for tables marked
INMEMORY
. -
To populate IM virtual columns in the IM column store, the value for the initialization parameter
COMPATIBLE
must be set to 12.1.0 or higher.
See Also:
-
Oracle Database SQL Language Reference for the syntax and semantics of the
INMEMORY
clause -
https://blogs.oracle.com/in-memory/what-happens-if-a-column-is-not-populated for a blog entry on accessing columns that are not populated
4.3.2 Enabling IM Virtual Columns
IM virtual columns improve query performance by avoiding repeated calculations. Also, the database can scan and filter IM virtual columns using techniques such as SIMD vector processing.
Prerequisites
To enable IM virtual columns, the following conditions must be true:
-
The IM column store is enabled for the database.
-
The table that contains the virtual columns is internal and has the
INMEMORY
attribute.See "Enabling and Disabling Tables for the IM Column Store".
-
The
INMEMORY_VIRTUAL_COLUMNS
initialization parameter is not set toDISABLE
. -
The value for the initialization parameter
COMPATIBLE
is set to12.1.0
or higher.
To enable IM virtual columns:
-
In SQL*Plus or SQL Developer, log in to the database as a user with the necessary privileges.
-
Either set the
INMEMORY_VIRTUAL_COLUMNS
initialization parameter toENABLE
, or enable specific virtual columns for the IM column store.
Example 4-3 Enabling Virtual Columns for the IM Column Store
In this example, you are logged in to the database as SYSTEM
. The IM column store is enabled, but population of virtual columns is currently disabled:
SQL> SHOW PARAMETER INMEMORY_SIZE
NAME TYPE VALUE
------------------------------------ ----------- -----
inmemory_size big integer 200M
SQL> SHOW PARAMETER INMEMORY_VIRTUAL_COLUMNS
NAME TYPE VALUE
------------------------------------ ----------- -------
inmemory_virtual_columns string DISABLE
You add a virtual column to the hr.employees
table, and then specify that the table is INMEMORY
:
SQL> ALTER TABLE hr.employees ADD (weekly_sal AS (ROUND(salary*12/52,2)));
Table altered.
SQL> ALTER TABLE hr.employees INMEMORY;
Table altered.
At this stage, weekly_sal
is not eligible for population, although the non-virtual columns in hr.employees
are eligible for population. The following statement enables weekly_sal
, and any other virtual columns in hr.employees
, to be populated:
SQL> ALTER SYSTEM SET INMEMORY_VIRTUAL_COLUMNS=ENABLE SCOPE=BOTH;
System altered.
Note that you could also use SCOPE=SPFILE
, but in that case
the change will not take effect until the next database restart. When
SCOPE=BOTH
is used, the alteration takes place immediately and a
restart is not required.
Example 4-4 Enabling a Specific IM Virtual Column for the IM Column Store
This example assumes that the INMEMORY_VIRTUAL_COLUMNS
initialization parameter is set to MANUAL
, which means that IM virtual columns must be added to the IM column store explicitly. This example first creates the hr.admin_emp
table:
CREATE TABLE hr.admin_emp (
empno NUMBER(5) PRIMARY KEY,
ename VARCHAR2(15) NOT NULL,
job VARCHAR2(10),
sal NUMBER(7,2),
hrly_rate NUMBER(7,2) GENERATED ALWAYS AS (sal/2080),
deptno NUMBER(3) NOT NULL)
INMEMORY;
At this stage, the hrly_rate
virtual column is not eligible for population. The following statement explicitly specifies the virtual column as INMEMORY
:
ALTER TABLE hr.admin_emp INMEMORY(hrly_rate);
4.3.3 Enabling a Subset of Columns for the IM Column Store: Example
This example enables all columns in the oe.product_information
table for the IM column store except weight_class
and catalog_url
.
The following statement also specifies different IM column store compression methods for the columns enabled for the IM column store:
ALTER TABLE oe.product_information
INMEMORY MEMCOMPRESS FOR QUERY (
product_id, product_name, category_id, supplier_id, min_price)
INMEMORY MEMCOMPRESS FOR CAPACITY HIGH (
product_description, warranty_period, product_status, list_price)
NO INMEMORY (
weight_class, catalog_url);
Note the following:
-
The columns
product_id
,product_name
,category_id
,supplier_id
, andmin_price
are enabled for the IM column store with theMEMCOMPRESS FOR QUERY
compression method. -
The columns
product_description
,warranty_period
,product_status
, andlist_price
are enabled for the IM column store with theMEMCOMPRESS FOR CAPACITY HIGH
compression method. -
The
weight_class
andcatalog_url
columns are not enabled for the IM column store. Consequently, any query that references these two columns, either in theSELECT
list or in the predicate, must use the row store rather than the IM column store. -
The table uses the default for the
PRIORITY
clause, which isPRIORITY NONE
.
Note:
The priority level setting must apply to an entire table or partition. Specifying different IM column store priority levels for different subsets of columns in a table is not allowed.
To determine the selective column compression levels defined for a database object, query the V$IM_COLUMN_LEVEL
view, as shown in the following example:
COL TABLE_NAME FORMAT a20
COL COLUMN_NAME FORMAT a20
SELECT TABLE_NAME, COLUMN_NAME, INMEMORY_COMPRESSION
FROM V$IM_COLUMN_LEVEL
WHERE TABLE_NAME = 'PRODUCT_INFORMATION'
ORDER BY COLUMN_NAME;
TABLE_NAME COLUMN_NAME INMEMORY_COMPRESSION
-------------------- -------------------- --------------------------
PRODUCT_INFORMATION CATALOG_URL NO INMEMORY
PRODUCT_INFORMATION CATEGORY_ID FOR QUERY LOW
PRODUCT_INFORMATION LIST_PRICE FOR CAPACITY HIGH
PRODUCT_INFORMATION MIN_PRICE FOR QUERY LOW
PRODUCT_INFORMATION PRODUCT_DESCRIPTION FOR CAPACITY HIGH
PRODUCT_INFORMATION PRODUCT_ID FOR QUERY LOW
PRODUCT_INFORMATION PRODUCT_NAME FOR QUERY LOW
PRODUCT_INFORMATION PRODUCT_STATUS FOR CAPACITY HIGH
PRODUCT_INFORMATION SUPPLIER_ID FOR QUERY LOW
PRODUCT_INFORMATION WARRANTY_PERIOD FOR CAPACITY HIGH
PRODUCT_INFORMATION WEIGHT_CLASS NO INMEMORY
See Also:
-
Oracle Database Reference for more information about the
V$IM_COLUMN_LEVEL
view
4.3.4 Specifying INMEMORY Column Attributes on a NO INMEMORY Table: Example
Starting in Oracle Database 12c Release 2 (12.2), you can specify the INMEMORY
clause at the column level on an object that is not yet specified as INMEMORY
.
In previous releases, the column-level INMEMORY
clause was only valid when specified on an INMEMORY
table or partition. This restriction meant that a column could not be associated with an INMEMORY
clause before the table or partition was associated with an INMEMORY
clause.
Starting in Oracle Database 12c Release 2 (12.2), if you specify the INMEMORY
clause at the column level, then the database records the attributes of the specified column. If the table is NO INMEMORY
(default), then the column-level attributes do not affect how the table is queried until the table or partition is specified as INMEMORY
. If you mark the table itself as NO INMEMORY
, then the database drops any existing column-level attributes.
In this example, your goal is to ensure that column c3
in a partitioned table is never populated in the IM column store. You perform the following steps:
-
Create a partitioned table
t
as follows:CREATE TABLE t (c1 NUMBER, c2 NUMBER, c3 NUMBER) NO INMEMORY -- this clause specifies the table itself as NO INMEMORY PARTITION BY LIST (c1) ( PARTITION p1 VALUES (0), PARTITION p2 VALUES (1), PARTITION p3 VALUES (2) );
Table
t
isNO INMEMORY
. The table is partitioned by list on columnc1
, and has three partitions:p1
,p2
, andp3
. -
Query the compression of the columns in the table (sample output included):
COL TABLE_NAME FORMAT a20 COL COLUMN_NAME FORMAT a20 SELECT TABLE_NAME, COLUMN_NAME, INMEMORY_COMPRESSION FROM V$IM_COLUMN_LEVEL WHERE TABLE_NAME = 'T' ORDER BY COLUMN_NAME; no rows selected
As shown by the output, no column-level
INMEMORY
attributes are set. -
To ensure that column
c3
is never populated, apply theNO INMEMORY
attribute to columnc3
:ALTER TABLE t NO INMEMORY (c3);
-
Query the compression of the columns in the table (sample output included):
SELECT TABLE_NAME, COLUMN_NAME, INMEMORY_COMPRESSION FROM V$IM_COLUMN_LEVEL WHERE TABLE_NAME = 'T' ORDER BY COLUMN_NAME; TABLE_NAME COLUMN_NAME INMEMORY_COMPRESSION -------------------- -------------------- -------------------- T C1 DEFAULT T C2 DEFAULT T C3 NO INMEMORY
The database has recorded the
NO INMEMORY
attribute forc3
. The other columns use the default compression. -
Specify partition
p3
asINMEMORY
:ALTER TABLE t MODIFY PARTITION p3 INMEMORY PRIORITY CRITICAL;
Because column
c3
was previously specified asNO INMEMORY
, initial population of partitionp3
will not include columnc3
. -
Specify the entire table as
INMEMORY
:ALTER TABLE t INMEMORY;
-
Query the compression of the columns in the table (sample output included):
SELECT TABLE_NAME, COLUMN_NAME, INMEMORY_COMPRESSION FROM V$IM_COLUMN_LEVEL WHERE TABLE_NAME = 'T' ORDER BY COLUMN_NAME; TABLE_NAME COLUMN_NAME INMEMORY_COMPRESSION -------------------- -------------------- -------------------------- T C1 DEFAULT T C2 DEFAULT T C3 NO INMEMORY
The database has retained the
NO INMEMORY
setting for columnc3
. The other columns use the default compression. - Apply different compression levels to columns
c1
andc2
:ALTER TABLE t INMEMORY MEMCOMPRESS FOR CAPACITY HIGH (c1) INMEMORY MEMCOMPRESS FOR CAPACITY LOW (c2);
-
Query the compression of the columns in the table (sample output included):
SELECT TABLE_NAME, COLUMN_NAME, INMEMORY_COMPRESSION FROM V$IM_COLUMN_LEVEL WHERE TABLE_NAME = 'T' ORDER BY COLUMN_NAME; TABLE_NAME COLUMN_NAME INMEMORY_COMPRESSION -------------------- -------------------- -------------------------- T C1 FOR CAPACITY HIGH T C2 FOR CAPACITY LOW T C3 NO INMEMORY
Each column now has a different compression level.
-
Specify the entire table as
NO INMEMORY
:ALTER TABLE t NO INMEMORY;
-
Query the compression of the columns in the table (sample output included):
SELECT TABLE_NAME, COLUMN_NAME, INMEMORY_COMPRESSION FROM V$IM_COLUMN_LEVEL WHERE TABLE_NAME = 'T' ORDER BY COLUMN_NAME; no rows selected
Because the entire table was specified as
NO INMEMORY
, the database dropped all column-levelINMEMORY
attributes.
See Also:
Oracle Database SQL Language Reference for ALTER TABLE
syntax and semantics
4.4 Enabling and Disabling Tablespaces for the IM Column Store
You can enable or disable tablespaces for the IM column store.
Enable a tablespace for the IM column store during tablespace creation with a CREATE TABLESPACE
statement that includes the INMEMORY
clause. You can also alter a tablespace to enable it for the IM column store with an ALTER TABLESPACE
statement that includes the INMEMORY
clause.
Disable a tablespace for the IM column store by including a NO INMEMORY
clause in a CREATE TABLESPACE
or ALTER TABLESPACE
statement.
When a tablespace is enabled for the IM column store, all tables and materialized views in the tablespace are enabled for the IM column store by default. The INMEMORY
clause is the same for tables, materialized views, and tablespaces. The DEFAULT
storage clause is required before the INMEMORY
clause when enabling a tablespace for the IM column store and before the NO INMEMORY
clause when disabling a tablespace for the IM column store.
When a tablespace is enabled for the IM column store, individual tables and materialized views in the tablespace can have different in-memory settings, and the settings for individual database objects override the settings for the tablespace. For example, if the tablespace is set to PRIORITY LOW
for populating data in memory, and if a table in the tablespace is set to PRIORITY HIGH
, then the table uses PRIORITY HIGH
.
Prerequisites
Ensure that the IM column store is enabled for the database. See "Enabling the IM Column Store for a Database".
To enable or disable tablespaces for the IM column store:
-
In SQL*Plus or SQL Developer, log in to the database as a user with the necessary privileges.
-
Run a
CREATE TABLESPACE
orALTER TABLESPACE
statement with anINMEMORY
clause or aNO INMEMORY
clause.
Example 4-5 Creating a Tablespace and Enabling It for the IM Column Store
The following example creates the users01
tablespace and enables it for the IM column store:
CREATE TABLESPACE users01
DATAFILE 'users01.dbf' SIZE 40M
ONLINE
DEFAULT INMEMORY;
This example uses the defaults for the INMEMORY
clause. Therefore, MEMCOMPRESS FOR QUERY
is used, and PRIORITY NONE
is used.
Example 4-6 Altering a Tablespace to Enable It for the IM Column Store
The following example alters the users01
tablespace to enable it for the IM column store and specifies FOR CAPACITY HIGH
compression for the database objects in the tablespace and PRIORITY LOW
for populating data in memory:
ALTER TABLESPACE users01 DEFAULT INMEMORY
MEMCOMPRESS FOR CAPACITY HIGH
PRIORITY LOW;
4.5 Enabling and Disabling Materialized Views for the IM Column Store
You can enable and disable materialized views for the IM column store.
Enable a materialized view for the IM column store by including an INMEMORY
clause in a CREATE MATERIALIZED VIEW
or ALTER MATERIALIZED VIEW
statement. Disable a materialized view for the IM column store by including a NO INMEMORY
clause in a CREATE MATERIALIZED VIEW
or ALTER MATERIALIZED VIEW
statement.
Prerequisites
Ensure that the IM column store is enabled for the database. See "Enabling the IM Column Store for a Database".
To enable or disable a materialized view for the IM column store:
-
In SQL*Plus or SQL Developer, log in to the database as a user with the necessary privileges.
-
Run a
CREATE MATERIALIZED VIEW
orALTER MATERIALIZED VIEW
statement with either anINMEMORY
clause or aNO INMEMORY
clause.
Example 4-7 Creating a Materialized View and Enabling It for the IM Column Store
The following statement creates the oe.prod_info_mv
materialized view and enables it for the IM column store:
CREATE MATERIALIZED VIEW oe.prod_info_mv INMEMORY
AS SELECT * FROM oe.product_information;
This example uses the defaults for the INMEMORY
clause: MEMCOMPRESS FOR QUERY LOW
and PRIORITY
NONE
.
Example 4-8 Enabling a Materialized View for the IM Column Store with HIGH Data Population Priority
The following statement enables the oe.prod_info_mv
materialized view for the IM column store:
ALTER MATERIALIZED VIEW oe.prod_info_mv INMEMORY PRIORITY HIGH;
This example uses the default compression: MEMCOMPRESS FOR QUERY LOW
.
See Also:
Oracle Database SQL Language Reference to learn more about the CREATE
or ALTER MATERIALIZED VIEW
statements