SQL$HELP72.HLB  —  ALTER  DATABASE  Arguments

1  –  ADD CACHE row-cache-name

    Adds a new row cache. For information regarding the row-cache-
    params-1 and row-cache-params-2, see the descriptions under the
    CREATE CACHE clause.

2  –  ADD_JOURNAL

    Creates a new journal file.

3  –  ADD_STORAGE_AREA

    Specifies the name and file specification for a storage area you
    want to add to the database. You can use the ADD STORAGE AREA
    clause only on multifile databases. The storage area name cannot
    be the same as any other storage area name in the database.

    The ADD STORAGE AREA clause creates two files: a storage area
    file with an .rda file extension and a snapshot file with an
    .snp file extension. If you omit the FILENAME argument, the file
    specification uses the following defaults:

    o  Device-the current device for the process

    o  Directory-the current directory for the process

    o  File name-the name specified for the storage area

    The file specification is used for the storage area and snapshot
    files that comprise the storage area (unless you use the SNAPSHOT
    FILENAME argument to specify a different file for the snapshot
    file, which you can only specify with a multifile database).
    Because the ADD STORAGE AREA clause creates two files with
    different file extensions, do not specify a file extension with
    the file specification.

    If you use the ALTER DATABASE statement to add a storage area,
    the change is journaled, however, you should back up your
    database before making such a change.

4  –  ADJUSTABLE_LOCK_GRANULARITY

    Syntax options:

    ADJUSTABLE LOCK GRANULARITY IS ENABLED | ADJUSTABLE LOCK
    GRANULARITY IS DISABLED

    Enables or disables whether or not the database system
    automatically maintains as few locks as possible on database
    resources. The default, ENABLED, results in fewer locks against
    the database. However, if contention for database resources is
    high, the automatic adjustment of locks can become a CPU drain.
    You can trade more restrictive locking for less CPU usage in such
    databases by disabling adjustable lock granularity.

5  –  ALERT_OPERATOR

    Specifies which operator will be notified of the occurrence of
    a database system event. You can specify the following operator
    classes:

    Operator
    Class          Meaning

    ALL            The ALL operator class broadcasts a message to
                   all terminals that are enabled as operators and
                   that are attached to the system or cluster. These
                   terminals must be turned on and have broadcast-
                   message reception enabled.
    NONE           The NONE operator class inhibits the display of
                   messages to the entire system or cluster.
    [NO] CENTRAL   The CENTRAL operator class broadcasts messages
                   sent to the central system operator. The NO
                   CENTRAL operator class inhibits the display of
                   messages sent to the central system operator.
    [NO] DISKS     The DISKS operator class broadcasts messages
                   pertaining to mounting and dismounting disk
                   volumes. The NO DISKS operator class inhibits
                   the display of messages pertaining to mounting and
                   dismounting disk volumes.
    [NO] CLUSTER   The CLUSTER operator class broadcasts messages
                   from the connection manager pertaining to
                   cluster state changes. The NO CLUSTER operator
                   class inhibits the display of messages from the
                   connection manager pertaining to cluster state
                   changes.
    [NO] CONSOLE   The CONSOLE class broadcasts messages to the
                   Oracle Enterprise Manager (OEM). NO CONSOLE
                   inhibits broadcast to OEM.
    [NO]           The SECURITY operator class displays messages
    SECURITY       pertaining to security events. The NO SECURITY
                   operator class inhibits the display of messages
                   pertaining to security events.
    [NO] OPER1     The OPER1 through OPER12 operator classes display
    through [NO]   messages to operators identified as OPER1 through
    OPER12         OPER12. The NO OPER1 through NO OPER12 operator
                   classes inhibit messages from being sent to the
                   specified operator.

6  –  ALLOCATION blocks for aij

    Syntax option:

    ALLOCATION IS n BLOCKS

    Specifies the number of blocks allocated for the .aij file. The
    default and minimum is 512 blocks. Even if you specify a value
    less than 512 blocks, the .aij file is allocated 512 blocks.

    For information on determining the allocation value, see the
    Oracle Rdb Guide to Database Design and Definition.

7  –  ALLOCATION IS n PAGES

    Specifies the number of database pages allocated to the storage
    area. The initial allocation never changes and is used for
    the hash algorithm. The new allocation becomes the current
    allocation. If you execute the RMU Dump/Header command, you see
    the initial and the current allocation.

    SQL automatically extends the allocation to handle the storage
    requirements. Pages are allocated in groups of three (known as a
    clump). An ALLOCATION of 25 pages actually provides for 27 pages
    of data and subsequent expansion. The default is 700 pages.

    The altered area is extended if the specified value exceeds
    the current area allocation. Otherwise the specified value is
    ignored.

8  –  ALTER_CACHE

    Alters an existing row cache.

    For more information, see the following arguments:

    o  ALLOCATION_blocks_for_rdc

    o  CACHE_SIZE_IS_n_ROWS

    o  EXTENT_blocks_for_rdc

    o  LARGE_MEMORY

    o  LOCATION

    o  NO_LOCATION

    o  NUMBER_OF_RESERVED_ROWS

    o  SHARED_MEMORY

    o  ROW_REPLACEMENT

    o  ROW_LENGTH

    o  WINDOW_COUNT

9  –  ALTER_JOURNAL

    Alters existing journal files. RDB$JOURNAL is the default journal
    name if no name is specified.

10  –  alter-root-file-params

    Parameters that control the characteristics of the database
    root file associated with the database or that control the
    characteristics that apply to the entire database. You can
    specify these parameters for either single-file or multifile
    databases except as noted in the individual parameter
    descriptions. For more information about database parameters
    and details about how they affect performance, see the Oracle
    Rdb7 Guide to Database Performance and Tuning.

    The ALTER DATABASE statement does not let you change all database
    root file parameters that you can specify in the CREATE DATABASE
    statement. You must use the EXPORT and IMPORT statements to
    change a number of storage area parameters. For more information
    on changing storage area parameters, see the IMPORT statement.

11  –  alter-storage-area-params

    Parameters that change the characteristics of database storage
    area files. You can specify the same storage area parameters for
    either single-file or multifile databases, but the effect of the
    clauses in this part of an ALTER DATABASE statement differs.

    o  For single-file databases, the storage area parameters
       change the characteristics for the single storage area in
       the database.

    o  For multifile databases, the storage area parameters change
       the characteristics of the RDB$SYSTEM storage area.

       You can also change some of the characteristics of the
       RDB$SYSTEM storage area using the ALTER STORAGE AREA clause.
       However, you can only change the read-only and read/write
       parameters in this part of the ALTER DATABASE statement. See
       the ALTER_STORAGE_AREA topic in this Arguments list for more
       information about the RDB$SYSTEM characteristics that you are
       allowed to alter.

    The ALTER DATABASE statement does not let you change all storage
    area parameters you can specify in the CREATE DATABASE statement.
    You must use the EXPORT and IMPORT statements to change the
    following database root file parameters:

    o  INTERVAL

    o  PAGE FORMAT

    o  PAGE SIZE

    o  SNAPSHOT FILENAME

    o  THRESHOLDS

12  –  ALTER_STORAGE_AREA

    Specifies the name of an existing storage area in the database
    that you want to alter. You can use the ALTER STORAGE AREA clause
    only on multifile databases.

    You can specify RDB$SYSTEM for the area-name if you are altering
    the following clauses:

    o  ALLOCATION IS number-pages PAGES

    o  extent-params

    o  CACHE USING row-cache-name

    o  NO ROW CACHE

    o  SNAPSHOT ALLOCATION IS snp-pages PAGES

    o  SHAPSHOT EXTENT

    o  CHECKSUM CALCULTION

    o  SNAPSHOT CHECKSUM CALCULATION

    Oracle Rdb generates an error if you specify RDB$SYSTEM or the
    DEFAULT storage area as the area-name when altering the following
    clauses:

    o  LOCKING IS PAGE LEVEL

    o  READ WRITE

    o  READ ONLY

    If you want to change the read-only and read/write parameters of
    the RDB$SYSTEM storage area using the ALTER DATABASE statement,
    you must specify these parameters outside of the ALTER STORAGE
    AREA clause.

13  –  ALTER_TRANSACTION_MODES

    Enables or disables the modes specified leaving the previously
    defined or default modes enabled. This is an offline operation
    and requires exclusive database access.

    If the current transaction modes are SHARED and READ ONLY and you
    want to add the EXCLUSIVE mode, use the following statement:

    SQL> ALTER DATABASE FILENAME mf_personnel
    cont>   ALTER TRANSACTION MODES (EXCLUSIVE);

14  –  ASYNC_BATCH_WRITES

    Syntax options:

    ASYNC BATCH WRITES ARE ENABLED | ASYNC BATCH WRITES ARE DISABLED

    Specifies whether asynchronous batch-writes are enabled or
    disabled.

    Asynchronous batch-writes allow a process to write batches of
    modified data pages to disk asynchronously (the process does not
    stall while waiting for the batch-write operation to complete).
    Asynchronous batch-writes improve the performance of update
    applications without the loss of data integrity.

    By default, batch-writes are enabled.

    For more information about when to use asynchronous batch-writes,
    see the Oracle Rdb7 Guide to Database Performance and Tuning.

    You can enable asynchronous batch-writes by defining the logical
    name RDM$BIND_ABW_ENABLED.

15  –  ASYNC_PREFETCH

    Syntax options:

    ASYNC PREFETCH IS ENABLED | ASYNC PREFETCH IS DISABLED

    Specifies whether or not Oracle Rdb reduces the amount of time
    that a process waits for pages to be read from disk by fetching
    pages before a process actually requests the pages.

    Prefetch can significantly improve performance, but it may
    cause excessive resource usage if it is used inappropriately.
    Asynchronous prefetch is enabled by default. For more information
    about asynchronous prefetch, see the Oracle Rdb7 Guide to
    Database Performance and Tuning.

    You can enable asynchronous prefetch by defining the logical name
    RDM$BIND_APF_ENABLED.

16  –  BACKUP_FILENAME

    Syntax option:

    BACKUP FILENAME backup-file-spec

    Specifies the default file specification to be used by the backup
    server.

    During execution, the backup server and the RMU Backup After_
    Journal command use this file specification as the name of the
    backup file. You can override this value by specifying a file
    name for the journal file using the RMU Backup After_Journal
    command.

17  –  backup-filename-options

    Specifies whether or not the backup file name includes an edit
    string. When the EDIT STRING clause is used, the specified backup
    file name is edited by appending any or all of the edit string
    options listed in the following table.

    Edit String
    Option         Meaning

    SEQUENCE       The journal sequence number of the first journal
                   file in the backup operation.
    YEAR           The current year expressed as a 4-digit integer.
    MONTH          The current month expressed as a 2-digit integer
                   (01-12).
    DAY            The current day of the month expressed as a 2-
                   digit integer (00-31).
    HOUR           The current hour of the day expressed as a 2-digit
                   integer (00-23).
    MINUTE         The current minute of the hour expressed as a
                   2-digit integer (00-59).
    JULIAN         The current day of the year expressed as a 3-digit
                   integer (001-366).
    WEEKDAY        The current day of the week expressed as a 1-digit
                   integer (1-7) where 1 is Sunday and 7 is Saturday.
    literal        Any string literal. This string literal is copied
                   to the file specification. See Quoted Character
                   String for more information about string literals.

    Use a plus sign (+)  between multiple edit string options. The
    edit string should be 32 characters or less in length.

    The default is NO EDIT STRING which means the BACKUP FILENAME
    supplied is all that is used to name the backup file.

18  –  BACKUP_SERVER

    Syntax options:

    BACKUP SERVER IS AUTOMATIC backup-file-spec | BACKUP SERVER IS
    MANUAL backup-file-spec

    Specifies whether the backup server runs automatically or
    manually.

    If BACKUP SERVER IS MANUAL is specified, you must execute the
    RMU Backup After_Journal command manually. If BACKUP SERVER
    IS AUTOMATIC is specified, a special backup server runs when
    a journal file in the set is full and causes a switch over to
    another journal file.

    The default is MANUAL.

19  –  BUFFER_SIZE

    Syntax option:

    BUFFER SIZE IS buffer-blocks BLOCKS

    Specifies the number of blocks Oracle Rdb allocates per buffer.
    You need to specify an unsigned integer greater than zero. The
    default buffer size is 3 times the PAGE SIZE value (6 blocks for
    the default PAGE SIZE of 2).

    The buffer size is a global parameter and the number of blocks
    per page (or buffer) is constrained to 64 blocks per page. The
    page size can vary by storage area for multifile databases, and
    the page size should be determined by the sizes of the records
    that will be stored in each storage area.

    When choosing the number of blocks per buffer, choose a number so
    that a round number of pages fits in the buffer. In other words,
    the buffer size is wholly divisible by all page sizes for all
    storage areas in your multifile database. For example, if you
    have three storage areas with page sizes of 2, 3, and 4 blocks
    each respectively, choosing a buffer size of 12 blocks ensures
    optimal buffer utilization. In contrast, choosing a buffer size
    of 8 wastes 2 blocks per buffer for the storage area with a page
    size of 3 pages. Oracle Rdb reads as many pages as fit into the
    buffer; in this instance it reads two 3-block pages into the
    buffer, leaving 2 wasted blocks.

    The altered buffer size must allow for existing page sizes. You
    cannot specify a buffer size smaller than the largest existing
    page size.

20  –  CACHE_USING

    Specifies that the named row cache is the default physical row
    cache for all storage areas in the database. All rows stored in
    each storage area are cached, regardless of whether they consist
    of table data, segemented string data, or are special rows such
    as index nodes.

    You must either add the specified cache before completing the
    ALTER DATABASE statement, or it must already exist.

    Alter the database and storage area to asign a new physical
    area row cache that overrides the database default physical area
    row cache. Only one physical area row cache is allowed for each
    storage area.

    You can have multiple row caches that contain rows for a single
    storage area by defining logical area row caches, where the row
    cache name matches the name of a table or index.

    If you do not specify the CACHE USING clause or the NO ROW CACHE
    clause, then the NO ROW CACHE clause is the default.

21  –  CARDINALITY_COLLECTION

    Syntax options:

    CARDINALITY COLLECTION IS ENABLED | CARDINALITY COLLECTION IS
    DISABLED

    Specifies whether or not the optimizer records cardinality
    updates in the system tables. When enabled, the optimizer
    collects cardinalities for tables and indexes as rows are
    inserted or deleted from tables. The update of the cardinalities
    is performed at commit time, if sufficient changes have
    accumulated, or at disconnect time.

    In high update environments, it may be more convenient to
    disable cardinality updates. If you disable this feature, you
    should manually maintain the cardinalities using the RMU Collect
    Optimizer_Statistics command so that the optimizer is given the
    most accurate values for estimation purposes.

    Cardinality collection is enabled by default.

22  –  CARRY_OVER_LOCKS

    Syntax options:

    CARRY OVER LOCKS ARE ENABLED | CARRY OVER LOCKS ARE DISABLED

    Enables or disables carry-over lock optimization. Carry-over lock
    optimization holds logical area locks (table and index) across
    transactions. Carry-over locks are enabled by default and are
    available as an online database modification.

    For more information on carry-over lock optimization, see the
    CREATE DATABASEstatement.

23  –  CHECKPOINT EVERY n TRANSACTIONS

    A FAST COMMIT option which allows the checkpoint to be generated
    after a set number of transactions.

    See the following example.

    SQL> alter database
    cont>     filename db$:scratch
    cont>
    cont>     journal is enabled
    cont>         (fast commit is enabled
    cont>             (checkpoint every 20 transactions,
    cont>              checkpoint timed every 20 seconds
    cont>             )
    cont>         )
    cont>     add journal rdb$journal
    cont>         filename db$:scratch_aij
    cont> ;
    %RDMS-W-DOFULLBCK, full database backup should be done to ensure future recovery

24  –  CHECKPOINT_INTERVAL

    Syntax option:

    CHECKPOINT INTERVAL IS n BLOCKS

    You can limit how many transactions the database recovery process
    (DBR) must redo by setting a checkpoint interval. Setting a
    checkpoint interval instructs Oracle Rdb to periodically write
    modified pages to disk. This shortens recovery time.

    The value you assign to the checkpoint interval specifies the
    number of blocks the .aij file is allowed to increase to before
    updated pages are transferred. For example, if you set the
    checkpoint interval value equal to 100, all processes transfer
    updated pages to the disk when 100 blocks were written to
    the .aij file since the last checkpoint. Thus all processes
    contribute to .aij growth.

    If no checkpoint interval is established and a process completes
    1000 transactions but fails during number 1001, the DBR must redo
    transactions 1 through 1000 and undo number 1001.

    When a process attaches to the database, it writes a checkpoint
    record to the .aij file and notes the virtual block number (VBN)
    of the .aij file at which the checkpoint record is located. If
    the checkpoint is located at VBN 120 and the checkpoint interval
    is 100 blocks, the process checkpoints again when VBN 220 is
    reached.

    Because all processes contribute to .aij file growth, a process
    may be able to commit many transactions before checkpointing
    if update activity by other processes is low. Conversely, if a
    process' first transaction is long and if update activity by
    other processes is high, the process may be forced to checkpoint
    when it commits its first transaction.

    When the database checkpoint interval value is reached, Oracle
    Rdb executes the following steps:

    1. Writes updated pages to the disk.

    2. Writes a checkpoint record to the .aij file.

    3. Updates the run-time user process block (RTUPB) for each
       process to indicate where the checkpoint record is stored
       in the .aij file.

       The RTUPB is a data structure in the database root file that
       maintains information on each process accessing the database.
       The database recovery process (DBR) uses the RTUPB checkpoint
       entry to determine where in the .aij file recovery must start.

25  –  CHECKPOINT TIMED for fast commit

    Assigns a value to the checkpoint interval specifying the number
    of seconds that can pass before updated pages are written. When
    the specified number of seconds elapsed, Oracle Rdb executes the
    checkpoint steps.

    For example, if you specify TIMED EVERY 100 SECONDS, each process
    checkpoints after at least 100 seconds have passed since its last
    checkpoint.

    You can set both a checkpoint based on time and a checkpoint
    based on .aij file growth; Oracle Rdb performs a checkpoint
    operation at whichever checkpoint it reaches first.

    The following statement enables fast commit processing and
    specifies checkpoint intervals of 512 blocks and 12 seconds:

    SQL> ALTER DATABASE FILENAME test1
    cont> JOURNAL IS ENABLED
    cont>    (FAST COMMIT ENABLED
    cont>       (CHECKPOINT INTERVAL IS 512 BLOCKS,
    cont>        CHECKPOINT TIMED EVERY 12 SECONDS)
    cont>    );

26  –  Checkpoint Rows

    Syntax options:

    CHECKPOINT UPDATED ROWS TO BACKING FILE

    CHECKPOINT UPDATED ROWS TO DATABASE

    CHECKPOINT ALL ROWS TO BACKING FILE

    Specifies the default source and target during checkpoint
    operations for all row caches. If ALL ROWS is specified, then the
    source records written during each checkpoint operation are both
    the modified and the unmodified rows in a row cache. If UPDATED
    ROWS is specified, then just the modified rows in a row cache are
    checkpointed each time.

    If the target of the checkpoint operation is BACKING FILE,
    then the RCS process writes the source row cache entries to
    the backing (.rdc) files. The row cache LOCATION, ALLOCATION,
    and EXTENT clauses are used to create the backing files. Upon
    recovery from a node failure, the database recovery process is
    able to repopulate the row caches in memory from the rows found
    in the backing files.

    If the target is DATABASE, then updated row cache entries
    are written back to the database. The row cache LOCATION,
    ALLOCATION, and EXTENT clauses are ignored. Upon recovery from
    a node failure, the database recovery process has no data on the
    contents of the row cache. Therefore, it does not repopulate the
    row caches in memory.

    The CHECKPOINT clause of the CREATE CACHE, ADD CACHE, or ALTER
    CACHE clause overrides this database-level CHECKPOINT clause.

27  –  CHECKSUM_CALCULATION

    Syntax options:

       CHECKSUM CALCULATION
       SNAPSHOT CHECKSUM CALCULATION

 This option allows you to enable or disable calculations of page
 checksums when pages are read from or written to the storage area or
 snapshot files.

    The default is ENABLED.

                                   NOTE

       Oracle Corporation recommends that you leave checksum
       calculations enabled, which is the default.

    With current technology, it is possible that errors may occur
    that the checksum calculation can detect but that may not
    be detected by either the hardware, firmware, or software.
    Unexpected application results and database corruption may occur
    if corrupt pages exist in memory or on disk but are not detected.

    Oracle Corporation recommends performing checksum calculations,
    except in the following specific circumstances:

    o  Your application is stable and has run without errors on the
       current hardware and software configuration for an extended
       period of time.

    o  You have reached maximum CPU utilization in your current
       configuration. Actual CPU utilization by the checksum
       calculation depends primarily on the size of the database
       pages in your database. The larger the database page, the
       more noticeable the CPU usage by the checksum calculation may
       become.

                                   NOTE

       Oracle Corporation recommends that you carefully evaluate
       the trade-off between reducing CPU usage by the checksum
       calculation and the potential for loss of database integrity
       if checksum calculations are disabled.

    Oracle Corporation allows you to disable and, subsequently,
    re-enable checksum calculation without error. However, once
    checksum calculations have been disabled, corrupt pages may
    not be detected even if checksum calculations are subsequently
    re-enabled.

28  –  CLEAN_BUFFER_COUNT

    Syntax option:

    CLEAN BUFFER COUNT IS buffer-count BUFFERS

    Specifies the number of buffers to be kept available for
    immediate reuse.

    The default is five buffers. The minimum value is one; the
    maximum value can be as large as the buffer pool size.

    You can override the number of clean buffers by defining the
    logical name RDM$BIND_CLEAN_BUF_CNT. For information about how to
    set the values, see the Oracle Rdb7 Guide to Database Performance
    and Tuning.

29  –  COMMIT_TO_JOURNAL_OPTIMIZATION

    Syntax options:

    COMMIT TO JOURNAL OPTIMIZATION | NO COMMIT TO JOURNAL
    OPTIMIZATION

    If you enable COMMIT TO JOURNAL OPTIMIZATION when you enable fast
    commit processing, Oracle Rdb does not write commit information
    to the database root file. This option enhances performance
    in database environments that are update-intensive. Because
    of the prerequisites for enabling the journal optimization
    option, general-use databases or databases that have many read-
    only transactions may not benefit from this feature. For more
    information, see the Oracle Rdb7 Guide to Database Performance
    and Tuning.

                                   NOTE

       If you specify COMMIT TO JOURNAL OPTIMIZATION, you must
       disable or defer snapshots.

       If you change snapshots to ENABLED IMMEDIATE, then you must
       specify NO COMMIT TO JOURNAL OPTIMIZATION.

30  –  COUNT IS n

    Specifies the number of levels on the page lock tree used to
    manage locks. For example, if you specify COUNT IS 3, the fanout
    factor is (10, 100, 1000). Oracle Rdb locks a range of 1000 pages
    and adjusts downward to 100 and then to 10 and then to 1 page
    when necessary.

    If the COUNT IS clause is omitted, the default is 3. The value of
    n can range from 1 through 8.

31  –  DEPTH buffers option

    Syntax option:

    DEPTH IS number-buffers BUFFERS

    Specifies the number of buffers to prefetch for a process.

    The default is one-quarter of the buffer pool, but not more than
    eight buffers. You can override the number of buffers specified
    in the CREATE or ALTER DATABASE statements by using the logical
    name RDM$BIND_APF_DEPTH.

    You can also specify this option with the DETECTED ASYNC PREFETCH
    clause.

32  –  DETECTED_ASYNC_PREFETCH

    Syntax options:

    DETECTED ASYNC PREFETCH IS ENABLED | DETECTED ASYNC PREFETCH IS
    DISABLED

    Specifies whether or not Oracle Rdb reduces the amount of time
    that a process waits for pages to be read from disk.

    By using heuristics, detected asynchronous prefetch determines if
    an I/O pattern is sequential in behavior even if sequential I/O
    is not actually executing at the time. For example, when a LIST
    OF BYTE VARYING column is fetched, the heuristics detect that
    the pages being fetched are sequential and asynchronously fetches
    pages further in the sequence. This avoids wait times when the
    page is really needed.

    Detected asynchronous prefetch is enabled by default.

33  –  DICTIONARY required option

    Syntax options:

    DICTIONARY IS REQUIRED | DICTIONARY IS NOT REQUIRED

    Specifies whether or not definition statements issued for the
    database must also be stored in the repository. If you specify
    the REQUIRED option, any data definition statements issued after
    an ATTACH or DECLARE ALIAS statement that does not specify the
    PATHNAME argument fails.

    If you specify the DICTIONARY argument in an ALTER DATABASE
    statement, you cannot specify any other database root file or
    storage area parameters.

    If you omitted the PATHNAME clause from the database root file
    parameters in the CREATE DATABASE statement that created the
    database, SQL generates an error if you specify DICTIONARY IS
    REQUIRED in an ALTER DATABASE statement for the same database.
    This is not true if you use the INTEGRATE statement with the
    CREATE PATHNAME clause to copy database definitions to the
    repository before specifying the DICTIONARY IS REQUIRED clause
    in an ALTER DATABASE statement for that database.

34  –  DICTIONARY used option

    Syntax options:

    DICTIONARY IS USED | DICTIONARY IS NOT USED

    Specifies whether or not to remove the link between the
    repository and the database. If you specify the DICTIONARY IS NOT
    USED clause, the definitions in both the repository and database
    are still maintained. After removing the links, you can integrate
    the database to a new repository.

    The DICTIONARY IS USED clause is the default.

35  –  DROP_CACHE

    Syntax options:

    DROP CACHE row-cache-name CASCADE | DROP CACHE row-cache-name
    RESTRICT

    Deletes the specified row cache from the database. If the mode is
    RESTRICT, then an exeption is raised if the row cache is assigned
    to a storage area. If the mode is CASCADE, then the row cache is
    removed from all referencing storage areas.

    The default is RESTRICT if no mode is specified.

36  –  DROP_JOURNAL

    Deletes the specified journal file from the database.

    You can only delete an .aij file that is not current and that has
    been backed up.

37  –  DROP_STORAGE_AREA

    Syntax options:

    DROP STORAGE AREA area-name CASCADE | DROP STORAGE AREA area-name
    RESTRICT

    Deletes the specified storage area definition and the associated
    storage area and snapshot files. You can use the DROP STORAGE
    AREA clause only on multifile databases.

    If you use the RESTRICT keyword, you cannot delete a storage area
    if any database object, such as a storage map, refers to the area
    or if there is data in the storage area.

    If you use the CASCADE keyword, Oracle Rdb modifies all objects
    that refer to the storage area so that they no longer refer to
    it. However, Oracle Rdb does not delete objects if doing so makes
    the database inconsistent.

    If you use the ALTER DATABASE statement to delete a storage
    area, the change is journaled, however, you should back up your
    database before making such a change.

38  –  EXTENT blocks for aij

    Specifies the number of blocks of each .aij file extent. The
    default and minimum extent for .aij files is 512 blocks.

39  –  EXTENT clause

    Syntax options:

    EXTENT ENABLED | EXTENT DISABLED

    Enables or disables extents. Extents are ENABLED by default
    and can be changed on line; however, the new extents are not
    immediately effective on all nodes of a cluster. On the node on
    which you have changed extents, the new storage area extents are
    immediately effective for all users. The new storage area extents
    become effective as the database is attached on each node of the
    cluster.

    You can encounter performance problems when creating hashed
    indexes in storage areas with the mixed page format if the
    storage area was created specifying the wrong size for the area
    and if extents are enabled. By disabling extents, this problem
    can be diagnosed early and corrected to improve performance.

40  –  EXTENT pages

    Syntax options:

    EXTENT IS extent-pages PAGES | EXTENT IS (extension-options)

    Changes the number of pages of each storage area file extent. See
    the description under the SNAPSHOT EXTENT argument.

41  –  FAST_COMMIT

    Syntax options:

    FAST COMMIT IS ENABLED | FAST COMMIT IS DISABLED

    By default, Oracle Rdb writes updated database pages to the
    disk each time a transaction executes the COMMIT statement. If
    a transaction fails before committing, Oracle Rdb only needs to
    roll back (undo) the current failed transaction; it never has to
    redo previous successful transactions.

    You can change the commit processing method by enabling journal
    fast commit processing. With journal fast commit enabled, Oracle
    Rdb keeps updated pages in the buffer pool (in memory) and does
    not write the pages to the disk when a transaction commits. The
    updated pages remain in the buffer pool until the process meets a
    condition specified by the database administrator or applications
    programmer. At the moment the condition is met (the checkpoint),
    all the pages the process updated for multiple transactions are
    written to the disk.

    You can set a checkpoint for your process when:

    o  A fixed number of transactions are committed or aborted. You
       set this by specifying CHECKPOINT EVERY n TRANSACTIONS.

    o  A specified time interval elapsed. You set this by specifying
       the CHECKPOINT TIMED EVERY n SECONDS clause.

    o  The after-image journal (.aij) file increased by a specified
       number of blocks. You set this by specifying the CHECKPOINT
       INTERVAL IS n BLOCKS clause.

    If a transaction fails, Oracle Rdb must undo the current, failed
    transaction and redo all the committed transactions since the
    last checkpoint. Redoing updates involves reading the .aij file
    and reapplying the changes to the relevant data pages.

    Fast commit processing applies only to data updates: erase,
    modify, and store operations. Transactions that include
    data definition statements, such as create logical area or
    create index operations, force a checkpoint at the end of the
    transaction. If you do not specify values with the FAST COMMIT
    clause, the default values are applied.

                                   NOTE

       To enable FAST COMMIT, you must first enable after-image
       journaling.

42  –  FILENAME file spec

    Identifies the database root file associated with the database.
    If you specify a repository path name, the path name indirectly
    specifies the database root file. The ALTER DATABASE statement
    does not change any definitions in the repository, so there is no
    difference in the effect of the PATHNAME and FILENAME arguments.

    If you specify PATHNAME, SQL does not use the repository's fully
    qualified name. Instead, SQL uses the name stored as the user-
    supplied name in the repository. In the following example, SQL
    uses the name TEST as the file name, not DB$DISK:[DBDIR]TEST.RDB.
    As a result, the database root file must be located in your
    present working directory or the database name must be a logical
    name when you use the PATHNAME clause.

    $ REPOSITORY OPERATOR
       .
       .
       .
    CDO> show database/full test
    Definition of database  TEST
    |   database uses RDB database TEST
    |   database in file TEST
    |   |   fully qualified file DB$DISK:[DBDIR]TEST.RDB;
    |   |   user-specified file DB$DISK:[DBDIR]test.rdb

    If the database referred to in the PATHNAME or FILENAME argument
    has been attached, the ALTER DATABASE statement will fail with a
    file access conflict error.

43  –  FILENAME journal file spec

    Specifies the journal file specification with the default file
    extension .aij.

44  –  GALAXY_SUPPORT

    Syntax options:

    GALAXY SUPPORT IS ENABLED|GALAXY SUPPORT IS DISABLED

    Allows global memory to be shared in an OpenVMS Galaxy
    configuration. Galaxy support is disabled by default.

    OpenVMS Galaxy is a software architecture for the OpenVMS Alpha
    operating system that enables multiple instances of OpenVMS to
    execute cooperatively in a single computer. An instance refers
    to a copy of the OpenVMS Alpha operating system. As an extension
    of the existing OpenVMS cluster support within Oracle Rdb, Oracle
    Rdb provides support for databases opened on multiple instances
    (or nodes) within a Galaxy system to share data structures in
    memory. Within an Oracle Rdb Galaxy environment, all instances
    with an open database share:

    o  Database root objects (for example, TSN blocks and SEQ blocks)

    o  Global buffers (if enabled)

    o  Row caches and Row Cache Server process (RCS) (if enabled)

45  –  GLOBAL_BUFFERS

    Syntax options:

    GLOBAL BUFFERS ARE ENABLED | GLOBAL BUFFERS ARE DISABLED

    Specifies whether or not Oracle Rdb maintains one global buffer
    pool per VMScluster node for each database. By default, Oracle
    Rdb maintains a local buffer pool for each attach (GLOBAL BUFFERS
    ARE DISABLED). For more than one attach to use the same page,
    each must read it from the disk into their local buffer pool.
    A page in the global buffer pool can be read by more than one
    attach at the same time, although only one attach reads the page
    from the disk into the global buffer pool. Global buffers improve
    performance because the I/O is reduced, and memory is better
    utilized.

                                   NOTE

       If GALAXY SUPPORT is enabled, then a single global buffer
       pool is shared by all Galaxy nodes.

46  –  INCREMENTAL_BACKUP_SCAN_OPTIMIZATION

    Syntax options:

    INCREMENTAL BACKUP SCAN OPTIMIZATION | NO INCREMENTAL BACKUP SCAN
    OPTIMIZATION

    Specifies whether Oracle Rdb checks each area's SPAM pages or
    each database page to find changes during incremental backup.

    If you specify INCREMENTAL BACKUP SCAN OPTIMIZATION, Oracle Rdb
    checks each area's SPAM pages and scans the SPAM interval of
    pages only if the SPAM transaction number (TSN) is higher than
    the last full backup TSN, which indicates that a page in the SPAM
    interval has been updated since the last full backup operation.

    Specify INCREMENTAL BACKUP SCAN OPTIMIZATION if your database has
    large SPAM intervals or infrequently occurring updates, and you
    want to increase the speed of incremental backups. If you disable
    the attribute (using the NO INCREMENTAL BACKUP SCAN OPTIMIZATION
    clause), you cannot enable it until immediately after the next
    full backup.

    If you specify NO INCREMENTAL BACKUP SCAN OPTIMIZATION, Oracle
    Rdb checks each page to find changes during incremental backup.

    Specify the NO INCREMENTAL BACKUP SCAN OPTIMIZATION clause if
    your database has frequently occurring updates, uses bulk-load
    operations, or does not use incremental backups, or if you want
    to improve run-time performance.

    The default is INCREMENTAL BACKUP SCAN OPTIMIZATION.

47  –  JOURNAL clause for aij

    Syntax options:

    JOURNAL IS ENABLED | JOURNAL IS DISABLED

    Specifies whether or not journaling is enabled.

    If journal files already exist, the JOURNAL IS ENABLED clause
    simply restarts the journaling feature.

    If no journal files exist when the ALTER DATABASE . . . JOURNAL IS
    ENABLED statement completes, an exception is raised. For example:

    SQL> ALTER DATABASE FILENAME sample
    cont> JOURNAL IS ENABLED;
    %RDMS-F-NOAIJENB, cannot enable after-image journaling without any AIJ journals

    Use the ADD JOURNAL clause to create journal files.

    The ENABLED option can be followed by a list of database journal
    options.

    All journal files remain unchanged but become inaccessible when
    you disable them. You cannot specify database journal options
    with the DISABLED option.

48  –  JOURNAL_IS_UNSUPPRESSED

    If a journal file becomes inaccessible, it is disabled by the
    journaling system. It remains in that state until you correct the
    problem and manually unsuppress that journal file.

49  –  literal-user-auth

    Specifies the user name and password for access to databases,
    particularly remote database.

    This literal lets you explicitly provide user name and password
    information in the ALTER DATABASE statement.

50  –  LOCATION IS directory-spec

    Specifies the name of the default directory to which row
    cache backing file information is written. The database system
    generates a file name (row-cache-name.rdc) automatically for each
    row cache backing file it creates when the RCS process starts up.
    Specify a device name and directory name enclosed within single
    quotation marks ('); do not include a file specification. The
    file name is the row-cache-name specified when creating the row
    cache. By default, the location is the directory of the database
    root file.

    The LOCATION clause of the CREATE CACHE, ADD CACHE, or ALTER
    CACHE clause overrides this location, which is the default for
    the database.

    This clause is ignored if the row cache is defined to checkpoint
    to the database.

51  –  LOCK_PARTITIONING

    Syntax options:

    LOCK PARTITIONING IS ENABLED | LOCK PARTITIONING IS DISABLED

    Specifies whether more than one lock tree is used for the
    database or all lock trees for a database are mastered by one
    database resource tree.

    When partitioned lock trees are enabled for a database, locks for
    storage areas are separated from the database resource tree and
    all locks for each storage area are independently mastered on the
    VMScluster node that has the highest traffic for that resource.
    OpenVMS determines the node that is using each resource the most
    and moves the resource hierarchy to that node.

    You cannot enable lock partitioning for single-file databases.
    You should not enable lock partitioning for single-node systems,
    because all lock requests are local on single-node systems.

    By default, lock partitioning is disabled.

52  –  LOCK_TIMEOUT_INTERVAL

    Syntax option:

    LOCK TIMEOUT INTERVAL IS number-seconds SECONDS

    Specifies the number of seconds for processes to wait during a
    lock conflict before timing out. The number can be between 1 and
    65,000 seconds.

    Specifying 0 is interpreted as no lock timeout interval being
    set. It is not interpreted as 0 seconds.

    The lock timeout interval is database-wide; it is used as
    the default and the upper limit when determining the timeout
    interval. For example, if the database definer specified LOCK
    TIMEOUT INTERVAL IS 25 SECONDS in the ALTER DATABASE statement,
    and a user of that database specified SET TRANSACTION WAIT 30 or
    changed the logical name RDM$BIND_LOCK_TIMEOUT_INTERVAL to 30,
    SQL still uses the interval 25. For more information on timeout
    intervals, see the Oracle Rdb7 Guide to Distributed Transactions.

53  –  LOCKING level

    Syntax options:

    LOCKING IS ROW LEVEL | LOCKING IS PAGE LEVEL

    Specifies if locking is at the page or row level. This clause
    provides an alternative to requesting locks on records. The
    default is ROW LEVEL.

    When many records are accessed in the same area and on the same
    page, the LOCKING IS PAGE LEVEL clause reduces the number of lock
    operations perfomed to process a transaction; however, this is at
    the expense of reduced concurrency because these page locks are
    held until COMMIT/ROLLBACK time. Transactions that benefit most
    with page-level locking are of short duration and also access
    several database records on the same page.

    Use the LOCKING IS ROW LEVEL clause if transactions are long in
    duration and lock many rows.

    The LOCKING IS PAGE LEVEL clause causes fewer blocking
    asynchronous system traps and provides better response time
    and utilization of system resources. However, there is a higher
    contention for pages and increased potential for deadlocks and
    long transactions may use excessive locks.

    Page-level locking is never applied to RDB$SYSTEM or the DEFAULT
    storage area, either implicitly or explicitly, because the
    locking protocol can stall metadata users.

    You cannot specify page-level locking on single-file databases.

54  –  LOG_SERVER

    Syntax options:

    LOG SERVER IS MANUAL | LOG SERVER IS AUTOMATIC

    Specifies if the AIJ log server (ALS) is activated manually or
    automatically. The default is manual.

    Multiple-user databases with medium to high update activity
    can experience after-image journal (.aij) file bottlenecks.
    To alleviate these bottlenecks, you can specify the LOG SERVER
    clause to transfer log data to the .aij file either automatically
    or manually. On a single node with ALS, there is no AIJ locking.

    If the log server is set to MANUAL, you must execute the RMU
    Server After_Journal command with the Start qualifier to start
    the log server. In this case, the database must already be open.
    If the OPEN IS MANUAL clause was specified, an explicit RMU Open
    command needs to be executed before the log server is started.
    If the OPEN IS AUTOMATIC clause was specified, at least one
    user should be attached to the database before the log server
    is started.

    If the log server is set to AUTOMATIC, the log server starts when
    the database is opened, automatically or manually, and is shut
    down when the database is closed.

    For more information on setting log servers, see the Oracle Rdb7
    Guide to Database Performance and Tuning.

55  –  LOGMINER_SUPPORT

    Syntax options:

    LOGMINER SUPPORT IS ENABLED|LOGMINER SUPPORT IS DISABLED

    Allows additional information to be written to the after-image
    journal file to allow the use of the RMU Unload After_Image
    command. See the Oracle RMU Reference Manual for more details.
    Logminer support is disabled by default.

    The LOGMINER SUPPORT clause allows the continuous mode for
    LogMiner to be enabled and disabled.

    o  LOGMINER SUPPORT IS ENABLED (CONTINUOUS)

       Enables continuous LogMiner.

    o  LOGMINER SUPPORT IS ENABLED (NOT CONTINUOUS)

       Disables continuous LogMiner, but leaves LogMiner enabled.

    o  LOGMINER SUPPORT IS DISABLED

       Disables LogMiner, including disabling continuous LogMiner.

56  –  MAXIMUM_BUFFER_COUNT

    Syntax option:

    MAXIMUM BUFFER COUNT IS buffer-count

    Specifies the number of buffers a process will write
    asynchronously.

    The default is one-fifth of the buffer pool, but not more than 10
    buffers. The minimum value is 2 buffers; the maximum value can be
    as large as the buffer pool.

    You can override the number of buffers to be written
    asynchronously by defining the logical name RDM$BIND_BATCH_MAX.
    For information about how to set the values, see the Oracle Rdb7
    Guide to Database Performance and Tuning.

57  –  MAXIMUM_PAGES

    Syntax option:

    MAXIMUM OF max-pages PAGES

    Specifies the maximum number of pages of each extent. The default
    is 9999 pages.

58  –  METADATA_CHANGES

    Syntax options:

    METADATA CHANGES ARE ENABLED | METADATA CHANGES ARE DISABLED

    Specifies whether or not data definition changes are allowed
    to the database. This attribute becomes effective at the
    next database attach and affects all ALTER, CREATE, and DROP
    statements (except ALTER DATABASE which is needed for database
    tuning) and the GRANT, REVOKE, and TRUNCATE TABLE statements. For
    example:

    SQL> CREATE DATABASE FILENAME sample;
    SQL> CREATE TABLE t (a INTEGER);
    SQL> DISCONNECT ALL;
    SQL> ALTER DATABASE FILENAME sample
    cont> METADATA CHANGES ARE DISABLED;
    SQL> ATTACH 'FILENAME sample';
    SQL> CREATE TABLE s (b INTEGER);
    %RDB-E-NO_META_UPDATE, metadata update failed
    -RDMS-E-NOMETADATA, metadata operations are disabled

    The METADATA CHANGES ARE DISABLED clause prevents data definition
    changes to the database.

    The METADATA CHANGES ARE ENABLED clause allows data definition
    changes to the database by users granted the DBADMIN privilege.

    METADATA CHANGES ARE ENABLED is the default.

59  –  MINIMUM_PAGES

    Syntax option:

    MINIMUM OF min-pages PAGES

    Specifies the minimum number of pages of each extent. The default
    is 99 pages.

60  –  MULTISCHEMA

    Syntax options:

    MULTISCHEMA IS ON | MULTISCHEMA IS OFF

    Specifies the multischema attribute for the database. If a
    database has the multischema attribute, you can create multiple
    schemas in that database and group them within catalogs. The
    MULTISCHEMA IS ON option is the default for databases created
    with the multischema attribute. MULTISCHEMA IS OFF is the default
    for databases created without the multischema attribute.

    You can create a database using the CREATE DATABASE MULTISCHEMA
    IS ON clause, but you cannot use ALTER DATABASE MULTISCHEMA IS
    OFF to take away the multischema attribute. Once a database has
    the multischema attribute, you cannot change it.

61  –  NO_BACKUP_FILENAME

    Removes a previously established backup file specification.

62  –  NO_LOCATION

    This is a subclause of other clauses and has different effects,
    depending upon the clause in which it is used, as follows:

    o  In the row-cache-options clause

       Removes the location previously specified in a LOCATION IS
       clause for the row cache. If you specify NO LOCATION, the
       row cache location becomes the directory of the database root
       file.

       The LOCATION clause of the CREATE CACHE, ADD CACHE, or ALTER
       CACHE clause overrides this location, which is the default for
       the database.

    o  In a CREATE CACHE, ADD CACHE, or ALTER CACHE clause (row-
       cache-params1 clause)

       Removes the location previously specified in a LOCATION IS
       clause for the row cache backing file. If you specify NO
       LOCATION, the row cache location becomes the directory of
       the database root file.

       This clause is ignored if the row cache is defined to
       checkpoint to the database.

63  –  NO_ROW_CACHE

    Specifies that the database default is to not assign a row cache
    to all storage areas in the database. You cannot specify the NO
    ROW CACHE clause if you specify the CACHE USING clause.

    Alter the storage area and name a row cache to override the
    database default. Only one row cache is allowed for each storage
    area.

    If you do not specify the NO ROW CACHE clause or the CACHE USING
    clause, then the NO ROW CACHE clause is the default.

64  –  NO_SWEEP_INTERVAL

    NO SWEEP INTERVAL disables periodic timed sweeps.

65  –  NOTIFY

    Syntax options:

    NOTIFY IS ENABLED | NOTIFY IS DISABLED

    Specifies whether system notification is enabled or disabled.

    When the system notification is enabled, the system is notified
    (using the OpenVMS OPCOM facility) in the event of events such as
    running out of disk space for a journal.

    If you specify the NOTIFY IS ENABLED clause and do not specify
    the ALERT OPERATOR clause, the operator classes used are CENTRAL
    and CLUSTER. To specify other operator classes, use the ALERT
    OPERATOR clause.

    The NOTIFY IS ENABLED clause replaces any operator classes set by
    the RMU Set After_Journal Notify command.

    The default is disabled.

66  –  NUMBER global buffers

    Syntax option:

    NUMBER IS number-glo-buffers

    Specifies the total number of buffers in the global buffer pool.
    This number appears as "global buffer count" in RMU Dump command
    output. Base this value on the database users' needs and the
    number of attachments. The default is the maximum number of
    attachments multiplied by 5.

                                   NOTE

       Do not confuse the NUMBER IS parameter with the NUMBER OF
       BUFFERS IS parameter. The NUMBER OF BUFFERS IS parameter
       determines the default number of buffers Oracle Rdb
       allocates to each user's process that attaches to the
       database. The NUMBER OF BUFFERS IS parameter applies to,
       and has the same meaning for, local and global buffering.
       The NUMBER IS parameter has meaning only within the context
       of global buffering.

    You can override the default number of user-allocated buffers by
    defining a value for the logical name RDM$BIND_BUFFERS. For more
    information on user-allocated buffers, see Oracle Rdb7 Guide to
    Database Performance and Tuning.

    Although you can change the NUMBER IS parameter on line, the
    change does not take effect until the next time the database is
    opened.

67  –  NUMBER_OF_BUFFERS

    Syntax option:

    NUMBER OF BUFFERS IS number-buffers

    The number of buffers SQL allocates for each process using this
    database. Specify an unsigned integer with a value greater than
    or equal to 2 and less than or equal to 32,767. The default is 20
    buffers.

68  –  NUMBER_OF_CLUSTER_NODES

    Syntax option:

    NUMBER OF CLUSTER NODES IS number-nodes

    Sets the upper limit on the maximum number of VMS cluster nodes
    from which users can access the shared database. Specify this
    clause only if the database named in the ALTER DATABASE statement
    refers to a multifile database. The default is 16 nodes. The
    range is 1 to 96 nodes. The actual maximum limit is the current
    VMS cluster node limit set by your system administrator.

    The Oracle Rdb root file data structures (.rdb) are mapped to
    shared memory, each such shared memory copy is known as an Rdb
    instance. When there is only one copy of shared memory containing
    root file information, several optimizations are enabled to
    reduce locking and root file I/O. activity. Specify NUMBER OF
    CLUSTER NODES is set to 1, or use the SINGLE INSTANCE clause to
    enable these optimizations.

    MULTIPLE INSTANCE means that the Oracle Rdb root file data
    structures are mapped on different system and are kept consistent
    through disk I/O. Such systems can not benefit from single
    instance optimizations. MULTIPLE INSTANCE is the default.

69  –  NUMBER_OF_RECOVERY_BUFFERS

    Syntax option:

    NUMBER OF RECOVERY BUFFERS IS number-buffers

    Specifies the number of buffers allocated to the automatic
    recovery process that Oracle Rdb initiates after a system or
    process failure. This recovery process uses the recovery-unit
    journal file (.ruj file extension).

    You can specify any number greater than or equal to 2 and less
    than or equal to 32,767. The default value for the NUMBER OF
    RECOVERY BUFFERS parameter is 20. If you have a large, multifile
    database and you work on a system with a large amount of memory,
    specify a large number of buffers. The result is faster recovery
    time. However, make sure your buffer pool does not exceed the
    amount of memory you can allocate for the pool.

    Use the NUMBER OF RECOVERY BUFFERS option to increase the number
    of buffers allocated to the recovery process.

    SQL> ALTER DATABASE FILENAME personnel
    cont>  NUMBER OF RECOVERY BUFFERS IS 150;

    This option is used only if the NUMBER OF RECOVERY BUFFERS value
    is larger than the NUMBER OF BUFFERS value. For more information
    on allocating recovery buffers, see the Oracle Rdb Guide to
    Database Maintenance.

70  –  NUMBER_OF_SWEEP_ROWS

    Syntax option:

    NUMBER OF SWEEP ROWS IS n

    Specifies the number of modified rows that will be written from
    the row cache back to the database by the row cache server (RCS)
    process during a sweep operation. When the RCS is notified that
    a cache is "full" of modified data, the RCS starts a sweep to
    make space available in the cache for subsequent transactions
    to be able to insert rows into the cache. Oracle Corporation
    recommends that you initially specify the number of sweep rows
    to be approximately 5 percent of the total number of rows in
    the cache. Then monitor performance and adjust the number of
    sweep rows, if necessary. Allowable values must be in the range 2
    through 524288. If not specified, the default is 3,000 rows.

71  –  NUMBER_OF_USERS

    Syntax option:

    NUMBER OF USERS IS number-users

    Limits the maximum number of users allowed to access the database
    at one time. Specify this clause only if the database named in
    the ALTER DATABASE statement refers to a multifile database.

    The default is 50 users. After the maximum is reached, the next
    user who tries to invoke the database receives an error message
    and must wait. The maximum number of users you can specify is
    16368 and the minimum is 1 user.

    Note that number of users is defined as the number of active
    attachments to the database. Therefore, if a single process
    is running one program but that program performs 12 attach
    operations, the process is responsible for 12 active users.

    If you use the ALTER DATABASE statement to change the current
    number of users, the change is not journaled. Therefore, back up
    your database before making such a change.

72  –  OPEN

    Syntax options:

    OPEN IS AUTOMATIC | OPEN IS MANUAL

    Specifies whether or not the database must be explicitly opened
    before users can attach to it. The default, OPEN IS AUTOMATIC,
    means that any user can open a previously unopened or a closed
    database by attaching to it and executing a statement. The
    OPEN IS MANUAL option means that a privileged user must issue
    an explicit OPEN statement through Oracle RMU, the Oracle
    Rdb management utility, before other users can attach to the
    database.

    To issue the RMU Open command, you must have the RMU$OPEN
    privilege for the database.

    The OPEN IS MANUAL option limits access to databases.

    You will receive an error message if you specify both OPEN IS
    AUTOMATIC and OPEN IS MANUAL options.

73  –  OVERWRITE

    Syntax options:

    OVERWRITE IS ENABLED | OVERWRITE IS DISABLED

    Specifies whether the overwrite option is enabled or disabled.

    After-image journal files are used for database recovery in case
    of media failure and for transaction recovery as part of the
    fast commit feature. In some environments, only the fast commit
    feature is of interest and a small set of journal files can be
    used as a circular fast commit log with no backup of the contents
    required. The OVERWRITE option instructs Oracle Rdb to write over
    journal records that would normally be used for media recovery.
    The resulting set of journal files is unable to be used by the
    RMU Recover command for media recovery.

    The OVERWRITE option is ignored when only one after-image journal
    (.aij) file exists. Adding subsequent journal files activates the
    OVERWRITE option.

    The default is DISABLED.

74  –  PAGE_TRANSFER

    Syntax options:

    PAGE TRANSFER VIA DISK | PAGE TRANSFER VIA MEMORY

    Specifies whether Oracle Rdb transfers (flushes) pages to disk or
    to memory.

    When you specify PAGE TRANSFER VIA MEMORY, processes on a single
    node can share and update database pages in memory without
    transferring the pages to disk. It is not necessary for a process
    to write a modified page to disk before another process accesses
    the page.

    The default is to DISK. If you specify PAGE TRANSFER VIA MEMORY,
    the database must have the following characteristics:

    o  The NUMBER OF NODES must be one, or SINGLE INSTANCE must be
       specified in the NUMBER OF CLUSTER NODES clause.

    o  GLOBAL BUFFERS must be enabled.

    o  After-image journaling must be enabled.

    o  FAST COMMIT must be enabled.

    If the database does not have these characteristics, Oracle Rdb
    will perform page transfers via disk.

    For more information about page transfers, see the Oracle Rdb7
    Guide to Database Performance and Tuning.

75  –  PATHNAME path name

    Identifies the database root file associated with the database.
    If you specify a repository path name, the path name indirectly
    specifies the database root file. The ALTER DATABASE statement
    does not change any definitions in the repository, so there is no
    difference in the effect of the PATHNAME and FILENAME arguments.

    If the database referred to in the PATHNAME or FILENAME argument
    has been attached, the ALTER DATABASE statement will fail with a
    file access conflict error.

76  –  PERCENT_GROWTH

    Syntax option:

    PERCENT GROWTH IS growth

    Specifies the percent growth of each extent. The default is 20
    percent growth.

77  –  PRESTARTED_TRANSACTIONS

    Syntax options:

       PRESTARTED TRANSACTIONS ARE ENABLED (prestart-trans-options)
       PRESTARTED TRANSACTIONS ARE DISABLED

    Enables or disables the prestarting of transactions.

    Note that the keyword OFF, available in previous versions, is
    synonymous with DISABLED.

78  –  READ_WRITE,READ_ONLY

    The READ options of the alter-storage-area-params clause permit
    you to change existing storage area access as follows:

    o  Select the READ WRITE option to change any storage area to
       read/write access.

    o  Select the READ ONLY option to change any storage area to
       read-only access.

    If you want to change the read-only and read/write parameters of
    the RDB$SYSTEM storage area, you must specify these parameters at
    this point of your ALTER DATABASE statement and not in the ALTER
    STORAGE AREA clause. For example:

    SQL> -- You can change the RDB$SYSTEM storage area by altering
    SQL> -- the database.
    SQL> --
    SQL> ALTER DATABASE FILENAME mf_personnel
    cont> READ ONLY;
    SQL> --
    SQL> -- An error is returned if you try to change the RDB$SYSTEM storage
    SQL> -- area to read-only using the ALTER STORAGE AREA clause.
    SQL> --
    SQL> ALTER DATABASE FILENAME mf_personnel
    cont> ALTER STORAGE AREA RDB$SYSTEM
    cont> READ ONLY;
    %RDB-E-BAD_DPB_CONTENT, invalid database parameters in the database
    parameter block (DPB)
    -RDMS-E-NOCHGRDBSYS, cannot change RDB$SYSTEM storage area explicitly

    SQL provides support for read-only databases and databases with
    one or more read-only storage areas.

    You can take advantage of read-only support if you have a
    stable body of data that is never (or rarely) updated. When the
    RDB$SYSTEM storage area is changed to read-only, lock conflicts
    occur less frequently, and the automatic updating of index and
    table cardinality is inhibited.

    Read-only databases consist of:

    o  A read/write database root file

    o  One or more read-only storage areas and no read/write storage
       areas

    Read-only databases can be published and distributed on CD-ROM.

    Read-only storage areas:

    o  Have snapshot files but do not use them. (Data in a read-only
       storage area is not updated; specify a small number for the
       initial snapshot file size for a read-only storage area.)

    o  Eliminate page and record locking in the read-only storage
       areas.

    o  Are backed up by the RMU Backup command by default unless you
       explicitly state the Noread_Only qualifier, which excludes
       read-only areas without naming them.

    o  Are restored by the RMU Restore command if they were
       previously backed up.

    o  Are recovered by the RMU Recover command. However, unless the
       read-only attribute was modified, the read-only area does not
       change.

    o  Are not recovered by the RMU Recover command with the Area=*
       qualifier, in which you are not explicitly naming the areas
       needing recovery, unless they are inconsistent.

    You use the READ ONLY option to change a storage area from
    read/write to read-only access. If you wanted to facilitate
    batch-update transactions to infrequently changed data, you would
    use the READ WRITE option to change a read-only storage area back
    to read/write.

    If you change a read/write storage area to read-only, you cannot
    specify the EXTENT, SNAPSHOT ALLOCATION, and SNAPSHOT EXTENT
    clauses.

    A database with both read/write and read-only storage areas can
    be fully recovered after a system failure only if after-image
    journaling is enabled on the database. If your database has
    both read/write and read-only storage areas but does not have
    after-image journaling enabled, perform full backup operations
    (including read-only areas) at all times. Doing full backup
    operations enables you to recover the entire database to its
    condition at the time of the previous backup operation.

    For a complete description of read-only databases and read-only
    storage areas, see the Oracle Rdb7 Guide to Database Performance
    and Tuning.

79  –  RECOVERY_JOURNAL_(BUFFER_MEMORY)

    Syntax options:

    BUFFER MEMORY IS LOCAL

    BUFFER MEMORY IS GLOBAL

    Specifies whether RUJ buffers will be allocated in global or
    local memory.

    The RUJ buffers used by each process are normally allocated in
    local virtual memory. With the introduction of row caching, these
    buffers now can be assigned to a shared global section (global
    memory) on OpenVMS, so that the recovery process can process this
    in-memory buffer and possibly avoid a disk access.

    You can define this buffer memory to be global to improve row
    caching performance for recovery. If row caching is disabled,
    then buffer memory is always local.

80  –  RECOVERY_JOURNAL_(LOCATION)

    Syntax options:

    RECOVERY JOURNAL (LOCATION IS directory-spec)

    Specifies the location, including device and directory, in which
    the recovery-unit journal (.ruj) file is written. Do not include
    network node names, file names or process-concealed logical
    names. The default is the current user's login device.

    See the Oracle Rdb Guide to Database Maintenance for more
    information on recovery-unit journal files.

    Following is an example using this clause:

    SQL> ALTER DATABASE FILENAME SAMPLE
    cont> RECOVERY JOURNAL (LOCATION IS 'SQL_USER1:[DBDIR.RECOVER]');

81  –  RECOVERY_JOURNAL_(NO_LOCATION)

    Removes a location previously defined by a RECOVERY JOURNAL
    LOCATION IS clause. This causes the recovery journal to revert
    to the default location.

82  –  RESERVE n CACHE SLOTS

    Specifies the number of row caches for which slots are reserved
    in the database.

    You can use the RESERVE CACHE SLOTS clause to reserve slots in
    the database root file for furture use by the ADD CACHE clause.
    You can only add row caches if row cache slots are available.
    Slots become available after you issue a DROP CACHE clause or a
    RESERVE CACHE SLOTS clause.

    You cannot reduce the number of reserved slots for row caching.
    If you reserve 10 slots and later reserve 5 slots, a total of 15
    slots are reserved for row caches.

83  –  RESERVE n JOURNALS

    Specifies the number of journal files for which slots are to
    reserve in the database. The number of slots for journal files
    must be a positive number greater than zero.

    This feature is additive in nature. In other words, the number
    of reserved slots for journal files cannot be decreased once
    the RESERVE clause has been issued. If you reserve 10 slots and
    later reserve 5 slots, you have a total of 15 reserved slots for
    journal files plus 1 slot (totaling 16 reserved slots) because
    you initially get 1 pre-reserved slot.

    You must reserve slots or delete an existing journal file before
    you can add new journal files to the database.

    You cannot reserve journal files for a single-file database.

84  –  RESERVE n SEQUENCES

    Specifies the number of sequences for which slots are reserved in
    the database. Sequences are reserved in multiples of 32. Thus, if
    you specify a value less than 32 for n, 32 slots are reserved. If
    you specify a value of 33, 64 slots are reserved, and so on.

    You can use the RESERVE SEQUENCES clause to reserve slots in
    the database root file for future use by the CREATE SEQUENCE
    statement. Sequences can be created only if sequence slots are
    available. Slots become available after a DROP SEQUENCE statement
    or a RESERVE SEQUENCES clause of the ALTER DATABASE statement is
    executed.

85  –  RESERVE n STORAGE AREAS

    Specifies the number of storage areas for which slots are to
    reserve in the database. The number of slots for storage areas
    must be a positive number greater than zero.

    You can use the RESERVE STORAGE AREA clause to reserve slots
    in the database root file for future use by the ADD STORAGE
    AREA clause of the ALTER DATABASE statement. Storage areas can
    be added only if there are storage area slots available. Slots
    become available after a DROP STORAGE AREA clause or a RESERVE
    STORAGE AREA clause is issued.

    This feature is additive in nature. In other words, the number
    of reserved slots for storage areas cannot be decreased once
    the RESERVE clause is issued. If you reserve 10 slots and later
    reserve 5 slots, you have a total of 15 reserved slots for
    storage areas.

    You must reserve slots or delete an existing storage area before
    you can add new storage areas to the database.

    If you do not specify the RESERVE STORAGE AREA clause, the
    default number of reserved storage areas is zero.

86  –  ROW_CACHE

    Syntax options:

    ROW CACHE IS ENABLED | ROW CACHE IS DISABLED

    Specifies whether or not the row caching feature is enabled.

    Enabling row caching does not affect database operations until a
    cache is created and assigned to one or more storage areas.

    When row caching is disabled, all previously created and assigned
    caches remain and will be available if row caching is enabled
    again.

    The following conditions must be true in order to use row caches:

    o  The number of cluster nodes is one

    o  After-image journaling is enabled

    o  Fast commit is enabled

    o  One or more cache slots are reserved

    o  Row caching is enabled

    Use the RMU Dump Header command to check if you have met the
    requirements for using row caches. The following command output
    displays a warning for every requirement that is not met:

       .
       .
       .
    Row Caches...

    - Active row cache count is 0

    - Reserved row cache count is 1

    - Sweep interval is 1 second

    - Default cache file directory is ""

    - WARNING: Maximum node count is 16 instead of 1

    - WARNING: After-image journaling is disabled

    - WARNING: Fast commit is disabled

       .
       .

87  –  SAME_BACKUP_FILENAME_AS_JOURNAL

    During execution, the backup server assigns the same name to the
    backup file as it does to the journal file. This is a quick form
    of backup as a new file is created.

                                   NOTE

       Oracle Corporation recommends that you save the old journal
       file on tape or other media to prevent accidental purging of
       these files.

88  –  SECURITY_CHECKING

    Traditionally Oracle Rdb has performed security checking using
    the operating system security layer (for example, the UIC and
    rights identifiers of the OpenVMS operating system).

    The access control list (ACL) information stored in the database
    contains a granted privilege mask and a set of users represented
    by a unique integer (for example, a UIC).

    There are two modes of security checking:

    1. SECURITY CHECKING IS EXTERNAL

       This is the default. External security checking recognizes
       database users as operating system user identification codes
       (UICs) and roles as special rights identifiers or groups.
       PERSONA support is enabled or disabled as follows:

       o  SECURITY CHECKING IS EXTERNAL (PERSONA SUPPORT IS ENABLED)

          Enables the full impersonation of an OpenVMS user. This
          means the UIC and the granted right identifiers are used to
          check access control list permissions.

       o  SECURITY CHECKING IS EXTERNAL (PERSONA SUPPORT IS DISABLED)

          Disables the full impersonation of an OpenVMS user. Only
          the UIC is used to check access control list permissions.
          This is the default for a new database, or for a database
          converted from a prior version of Oracle Rdb.

    2. SECURITY CHECKING IS INTERNAL

       In this mode, Oracle Rdb records users (username and UIC) and
       roles (rights identifiers) in the database. The CREATE USER
       and CREATE ROLE statements perform this action explicitly, and
       GRANT will perform this implicitly. This type of database can
       now be moved to another system and is only dependent on the
       names of the users and roles.

       o  SECURITY CHECKING IS INTERNAL (ACCOUNT CHECK IS ENABLED)

          The ACCOUNT CHECK clause ensures that Oracle Rdb validates
          the current database user with the user name (such as
          defined with a CREATE USER statement) stored in the
          database. This prevents different users with the same name
          from accessing the database. Therefore, this clause might
          prevent a breach in security.

          The ACCOUNT CHECK IS ENABLED clause on OpenVMS forces the
          user session to have the same user name and UIC as recorded
          in the database.

       o  SECURITY CHECKING IS INTERNAL (ACCOUNT CHECK IS DISABLED)

          If you specify the ACCOUNT CHECK IS DISABLED clause, then
          a user with a matching UIC (also called a profile-id) is
          considered the same as the user even if his or her user
          name is different. This allows support for multiple OpenVMS
          users with the same UIC.

89  –  SET_TRANSACTION_MODES

    Enables only the modes specified, disabling all other previously
    defined modes. This is an offline operation and requires
    exclusive database access. For example, if a database is used for
    read-only access and you want to disable all other transaction
    modes, specify the following statement:

    SQL> ALTER DATABASE FILENAME mf_personnel
    cont>   SET TRANSACTION MODES (READ ONLY);

    Specifying a negated txn-mode or specifying NONE disables all
    transaction usage. Disabling all transaction usage would be
    useful when, for example, you want to perform major restructuring
    of the physical database. Execute the ALTER DATABASE statement to
    re-enable transaction modes.

90  –  SHARED_MEMORY

    Syntax options:

       SHARED MEMORY IS SYSTEM
       SHARED MEMORY IS PROCESS
       SHARED MEMORY IS PROCESS RESIDENT

 Determines whether database root global sections (including global
 buffers when enabled) are created in system space or process space.
 The default is PROCESS.

    When you use global sections created in the process space, you
    and other users share physical memory and the OpenVMS operating
    system maps a row cache to a private address space for each user.
    As a result, all users are limited by the free virtual address
    range and each use a percentage of memory in overhead. If many
    users are accessing the database, the overhead can be high.

    When many users are accessing the database, consider using SHARED
    MEMORY IS SYSTEM. This gives users more physical memory because
    they share the system space of memory and there is none of the
    overhead associated with the process space of memory.

    The default is SHARED MEMORY IS PROCESS.

    When you use this clause as a cache attribute, it controls
    whether Oracle Rdb creates cache global sections in system space
    or process space. The default is PROCESS.

    The SHARED MEMORY clause determines whether database root global
    sections (including global buffers when enabled) or whether the
    cache global sections are created in system space or process
    space. The RESIDENT option extends the PROCESS option by making
    the global section memory resident.

    To enable or disable SHARED MEMORY IS PROCESS RESIDENT, the
    process executing the command must be granted the VMS$MEM_
    RESIDENT_USER rights identifier. When this feature is enabled,
    the process that opens the database must also be granted the
    VMS$MEM_RESIDENT_USER rights identifier. Oracle Corporation
    recommends using the RMU Open command when utilizing this
    feature.

91  –  SHUTDOWN_TIME

    Syntax option:

    SHUTDOWN TIME IS n MINUTES

    Specifies the number of minutes the database system will wait
    after a catastrophic event before it shuts down the database.
    The shutdown time is the period, in minutes, between the point
    when the after-image journaling subsystem becomes unavailable
    and the point when the database is shut down. During the after-
    image journaling shutdown period, all database update activity is
    stalled.

    If notification is enabled with the NOTIFY IS clause, operator
    messages will be broadcast to all enabled operator classes.

    To recover from the after-image journaling shutdown state and
    to resume normal database operations, you must make an .aij file
    available for use. You can do this by backing up an existing
    modified journal file, or, if you have a journal file reservation
    available, by adding a new journal file to the after-image
    journaling subsystem. If you do not make a journal file available
    before the after-image journal shutdown time expires, the
    database will be shut down and all active database attachments
    will be terminated.

    The after-image journaling shutdown period is only in effect when
    a fixed-size .aij file is used. When a single extensible .aij
    file is used, the default action is to shut down all database
    operations when the .aij file becomes unavailable.

    The default is 60 minutes. The minimum value is 1 minute; the
    maximum value is 4320 minutes (3 days).

92  –  SNAPSHOT_ALLOCATION

    Syntax option:

    SNAPSHOT ALLOCATION IS snp-pages PAGES

    Changes the number of pages allocated for the snapshot file. The
    default is 100 pages. If you have disabled the snapshot file, you
    can set the snapshot allocation to 0 pages.

93  –  SNAPSHOT_EXTENT

    Syntax options:

    SNAPSHOT EXTENT IS extent-pages PAGES | SNAPSHOT EXTENT IS
    (extension-options)

    Changes the number of pages of each snapshot or storage area file
    extent. The default extent for storage area files is 100 pages.

    Specify a number of pages for simple control over the file
    extent. For greater control, and particularly for multivolume
    databases, use the MINIMUM, MAXIMUM, and PERCENT GROWTH extension
    options instead.

    If you use the MINIMUM, MAXIMUM, and PERCENT GROWTH parameters,
    you must enclose them in parentheses.

94  –  SNAPSHOT_IS_ENABLED

    Syntax options:

    SNAPSHOT IS IMMEDIATE | SNAPSHOT IS DEFERRED

    Specifies when read/write transactions write database changes to
    the snapshot file used by read-only transactions.

    The ENABLED IMMEDIATE option is the default and causes read/write
    transactions to write copies of rows they modify to the snapshot
    file, regardless of whether or not a read-only transaction is
    active. Although ENABLED IMMEDIATE is the default, if you set
    snapshots ENABLED DEFERRED, you must specify both ENABLED and
    IMMEDIATE options to return the database to the default setting.

    The ENABLED DEFERRED option lets read/write transactions
    avoid writing copies of rows they modify to the snapshot file
    (unless a read-only transaction is already active). Deferring
    snapshot writing in this manner improves the performance for
    the read/write transaction. However, read-only transactions that
    start after an active read/write transaction starts must wait for
    all active read/write users to complete their transactions.

95  –  SNAPSHOT_IS_DISABLED

    Specifies that snapshot writing be disabled. Snapshot writing is
    enabled by default.

    In this mode any READ ONLY transaction will be converted to READ
    WRITE mode automatically.

96  –  STATISTICS_COLLECTION

    Syntax options:

    STATISTICS COLLECTION IS ENABLED | STATISTICS COLLECTION IS
    DISABLED

    Specifies whether the collection of statistics for the database
    is enabled or disabled. When you disable statistics for the
    database, statistics are not displayed for any of the processes
    attached to the database. Statistics are displayed using the RMU
    Show Statistics command.

    The default is STATISTICS COLLECTION IS ENABLED. You can disable
    statistics using the ALTER DATABASE and IMPORT statements.

    For more information on the RMU Show Statistics command, see the
    Oracle RMU Reference Manual.

    You can enable statistics collection by defining the logical
    name RDM$BIND_STATS_ENABLED. For more information about when to
    use statistics collection, see the Oracle Rdb7 Guide to Database
    Performance and Tuning.

97  –  storage-area-params

    Parameters that control the characteristics of the storage area.
    For more information on the parameters, see the CREATE STORAGE_
    AREA statement.

98  –  SWEEP_INTERVAL

    Syntax option:

    SWEEP INTERVAL IS n SECONDS

    Specifies the interval, in seconds, between each Record Cache
    Server (RCS) sweep. Allowable values must be in the range from 1
    second to 3600 seconds (1 hour). The default is 1.

    The Record Cache Server (RCS) is a detached server process
    automatically invoked by the monitor when row caching is active.

    A sweep is one full pass through all active row cache areas to
    write modified rows back to the database storage areas.

99  –  SYNONYMS_ARE_ENABLED

    Adds the optional system table RDB$OBJECT_SYNONYMS that is
    used for the CREATE SYNONYM, ALTER . . . RENAME TO and RENAME
    statements. The default if omitted is disabled.

100  –  THRESHOLD buffers option

    Syntax option:

    THRESHOLD IS number-buffers PAGES

    This number represents the number of sequential buffer accesses
    that must be detected before prefetching is started. The default
    is four buffers.

    If you specify the THRESHOLD option, you must have also specified
    the DETECTED ASYNC PREFETCH clause. You receive an error if you
    attempt to specify the THRESHOLD option with the ASYNC PREFETCH
    clause.

101  –  TRANSACTION_INTERVAL

    Syntax option:

    TRANSACTION INTERVAL IS number-txns

    The TRANSACTION INTERVAL IS clause specifies the size of the
    transaction sequence number (TSN) range where number-txns equals
    the number of TSNs. Oracle Rdb uses transaction sequence numbers
    to ensure database integrity. When you specify NO COMMIT TO
    JOURNAL OPTIMIZATION, Oracle Rdb assigns TSNs to users one at
    a time. When you enable the journal optimization option, Oracle
    Rdb preassigns a range of TSNs to each user. Assigning a range
    of TSNs means that commit information need not be written to
    the database root for each transaction. Oracle Rdb writes all
    transaction information to the .aij file except for each user's
    allocated TSN range, which it writes to the root file.

    The transaction interval value (the TSN range) must be a number
    between 8 and 1024. The default value is 256.

    In general, if your database has few users or if all user
    sessions are long, select a large transaction interval. If your
    database has many users or if user sessions are short, select a
    smaller transaction interval.

102  –  txn-modes

    Specifies the transaction modes for the database.

    Mode           Description

                            Transaction Types

    [NO]READ       Allows read-only transactions on the database.
    ONLY
    [NO]READ       Allows read/write transactions on the database.
    WRITE
    [NO] BATCH     Allows batch-update transactions on the database.
    UPDATE         This mode executes without the overhead, or
                   security, or a recovery-unit journal file.
                   The batch-update transaction is intended for
                   the initial loading of a database. Oracle Rdb
                   recommends that this mode be disabled.

                             Reserving Modes

    [NO] SHARED    Allows tables to be reserved for shared mode. That
    [READ |        is, other users can work with those tables.
    WRITE]
    [NO]           Allows tables to be reserved for protected mode.
    PROTECTED      That is, other users can read from those tables.
    [READ |
    WRITE]
    [NO]           Allows tables to be reserved for exclusive access.
    EXCLUSIVE      That is, other users are prevented access to those
    [READ |        tables, even in READ ONLY transactions.
    WRITE]
    ALL            Allows other users to work with all tables.
    NONE           Allows no access to tables.

    For detailed information about the txn-modes, see the SET_
    TRANSACTION.

103  –  USER_LIMIT

    Syntax option:

    USER LIMIT IS max-glo-buffers

    Specifies the maximum number of global buffers each user
    allocates. Because global buffer pools are shared by all users,
    you must define an upper limit on how many global buffers a
    single user can allocate. This limit prevents a user from
    defining RDM$BIND_BUFFERS to use all the buffers in the global
    buffer pool. The user limit cannot be greater than the total
    number of global buffers. The default is 5 global buffers.

    Decide the maximum number of global buffers a user can allocate
    by dividing the total number of global buffers by the total
    number of users for whom you want to guarantee access to the
    database. For example, if the total number of global buffers is
    200 and you want to guarantee access to the database for at least
    10 users, set the maximum number of global buffers per user to
    20.

    For maximum performance on a VMScluster system, tune the two
    global buffer parameters on each node in the cluster using the
    RMU Open command with the Global_Buffers qualifier.

    Although you can change the USER LIMIT IS parameter on line, the
    change does not take effect until the next time the database is
    opened.

    The NUMBER IS and USER LIMIT IS parameters are the only two
    buffer parameters specific to global buffers. They are in effect
    on a per node basis rather than a per process basis.

104  –  USER username

    Syntax options:

    USER 'username'

    A character string literal that specifies the operating system
    user name that the database system uses for privilege checking.
    This clause also sets the value of the SYSTEM_USER value
    expression.

105  –  USING password

    Syntax options:

    USING 'password'

    A character string literal that specifies the user's password for
    the user name specified in the USER clause.

106  –  WAIT option

    Syntax option:

    WAIT n MINUTES FOR CLOSE

    Specifies the amount of time that Oracle Rdb waits before
    automatically closing a database. If anyone attaches during that
    wait time, the database is not closed.

    The default value for n is zero (0)  if the WAIT clause is
    not specified. The value for n can range from zero (0)  to
    35,791,394. However, Oracle Rdb does not recommend using large
    values.

107  –  WORKLOAD_COLLECTION

    Syntax options:

    WORKLOAD COLLECTION IS ENABLED | WORKLOAD COLLECTION IS DISABLED

    Specifies whether or not the optimizer records workload
    information in the system table RDB$WORKLOAD. The WORKLOAD
    COLLECTION IS ENABLED clause creates this system table if
    it does not exist. If you later disable workload collection,
    the RDB$WORKLOAD system table is not deleted, nor is the data
    deleted.

    A workload profile is a description of the interesting table
    and column references used by queries in a database work load.
    When workload collection is enabled, the optimizer collects
    and records these references in the RDB$WORKLOAD system table.
    This work load is then processed by the RMU Collect Optimizer-
    Statistics command which records useful statistics about the work
    load. These workload statistics are used by the optimizer at run
    time to deliver more accurate access strategies.

    Workload collection is disabled by default.
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