RDOHELP72.HLB  —  DEFINE_DATABASE, Format  db-wide-options-1
  (B)0db-wide-options-1 =

  qqwq> IN qqqqqq> path-name qqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqwq
    tq> COLLATING_SEQUENCE IS sequence-name qqk                      x
    x  lqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqj                      x
    x  mqwqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqwqq> ncs-name qqk       x
    x    mq> DESCRIPTION IS qq> /* text */ qqj               x       x
    x    lqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqj       x
    x    mqwqqqqqqqqqqqqqqqqqqqqqqqwqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqu
    x      mq> FROM library-name qqj                                 x
    tq> DESCRIPTION IS qqqqqqq> /* text */ qqqqqqqqqqqqqqqqqqqqqqqqqqu
    tq> NUMBER OF USERS IS qq> number-users qqqqqqqqqqqqqqqqqqqqqqqqqu
    tq> NUMBER OF BUFFERS IS qqqqq> number-buffers qqqqqqqqqqqqqqqqqqu
    tq> NUMBER OF qqwqq> CLUSTER qqqqwq> NODES IS qq> number-nodes qqu
    x               mqq> VAXCLUSTER qj                               x
    tq> NUMBER OF RECOVERY BUFFERS IS qqq> recovery-buffers qqqqqqqqqu
    mq> global-buffer-params qqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqj

1  –  path-name

    The data dictionary path name for the dictionary path name
    where the database definition is stored. Use this qualifier to
    store the data dictionary definitions for the database in a data
    dictionary entity other than the default path, which is defined
    by the name of the database file.

2  –  COLLATING_SEQUENCE

    Specifies a collating sequence to be used for all fields in the
    database. Sequence-name is a name of your choosing; use this
    sequence-name in any subsequent statements that refer to this
    collating sequence.

    The OpenVMS National Character Set (NCS) Utility provides
    a set of pre-defined collating sequences and also lets you
    define collating sequences of your own. The COLLATING_SEQUENCE
    clause accepts both pre-defined and user-defined NCS collating
    sequences.

    If you do not specify a collating sequence, the default is ASCII
    (shown as "no collating sequence" in some displays).

3  –  ncs-name

    Specifies the name of a collating sequence in the default NCS
    library, SYS$LIBRARY:NCS$LIBRARY, or in the NCS library specified
    by the argument library-name. (In most cases, it is probably
    simplest to make the sequence-name the same as the ncs-name: for
    example, COLLATING_SEQUENCE IS FRENCH FRENCH.) You can view the
    collating sequence names by using the command NCS/LIST at DCL
    level.

    The collating sequence can be either one of the pre-defined NCS
    collating sequences or one that you have defined yourself using
    NCS.

4  –  text

    Provides a comment for a collating sequence or database being
    defined.

5  –  library-name

    Specifies the name of an NCS library other than the default. The
    default NCS library is SYS$LIBRARY:NCS$LIBRARY.

6  –  number-users

    The maximum number of users allowed to access the database at one
    time. The default is 50 users. The largest number of users you
    can specify is 2032, and the fewest number of users is 1.

7  –  number-buffers

    The number of buffers Oracle Rdb allocates per process using this
    database. Specify an unsigned integer between 2 and 32768. The
    default is 20 buffers.

8  –  number-nodes

    The NUMBER OF CLUSTER NODES is clause and the NUMBER OF
    VAXCLUSTER NODES is clause have exactly the same effect. The
    option of using NUMBER OF CLUSTER NODES has been added to reflect
    the fact that Oracle Rdb can run on different hardware platforms (in
    addition to VAXclusters).

    Sets the upper limit on the maximum number of nodes in the
    cluster from which users can access the shared database. The
    default is 16 nodes. The range is 1 node to 96 nodes. The actual
    maximum limit is the current cluster limit.

    In some cases, after you have specified a particular number of
    users and nodes, doing a dump of the database root file will
    display a different number of nodes than the value you set. The
    following paragraphs explain why this occurs.

    The relationship between the number of users and the number of
    nodes supported on a database can be seen when you specify 2032
    users and 4 nodes in a SQL CREATE/ALTER DATABASE or RDO DEFINE
    /CHANGE DATABASE statement and then dump the database root file.
    The dump displays values of 2032 users and 41 nodes.

    To understand this relationship, Oracle Rdb uses a data structure
    called a TSN Block (TSNBLK). A TSN Block keeps track of
    transaction activity on a node and transaction information for
    each user on a particular node. Each TSN Block is owned by a
    particular node and can handle up to 50 users. For each group of
    50 users one TSNBLK is allocated per node to cover the maximum
    number of users and nodes the database is expected to support,
    which is determined as either one TSNBLK per node, or one TSNBLK
    per 50 users, whichever is larger. The maximum number of TSN
    blocks is equal to the value of the current maximum number of
    nodes that are supported for a database.

    For example, if the DBA specifies 2032 users and 4 nodes, this
    is calculated as 2032/50 for a total of 41 TSNBLKs and this
    equates to 41 nodes. The algorithm selects the maximum value
    of (number of nodes specified, number of nodes calculated). So in
    this example, 41 is the maximum calculated value (calculated 41 >
    specified 4).

    Had the DBA specified 2032 users and 50 nodes, 50 would be the
    maximum value for the number of nodes (specified 50 > calculated
    41) and 50 TSNBLKs would be allocated, one for each node.

    As another example, if the DBA specifies 50 users and 10 nodes,
    the maximum value is 10 nodes (specified 10 > calculated 1), so
    ten TSNBLKs would be allocated, one for each node.

9  –  recovery-buffers

    The number of database buffers used during the automatic recovery
    process that is initiated after a system or process failure. This
    recovery process uses the recovery-unit journal file. Specify an
    unsigned integer between 2 and 32768. The default is 20 buffers.

10  –  global-buffer-params

  (B)0global-buffer-params=

  q> GLOBAL BUFFERS ARE qwq> ENABLED qqwqk
                         mq> DISABLED qj x
  lqqqqqqqqqqqqqqqqqqqqq<qqqqqqqqqqqqqqqqj
  mqwqqqqqqqqqqqqqqqqqqqqqqqq>qqqqqqqqqqqqqqqqqqqqqqqwqq>
    mq> ( qq> NUMBER IS number-glo-buffers qq> , qk  x
        lqqqqqqqqqqqqqqq<qqqqqqqqqqqqqqqqqqqqqqqqqj  x
        mq> USER LIMIT IS max-glo-buffers qq> ) qqqqqj

10.1  –  GLOBAL_BUFFERS

    The GLOBAL BUFFERS ARE ENABLED clause specifies that Oracle Rdb
    maintain one global buffer pool per node in the cluster for each
    database. By default, Oracle Rdb maintains a local buffer pool for
    each user. For more than one user to use the same page, each
    must read it from disk into their local buffer pool. When the
    GLOBAL BUFFERS ARE ENABLED clause has been specified, a page
    in the global buffer pool may be read by more than one user at
    the same time, although only one user reads the page from disk
    into the global buffer pool. Global buffering provides improved
    performance because I/O is reduced and memory is better utilized.

    The default is GLOBAL BUFFERS ARE DISABLED, in which Oracle Rdb
    maintains a local buffer pool for each user, and global buffers
    are not enabled.

10.2  –  NUMBER

    When global buffers are enabled, the NUMBER IS clause is used to
    specify the default number of global buffers per node.

    In database parameter syntax, a user designates an attach to the
    database, not a person who uses the database.

    The default number of global buffers is the maximum number
    of users multiplied by 5. (In the RDO syntax for database
    parameters, a user is the same as an attach.) You can override
    the default by defining a value for the logical name RDM$BIND_
    BUFFERS.

    Although you can change the NUMBER IS parameter online, the
    change will only take effect the next time that the database is
    opened. By default, a database can be opened automatically (that
    is, by any user who invokes the database and executes a data
    manipulation language statement). If the database was modified
    so that it must be manually opened, the RMU/OPEN command must be
    used to open it.

10.3  –  USER_LIMIT

    The USER LIMIT clause 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 the RDM$BIND_BUFFERS to use all the buffers in
    the global buffer pool. The user limit cannot be greater then the
    total number of global buffers. The default is 5.

    See the Oracle Rdb Guide to Database Performance and Tuning for
    information on determining the maximum number of global buffers a
    user can allocate.

    Although you can change the USER LIMIT IS parameter online, the
    change will only take effect the next time that the database is
    opened. By default, a database can be opened automatically (that
    is, by any user who invokes the database and executes a data
    manipulation language statement). If the database was modified
    so that it must be manually opened, the RMU/OPEN command must be
    used to open it.
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