Document revision date: 19 July 1999
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OpenVMS Cluster Systems


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10.12 Restoring Cluster Quorum

During the life of an OpenVMS Cluster system, computers join and leave the cluster. For example, you may need to add more computers to the cluster to extend the cluster's processing capabilities, or a computer may shut down because of a hardware or fatal software error. The connection management software coordinates these cluster transitions and controls cluster operation.

When a computer shuts down, the remaining computers, with the help of the connection manager, reconfigure the cluster, excluding the computer that shut down. The cluster can survive the failure of the computer and continue process operations as long as the cluster votes total is greater than the cluster quorum value. If the cluster votes total falls below the cluster quorum value, the cluster suspends the execution of all processes.

10.12.1 Restoring Votes

For process execution to resume, the cluster votes total must be restored to a value greater than or equal to the cluster quorum value. Often, the required votes are added as computers join or rejoin the cluster. However, waiting for a computer to join the cluster and increasing the votes value is not always a simple or convenient remedy. An alternative solution, for example, might be to shut down and reboot all the computers with a reduce quorum value.

After the failure of a computer, you may want to run the Show Cluster utility and examine values for the VOTES, EXPECTED_VOTES, CL_VOTES, and CL_QUORUM fields. (See the OpenVMS System Management Utilities Reference Manual for a complete description of these fields.) The VOTES and EXPECTED_VOTES fields show the settings for each cluster member; the CL_VOTES and CL_QUORUM fields show the cluster votes total and the current cluster quorum value.

To examine these values, enter the following commands:


$ SHOW CLUSTER/CONTINUOUS
 
COMMAND> ADD CLUSTER

Note: If you want to enter SHOW CLUSTER commands interactively, you must specify the /CONTINUOUS qualifier as part of the SHOW CLUSTER command string. If you do not specify this qualifier, SHOW CLUSTER displays cluster status information returned by the DCL command SHOW CLUSTER and returns you to the DCL command level.

If the display from the Show Cluster utility shows the CL_VOTES value equal to the CL_QUORUM value, the cluster cannot survive the failure of any remaining voting member. If one of these computers shuts down, all process activity in the cluster stops.

10.12.2 Reducing Cluster Quorum Value

To prevent the disruption of cluster process activity, you can reduce the cluster quorum value as described in Table 10-6.

Table 10-6 Reducing the Value of Cluster Quorum
Technique Description
Use the DCL command SET CLUSTER/EXPECTED_VOTES to adjust the cluster quorum to a value you specify. If you do not specify a value, the operating system calculates an appropriate value for you. You need to enter the command on only one computer to propagate the new value throughout the cluster. When you enter the command, the operating system reports the new value.

Suggestion: Normally, you use the SET CLUSTER/EXPECTED_VOTES command only after a computer has left the cluster for an extended period. (For more information about this command, see the OpenVMS DCL Dictionary.)

Example: For example, if you want to change expected votes to set the cluster quorum to 2, enter the following command:

$ SET CLUSTER/EXPECTED_VOTES=3

The resulting value for quorum is (3 + 2)/2 = 2.

Note: No matter what value you specify for the SET CLUSTER/EXPECTED_VOTES command, you cannot increase quorum to a value that is greater than the number of the votes present, nor can you reduce quorum to a value that is half or fewer of the votes present.

When a computer that previously was a cluster member is ready to rejoin, you must reset the EXPECTED_VOTES system parameter to its original value in MODPARAMS.DAT on all computers and then reconfigure the cluster according to the instructions in Section 8.6. You do not need to use the SET CLUSTER/EXPECTED_VOTES command to increase cluster quorum, because the quorum value is increased automatically when the computer rejoins the cluster.

Use the IPC Q command to recalculate the quorum. Refer to the OpenVMS System Manager's Manual: Essentials for a description of the Q command.
Select one of the cluster-related shutdown options. Refer to Section 10.7 for a description of the shutdown options.

10.13 Cluster Performance

Sometimes performance issues involve monitoring and tuning applications and the system as a whole. Tuning involves collecting and reporting on system and network processes to improve performance. A number of tools can help you collect information about an active system and its applications.

10.13.1 Using the SHOW Commands

The following table briefly describes the SHOW commands available with the OpenVMS operating system. Use the SHOW DEVICE commands and qualifiers shown in the table.
Command Purpose
SHOW DEVICE/FULL Shows the complete status of a device, including:
  • Whether the disk is available to the cluster
  • Whether the disk is MSCP served or dual ported
  • The name and type (VAX or HSC) of the primary and secondary hosts
  • Whether the disk is mounted on the system where you enter the command
  • The systems in the cluster on which the disk is mounted
SHOW DEVICE/FILES Displays a list of the names of all files open on a volume and their associated process name and process identifier (PID). The command:
  • Lists files opened only on this node.
  • Finds all open files on a disk. You can use either the SHOW DEVICE/FILES command or SYSMAN commands on each node that has the disk mounted.
SHOW DEVICE/SERVED Displays information about disks served by the MSCP server on the node where you enter the command. Use the following qualifiers to customize the information:
  • /HOST displays the names of processors that have devices online through the local MSCP server, and the number of devices.
  • /RESOURCE displays the resources available to the MSCP server, total amount of nonpaged dynamic memory available for I/O buffers, and number of I/O request packets.
  • /COUNT displays the number of each size and type of I/O operation the MSCP server has performed since it was started.
  • /ALL displays all of the information listed for the SHOW DEVICE/SERVED command.

The SHOW CLUSTER command displays a variety of information about the OpenVMS Cluster system. The display output provides a view of the cluster as seen from a single node, rather than a complete view of the cluster.

Reference: The OpenVMS System Management Utilities Reference Manual contains complete information about all the SHOW commands and the Show Cluster utility.

10.13.2 Using the Monitor Utility

The following table describes using the OpenVMS Monitor utility to locate disk I/O bottlenecks. I/O bottlenecks can cause the OpenVMS Cluster system to appear to hang.
Step Action
1 To determine which clusterwide disks may be problem disks:
  1. Create a node-by-node summary of disk I/O using the MONITOR/NODE command
  2. Adjust the "row sum" column for MSCP served disks as follows:
    • I/O rate on serving node includes local requests and all requests from other nodes
    • I/O rate on other nodes includes requests generated from that node
    • Requests from remote nodes are counted twice in the row sum column
  3. Note disks with the row sum more than 8 I/Os per second
  4. Eliminate from the list of cluster problem disks the disks that are:
    • Not shared
    • Dedicated to an application
    • In the process of being backed up
2 For each node, determine the impact of potential problem disks:
  • If a disporportionate amount of a disk's I/O comes from a particular node, the problem is most likely specific to the node.
  • If a disk's I/O is spread evenly over the cluster, the problem may be clusterwide overuse.
  • If the average queue length for a disk on a given node is less than 0.2, then the disk is having little impact on the node.
3 For each problem disk, determine whether:
  • Page and swap files from any node are on the disk.
  • Commonly used programs or data files are on the disk (use the SHOW DEVICE/FILES command).
  • Users with default directories on the disk are causing the problem.

10.13.3 Using DECamds

The Digital Availability Manager for Distributed Systems (DECamds) is a real-time monitoring, diagnostic, and correction tool used by system managers to improve the availability and throughput of a system.

DECamds helps system managers instantly correct system resource utilization problems for CPU usage, low memory, lock contention, hung or runaway processes, I/O, disks, page files, and swap files. DECamds collects and analyzes data from multiple nodes (VAX and Alpha) simultaneously, directing all output to a centralized DECwindows display. DECamds helps you observe and troubleshoot availability problems, as follows:

The following table describes how to use DECamds. See the DECamds User's Guide for complete DECamds product functionality.
Step Action
1 Install and configure DECamds from the distribution media. The installation of DECamds requires an additional save set. Installing DECamds is described in the DECamds User's Guide.
2 Use the AVAIL command to start DECamds. For example:
$ AVAIL /CONFIGURE=AMDS$SYSTEM /LOG_DIRECTORY=SYS$LOGIN -

_$ GROUP=(GROUP_A, GROUP_B)

The command line specifies that all input files are read from AMDS$SYSTEM and all output files are written to the current default directory. Only data from group A nodes and group B nodes is displayed.

Note: Only one copy of the DECamds console can run on a node at a time; however, more than one console may be running within your LAN, collecting duplicate data.

3 DECamds is Windows based and mouse driven. When DECamds starts, it displays two primary windows:
  • Event Log---When resource use exceeds its criteria, DECamds records an event and logs it in this window.
  • System Overview---Data about the resource usage causing the event is graphically displayed in this window and in other related data windows.

You use the mouse to perform special operations on the DECamds console, such as to operate window controls (close box or sliders) or to choose items from popup menus.

10.13.4 Monitoring LAN Activity

It is important that you monitor LAN (Ethernet and FDDI) activity on a regular basis. Using NCP commands like the following, you can set up a convenient monitoring procedure to report activity for each 12-hour period. Note that DECnet event logging for event 0.2 (automatic line counters) must be enabled.

Reference: For detailed information on DECnet for OpenVMS event logging, refer to the DECnet for OpenVMS Network Management Utilities manual.

In these sample commands, BNA-0 is the line ID of the Ethernet line.


NCP> DEFINE LINE BNA-0 COUNTER TIMER 43200
NCP> SET LINE BNA-0 COUNTER TIMER 43200

At every timer interval (in this case, 12 hours), DECnet will create an event that sends counter data to the DECnet event log. If you experience a performance degradation in your cluster, check the event log for increases in counter values that exceed normal variations for your cluster. If all computers show the same increase, there may be a general problem with your Ethernet configuration. If, on the other hand, only one computer shows a deviation from usual values, there is probably a problem with that computer or with its Ethernet interface device.

The following layered products can be used in conjunction with one of Compaq's LAN bridges to monitor the LAN traffic levels: RBMS, DECelms, DECmcc, and LAN Traffic Monitor (LTM).


Appendix A
Cluster System Parameters

For systems to boot properly into a cluster, certain system parameters must be set on each cluster computer. Table A-1 lists system parameters used in cluster configurations.

A.1 Values for Alpha and VAX Computers

Some system parameters for Alpha computers are in units of pagelets, whereas others are in pages. AUTOGEN determines the hardware page size and records it in the PARAMS.DAT file.

Caution: When reviewing AUTOGEN recommended values or when setting system parameters with SYSGEN, note carefully which units are required for each parameter.

Reference: See also A Comparison of System Management on OpenVMS AXP and OpenVMS VAX1 for more information about system parameter values on Alpha and VAX systems.

Table A-1 describes system parameters that are specific to OpenVMS Cluster configurations that may require adjustment in certain configurations. Table A-2 describes OpenVMS Cluster specific system parameters that are reserved for OpenVMS use.

Reference: System parameters, including cluster and volume shadowing system parameters, are documented in the OpenVMS System Management Utilities Reference Manual.

Table A-1 Adjustable Cluster System Parameters
Parameter Description
ALLOCLASS Specifies a numeric value from 0 to 255 to be assigned as the disk allocation class for the computer. The default value is 0.
CLUSTER_CREDITS Specifies the number of per-connection buffers a node allocates to receiving VMS$VAXcluster communications.

If the SHOW CLUSTER command displays a high number of credit waits for the VMS$VAXcluster connection, you might consider increasing the value of CLUSTER_CREDITS on the other node. However, in large cluster configurations, setting this value unnecessarily high will consume a large quantity of nonpaged pool. Each receive buffer is at least SCSMAXMSG bytes in size but might be substantially larger depending on the underlying transport.

It is not required that all nodes in the cluster have the same value for CLUSTER_CREDITS. For small or memory-constrained systems, the default value of CLUSTER_CREDITS should be adequate.

CHECK_CLUSTER Serves as a VAXCLUSTER parameter sanity check. When CHECK_CLUSTER is set to 1, SYSBOOT outputs a warning message and forces a conversational boot if it detects the VAXCLUSTER parameter is set to 0.
CWCREPRC_ENABLE Controls whether an unprivileged user can create a process on another OpenVMS Cluster node. The default value of 1 allows an unprivileged user to create a detached process with the same UIC on another node. A value of 0 requires that a user have DETACH or CMKRNL privilege to create a process on another node.
DISK_QUORUM The physical device name, in ASCII, of an optional quorum disk. ASCII spaces indicate that no quorum disk is being used. DISK_QUORUM must be defined on one or more cluster computers capable of having a direct (not MSCP served) connection to the disk. These computers are called quorum disk watchers. The remaining computers (computers with a blank value for DISK_QUORUM) recognize the name defined by the first watcher computer with which they communicate.
++DR_UNIT_BASE Specifies the base value from which unit numbers for DR devices (StorageWorks RAID Array 200 Family logical RAID drives) are counted. DR_UNIT_BASE provides a way for unique RAID device numbers to be generated. DR devices are numbered starting with the value of DR_UNIT_BASE and then counting from there. For example, setting DR_UNIT_BASE to 10 will produce device names such as $1$DRA10, $1$DRA11, and so on. Setting DR_UNIT_BASE to appropriate, nonoverlapping values on all cluster members that share the same (nonzero) allocation class will ensure that no two RAID devices are given the same name.
EXPECTED_VOTES Specifies a setting that is used to derive the initial quorum value. This setting is the sum of all VOTES held by potential cluster members.

By default, the value is 1. The connection manager sets a quorum value to a number that will prevent cluster partitioning (see Section 2.3). To calculate quorum, the system uses the following formula:

estimated quorum = (EXPECTED_VOTES + 2)/2

LOCKDIRWT Lock manager directory system weight. Determines the portion of lock manager directory to be handled by this system. The default value is adequate for most systems.
+LRPSIZE For VAX computers running VMS Version 5.5--2 and earlier, the LRPSIZE parameter specifies the size, in bytes, of the large request packets. The actual physical memory consumed by a large request packet is LRPSIZE plus overhead for buffer management. Normally, the default value is adequate. The value of LRPSIZE affects the transfer size used by VAX nodes on an FDDI ring.

FDDI supports transfers using large packets (up to 4468 bytes). PEDRIVER does not use large packets by default, but can take advantage of the larger packet sizes if you increase the LRPSIZE system parameter to 4474 or higher.

PEDRIVER uses the full FDDI packet size if the LRPSIZE is set to 4474 or higher. However, only FDDI nodes connected to the same ring use large packets. Nodes connected to an Ethernet segment restrict packet size to that of an Ethernet packet (1498 bytes).

++MC_SERVICES_P0 (dynamic) Controls whether other MEMORY CHANNEL nodes in the cluster continue to run if this node bugchecks or shuts down.

A value of 1 causes other nodes in the MEMORY CHANNEL cluster to fail with bugcheck code MC_FORCED_CRASH if this node bugchecks or shuts down.

The default value is 0. A setting of 1 is intended only for debugging purposes; the parameter should otherwise be left at its default state.

++MC_SERVICES_P2 (static) Specifies whether to load the PMDRIVER (PMA0) MEMORY CHANNEL cluster port driver. PMDRIVER is a new driver that serves as the MEMORY CHANNEL cluster port driver. It works together with MCDRIVER (the MEMORY CHANNEL device driver and device interface) to provide MEMORY CHANNEL clustering. If PMDRIVER is not loaded, cluster connections will not be made over the MEMORY CHANNEL interconnect.

The default for MC_SERVICES_P2 is 1. This default value causes PMDRIVER to be loaded when you boot the system.

Compaq recommends that this value not be changed. This parameter value must be the same on all nodes connected by MEMORY CHANNEL.

++MC_SERVICES_P3 (dynamic) Specifies the maximum number of tags supported. The maximum value is 2048 and the minimum value is 100.

The default value is 800. Compaq recommends that this value not be changed.

This parameter value must be the same on all nodes connected by MEMORY CHANNEL.

++MC_SERVICES_P4 (static) Specifies the maximum number of regions supported. The maximum value is 4096 and the minimum value is 100.

The default value is 200. Compaq recommends that this value not be changed.

This parameter value must be the same on all nodes connected by MEMORY CHANNEL.

++MC_SERVICES_P6 (static) Specifies MEMORY CHANNEL message size, the body of an entry in a free queue, or a work queue. The maximum value is 65536 and the minimum value is 544. The default value is 992, which is suitable in all cases except systems with highly constrained memory.

For such systems, you can reduce the memory consumption of MEMORY CHANNEL by slightly reducing the default value of 992. This value must always be equal to or greater than the result of the following calculation:

  1. Select the larger of SCS_MAXMSG and SCS_MAXDG.
  2. Round that value to the next quadword.

This parameter value must be the same on all nodes connected by MEMORY CHANNEL.

++MC_SERVICES_P7 (dynamic) Specifies whether to suppress or display messages about cluster activities on this node. Can be set to a value of 0, 1, or 2. The meanings of these values are:
Value Meaning
0 Nonverbose mode---no informational messages will appear on the console or in the error log.
1 Verbose mode---informational messages from both MCDRIVER and PMDRIVER will appear on the console and in the error log.
2 Same as verbose mode plus PMDRIVER stalling and recovery messages.

The default value is 0. Compaq recommends that this value not be changed except for debugging MEMORY CHANNEL problems or adjusting the MC_SERVICES_P9 parameter.

++MC_SERVICES_P9 (static) Specifies the number of initial entries in a single channel's free queue. The maximum value is 2048 and the minimum value is 10.

Note that MC_SERVICES_P9 is not a dynamic parameter; you must reboot the system after each change in order for the change to take effect.

The default value is 150. Compaq recommends that this value not be changed.

This parameter value must be the same on all nodes connected by MEMORY CHANNEL.

++MPDEV_ENABLE Enables the formation of multipath sets when set to ON (1). If set to OFF (0), the formation of additional multipath sets is disabled. However, existing multipath sets remain in effect. The default is ON.
++MPDEV_LCRETRIES Controls the number of times the system retries locally connected paths before moving on to local unconnected paths or to an MSCP served path to the device. The valid range for retries is 1 through 256. The default is 1.
++MPDEV_POLLER Enables polling of the paths to multipath set members when set to ON (1). Polling allows early detection of errors on inactive paths. If a path becomes unavailable or returns to service, the system manager is notified with an OPCOM message. If set to OFF (0), multipath polling is disabled. The default is ON.
++MPDEV_REMOTE Enables MSCP served disks to become members of a multipath set when set to ON (1). If set to OFF (0), only local paths to a SCSI device will be used in the formation of additional multipath sets. However, existing remote members of multipath sets remain as members of them. The default is OFF. For OpenVMS Version 7.2, the only valid setting is OFF.
MSCP_BUFFER This buffer area is the space used by the server to transfer data between client systems and local disks.

On VAX systems, MSCP_BUFFER specifies the number of pages to be allocated to the MSCP server's local buffer area.

On Alpha systems, MSCP_BUFFER specifies the number of pagelets to be allocated the MSCP server's local buffer area.

MSCP_CMD_TMO Specifies the time in seconds that the OpenVMS MSCP server uses to detect MSCP command timeouts. The MSCP server must complete the command within a built-in time of approximately 40 seconds plus the value of the MSCP_CMD_TMO parameter.

An MSCP_CMD_TMO value of 0 is normally adequate. A value of 0 provides the same behavior as in previous releases of OpenVMS (which did not have an MSCP_CMD_TMO system parameter). A nonzero setting increases the amount of time before an MSCP command times out.

If command timeout errors are being logged on client nodes, setting the parameter to a nonzero value on OpenVMS servers reduces the number of errors logged. Increasing the value of this parameter reduces the numb client MSCP command timeouts and increases the time it takes to detect faulty devices.

If you need to decrease the number of command timeout errors, set an initial value of 60. If timeout errors continue to be logged, you can increase this value in increments of 20 seconds.

MSCP_CREDITS Specifies the number of outstanding I/O requests that can be active from one client system.
MSCP_LOAD Controls whether the MSCP server is loaded. Specify 1 to load the server, and use the default CPU load rating. A value greater than 1 loads the server and uses this value as a constant load rating. By default, the value is set to 0 and the server is not loaded.
MSCP_SERVE_ALL Controls the serving of disks. The settings take effect when the system boots. You cannot change the settings when the system is running.

Starting with OpenVMS Version 7.2, the serving types are implemented as a bit mask. To specify the type of serving your system will perform, locate the type you want in the following table and specify its value. For some systems, you may want to specify two serving types, such as serving the system disk and serving locally attached disks. To specify such a combination, add the values of each type, and specify the sum.

In a mixed-version cluster that includes any systems running OpenVMS Version 7.1- x or earlier, serving all available disks is restricted to serving all disks except those whose allocation class does not match the system's node allocation class (pre-Version 7.2 meaning). To specify this type of serving, use the value 9 (which sets bit 0 and bit 3).

The following table describes the serving type controlled by each bit and its decimal value.
Bit and Value When Set Description
Bit 0 (1) Serve all available disks (locally attached and those connected to HS x and DSSI controllers). Disks with allocation classes that differ from the system's allocation class (set by the ALLOCLASS parameter) are also served if bit 3 is not set.
Bit 1 (2) Serve locally attached (non-HS x and non-DSSI) disks.
Bit 2 (4) Serve the system disk. This is the default setting. This setting is important when other nodes in the cluster rely on this system being able to serve its system disk. This setting prevents obscure contention problems that can occur when a system attempts to complete I/O to a remote system disk whose system has failed.
Bit 3 (8) Restrict the serving specified by bit 0. All disks except those with allocation classes that differ from the system's allocation class (set by the ALLOCLASS parameter) are served.

This is pre-Version 7.2 behavior. If your cluster includes systems running Open 7.1- x or earlier, and you want to serve all available disks, you must specify 9, the result of setting this bit and bit 0.

Although the serving types are now implemented as a bit mask, the values of 0, 1, and 2, specified by bit 0 and bit 1, retain their original meanings:

  • 0 --- Do not serve any disks (the default for earlier versions of OpenVMS).
  • 1 --- Serve all available disks.
  • 2 --- Serve only locally attached (non-HSx and non-DSSI) disks.

If the MSCP_LOAD system parameter is 0, MSCP_SERVE_ALL is ignored. For more information about this system parameter, see Section 6.3.1.

NISCS_CONV_BOOT During booting as an OpenVMS Cluster satellite, specifies whether conversational bootstraps are enabled on the computer. The default value of 0 specifies that conversational bootstraps are disabled. A value of 1 enables conversational bootstraps.
NISCS_LAN_OVRHD Specifies the amount of overhead in the LAN packet to be reserved for use by other LAN protocols. Set this parameter to 18 when DESNCs are in the network configuration. This setting prevents packet fragmentation and slow cluster performance when using DESNCs. Set this parameter to 0 when encapsulating devices (such as DESNCs) are not in the network configuration. This setting reduces the network overhead on long transfers and thus improves cluster performance.
NISCS_LOAD_PEA0 Specifies whether the port driver (PEDRIVER) is to be loaded to enable cluster communications over the local area network (LAN). The default value of 0 specifies that the driver is not loaded. A value of 1 specifies that that driver is loaded.

Caution: If the NISCS_LOAD_PEA0 parameter is set to 1, the VAXCLUSTER system parameter must be set to 2. This ensures coordinated access to shared resources in the OpenVMS Cluster and prevents accidental data corruption.

NISCS_MAX_PKTSZ Specifies the maximum packet size (client data) used by PEDRIVER in the range of 1498 to 4468. This parameter allows the customer to increase the packet size for use on FDDI-to-FDDI communications paths. Note that PEDRIVER always allocates memory to support this packet size, so a value larger than 1498 when only using Ethernet communications paths will cause excessive usage of nonpaged pool.
PASTDGBUF Specifies the number of datagram receive buffers to queue initially for the cluster port driver's configuration poller. The initial value is expanded during system operation, if needed.

MEMORY CHANNEL devices ignore this parameter.

QDSKINTERVAL Specifies, in seconds, the disk quorum polling interval. The maximum is 32767, the minimum is 1, and the default is 3. Lower values trade increased overhead cost for greater responsiveness.

This parameter should be set to the same value on each cluster computer.

QDSKVOTES Specifies the number of votes contributed to the cluster votes total by a quorum disk. The maximum is 127, the minimum is 0, and the default is 1. This parameter is used only when DISK_QUORUM is defined.
RECNXINTERVAL Specifies, in seconds, the interval during which the connection manager attempts to reconnect a broken connection to another computer. If a new connection cannot be established during this period, the connection is declared irrevocably broken, and either this computer or the other must leave the cluster. This parameter trades faster response to certain types of system failures for the ability to survive transient faults of increasing duration.

This parameter should be set to the same value on each cluster computer. This parameter also affects the tolerance of the OpenVMS Cluster system for LAN bridge failures (see Section 3.4.7).

SCSBUFFCNT +On VAX systems, SCSBUFFCNT is the number of buffer descriptors configured for all SCS devices. If no SCS device is configured on your system, this parameter is ignored. Generally, each data transfer needs a buffer descriptor: thus, the number of buffer descriptors limit the number of possible simultaneous I/Os. Various performance monitors report when a system is out of buffer descriptors for a given work load, indicating that a larger value for SCSBUFFCNT is worth considering.

Note: AUTOGEN provides feedback for this parameter on VAX systems only.

++On Alpha systems, the SCS buffers are allocated as needed, and SCSBUFFCNT is reserved for OpenVMS use, only.

SCSCONNCNT The initial number of SCS connections that are configured for use by all system applications, including the one used by Directory Service Listen. The initial number will be expanded by the system if needed.

If no SCS ports are configured on your system, this parameter is ignored. The default value is adequate for all SCS hardware combinations.

Note: AUTOGEN provides feedback for this parameter on VAX systems only.

SCSNODE 1 Specifies the name of the computer. This parameter is not dynamic.

Specify SCSNODE as a string of up to six characters. Enclose the string in quotation marks.

If the computer is in an OpenVMS Cluster, specify a value that is unique within the cluster. Do not specify the null string.

If the computer is running DECnet for OpenVMS, the value must be the same as the DECnet node name.

SCSRESPCNT SCSRESPCNT is the total number of response descriptor table entries (RDTEs) configured for use by all system applications.

If no SCS or DSA port is configured on your system, this parameter is ignored.

SCSSYSTEMID 1 Specifies a number that identifies the computer. This parameter is not dynamic. SCSSYSTEMID is the low-order 32 bits of the 48-bit system identification number.

If the computer is in an OpenVMS Cluster, specify a value that is unique within the cluster.

If the computer is running DECnet for OpenVMS, calculate the value from the DECnet address using the following formula:

SCSSYSTEMID = ((
DECnet-area-number) * 1024)

+ ( DECnet-node-number)

Example: If the DECnet address is 2.211, calculate the value as follows:

SCSSYSTEMID = (2 * 1024) + 211 = 2259

SCSSYSTEMIDH Specifies the high-order 16 bits of the 48-bit system identification number. This parameter must be set to 0. It is reserved by OpenVMS for future use.
TAPE_ALLOCLASS Specifies a numeric value from 0 to 255 to be assigned as the tape allocation class for tape devices connected to the computer. The default value is 0.
TIMVCFAIL Specifies the time required for a virtual circuit failure to be detected. Compaq recommends that you use the default value. Compaq further recommends that you decrease this value only in OpenVMS Cluster systems of three or fewer CPUs, use the same value on each computer in the cluster, and use dedicated LAN segments for cluster I/O.
TMSCP_LOAD Controls whether the TMSCP server is loaded. Specify a value of 1 to load the server and set all available TMSCP tapes served. By default, the value is set to 0, and the server is not loaded.
TMSCP_SERVE_ALL Controls the serving of tapes. The settings take effect when the system boots. You cannot change the settings when the system is running.

Starting with OpenVMS Version 7.2, the serving types are implemented as a bit mask. To specify the type of serving your system will perform, locate the type you want in the following table and specify its value. For some systems, you may want to specify two serving types, such as serving all tapes except those whose allocation class does not match. To specify such a combination, add the values of each type, and specify the sum.

In a mixed-version cluster that includes any systems running OpenVMS Version 7.1- x or earlier, serving all available tapes is restricted to serving all tapes except those whose allocation class does not match the system's allocation class (pre-Version 7.2 meaning). To specify this type of serving, use the value 9, which sets bit 0 and bit 3.

The following table describes the serving type controlled by each bit and its decimal value.
Bit Value When Set Description
Bit 0 1 Serve all available tapes (locally attached and those connected to HS x and DSSI controllers). Tapes with allocation classes that differ from the system's allocation class (set by the ALLOCLASS parameter) are also served if bit 3 is not set.
Bit 1 2 Serve locally attached (non-HS x and non-DSSI) tapes.
Bit 2 n/a Reserved.
Bit 3 8 Restrict the serving specified by bit 0. All tapes except those with allocation classes that differ from the system's allocation class (set by the ALLOCLASS parameter) are served.

This is pre-Version 7.2 behavior. If your cluster includes systems running OpenVMS Version 7.1- x or earlier, and you want to serve all available tapes, you must specify 9, the result of setting this bit and bit 0.

Although the serving types are now implemented as a bit mask, the values of 0, 1, and 2, specified by bit 0 and bit 1, retain their original meanings:

  • 0 --- Do not serve any disks (the default for earlier versions of OpenVMS).
  • 1 --- Serve all available disks.
  • 2 --- Serve only locally attached (non-HSx and non-DSSI) disks.

If the TMSCP_LOAD system parameter is 0, TMSCP_SERVE_ALL is ignored.

VAXCLUSTER Controls whether the computer should join or form a cluster. This parameter accepts the following three values:
  • 0 --- Specifies that the computer will not participate in a cluster.
  • 1 --- Specifies that the computer should participate in a cluster if hardware supporting SCS (CI or DSSI) is present or if NISCS_LOAD_PEA0 is set to 1, indicating that cluster communications is enabled over the local area network (LAN).
  • 2 --- Specifies that the computer should participate in a cluster.

You should always set this parameter to 2 on computers intended to run in a cluster, to 0 on computers that boot from a UDA disk controller and are not intended to be part of a cluster, and to 1 (the default) otherwise.

Caution: If the NISCS_LOAD_PEA0 system parameter is set to 1, the VAXCLUSTER parameter must be set to 2. This ensures coordinated access to shared resources in the OpenVMS Cluster system and prevents accidental data corruption. Data corruption may occur on shared resources if the NISCS_LOAD_PEA0 parameter is set to 1 and the VAXCLUSTER parameter is set to 0.

VOTES Specifies the number of votes toward a quorum to be contributed by the computer. The default is 1.


+VAX specific
++Alpha specific
1Once a computer has been recognized by another computer in the cluster, you cannot change the SCSSYSTEMID or SCSNODE parameter without either changing both or rebooting the entire cluster.

Note

1 This manual has been archived but is available in PostScript and DECW$BOOK (Bookreader) formats on the OpenVMS Documentation CD-ROM. A printed book can be ordered through DECdirect (800-354-4825).


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