Updated: 11 December 1998 |
OpenVMS System Management Utilities Reference
Manual
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When creating a new process, if the set of real balance slots is allocated, then a virtual balance slot is created and the owner of a real balance slot is selected and transitioned to the virtual balance slot. The new process is created in the real balance slot. Processes are transitioned (faulted) back to a real balance slot as they are scheduled to execute on a CPU.
Bit | Result |
---|---|
0 | Enables VBS. All other VBS enables are subordinate to this enable. The default is disabled. |
1 | Enables the creation of a map for process-based direct I/O, allowing the process with direct I/O (DIO) outstanding to be transitioned to a virtual balance slot. Without DIO maps, a process with DIO outstanding retains its real balance slot for the duration of the DIO. This reduces the pool of available real balance slots for timesharing, which may result in a higher rate of faulting into the limited set of real balance slots. The default is enabled. |
2-7 | Reserved to Compaq for future use. |
This cell is used for enabling and disabling VBS dynamic capabilities that are valid only when VBS is enabled. The following table indicates the result for each value:
Bit | Result |
---|---|
0 | Enables VBS to perform first-level data reduction when switching processes. The default is enabled. |
1 | Enables VBS to perform second-level data reduction when switching processes. The default is enabled. |
2 | Requests VBS to perform an optimization that detects empty private page table pages on the modified list and frees them directly to the free list versus writing them to the page file. The default setting is enabled. |
3-7 | Reserved to Compaq for future use. |
VCC_FLAGS enables or disables virtual I/O caching. The virtual I/O cache is a file-oriented disk cache that reduces I/O bottlenecks and improves performance. Cache operation is transparent to application software and requires very little system management. This functionality provides a write-through cache that maintains the integrity of disk writes while significantly improving read performance. The virtual I/O cache works on standalone systems and in an OpenVMS Cluster environment if all nodes in the cluster support virtual I/O caching.
By default, virtual I/O caching is enabled. The values of the VCC_FLAGS parameter are as follows:
By default, memory is allocated for caching 6400 disk blocks. This requires 3.2 MB of memory. Use the system parameter VCC_MAXSIZE to control memory allocation in units of disk blocks.
The virtual I/O cache cannot shrink or grow. Its size is fixed at system startup.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
The virtual I/O cache automatically shrinks and grows, depending on your I/O workload and how much spare memory your system has. As your I/O workload increases, the cache automatically grows, but never to more than the maximum size. When your applications need memory, the cache automatically shrinks.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
The default value of the VECTOR_MARGIN parameter is 200_10 .
Value | Result |
---|---|
0 | Do not load the vector processing support code, regardless of the system configuration. |
1 | Load the vector processing support code if at least one vector-present processor exists. This is the default value. |
2 | Load the vector processing support code if the system is vector-capable. This setting is most useful for a system in which processors have separate power supplies. With this setting, you can reconfigure a vector processor into the system without rebooting the operating system. |
3 | Always load the vector processing support code. |
This parameter is not used on Alpha systems.
If you use SYS$UPDATE:LIBDECOMP.COM to decompress libraries and the VIRTUALPAGECNT setting is low, make sure you set the PGFLQUOTA field in the user authorization file to at least twice the size of the library.
At installation time, AUTOGEN automatically sets an appropriate value for VIRTUALPAGECNT. The value depends on the particular configuration---the type and number of graphics adapters on the system, if any exist. You cannot set VIRTUALPAGECNT below the minimum value required for your graphics configuration.
Because the VIRTUALPAGECNT setting supports hardware address space rather than system memory, do not use the value of VIRTUALPAGECNT that AUTOGEN sets to gauge the size of your page file.
Starting with OpenVMS Alpha V7.0, VIRTUALPAGECNT is an obsolete parameter. Note, however, that the parameter remains in existence on Alpha systems for compatibility purposes and has a default and maximum value of %X7FFFFFFF. SYSBOOT and AUTOGEN enforce this default value.
Value | Description |
---|---|
1 | Load the DECwindows Motif for OpenVMS workstation environment. |
2 | Load the UIS workstation environment. |
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
On Alpha systems, WRITESYSPARAMS indicates that parameters are modified during SYSBOOT and are written out to ALPHAVMSSYS.PAR by STARTUP.COM.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
On VAX systems, WSDEC specifies the number of pages by which the limit of a working set is automatically decreased at each adjustment interval (which is quantum end). At a setting of 35, for example, the system decreases the limit of a working set by 35 pages each time a decrease is required.
On Alpha systems, WSDEC specifies the number of pagelets by which the limit of a working set is automatically decreased at each adjustment interval (which is quantum end). At a setting of 35, for example, the system decreases the limit of a working set by 35 pagelets each time a decrease is required.
On VAX systems, WSINC specifies the number of pages by which the limit of a working set is automatically increased at each adjustment interval (which is quantum end). At a setting of 150, for example, the system increases the limit of a working set by 150 pages each time an increase is required. On VAX systems, the default value is 150 512-byte pages.
On Alpha systems, WSINC specifies the number of pagelets by which the limit of a working set is automatically increased at each adjustment interval (which is quantum end). At a setting of 150, for example, the system increases the limit of a working set by 150 pagelets each time an increase is required. On Alpha systems, the default value is 2400 512-byte pagelets (150 8192-byte Alpha pages).
A value of 0 for WSINC disables the automatic adjustment of working set limits for all processes. Limits stay at their base values. You can disable the automatic adjustment of working set limits on a per-process basis by using the DCL command SET WORKING_SET.
This is intended to assist managers of systems that host large numbers of users whose working sets are not large. Systems whose user bases consist of a small number of users (or processes) that require large amounts of physical memory (for example, simulations) might need to set MIN_WSMAX to a value that satisfies the requirements of those processes.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
This special parameter is used by Compaq and is subject to change. Do not change this parameter unless Compaq recommends that you do so.
Compaq-supplied devices are attached to the UNIBUS or Q-bus adapters according to the following basic rules:
CSR and vector addresses that vary are called floating addresses. The devices must be located in floating CSR and vector space according to the order in which the devices appear in the SYSGEN device table (see Table K-1). The SYSGEN device table lists all the type A and type B devices supported by the operating system. It also lists the type C and type D devices that are recognized by SYSGEN's autoconfiguration procedure.
The base of floating vector space is 3008. The base of
floating CSR space is 7600108.
K.1 SYSGEN Device Table (VAX Only)
Table K-1 lists the characteristics of all Compaq devices. This table indicates the following information for each device type:
Devices not listed in Table K-1 are the following ones:
Device Name | Controller Name | Vector | Number of Vectors |
Vector Alignment |
CSR/Rank | Register Alignment |
Driver Name | Support |
---|---|---|---|---|---|---|---|---|
CR | CR11 | 230 | 1 | --- | 777160 | --- | CRDRIVER | Yes |
DM | RK611 | 210 | 1 | --- | 777440 | --- | DMDRIVER | Yes |
LP | LP11 |
200
170 174 270 274 |
--- | --- |
777514
764004 764014 764024 764034 |
--- | LPDRIVER | Yes |
DL | RL11 | 160 | 1 | --- | 774400 | --- | DLDRIVER | Yes |
MS | TS11 | 224 | 1 | --- | 772520 | --- | TSDRIVER | Yes |
DY | RX211 | 264 | 1 | --- | 777170 | --- | DYDRIVER | Yes |
DQ | RB730 | 250 | 1 | --- | 775606 | --- | DQDRIVER | Yes |
PU | UDA | 154 | 1 | --- | 772150 | --- | PUDRIVER | Yes |
PT | TU81 | 260 | 1 | --- | 774500 | --- | PUDRIVER | Yes |
XE | UNA | 120 | 1 | --- | 774510 | --- | XEDRIVER | Yes |
XQ | QNA | 120 | 1 | --- | 774440 | --- | XQDRIVER | Yes |
OM | DC11 | Float | 2 | 8 |
774000
774010 774020 774030 . . . 32 units maximum |
--- | OMDRIVER | No |
DD | TU58 | Float | 2 | 8 |
776500
776510 776520 776530 . . . 16 units maximum |
--- | DDRIVER | Yes |
OB | DN11 | Float | 1 | 4 |
775200
775210 775220 775230 . . . 16 units maximum |
--- | OBDRIVER | No |
YM | DM11B | Float | 1 | 4 |
770500
770510 770520 770530 . . . 16 units maximum |
--- | YMDRIVER | No |
OA | DR11C | Float | 2 | 8 |
767600
767570 767560 767550 . . . 16 units maximum |
--- | OADRIVER | No |
PR | PR611 | Float | 1 | 8 |
772600
772604 772610 772614 . . . 8 units maximum |
--- | PRDRIVER | No |
PP | PP611 | Float | 1 | 8 |
772700
772704 772710 772714 . . . 8 units maximum |
--- | PPDRIVER | No |
OC | DT11 | Float | 2 | 8 |
777420
777422 777424 777426 . . . 8 units maximum |
--- | OCDRIVER | No |
OD | DX11 | Float | 2 | 8 |
776200
776240 |
--- | ODDRIVER | No |
YL | DL11C | Float | 2 | 8 |
775610
775620 775630 775640 . . . 31 units maximum |
--- | YLDRIVER | No |
YJ | DJ11 | Float | 2 | 8 | Float | 8 | YJDRIVER | No |
YH | DH11 | Float | 2 | 8 | Float | 16 | YHDRIVER | No |
OE | GT40 | Float | 4 | 8 |
772000
772010 |
--- | OEDRIVER | No |
LS | LPS11 | Float | 6 | 8 | 770400 | --- | LSDRIVER | No |
OR | DQ11 | Float | 2 | 8 | Float | 8 | ORDRIVER | No |
OF | KW11W | Float | 2 | 8 | 772400 | --- | OFDRIVER | No |
XU | DU11 | Float | 2 | 8 | Float | 8 | XUDRIVER | No |
XV | DV11 | Float | 3 | 8 |
775000
775040 775100 775140 |
--- | XVDRIVER | No |
OG | LK11 | Float | 2 | 8 | Float | 8 | OGDRIVER | No |
XM | DMC11 | Float | 2 | 8 | Float | 8 | XMDRIVER | Yes |
TTA | DZ11 | Float | 2 | 8 | Float | 8 | DZDRIVER | Yes |
XK | KMC11 | Float | 2 | 8 | Float | 8 | XKDRIVER | No |
OH | LPP11 | Float | 2 | 8 | Float | 8 | OHDRIVER | No |
OI | VMV21 | Float | 2 | 8 | Float | 8 | OIDRIVER | No |
OJ | VMV31 | Float | 2 | 8 | Float | 16 | OJDRIVER | No |
OK | DWR70 | Float | 2 | 8 | Float | 8 | OKDRIVER | No |
DL | RL11 | Float | 1 | 4 | Float | 8 | DLDRIVER | Yes |
MS | TS11 | Float | 1 | 4 |
772524
772530 772534 |
--- | TSDRIVER | Yes |
LA | LPA11 | Float | 2 | 8 | 770460 | --- | LADRIVER | Yes |
LA | LPA11 | Float | 2 | 8 | Float | 16 | LADRIVER | Yes |
OL | KW11C | Float | 2 | 8 | Float | 8 | OLDRIVER | No |
DY | RX211 | Float | 1 | 4 | Float | 8 | DYDRIVER | Yes |
XA | DR11W | Float | 1 | 4 | Float | 8 | XADRIVER | Yes |
XB | DR11B | 124 | --- | --- | 772410 | --- | XBDRIVER | No |
XB | DR11B | Float | 1 | 4 | 772430 | --- | XBDRIVER | No |
XB | DR11B | Float | 1 | 4 | Float | 8 | XBDRIVER | No |
XD | DMP11 | Float | 2 | 8 | Float | 8 | XDDRIVER | Yes |
ON | DPV11 | Float | 2 | 8 | Float | 8 | ONDRIVER | No |
IS | ISB11 | Float | 2 | 8 | Float | 8 | ISDRIVER | No |
XD | DMV11 | Float | 2 | 8 | Float | 16 | XDDRIVER | No |
XE | UNA | Float | 1 | 4 | Float | 8 | XEDRIVER | No |
XQ | QNA | Float | 1 | 4 | 774460 | --- | XQDRIVER | Yes |
PU | UDA | Float | 1 | 4 | Float | 4 | PUDRIVER | Yes |
XS | KMS11 | Float | 3 | 8 | Float | 16 | XSDRIVER | No |
XP | PCL11 | Float | 2 | 8 |
764200
764240 764300 764340 |
--- | XPDRIVER | No |
VB | VS100 | Float | 1 | 4 | Float | 16 | VBDRIVER | No |
PT | TU81 | Float | 1 | 4 | Float | 4 | PUDRIVER | Yes |
OQ | KMV11 | Float | 2 | 8 | Float | 16 | OQDRIVER | No |
UK | KCT32 | Float | 2 | 8 |
764400
764440 764500 764540 |
--- | UKDRIVER | No |
IX | IEQ11 | Float | 2 | 8 | 764100 | --- | IXDRIVER | No |
TX | DHV11 | Float | 2 | 8 | Float | 16 | YFDRIVER | Yes |
DT | TC11 | 214 | 1 | --- | 777340 | --- | DTDRIVER | No |
VC | VCB01 | Float | 2 | 1 | 777200 | --- | VCDRIVER | Yes |
VC | VCB01 | Float | 2 | 1 | Float | 64 | VCDRIVER | Yes |
OT | LNV11 | Float | 1 | 4 | 776200 | --- | OTDRIVER | No |
LD | LNV21 | Float | 1 | 4 | Float | 16 | LDDRIVER | No |
ZQ | QTA | Float | 1 | 4 | 772570 | --- | ZQDRIVER | No |
ZQ | QTA | Float | 1 | 4 | Float | 8 | ZQDRIVER | No |
SJ | DSV11 | Float | 1 | 4 | Float | 8 | SJDRIVER | No |
OU | ADV11C | Float | 2 | 8 | Float | 8 | OUDRIVER | No |
OV | AAV11 | Float | 0 | 8 | 770440 | --- | OVDRIVER | No |
OV | AAV11C | Float | 0 | 8 | Float | 8 | OVDRIVER | No |
AX | AXV11C | 140 | 2 | --- | 776400 | --- | AXDRIVER | No |
AX | AXV11C | Float | 2 | 8 | Float | 8 | AXDRIVER | No |
KZ | KWV11C | Float | 2 | 8 | 770420 | --- | KZDRIVER | No |
KZ | KWV11C | Float | 2 | 8 | Float | 4 | KZDRIVER | No |
AZ | ADV11D | Float | 2 | 8 | 776410 | --- | AZDRIVER | No |
AZ | ADV11D | Float | 2 | 8 | Float | 4 | AZDRIVER | No |
AY | AAV11D | Float | 2 | 8 | 776420 | --- | AYDRIVER | No |
AY | AAV11D | Float | 2 | 8 | Float | 4 | AYDRIVER | No |
VA | VCB02 | Float | 3 | 16 |
777400
777402 777404 777406 . . . 8 units maximum |
--- | VADRIVER | Yes |
DN | DRV11J | Float | 16 | 4 |
764160
764140 764120 |
--- | DNDRIVER | No |
HX | DRQ3B | Float | 2 | 8 | Float | 16 | HXDRIVER | No |
VQ | VSV24 | Float | 1 | 4 | Float | 8 | VQDRIVER | No |
VV | VSV21 | Float | 1 | 4 | Float | 8 | VVDRIVER | No |
BQ | IBQ01 | Float | 1 | 4 | Float | 8 | BQDRIVER | No |
UT | MIRA | Float | 2 | 8 | Float | 8 | UTDRIVER | No |
IX | IEQ11 | Float | 2 | 8 | Float | 16 | IXDRIVER | No |
AW | ADQ32 | Float | 2 | 8 | Float | 32 | AWDRIVER | No |
VX | DTC04 | Float | 2 | 8 | Float | 2 | VXDRIVER | No |
CQ | DESNA | Float | 1 | 4 | Float | 32 | CQDRIVER | No |
GQ | IGQ11 | Float | 2 | 8 | Float | 4 | GQDRIVER | No |
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