Lines Matching +full:- +full:39000
49 Intel 386/486-based machines (ISA/AT or EISA bus only)
51 Sony News MIPS-based workstations
53 Omron Luna 68000-based workstations
150 HP-IB/CS80 (7912, 7914, 7933, 7936, 7945, 7957, 7958, 7959, 2200, 2203)
151 and SCSI-I (including magneto-optical).
155 Low-density CS80 cartridge (7914, 7946, 9144),
156 high-density CS80 cartridge (9145),
162 98644 built-in single-port, 98642 4-port and 98638 8-port interfaces.
185 Battery-backed real time clock,
186 builtin and 98625A/B HP-IB interfaces,
188 serial printers and plotters on HP-IB,
196 port, 1/2" tape drives (7980), CD-ROM, and the PVRX/TVRX 3D graphics displays.
210 ``rd'' for HP-IB CS80 disks,
211 ``ct'' for HP-IB CS80 cartridge tapes, or
212 ``sd'' for SCSI-I disks
213 (SCSI-I tapes are currently not supported).
214 The \fIadaptor\fP field is a logical HP-IB or SCSI bus adaptor card number.
217 0 for devices on the ``slow'' HP-IB interface (usually tapes) and
218 1 for devices on the ``fast'' HP-IB interface (usually disks).
219 To get a complete mapping of physical (select-code) to logical card numbers
222 HP-IB or SCSI bus.
224 for HP-IB the range is 0 to 7.
227 and disks: for disks it is a disk partition (in the range 0-7),
262 Note that an HP SCSI magneto-optical disk will work fine for this case.
265 you will need at least 640MB (at least a 2213A SCSI or 2203A HP-IB disk).
272 Since most HP disk drives come pre-formatted
275 you can format a disk under HP-UX using the
281 Any additional HP-IB disks will have to be formatted using HP-UX.
286 command under HP-UX to copy the root filesystem image from
296 the version of HP-UX that is running.
297 Consult the HP-UX
304 HP-UX (or an HP) to create the boot disk.
310 HP-IB cartridge tape drive.
337 \fBFrom:\fP \fI^C\fP (control-C to see logical adaptor assignments)
340 \fBFrom:\fP \fIct(0,7,0,0)\fP (HP-IB tape, target 7, first tape file)
352 the HP-UX drive.
354 destroying the HP-UX disk.
377 Copyright (c) 1992 Hewlett-Packard Company
383 HP9000/433 (33MHz MC68040 CPU+MMU+FPU, 4k on-chip physical I/D caches)
421 a description of your machine from which to configure a site-dependent
437 or with ``rd0'' if you are booting from an HP-IB disk.
451 \fBWARNING: preposterous time in filesystem \-\- CHECK AND RESET THE DATE!\fP
464 from the Bourne shell, and lets you know that you are the super-user,
467 At this point, the root filesystem is mounted read-only.
475 \fB#\fP \fImount_mfs -s 1000 -T type /dev/null /tmp\fP (create a writable filesystem)
478 \fB#\fP \fImount \-uw /tmp/\*(Dk#a /\fP (read-write mount root filesystem)
496 overwrite your initial HP-UX disk, as it will no longer
497 be needed (assuming you have no plans to run HP-UX again).
506 \fB#\fP\|\fIdump 0f \- /dev/r\*(Dk0a | restore xf \-\fP
529 In the latter, some of the partitions may map non-existent sectors
553 \fB#\fP \fIdisklabel -r -e /dev/r\fBXX#\fPd
565 \fB#\|\fP\fIdisklabel -rw \fBXX# type\fP \fI"optional_pack_name"\fP
584 you should substitute the name ``rd'' if you are running on an HP-IB disk.
623 Battery-backed real time clock,
624 built-in serial devices,
631 anything VME-based,
643 Sun-supplied boot loader will be used to boot \*(4B; you must copy
698 You can build an old-format filesystem on \*(4B by giving the \-O
710 you must build an old-style root filesystem
717 to enable disk-based booting.
744 ok boot sd(0,3)kernel -s [for old proms] OR
745 ok boot disk3 -s [for new proms]
762 ok setenv boot-from sd(0,3)kernel [for old proms] OR
763 ok setenv boot-device disk3 [for new proms]
765 If you build backwards-compatible filesystems, either with the SunOS
766 newfs or with the \*(4B ``\-O'' option, you can mount these under
769 superblock fields that are updated in \*(4B. Running ``fsck \-b32''
777 # rcp sunos-host:/etc/ld.so.cache /etc/
778 # rcp sunos-host:'/usr/lib/*.so*' /usr/lib/
796 SCSI-I (tested RZ23, RZ55, RZ57, Maxtor 8760S).
800 SCSI-I (tested DEC TK50, Archive DAT, Emulex MT02).
808 TURBOchannel PMAD-AA and internal LANCE based interfaces.
814 TURBOchannel PMAG-AA, PMAG-BA, PMAG-DV.
822 Battery-backed real time clock,
823 internal and TURBOchannel PMAZ-AA SCSI interfaces.
875 DEC 3100: boot \-f rz(0,0,0)kernel
885 kernel and mini-root from tape or the network, and using it to restore
899 mini-root filesystem that the PROM can copy into memory.
905 DEC 3100: boot \-f tz(0,5,0) m # 5 is the SCSI id of the TK50
909 Next you should proceed to section 2.4.3 to build a disk-based root filesystem.
921 DEC 3100: boot \-f tftp()kernel.net m
924 This command should load the kernel and mini-root into memory and
933 # mount \-uw /
939 Next you should proceed to section 2.4.3 to build a disk-based root filesystem.
942 There are five steps to create a disk-based root filesystem.
947 # disklabel -W /dev/rrz?c # This enables writing the label
948 # disklabel -w -r -B /dev/rrz?c $DISKTYPE
960 # mount \-uw /
968 # mt \-f /dev/nrmt0 rew
969 # restore \-xsf 2 /dev/rmt0
990 DEC 3100: setenv bootpath boot \-f rz(0,?,0)kernel
991 DEC 5000: setenv bootpath 5/rz?/kernel -a
1005 cfb0 raw interface to TURBOchannel PMAG-BA color frame buffer
1056 disk sizes are always reported in units of 512-byte sectors\**.
1059 requiring that 512-byte blocks be the units that programs report.
1080 large enough to accommodate most high-water marks.
1083 is constructed from a memory-based filesystem (see
1088 If you plan to use a disk-based
1234 filesystem will result in 4-8% more space being
1254 normal users (i.e. anyone but the super-user) attempt to allocate
1265 physical sector size of the disk. As an example, the HP magneto-optical
1319 This is the organization used if you loaded the disk-image root filesystem.
1320 With the addition of a memory-based
1328 /dev/\*(Dk0b /tmp mfs rw,-s=14000,-b=8192,-f=1024,-T=sd660 0 0
1355 directory is a memory-based filesystem.
1370 /dev/\*(Dk0b /tmp mfs rw,-s=14000,-b=8192,-f=1024,-T=sd660 0 0
1381 \fB#\fP \fIdisklabel -wr \*(Dk1 "disk type" "disk name"\fP
1402 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf\fP
1408 \fB#\fP \fIrsh foo mt -f /dev/nr\*(Mt0 fsf\fP
1409 \fB#\fP \fIrsh foo dd if=/dev/nr\*(Mt0 bs=\*(Bzb | tar xbpf \*(Bz -\fP
1422 and the ``my.domain'' fields are the names of your machine and the tape-hosting
1435 \fB#\fP \fImount \-uw /dev/\*(Dk#a /\fP (read-write mount root filesystem)
1438 \fB#\fP \fIpasswd -l root\fP (set password for super-user)
1441 \fB#\fP \fIpasswd -l toor\fP (set password for super-user)
1450 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf\fP (space to end of previous tape file)
1458 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf\fP (space to end of previous tape file)
1460 (this takes about 15-20 minutes)
1463 \fB#\fP \fIrm -r /usr/*\fP (remove excess bootstrap binaries)
1477 \fB#\fP \fImt -f /dev/nr\*(Mt0 rew\fP
1478 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf 1\fP
1489 requires about 250-340Mb of space.
1509 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf\fP (space to end of previous tape file)
1512 (this takes about 15-30 minutes)
1522 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf\fP (space to end of previous tape file)
1524 (this takes about 30-60 minutes)
1539 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf\fP (space to end of previous tape file)
1542 (this takes about 30-60 minutes)
1557 \fB#\fP \fImt -f /dev/nr\*(Mt0 fsf\fP (space to end of previous tape file)
1559 (this takes about 30-60 minutes)
1589 ** Phase 1 - Check Blocks and Sizes
1590 ** Phase 2 - Check Pathnames
1591 ** Phase 3 - Check Connectivity
1592 ** Phase 4 - Check Reference Counts
1593 ** Phase 5 - Check Cyl groups
1594 23000 files, 261000 used, 39000 free (2200 frags, 4600 blocks)
1638 be sure to use its `\-p' option when reading the files back. No matter