>@SYSGEN >; >; RSX-11M-PLUS SYSGEN BL46 >; >; COPYRIGHT (c) 1988 >; DIGITAL EQUIPMENT CORP., MAYNARD MA., 01754 >; >SET /DPRO=[RWED,RWED,RWE,R] >; >; To exit from the SYSGEN procedure at any time, type CTRL/Z. >; >; If you are unsure of the answer to a question for which a de- >; fault answer exists, use the default answer. >; >; >; >;=================================================== >; Choosing SYSGEN Options 02-OCT-06 at 01:11 >;=================================================== >; >; >; >; Every question is preceded by a question number (for example SU010) >; which you can use to find the explanation of the question in the >; RSX-11M-PLUS System Generation and Installation Guide. >; >; An explanation of every question is also available by pressing >; the ESC key (or the ALTMODE key) in response to the question. >; >; If you are unfamiliar with the SYSGEN procedure, the explanation of >; each question can be printed automatically before the question. >; >* SU010 Do you always want the explanation printed? [Y/N D:N]: Y >; >; SYSGEN always creates saved answer files containing your responses >; to the SYSGEN questions: >; >; SYSGENSA1.CMD Setup questions, Executive options >; SYSGENSA2.CMD Peripheral configuration >; SYSGENSA3.CMD Nonprivileged task builds >; >; You should perform a PREPGEN first to create saved answer files, and >; then perform a SYSGEN, specifying those saved answer files as input >; to the Executive, peripheral, and nonprivileged task build sections. >; >; If you have performed a SYSGEN (or PREPGEN) before, you can use the >; saved answer file created during that SYSGEN as input to this SYSGEN. >; SYSGEN uses the saved answers as your responses to the Executive >; questions. >; >* SU020 Do you want to use a saved answer file as input for >* the Executive options? [Y/N D:N]: >; >* SU040 Do you want to use a saved answer file as input for >* the peripheral configuration? [Y/N D:N]: >; >* SU060 Do you want to use a saved answer file as input for >* the nonprivileged task builds? [Y/N D:N]: >; >; A PREPGEN allows you to answer all the SYSGEN questions and create >; saved answer files without actually generating a system: no MCR >; commands are executed, no files are deleted, and the Executive is >; not assembled or built. >; >; After you have successfully completed a PREPGEN, you can perform a >; SYSGEN using the saved answer files from the PREPGEN. The SYSGEN >; will then run unattended. >; >* SU080 Do you want to do a PREPGEN? [Y/N D:N]: >; >; You should have a disk spinning in a disk drive which is a copy of >; your distribution kit. This is your target system disk, the disk on >; which you will perform the SYSGEN. This disk should already be >; mounted with the MOUNT command so that you have access to it. >; >; Enter the name of the drive containing this disk in the form ddnn:, >; i.e., DB2:. >; >* SU090 Enter the name of the disk drive containing your >* target system disk [ddnn:] [S R:2-5]: DU: >; >ASN DU:=IN: >ASN DU:=OU: >ASN DU:=LB: >ASN DU:=WK: >ASN DU:=TK: >ASN DU:=BC: >ASN DU:=LI: >ASN DU:=OB: >ASN DU:=EX: >ASN DU:=MP: >; >; SGN -- Warning: This disk does not contain a complete distribution >; kit. The command file [2,54]BASTART.CMD must be run to create >; the necessary UFDs. >; >; >; You can: >; >; o do a complete SYSGEN >; >; o continue a previous SYSGEN from where you left off >; >; o do an individual section of SYSGEN >; >; >; A complete SYSGEN consists of: >; >; Choosing Executive options >; Choosing Peripheral Configuration >; >; Assembling the Executive and Drivers >; >; Building the Executive and Drivers >; Building the Privileged Tasks >; Building the Nonprivileged Tasks >; >; Creating the System Image File >; >; If you do not choose to do a complete SYSGEN, you can continue >; a previous SYSGEN from where you left off or do an individual >; section of SYSGEN. >; >* SU120 Do you want to do a complete SYSGEN? [Y/N D:Y]: >; >INS [3,54]MAC/TASK=MACT0 >INS [3,54]PIP/TASK=PIPT0 >INS [3,54]LBR/TASK=LBRT0 >INS [3,54]TKB/TASK=TKBT0 >INS [3,54]VMR/TASK=VMRT0 >; >; >; >;====================================================== >; Choosing Executive Options 02-OCT-06 at 01:12 >;====================================================== >; >; >; >; The answers to the questions in this section are put in the saved >; answer file [200,200]SYSGENSA1.CMD. >; >; You may now enter a comment describing the system you are building. >; This comment is included in the SYSGENSA1 saved answer file for >; documentation, and is printed out when the saved answer file is >; later used as input. >; >; Enter a comment for inclusion in the SYSGENSA1 saved answer file. >; The comment may contain more than one line. The "V" in the right >; margin below marks the maximum line length. When you are done, >; press RETURN in response to the prompt. >; V >* Comment [S R:0.-55.]: >; >; RSX-11M-PLUS may be run on the following PDP-11 processors: >; >; 11/23-PLUS (also called MicroPDP-11/23 and 11/23-B) >; 11/24 >; 11/44 >; 11/53 >; 11/70 >; 11/73 (also called MicroPDP-11/73) >; 11/83 (also called MicroPDP-11/83) >; 11/93 >; 11/94 >; >; LSI-11/73 >; >* CE010 What is your target processor type? [S R:5.-12. D:"11/70"]: 11/94 >; >; The following RSX-11M-PLUS Executives may be generated: >; >; o Full-functionality Executive >; >; o User-tailored Executive >; >; >; The Full-functionality Executive includes all features of the >; RSX-11M-PLUS operating system that can be used on your processor. >; >; Executive data space support >; User data space support >; Task headers out of pool support >; Extended logical name support >; Supervisor-mode library support >; Fast map facility >; All DIGITAL-supplied drivers are loadable >; ICB pool size of 128. words >; Shadow recording support >; Disk data caching support >; Console driver support >; Accounting support >; Batch processor support >; Queue Manager for spooling >; DIGITAL Command Language and alternate CLI support >; CTRL/C abort support >; High performance FCP >; File windows in secondary pool support >; Decimal version numbers in file specifications >; Virtual terminal support with a default virtual terminal >; unit buffer size of 120. bytes and a maximum of 184. bytes >; Character translation support >; Terminal driver extended I/O support >; Time-out on unsolicited terminal input of 30. seconds >; >; >; The User-tailored Executive will require you to answer at least >; twenty additional questions specifying which standard RSX-11M-PLUS >; features you wish to disable. You should not choose the User-tailored >; Executive unless you need to disable specific RSX-11M-PLUS features. >; >; >; For information and guidelines on generating a User-tailored Executive, >; please refer to the RSX-11M-PLUS System Generation and Installation >; Guide. >; >; If you do not understand the options presented by the system >; generation process when configuring an Executive yourself, please >; select the Full-functionality Executive. >; >; >* CE020 Do you want the Full-functionality Executive? [Y/N D:Y]: >; >; Network software provides the capability of simultaneously >; operating tasks on different systems to establish logical >; communication links and to exchange data. This software is >; not provided with RSX-11M-PLUS, but must be purchased separately. >; >; If you choose this option, DCL and alternate CLI support will >; also be included. >; >* CE120 Do you want support for communications products >* (such as DECnet, PSI, and LAT)? [Y/N D:N]: Y >; >; The system name is an arbitrary six-character name. >; This should be the same as the DECnet node name, if any. >; >* CE130 What is the system name? [S R:0-6 D:"RSXMPL"]: >; >; The IP11 industrial I/O subsystem is a combined software and >; hardware package used for process control and monitoring in >; the industrial and manufacturing environment. It consists >; of an RSX device driver (IPDRV) and a set of FORTRAN-callable >; interface routines, used to interface to a variety of hardware >; I/O modules, including digital sense interrupt, change-of-state, >; digital output, digital-to-analog converter, and analog-to-digital >; converter modules. >; >; See the IP11 I/O Subsystem Software Installation Guide for >; information on installing the software. >; >* CE264 Do you want IP11 industrial I/O subsystem support? [Y/N D:N]: >; >; The Executive Debugging Tool (XDT) provides a subset of ODT-11 >; that runs as a part of the RSX-11M-PLUS Executive. This tool >; allows interactive debugging of Executive modules, I/O drivers, >; and interrupt service routines. Selection of this option also >; includes consistency checks in the dynamic memory routines and >; the loader. >; >; Note: If your system does not have Executive data space support, >; XDT will reduce the size of primary pool. If your system does >; have Executive data space support, XDT does not affect the size >; of pool. >; >* CE270 Do you want to include XDT? [Y/N D:N]: Y >; >; If the system crashes, a message is printed on the crash >; notification device. This device must be a paper tape, >; teletype, or line printer compatible device; that is, the >; device must transmit a single byte at a time. Normally, >; the crash notification device is the console terminal which >; is always at the default CSR address given below. >; >* CE280 Enter the crash notification device CSR >* address [O R:160000-177700 D:177564]: >; >; If the system crashes, you can cause all of memory to be written >; onto a device for later analysis with the Crash Dump Analyzer (CDA). >; >; The device on which the crash dump is written must be selected from >; the following list of devices and cannot be a fixed media device: >; >; DB: DM: MM: >; DD: DR: MS: >; DK: DT: MT: >; DL: DU: MU: >; >; Note: Enter both the device and the logical unit number. >; For example, MM0: or DL1:. >; >; Note: Enter XX: if you desire loadable DU:, DL:, MU:, MS: or MM: >; crash driver support. >; >* CE290 On what device and unit do you want crash dumps >* to be written? [S R:2-6]: XX: >; >; The minimum supported memory size is 128K words for >; an RSX-11M-PLUS system. The maximum memory size is 1920K words. >; >; This value is only used by VMR when it creates the system image >; file. VMR does not allow you to create a partition or load >; anything beyond the end of memory. When the system is booted, >; your actual memory size is calculated and overrides the value >; you enter here. >; >* CE310 Enter memory size (in K words) [D R:128.-1920. D:256.]: >; >; The PDP-11 floating point processor is an optional arithmetic >; processor. It performs all floating point arithmetic >; operations and converts data between integer and floating point >; formats. >; >; If you choose floating point processor support, the Executive >; will dynamically determine whether the processor has a floating >; point unit or not. >; >; If you omit this support, the Executive will not support a >; floating point unit. >; >* CE320 Do you want floating point processor support? [Y/N D:N]: Y >; >; RSX-11M-PLUS requires a real-time clock for its operation. The >; KW11-P programmable frequency clock, the KW11-L line frequency >; clock, or the DL11-W line frequency clock/console interface may >; be used. >; >* CE330 Is your system clock programmable (KW11-P)? [Y/N D:N]: >; >; Line frequency is either 50 or 60 Hz. In the U.S.A., line frequency >; is always 60 Hz. >; >* CE350 Is your line frequency 50 Hz? [Y/N D:N]: Y >; >; >; >;============================================================= >; Choosing Peripheral Configuration 02-OCT-06 at 01:12 >;============================================================= >; >; >; >; The answers to the questions in this section are put in the saved >; answer file [200,200]SYSGENSA2.CMD. >; >; You may now enter a comment describing the system you are building. >; This comment is included in the SYSGENSA2 saved answer file for >; documentation, and is printed out when the saved answer file is >; later used as input. >; >; Enter a comment for inclusion in the SYSGENSA2 saved answer file. >; The comment may contain more than one line. The "V" in the right >; margin below marks the maximum line length. When you are done, >; press RETURN in response to the prompt. >; V >* Comment [S R:0.-55.]: >; >; >; The RH11 and RH70 MASSBUS controllers are the controllers for >; the following devices: >; >; DB: RP04, RP05, RP06 disks >; DR: RM02, RM03, RM05, RM80, RP07 disks >; DS: RS03, RS04 disks >; EM: ML11 semiconductor disk emulator >; MM: TM02, TM03 formatters, TE16, TU16, TU45, TU77 tapes >; >* CP0604 How many RH controllers do you have? [D R:0.-15. D:4.]: >; >; A mixed MASSBUS configuration has different device types on the >; same RH controller. For example, a DB type disk and a DR type disk >; both connected to RHA. Having an RP04 and an RP06 (both DB type >; disks) connected to the same controller is NOT a mixed MASSBUS >; configuration. >; >; If you choose to generate a mixed MASSBUS configuration, all the >; MASSBUS device data bases will be resident. >; >* CP0612 Do you want to generate a mixed MASSBUS configuration? [Y/N D:N]: >; >; >; DB: controllers: RH11, RH70 devices: RP04, RP05, RP06 >; >; The RP04/05/06 are 19 data surface, removable, random access >; bulk storage systems with storage capacities of 88 megabytes >; (RP04/05) and 176 megabytes (RP06) per pack. >; >* CP0808 How many RP04/05/06 disk drives do you have? [D R:0.-63. D:0.]: >; >; >; DR: controllers: RH11, RH70 devices: RM02 >; RH70 RM03, RM05, RM80, RP07 >; >; The RM02/03/05 are removable pack, random access disk storage >; systems with a storage capacity of 67 megabytes (RM02/03) and >; 256 megabytes (RM05) per pack. >; >; The RM80 and RP07 are fixed media, random access disk storage >; systems with a storage capacity of 124 megabytes (RM80) and >; 516 megabytes (RP07) per pack. >; >* CP1008 How many RM02/03/05/80/RP07 disk drives do you >* have? [D R:0.-63. D:0.]: 8 >; >; A dual-access unit is one that is connected to two controllers >; at one time, and may be accessed from either controller at the >; option of the system software. Since a single device unit may >; have only one physical unit number, a dual-access unit must be >; attached to both controllers with the same unit number. >; >* CP1020 Are any of the units dual-access? [Y/N D:N]: >; >; >; The physical unit number of a drive is the number shown on the >; unit number plug (or other indicator) on the drive. >; >* CP1036 What is the physical unit number of DR0:? [O R:0-7 D:0]: >; >; The legal characters in a controller specification are: >; >; A thru D >; >; Where the DEC alphabet is: A,B,C,D,E,F,H,J,K,L,M,N,P,R,S,T >; Note that the letters G, I, O, and Q are omitted for clarity. >; >* CP1044 To which RH controller is DR0: connected? [S R:1-1]: A >; >; Enter the drive type for this logical unit. >; >* CP1060 Is DR0: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >* CP1036 What is the physical unit number of DR1:? [O R:0-7 D:1]: A  >; >* CP1044 To which RH controller is DR1: connected? [S R:1-1]: A >; >* CP1060 Is DR1: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >* CP1036 What is the physical unit number of DR2:? [O R:0-7 D:2]: >; >* CP1044 To which RH controller is DR2: connected? [S R:1-1]: A >; >* CP1060 Is DR2: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >* CP1036 What is the physical unit number of DR3:? [O R:0-7 D:3]: >; >* CP1044 To which RH controller is DR3: connected? [S R:1-1]: A >; >* CP1060 Is DR3: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >* CP1036 What is the physical unit number of DR4:? [O R:0-7 D:4]: >; >* CP1044 To which RH controller is DR4: connected? [S R:1-1]: A >; >* CP1060 Is DR4: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >* CP1036 What is the physical unit number of DR5:? [O R:0-7 D:5]: >; >* CP1044 To which RH controller is DR5: connected? [S R:1-1]: A >; >* CP1060 Is DR5: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >* CP1036 What is the physical unit number of DR6:? [O R:0-7 D:6]: >; >* CP1044 To which RH controller is DR6: connected? [S R:1-1]: A >; >* CP1060 Is DR6: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >* CP1036 What is the physical unit number of DR7:? [O R:0-7 D:7]: >; >* CP1044 To which RH controller is DR7: connected? [S R:1-1]: A >; >* CP1060 Is DR7: an RM02, RM03, RM05, RM80, or RP07? [S R:4-4 D:"RP07"]: >; >; >; DS: controllers: RH11, RH70 devices: RS03, RS04 >; >; The RS03/04 are small, fast, fixed-media disks. The RS03 has a >; capacity of 256K words. The RS04 has a capacity of 512K words. >; The transfer rate is 4 microseconds per word with an average latency >; of 8 milliseconds. >; >* CP1208 How many RS03/04 disk drives do you have? [D R:0.-63. D:0.]: >; >; >; EM: controllers: RH11, RH70 device: ML11 >; >; The ML11 is a fast, random access, block mode MOS memory system. >; The ML11-A (16K chips) provides up to 4 megabytes of storage. >; The ML11-B (64K chips) provides up to 16 megabytes of storage. >; >* CP1408 How many ML11 disks do you have? [D R:0.-63. D:0.]: >; >; >; MM: controllers: RH11, RH70 devices: TE16, TU16, TU45, TU77 >; formatters: TM02, TM03 >; >; The TU16/45/77/TE16 magnetic tape drive unit is ideally suited >; for writing, reading, and storing large volumes of data and >; programs in a serial manner. The 10 1/2-inch tape reels >; contain up to 2400 feet of tape. The tape is 9-track, recorded >; either NRZI or phase encoded with recording densities of 800 or >; 1600 bpi. >; >* CP1608 How many TU16/45/77/TE16 tape drives do you >* have? [D R:0.-256. D:0.]: 4 >; >; Each TU16/45/77/TE16 drive unit is interfaced to the RH MASSBUS >; controller through a TM02/03 magtape formatter. A single formatter >; is connected to the MASSBUS as one physical unit, and in turn will >; support up to eight drives. >; >; The formatter and the first drive interfaced to it are called >; the "master drive" unit. Any additional drives on the formatter >; are called "slave drive" units. >; >; The TM02/03 formatter is usually located behind the lower front >; door of the master drive. It has a white physical unit number plug >; inserted into it. (Do not confuse it with the power supply.) >; >* CP1612 How many TM02/03 magtape formatters do you >* have? [D R:1.-4. D:1.]: >; >; >; The physical unit number of a formatter is the physical unit >; number by which it is attached to the MASSBUS. This number is NOT >; determined by the easily visible white unit number plug (or other >; indicator) on the tape transport. Instead it must be determined >; from the formatter itself. The TM02/03 formatter is usually >; located behind the lower front door of the master drive. (Do not >; confuse it with the power supply.) Its physical unit number is >; determined by the white unit number plug inserted into it. >; >* CP1636 What is the physical unit number of the next >* formatter? [O R:0-7 D:0]: >; >; The legal characters in a controller specification are: >; >; A thru D >; >; Where the DEC alphabet is: A,B,C,D,E,F,H,J,K,L,M,N,P,R,S,T >; Note that the letters G, I, O, and Q are omitted for clarity. >; >* CP1644 To which RH controller is this formatter connected? [S R:1-1]: C >; >; The 4. remaining tape drive(s) will be allocated to this formatter. >; >; >; The physical unit number of a tape drive is the physical unit number >; by which it is attached to its formatter. This number is determined >; by the easily visible white unit number plug (or other indicator) on >; the tape drive. >; >; If you have eight or fewer tape drives, we suggest, for convenience, >; that you make the physical unit numbers match the logical unit >; numbers. >; >; Warning: Only four TU77s are allowed on a formatter. Therefore, >; TU77s cannot have physical unit numbers greater than 3. SYSGEN >; cannot tell if you have TU77s and so will not catch the error if >; you specify physical unit numbers greater than 3 for TU77s. Those >; tape drives will not be useable in the resulting system. >; >* CP1656 What is the physical unit number of MM0:? [O R:0-7 D:0]: >; >* CP1656 What is the physical unit number of MM1:? [O R:0-7 D:1]: >; >* CP1656 What is the physical unit number of MM2:? [O R:0-7 D:2]: >; >* CP1656 What is the physical unit number of MM3:? [O R:0-7 D:3]: >; >; >; Enter the vector address for this controller. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2068 Enter the vector address of RHA [O R:60-774 D:254]: >; >; Enter the CSR address for this controller. This CSR address can >; be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2072 What is its CSR address? [O R:160000-177700 D:176700]: >; >; SGN -- Warning: Controller RHB has no units attached to it. >; >; >; >; Enter the vector address for this controller. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2068 Enter the vector address of RHC [O R:60-774 D:224]: >; >; Enter the CSR address for this controller. This CSR address can >; be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2072 What is its CSR address? [O R:160000-177700 D:172440]: >; >; SGN -- Warning: Controller RHD has no units attached to it. >; >; >; RH Configuration >; >; Physical Unit Number >; >; 0 1 2 3 4 5 6 7 >; >; RHA DR0: DR1: DR2: DR3: DR4: DR5: DR6: DR7: >; RHB >; RHC MM0: >; RHD >; >; >; MM Master / Slave Configuration >; >; Master Slave Units >; >; MM0: MM1: thru MM3: >; >; >; >; >; DK: controller: RK11 devices: RK05, RK05F >; >; The RK11 cartridge disk drive and control is a complete mass >; storage system for random access data storage. The system >; includes a modular mass storage device utilizing removable >; disk cartridges and a complete, easy-to-program, control unit. >; A disk cartridge holds over 2.4 megabytes. The system is >; expandable up to 8 drives per controller. An RK11 includes a >; controller and the first disk drive. Optionally, the controller >; can support up to four RK05F fixed platter drives each with twice >; the capacity of the standard RK05 drive. >; >* CP2204 How many RK11 cartridge disk controllers do you have? [O D:0]: >; >; >; DM: controllers: RK611, RK711 devices: RK06, RK07 >; >; The RK611/711 is a 3 data surface, removable, random access bulk >; storage system with a storage capacity of 14 megabytes (RK06) or >; 28 megabytes (RK07) per pack. The RK611/711 includes a control >; unit and the first disk pack drive. The system is expandable up >; to eight drives. >; >* CP2404 How many RK611/711 disk cartridge controllers do >* you have? [O D:0]: 1 >; >; Enter the total number of RK06 and RK07 disk drives in your system. >; >* CP2408 How many RK06/RK07 disk drives do you have? [D R:1.-63. D:1.]: 8 >; >; >; The physical unit number of a drive is the number shown on the >; unit number plug (or other indicator) on the drive. >; >* CP2436 What is the physical unit number of DM0:? [O R:0-7 D:0]: >; >; Enter the drive type for this logical unit. >; >* CP2460 Is DM0: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >* CP2436 What is the physical unit number of DM1:? [O R:0-7 D:1]: >; >* CP2460 Is DM1: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >* CP2436 What is the physical unit number of DM2:? [O R:0-7 D:2]: >; >* CP2460 Is DM2: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >* CP2436 What is the physical unit number of DM3:? [O R:0-7 D:3]: >; >* CP2460 Is DM3: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >* CP2436 What is the physical unit number of DM4:? [O R:0-7 D:4]: >; >* CP2460 Is DM4: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >* CP2436 What is the physical unit number of DM5:? [O R:0-7 D:5]: >; >* CP2460 Is DM5: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >* CP2436 What is the physical unit number of DM6:? [O R:0-7 D:6]: >; >* CP2460 Is DM6: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >* CP2436 What is the physical unit number of DM7:? [O R:0-7 D:7]: >; >* CP2460 Is DM7: an RK06 or RK07? [S R:4-4 D:"RK07"]: >; >; >; Enter the vector address for this controller. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2468 Enter the vector address of DMA [O R:60-774 D:210]: >; >; Enter the CSR address for this controller. This CSR address can >; be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2472 What is its CSR address? [O R:160000-177700 D:177440]: >; >; DM Configuration >; >; Physical Unit Number >; >; 0 1 2 3 4 5 6 7 >; >; DMA DM0: DM1: DM2: DM3: DM4: DM5: DM6: DM7: >; >; >; >; >; DL: controllers: RL11, RLV12 devices: RL01, RL02 >; >; The RL11/RLV12 disk subsystem uses a medium performance, RL01/02 >; direct access drive with a single read/write head per surface. >; Each drive provides 5.2 megabytes (RL01) or 10.4 megabytes (RL02) >; of storage on a removable, top-loading cartridge. The subsystem >; is expandable up to four drives. >; >* CP2604 How many RL11/RLV11 disk cartridge controllers do >* you have? [O D:0]: 1 >; >; Enter the total number of RL01 and RL02 disk drives in your system. >; >* CP2608 How many RL01/RL02 disk drives do you have? [D R:1.-63. D:1.]: 4 >; >; >; The physical unit number of a drive is the number shown on the >; unit number plug (or other indicator) on the drive. >; >* CP2636 What is the physical unit number of DL0:? [O R:0-7 D:0]: >; >; Enter the drive type for this logical unit. >; >* CP2660 Is DL0: an RL01 or RL02? [S R:4-4 D:"RL02"]: >; >; >* CP2636 What is the physical unit number of DL1:? [O R:0-7 D:1]: >; >* CP2660 Is DL1: an RL01 or RL02? [S R:4-4 D:"RL02"]: >; >; >* CP2636 What is the physical unit number of DL2:? [O R:0-7 D:2]: >; >* CP2660 Is DL2: an RL01 or RL02? [S R:4-4 D:"RL02"]: >; >; >* CP2636 What is the physical unit number of DL3:? [O R:0-7 D:3]: >; >* CP2660 Is DL3: an RL01 or RL02? [S R:4-4 D:"RL02"]: >; >; >; Enter the vector address for this controller. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2668 Enter the vector address of DLA [O R:60-774 D:160]: >; >; Enter the CSR address for this controller. This CSR address can >; be changed after the SYSGEN by using the VMR CON SET command. >; >* CP2672 What is its CSR address? [O R:160000-177700 D:174400]: >; >; DL Configuration >; >; Physical Unit Number >; >; 0 1 2 3 4 5 6 7 >; >; DLA DL0: DL1: DL2: DL3: >; >; >; >; >; DP: controller: RP11 devices: RP02, RPR02, RP03 >; >; The RP11 is a complete mass storage system using a magnetic >; disk pack with 20 data surfaces and a moving read/write head. >; The RP02 and RPR02 have a capacity of 20 megabytes. The RP03 >; has a capacity of 41 megabytes. >; >* CP2804 How many RP11 disk pack controllers do you have? [O D:0]: >; >; >; DU: controllers: RQDX1, RQDX2, RQDX3, RUX50, RQC25, KDA50, UDA50 >; >; devices: RX33, RX50, RD31, RD51, RD52, RD53, RD54, RC25, >; RA60, RA80, RA81, RA82 >; >; The total of DU and MU controllers cannot be greater than 10. >; >; The MSCP disk controllers are: >; >; RQDX1, RQDX2, RQDX3, RUX50, RQC25, RUC25, KDA50, UDA50 >; >; These intelligent disk controllers provide enhanced I/O optimization, >; error correction capability, and, in some cases, dynamic bad block >; handling. >; >* CP3004 How many MSCP disk controllers do you have? [D R:0.-10. D:0.]: 1 >; >; The MSCP disk drives are: >; >; RX33, RX50, RD31, RD51, RD52, RD53, RD54 >; RC25, RA60, RA80, RA81, RA82 >; >; The RX50 contains two 5.25 inch floppy diskettes with a formatted >; capacity of 400 kilobytes each. Count each RX50 (with two >; diskettes) as two drives. >; >; The RD51 is a 5.25 inch fixed media, Winchester technology disk >; with a formatted capacity of 10 megabytes. >; >; The RD52 is a 5.25 inch fixed media Winchester technology disk >; with a formatted capacity of 31 megabytes. >; >; The RD53 is a 5.25 inch fixed media Winchester technology disk >; with a formatted capacity of 71 megabytes. >; >; The RC25 contains a fixed and removable disk on the same spindle >; with a formatted capacity of 25 megabytes each. Count each RC25 >; (with two disks: one fixed, one removable) as two drives. >; >; The RA60 is a removable media disk with a formatted capacity of >; 205 megabytes. >; >; The RA80 is a fixed media, Winchester technology disk with a >; formatted capacity of 121 megabytes. >; >; The RA81 is a fixed media, Winchester technology disk with a >; formatted capacity of 456 megabytes. >; >; Enter the total number of MSCP disk drives in your system. >; >* CP3008 How many MSCP disk drives do you have? [D R:1.-4. D:1.]: 4 >; >; >; The physical unit number of a drive is the number shown on the >; unit number plug (or other indicator) on the drive. >; >* CP3036 What is the physical unit number of DU0:? [O R:0-377 D:0]: >; >; >* CP3036 What is the physical unit number of DU1:? [O R:0-377 D:1]: >; >; >* CP3036 What is the physical unit number of DU2:? [O R:0-377 D:2]: >; >; >* CP3036 What is the physical unit number of DU3:? [O R:0-377 D:3]: >; >; >; Enter the vector address for this controller. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP3068 Enter the vector address of DUA [O R:60-774 D:154]: >; >; Enter the CSR address for this controller. This CSR address can >; be changed after the SYSGEN by using the VMR CON SET command. >; >* CP3072 What is its CSR address? [O R:160000-177700 D:172150]: >; >; >; MU: controllers: TK50, TU81, TU81E, TQ81E >; >; The TMSCP tape controllers are: >; >; TK50, TU81, TU81E, TQ81E >; >; >* CP3404 How many TMSCP tape controllers do you have? [D R:0.-9. D:0.]: 1 >; >; >; The physical unit number of a drive is the number shown on the >; unit number plug (or other indicator) on the drive. >; >* CP3436 What is the physical unit number of MU0:? [O R:0-377 D:0]: >; >; >; Enter the vector address for this controller. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP3468 Enter the vector address of MUA [O R:60-774 D:260]: >; >; Enter the CSR address for this controller. This CSR address can >; be changed after the SYSGEN by using the VMR CON SET command. >; >* CP3472 What is its CSR address? [O R:160000-177700 D:174500]: >; >; >; CR: controllers: CM11, CR11 >; >; The CR11 card reader reads EIA standard 80-column punched data >; cards at 300 cards per minute. It uses a riffle-air and a >; vacuum-pick mechanism to move the cards. The CM11-F reads 80- >; column mark-sense cards, which can have punched holes, at 285 >; cards per minute. >; >* CP4004 How many CM/CR11 card readers do you have? [O D:0]: >; >; >; CT: controller: TA11 device: TU60 >; >; The TA11 magnetic tape cassette system is a dual-drive, >; reel-to-reel unit designed to replace paper tape. Its two >; drives run non-simultaneously using proprietary Digital >; Equipment Corporation Philips-type cassettes. The TA11 >; includes a control unit and a dual tape transport. >; >* CP4204 How many TA11 dual cassettes do you have? [O D:0]: >; >; >; MS: controllers: TS11, TU80, TSV05, TK25 >; >; The TS11, TU80, and TSV05 are 1/2 inch 1600 bpi tape subsystems >; and the TK25 is a cartridge tape subsystem. >; >* CP4404 How many TS11/TU80/TSV05/TK25 >* magtape controllers do you have? [O D:0]: >; >; >; DT: controller: TC11 device: TU56 >; >; The TC11 is a dual-unit bidirectional magnetic-tape transport >; system for auxiliary data storage. >; >; The system stores information at fixed positions on magnetic >; tape as in magnetic disk or drum storage devices, rather than >; at unknown or variable positions as in conventional magnetic >; tape systems. >; >; A DECtape system consists of up to 4 dual transports, a control >; unit (which will buffer and control information for up to four >; dual transports). A TC11 includes a control unit and the >; first dual tape transport. >; >* CP4604 How many TC11 DECtape controllers do you have? [O D:0]: >; >; >; DX: controller: RX11 device: RX01 >; >; The RX11 is an industry compatible disk storage system for >; flexible (floppy) disks. An RX11 is capable of controlling two >; flexible disk drives each having a capacity of 256K bytes. >; >* CP4804 How many RX11 disk controllers do you have? [O D:0]: >; >; >; DY: controller: RX211, RXV21 device: RX02 >; >; The RX211 and RXV21 are single or double density flexible (floppy) disk >; controllers with a storage capacity of 256K bytes (single density) or >; 512K bytes (double density). One controller is capable of controlling >; two drives. >; >* CP5004 How many RX211/RXV21 disk controllers do you have? [O D:0]: >; >; >; DD: controller: DL11 device: TU58 >; >; The TU58 driver interfaces with the 3M DC-100A tape >; cartridge drive and controller units via a parallel to ser- >; ial DL11 converter at baud rates up to 9.6K. Data is >; stored on the media on two parallel tracks recorded in the >; same direction. The tape is preformatted into 2048 physical >; records of 128 bytes each. Access to these physical records >; is by groups of four corresponding to a standard DEC block >; of 512 bytes. >; >* CP5204 How many TU58 controllers do you have? [O D:0]: >; >; >; LP: controllers: LA180, LN01, LP11, LS11, LV11 >; devices: LA180, LN01, LP01, LP02, LP04, LP05, LP06, >; LP07, LP14, LP25, LP26, LP27, LS11, LV01 >; >; The LP11 is a high-speed impact line printer with a rotating drum >; or band. It is available in a variety of models, with and without >; lowercase characters. >; >; The LS11 line printer is a medium-speed impact dot-matrix line >; printer. It prints at a rate of 165 characters per second at >; 10 characters per inch with up to 132 characters per line. >; >; The LA180 DECprinter is similar to the LS11 with the exception >; that it prints at the rate of 180 characters per second. >; >; The LV11 is a high-speed electrostatic printer-plotter that prints >; at a rate of 500 lines per minute. Only the print option is >; supported under RSX-11M-PLUS. >; >* CP5404 How many LP/LS/LV11/LA180 line printers do you have? [O D:0]: 1 >; >; If a task tries to access the line printer when the device is not >; ready, a message saying the line printer is not ready is printed >; on the console terminal. This message is repeated every n seconds, >; where n is your response to this question, for as long as the line >; printer remains not ready. >; >; Enter zero to disable this feature and suppress the messages. >; >* CP5408 Enter the number of seconds between >* line printer-not-ready messages [D R:0.-255. D:15.]: 30. >; >; Enter the vector address for this line printer. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP5468 Enter vector address of the next line >* printer [O R:60-774 D:200]: >; >; Enter the CSR address for this line printer. This CSR address can >; be changed after the SYSGEN by using the VMR CON SET command. >; >* CP5472 What is its CSR address? [O R:160000-177700 D:177514]: >; >; Here is a table of the valid line printer types and their >; characteristics: >; >; printer # of lines per supports >; type controller columns minute optimization >; >; LA180 LA180 132 150 no >; LN01 LN01 132 600 NA >; LP01 LP11-F/H 80 170-1110 yes >; LP02 LP11-J/K 132 170-1110 yes >; LP04 LP11-R/S 132 1110 yes >; LP05 LP11-V/W 132 300 no >; LP06 LP11-Y/Z 132 460-600 no >; LP07 LP11-G 132 1200 no >; LP14 LP11-C/D 132 660-900 no >; LP25 LP11-A/B 132 215-300 no >; LP26 LP11-E 132 445-600 no >; LP27 LP11-U 132 800-1200 no >; LS11 LS11 132 60-200 no >; LV01 LV11 132 500 yes >; >; The printer type is used to set two characteristics in the UCB: >; >; o Column or buffer width >; >; This is settable in VMR or MCR with the SET /BUF command. >; >; >; o Fast line printer support >; >; This is an optimization performed by the driver to eliminate >; unnecessary print cycles. This characteristic is not settable >; in VMR or MCR. >; >; If you specify the wrong printer type and the driver performs >; the optimization for a printer that does not support it, you >; will occasionally lose a line of a listing when the printer >; is taken off line. >; >; If you specify the wrong printer type and the driver does not >; perform the optimization for a printer that supports it, the >; printer will run a little slower than it would with the >; optimization, but there will be no other adverse effects. >; >; If you do not know the correct printer type for your printer, take >; the default. This will give you a 132-column printer without fast >; printer optimization. Once your system is running, you can change >; the number of columns if necessary with the MCR SET command. >; >* CP5480 Enter line printer type for LPA [S R:4-5 D:"LP25"]: >; >; If this line printer has both uppercase and lowercase characters, >; answer Yes to this question. If it only has uppercase characters, >; answer No. Your answer determines the initial setting for >; lowercase character conversion on this printer. You can change >; this at any time by using the MCR SET /LOWER command. >; >* CP5484 Does LPA have lowercase characters? [Y/N D:N]: >; >; >; MT: controllers: TM11, TMA11, TMB11 devices: TE10, TU10, TU10W, TS03 >; >; The TM/TMA/TMB11 is a magnetic tape system ideally suited for >; writing, reading, and storing large volumes of data and >; programs in a serial manner. The system reads and writes in >; industry-compatible format. TU10 drives support 10.5-inch reels >; containing up to 2400 feet of tape upon which over 180 million >; bits of data can be stored on high density 9-track tape. TS03 >; drives support 7-inch reels containing up to 600 feet of tape in >; high density 9-track format. TU10W drives are compatible with >; TU10 drives except they operate only on 800 bpi, 9-track tape. >; >* CP5604 How many TM/TMA/TMB11 magtape controllers do you have? [O D:0]: >; >; >; PP: controller: PC11 >; >; The PC11 is a high speed paper tape reader/punch that is >; capable of reading eight-hole, unoiled, perforated paper tape at >; 300 characters per second, and punching tape at 50 characters >; per second. >; >* CP5804 How many PC11 paper tape reader/punches do you have? [O D:0]: >; >; >; PR: controller: PR11 >; >; The PR11 is a high speed paper tape reader that is capable of >; reading eight-hole unoiled perforated paper tape at 300 >; characters per second. >; >; >* CP6004 How many PR11 paper tape readers do you have? [O D:0]: >; >; >; LA: controller: LPA11 >; >; The LPA11 lab peripheral accelerator is a real-time subsystem which >; interfaces to the PDP-11 family of computers. The system consists >; of the LPA11, up to 2 A/D converters, a programmable real-time >; clock, a D/A converter, and up to five digital I/O modules. >; >* CP6204 How many LPA11 lab subsystems do you have? [D R:0.-16. D:0.]: >; >; >; TT: controllers: DL11, DLV11 controller mnemonic: YL >; >; The DL11/DLV11 series of asynchronous single line interfaces handle >; full or half-duplex communication between a wide variety of serial >; communication channels and a PDP-11 computer. >; >; SYSGEN automatically sets up the data bases for all mandatory >; DL11/DLV11s. (For each processor in the system, there must be a >; DL11/DLV11; these are mandatory.) Answer the next question with >; the number of additional DL11/DLV11s in your system. >; >; Note: Enter only the number of DL11s used as terminal interfaces. >; Do not include any DL11s used as controlers for the TU58 DECtape II. >; >* CP6804 Enter number of additional DL11/DLV11 line interfaces [O D:0]: 13. >; >; The DL11/DLV11 has the ability to maintain a full-duplex connection >; through a BELL 103A type modem. Modem support requires added code >; in the terminal driver. As a result, it should be selected only if >; needed. >; >* CP6820 Do any of the DL11/DLV11 lines require modem support? [Y/N D:N]: Y >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLA [S R:4-6 D:"LA120"]: VT52 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLB [O R:300-770]: 300 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176500 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLB [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLC [O R:300-770]: 310 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176510 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLC [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLD [O R:300-770]: 320 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176520 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLD [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLE [O R:300-770]: 330 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176530 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLE [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLF [O R:300-770]: 340 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176540 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLF [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLH [O R:300-770]: 350 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176550 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLH [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLJ [O R:300-770]: 360 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176560 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLJ [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLK [O R:300-770]: 370 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176570 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLK [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLL [O R:300-770]: 400 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176600 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLL [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLM [O R:300-770]: 410 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176610 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLM [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLN [O R:300-770]: 420 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176620 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLN [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLP [O R:300-770]: 430 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176630 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLP [S R:4-6 D:"LA120"]: VT100 >; >; Additional vectors are assigned from the floating vector space >; starting at 300. The vector address can be changed after the >; SYSGEN by using the VMR CON SET command. >; >* CP6868 Enter vector address of YLR [O R:300-770]: 440 >; >; Additional CSRs are assigned in the range 176000 - 176770. The >; CSR address can be changed after the SYSGEN by using the VMR CON >; SET command. >; >* CP6872 What is its CSR address? [O R:160000-177700]: 176640 >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP6832 Enter terminal type for YLR [S R:4-6 D:"LA120"]: VT100 >; >; >; TT: controller: DH11 controller mnemonic: YH >; >; The DH11 multiplexer connects the PDP-11 with 16 asynchronous >; serial communications lines operating with individually >; programmable parameters. These parameters are: >; >; transmitter speed (baud) >; receiver speed (baud) >; >* CP7004 Enter number of DH11 asynchronous line >* multiplexers [D R:0.-16. D:0.]: >; >; >; TT: controller mnemonic: YV >; >; controllers: DHU11, DHV11, CXA16, CXB16, CXY08 >; >; >; These multiplexers connect the PDP-11 with up to >; 16 (DHU11, CXA16, CXB16) or 8 (DHV11, CXY08) >; asynchronous serial communications lines operating with >; individually programmable parameters. These parameters are: >; >; transmitter speed (baud) >; receiver speed (baud) >; >; Modem control is available with the DHU11, DHV11 and CXY08. >; The CXA16 and CXB16 do not support modem control. Use the VMR >; or MCR SET /REMOTE commands in order to enable dialup lines. >; >* CP7104 Enter number of DHU11/DHV11/CXA16/CXB16/CXY08 (YV:-type) >* asynchronous line multiplexers [D R:0.-32. D:0.]: >; >; >; TT: controller: DJ11 controller mnemonic: YJ >; >; The DJ11 is a multiplexed interface between 16 asynchronous >; serial data-communications channels and the PDP-11 UNIBUS. The >; DJ11 is a unit whose character formats and operating speeds are >; jumper or strap selectable in groups of four lines. >; >* CP7204 Enter number of DJ11 asynchronous line >* multiplexers [D R:0.-16. D:0.]: >; >; >; TT: controllers: DZ11, DZQ11, DZV11, DFA01 controller mnemonic: YZ >; >; The DZ11/DZQ11/DZV11/DFA01 multiplexers connect the PDP-11 with up to >; 8 asynchronous serial communications lines operating with individually >; programmable parameters. These parameters are: >; >; Transmitter speed / Receiver speed (baud) >; >* CP7404 Enter number of DZ11/DZQ11/DZV11/DFA01 asynchronous line >* multiplexers [D R:0.-31. D:0.]: 1 >; >; The DZ11/DZQ11/DZV11 has the ability to maintain a full-duplex connection >; through a BELL 103A type modem. Modem support requires added code in the >; terminal driver and increases system overhead. As a result, it should be >; selected only if needed. >; >* CP7420 Do any of the DZ lines require modem support? [Y/N D:N]: Y >; >; The valid baud rates are: >; >; 50 >; 75 >; 110 >; 134.5 >; 150 >; 300 >; 600 >; 1200 >; 1800 >; 2000 >; 2400 >; 3600 >; 4800 >; 7200 >; 9600 >; >* CP7428 At which baud rate do you want to answer? [S R:2-5 D:"300"]: 9600 >; >; The vector address for the DZ11/DZQ11/DZV11 is assigned from the floating >; vector space starting at 300. The vector address can be changed after >; the SYSGEN by using the VMR CON SET command. >; >* CP7468 Enter vector address of YZA [O R:300-770]: 450 >; >; The CSR address for the DZ11/DZQ11/DZV11 is assigned from the floating >; address space starting at 160010. The CSR address can be changed >; after the SYSGEN by using the VMR CON SET command. >; >* CP7472 What is its CSR address? [O R:160000-177700]: 160100 >; >; Enter the number of lines on this controller. >; >* CP7480 How many lines does YZA have? [D R:1.-8. D:8.]: >; >; The terminal types supported by RSX-11M-PLUS SYSGEN are: >; >; ASR33 LA12 VT05B >; ASR35 LA30P VT50 >; LA30S VT52 >; DTC01 LA34 VT55 >; LA36 VT61 >; KSR33 LA38 VT100 >; LA50 VT101 >; LA100 VT102 >; LA120 VT105 >; LA180S VT125 >; LA210 VT131 >; LN03 VT132 >; PC3xx VT2xx >; >* CP7484 Enter terminal type for YZA [S R:4-6 D:"VT100"]: >; >; SYSVMR.CMD, the VMR command file which creates your system image file, >; contains commands that set the characteristics for each terminal as >; follows: >; >; Terminal type: as you specified for the controller >; Buffer width: 80 >; Speed: 300/300 for hardcopy terminals >; 9600/9600 for CRTs >; Lower to upper- >; case conversion: No for hardcopy terminals >; Yes for CRTs >; >; If you wish to change these characteristics for your terminals, SYSGEN >; will allow you to edit SYSVMR.CMD. >; >; >; >; Intercomputer communication devices consist of the following: >; >; PCL11 full-duplex DMA interprocessor communications >; device >; DMC11/DMR11 high-speed synchronous serial line interface >; DUP11 synchronous serial line interface >; DEUNA Ethernet communications controller >; >; Note: Do NOT include any devices which will be used with DECnet. >; Those devices should be included when you do your NETGEN. >; >* CP7604 Do you have any intercomputer communication devices? [Y/N D:N]: Y >; >; >; LR: (receiver) controller: PCL11 >; LT: (transmitter) >; >; The PCL11 is a full-duplex DMA interprocessor communication >; device. It transfers at up to 500,000 bytes per second >; between two processors and can support up to 16 processors on >; the time division multiplexed bus. Transmitters and receivers >; are serviced by the separate drivers LTDRV and LRDRV. >; >* CP7804 How many PCL11 receiver/transmitters do you have? [O D:0]: >; >; >; XM: controllers: DMC11, DMR11 >; >; The DMC11/DMR11 is a full-duplex, serial communications link which >; implements the DDCMP line protocol using a high speed microprocessor. >; Data messages are transferred with minimal processor overhead using >; the DMA facilities of the PDP-11. >; >* CP8204 How many DMC11/DMR11 synchronous line interfaces do >* you have? [O D:0]: >; >; >; XW: controller: DUP11 >; >; The DUP11 provides a double-buffered program interface between >; a PDP-11 and a serial synchronous line. >; >; The DUP11 provides a flexible interface in that the programmer >; can specify the sync and character size. Modem control >; capability allows the use of the DUP11 in switched or dedicated >; applications. The interface provides strip sync and idle sync >; features to simplify programming and remove processor overhead. >; >* CP8404 How many DUP11 synchronous line interfaces do you have? [O D:0]: >; >; >; XE: controller: DEUNA >; >; The Digital Equipment UNIBUS Network Adapter (DEUNA) is a data >; communications controller used to interface PDP-11 family computers >; to the Ethernet local area network. >; >* CP8504 How many DEUNA Ethernet controllers do you have? [O R:0-1 D:0]: 1 >; >; Enter the vector address for this DEUNA. This vector address >; can be changed after the SYSGEN by using the VMR CON SET command. >; >* CP8568 Enter vector address of the next DEUNA [O R:60-774 D:120]: >; >; Enter the CSR address for this DEUNA. This CSR address can be >; changed after the SYSGEN by using the VMR CON SET command. >; >* CP8572 What is its CSR address? [O R:160000-177700 D:174510]: >; >; >; Enter device mnemonics for any user-supplied drivers. The driver >; source files must reside in [11,10] and be named ddDRV.MAC and >; ddTAB.MAC where dd is the device mnemonic. >; >; You may enter the mnemonics on more than one line. When you have >; listed all the drivers, press RETURN when asked for the device >; mnemonic. >; >; The device mnemonic must not include a colon. >; >* CP9604 Enter device mnemonics for user-supplied drivers [S]: >; >; >; If you will be adding other devices after this SYSGEN or have >; included user-supplied devices, you will want to set the highest >; interrupt vector address high enough to accommodate the vectors for >; those devices. >; >; The highest vector among the devices you specified in this SYSGEN >; is 454(octal). This is the default response for this question. >; >* CP9632 What is the highest interrupt vector >* address? [O R:454-774 D:454]: 774 >; >; >; >;================================================================ >; Assembling the Executive and Drivers 02-OCT-06 at 01:19 >;================================================================ >; >; >; >; The answers to the questions in this section are put in the saved >; answer file [200,200]SYSGENSA1.CMD. >; >PIP RSXMC3.MAC=RSXMC1.MAC,RSXMC2.MAC >PIP RSXMC.MAC=RSXMC3.MAC,RSXMC0.MAC >; >; Copy the files created by the Executive options and peripheral >; configuration sections into the correct directories. >; >SET /UIC=[1,24] >PIP [11,10]/NV=[200,200]RSXMC.MAC >PIP [11,10]/NV=[200,200]SYSTB.MAC >PIP [11,24]/NV=[200,200]RSXASM.CMD >PIP [11,24]/NV=[200,200]DRIVERS.ASM >; >; >; Assembly listings of the Executive modules and the drivers can be >; generated and stored in a file or printed directly. >; >; Generating listings is time-consuming and they are not normally >; needed, so we recommend you answer No to this question. >; >* AE010 Do you want assembly listings of the Executive and >* drivers? [Y/N D:N]: >; >ASN NL:=LS: >; >; >; If you are building a specialized system you may wish to edit >; some of the files which SYSGEN produced before the Executive >; and drivers are assembled. >; >* AE030 Do you wish to pause to edit any files before >* assembling? [Y/N D:N]: >; >SET /UIC=[11,24] >; >; Now we assemble the Executive and resident drivers. >; >PIP *.OBJ;*/DE/NM,*.TTY;* >; >TIME 01:19:18 2-OCT-06 >; >MAC @RSXASM >; >; Now we assemble the loadable drivers. >; >TIME 01:36:06 2-OCT-06 >; >MAC @DRIVERS.ASM >; >TIME 01:50:10 2-OCT-06 >; >; Now we build the concatenated object module file for the Executive. >; >PIP RSX11M.OBS=*.OBJ >PIP TTDRV.OBS=*.TTY >; >SET /UIC=[200,200] >PIP /NV=[11,10]RSXMC.MAC >; >SET /UIC=[1,24] >PIP RSXBLD.CMD/PU/NM >PIP RSX11M.OLB;*/DE/NM >PIP [200,200]RSXMC.MAC/PU/NM >; >; Now we build the Executive library. >; >LBR RSX11M/CR:256.::256./-EP=[11,24]RSX11M.OBS >PIP [11,24]RSX11M.OBS;*,*.OBJ;*/DE >; >; Now we build the terminal driver library. >; >LBR TTDRV/CR:40.:392.:128.=[11,24]TTDRV.OBS >PIP [11,24]TTDRV.OBS;*,*.TTY;*/DE >SET /UIC=[200,200] >; >; >; >;============================================================== >; Building the Executive and Drivers 02-OCT-06 at 01:50 >;============================================================== >; >; >; >; The answers to the questions in this section are put in the saved >; answer file [200,200]SYSGENSA1.CMD. >; >; >; There is a system image file, RSX11M.SYS, in UFD [1,54] on your >; target system disk. This is probably an old system. You may want >; to move the files belonging to this older system to another directory >; before SYSGEN puts the new system's files in [1,54]. >; >* BE010 Do you want to move the old system in [1,54] to >* another directory? [Y/N D:N]: >; >; Allocate space to be used later for the system image file. >; >SET /UIC=[1,54] >PIP RSX11M.TMP/CO/BL:1026.=NL: >; >SET /UIC=[200,200] >; >SET /UIC=[1,24] >SET /UIC=[200,200] >SET /UIC=[1,54] >PIP SYSVMR.CMD=[200,200]SYSVMR.CMD,VMRTTY.CMD >; >SET /UIC=[200,200] >; >; At this point, you can edit: >; >; the Executive task-build command files in [200,200] >; the driver task-build command files in [200,200] >; the privileged task task-build command files in [1,24] >; SYSVMR.CMD in [1,54] >; >; In most cases there is no need to edit the task-build command files. >; However, you may want to tailor SYSVMR for your system. >; >* BE030 Do you want to pause to edit any files before >* task-building? [Y/N D:N]: >; >SET /UIC=[1,24] >PIP [1,24]/NV/NM=[200,200]RSXBLD.CMD,RSX11M,DSP11M,LDR11M >PIP [1,24]/NV=[200,200]DIR11M.CMD,DR211M,DIRCOM,DR2COM,DIR >PIP [1,24]/NV=[200,200]DR311M.CMD,DR411M,DR3COM,DR4COM >PIP [1,24]/NV=[200,200]VEC11M.CMD,DCM11M,VECCOM >; >; Now we build the Executive. >; >TIME 01:52:38 2-OCT-06 >; >TKB @RSXBLD >; >; Now we build the loadable drivers >; >TIME 01:57:12 2-OCT-06 >; >TKB @[200,200]DRIVERS.BLD >; >TIME 01:58:24 2-OCT-06 >SET /UIC=[200,200] >; >; >; >;========================================================= >; Building the Privileged Task 02-OCT-06 at 01:58 >;========================================================= >; >; >; >; The answers to the questions in this section are put in the saved >; answer file [200,200]SYSGENSA1.CMD. >; >; >; Maps of the privileged tasks can be generated and stored in a file >; or printed directly. >; >; Maps of the privileged tasks are not normally needed, so we >; recommend you answer No to this question. >; >* BP040 Do you want the maps of the privileged tasks? [Y/N D:N]: Y >; >; The maps can be sent directly to a printer or can be stored >; on a directory device for printing later. If you enter a >; directory device, the maps will be put in UFD [1,34]. >; >* BP050 What is to be the map device [ddu:]? [S R:2-5 D:"SY:"]: >; >ASN SY:=MP: >; >SET /UIC=[1,24] >; >TIME 01:58:30 2-OCT-06 >; >TKB @SAVBLD >; >TIME 01:59:14 2-OCT-06 >; >ASN LB:=OU: >SET /UIC=[200,200] >; >; >; >;============================================================ >; Rebuilding Supplied System Tasks 02-OCT-06 at 01:59 >;============================================================ >; >; >; >; The answers to the questions in this section are put in the saved >; answer file [200,200]SYSGENSA3.CMD. >; >; >; All nonprivileged and vectored privileged system tasks are supplied >; already task-built and can be found in the library UFD on the target >; system disk. It is not normally necessary to rebuild these supplied >; system tasks although you may wish to do so, for example if one of >; them has been patched. >; >* BN010 Do you want to rebuild any system tasks? [Y/N D:N]: >; >; >; >;========================================================== >; Creating the System Image File 02-OCT-06 at 01:59 >;========================================================== >; >; >SET /UIC=[1,54] >; >PIP RSX11M.TMP;*/DE/NM >; >PIP RSX11M.SYS/CO/NV/BL:1026.=RSX11M.TSK >; >ASN LB:=SY: >; >; Utility tasks stay in utility UFD [3,54]. >; >; RSX11M.TSK is a backup copy of the Executive you just built. >; >; >; VMR will now initialize the system. >; >VMR @SYSVMR Loading Executive data space Data space loading completed VMR -- *DIAG*-Installed tasks or commons may no longer fit in partition SET /TOP=SYSPAR:-* VMR -- *DIAG*-Loadable driver larger than 4K LOA TT: VMR -- *DIAG*-Loadable driver larger than 4K LOA XE: VMR -- *DIAG*-Installed tasks or commons may no longer fit in partition SET /TOP=DRVPAR:-* SECPOL 117734 00177500 00240000 SEC POOL SYSPAR 117670 00437500 00163700 MAIN 117624 00437500 00111000 RO COM !DIR11M! 117434 00550500 00005200 TASK [...LDR] 117230 00555700 00032200 TASK [MCR...] 117024 00610100 00010100 TASK [TKTN ] 116620 00620200 00003200 TASK [SHF...] DRVPAR 116540 00623400 00162700 MAIN 116474 00623400 00006600 RO COM !TTEXT ! 116410 00632200 00020600 RO COM !TTCOM ! 116324 00653000 00034600 DRIVER (TT:) 116260 00707600 00005000 RO COM !PUCOM ! 115460 00714600 00012700 DRIVER (DU:) 115124 00727500 00011300 DRIVER (MU:) 114704 00741000 00001300 DRIVER (LP:) 114340 00742300 00037400 DRIVER (XE:) 114150 01001700 00000100 DRIVER (NL:) 114104 01002000 00000300 DRIVER (CO:) 114040 01002300 00002500 DRIVER (VT:) 113774 01005000 00001300 DRIVER (RD:) GEN 113730 01006300 00771500 MAIN ...LDR 12.01 117500 SYSPAR 248. 00005200 LB0:-00147241 FIXED TKTN 07.00 117070 SYSPAR 248. 00010100 LB0:-00175466 FIXED F11MSG 15.00 111400 GEN 200. 00006200 LB0:-00161424 MTAACP 16.01 111004 GEN 200. 00016200 LB0:-00172526 SHE... 05.01 110534 GEN 200. 00014300 LB0:-00174416 MCR... 06.00 117274 SYSPAR 160. 00032200 LB0:-00171573 FIXED F11ACP 06.02 113514 GEN 149. 00014400 LB0:-00161352 ERRLOG 05.01 113154 GEN 148. 00056000 LB0:-00167301 PMT... 2.01 112514 GEN 148. 00007100 LB0:-00173207 COT... 2.03 111524 GEN 145. 00014300 LB0:-00177021 HRC... 03.01 111130 GEN 140. 00057400 LB0:-00170230 PMD... 07.04 110660 GEN 140. 00017600 LB0:-00201011 SYSLOG 04.01 112120 GEN 130. 00022000 LB0:-00201152 SHF... 07.00 116664 SYSPAR 105. 00003200 LB0:-00174437 FIXED RCT... 5.00 112244 GEN 100. 00011500 LB0:-00173551 UML... 2.00 111774 GEN 100. 00023100 LB0:-00175517 FXR... 03.01 111254 GEN 100. 00003300 LB0:-00170036 BAP0 04.11 113300 GEN 80. 00047600 LB0:-00161047 QMG... 03.06 112370 GEN 75. 00035200 LB0:-00201061 LP0 06.02 112734 GEN 70. 00017500 LB0:-00200524 ACNT 06.02 111650 GEN 50. 00052400 LB0:-00201574 SHUTUP 04.02 110410 GEN 50. 00015400 LB0:-00174444 ...RMD 4.04 002033+ GEN 225. 00041200 LB0:-00173565 ...DCL 5.00 002007+ GEN 160. 00057700 LB0:-00165225 ...DMO 04.01 002011+ GEN 160. 00017300 LB0:-00166144 ...MCR 05.00 002025+ GEN 160. 00040300 LB0:-00171627 ...MOU 26.05 002027+ GEN 160. 00045400 LB0:-00172441 ...CA. F05.02 002063+ GEN 150. 00003600 LB0:-00154303 ...INS 15.01 002023+ GEN 100. 00052000 LB0:-00170573 ...SAV 09.00 002057+ GEN 100. 00061300 LB0:-00150120 ...UFD 7.00 002065+ GEN 100. 00014300 LB0:-00175500 ...ACS 3.02 002041+ GEN 70. 00005600 LB0:-00176526 ...ACC 04.01 002001+ GEN 65. 00032100 LB0:-00176364 ...SHA 05.01 002061+ GEN 65. 00030700 LB0:-00174246 ...EDI M12.00 002067+ GEN 65. 00052300 LB0:-00202143 ...EDT V03.17 002071+ GEN 65. 00037700 LB0:-00202206 ...AT. 9.1 002015+ GEN 64. 00054500 LB0:-00202722 ...INI 23.02 002017+ GEN 60. 00036000 LB0:-00170501 ...HOM 23.02 002021+ GEN 60. 00036000 LB0:-00170501 ...BRO 07.00 002003+ GEN 50. 00037100 LB0:-00163522 ...BYE 05.00 002005+ GEN 50. 00020700 LB0:-00164012 ...HEL 04.04 002013+ GEN 50. 00034300 LB0:-00200050 ...PIP 17.06 002031+ GEN 50. 00027400 LB0:-00203373 ...UNL 5.03 002035+ GEN 50. 00021500 LB0:-00201447 ...ACD 2.00 002037+ GEN 50. 00042400 LB0:-00163163 ...BOO 02.00 002043+ GEN 50. 00034300 LB0:-00163463 ...CON 03.00 002045+ GEN 50. 00131200 LB0:-00164643 ...ELI 04.02 002047+ GEN 50. 00032400 LB0:-00177537 ...LOA 5.02 002051+ GEN 50. 00037600 LB0:-00171242 ...MAG 03.00 002053+ GEN 50. 00037200 LB0:-00172655 ...PSW 03.01 002055+ GEN 50. 00015700 LB0:-00201041 ...MAC V05.05 002073+ GEN 50. 00052300 LB0:-00203262 ...TKB M44.00 002075+ GEN 50. 00070300 LB0:-00204067 ...FTB 08.00 002077+ GEN 50. 00200200 LB0:-00202611 ...LBR 07.02 002101+ GEN 50. 00066400 LB0:-00203211 ...DMP 8.02 002103+ GEN 50. 00063200 LB0:-00202067 ...VFY 06.03 002105+ GEN 50. 00070300 LB0:-00204340 ...DSC 37.00 002107+ GEN 50. 00070200 LB0:-00166304 YLA OFL CPA CSR=177560 VEC=60 PRI=5 YLB OFL CPA CSR=176500 VEC=300 PRI=5 YLC OFL CPA CSR=176510 VEC=310 PRI=5 YLD OFL CPA CSR=176520 VEC=320 PRI=5 YLE OFL CPA CSR=176530 VEC=330 PRI=5 YLF OFL CPA CSR=176540 VEC=340 PRI=5 YLH OFL CPA CSR=176550 VEC=350 PRI=5 YLJ OFL CPA CSR=176560 VEC=360 PRI=5 YLK OFL CPA CSR=176570 VEC=370 PRI=5 YLL OFL CPA CSR=176600 VEC=400 PRI=5 YLM OFL CPA CSR=176610 VEC=410 PRI=5 YLN OFL CPA CSR=176620 VEC=420 PRI=5 YLP OFL CPA CSR=176630 VEC=430 PRI=5 YLR OFL CPA CSR=176640 VEC=440 PRI=5 YZA OFL CPA CSR=160100 VEC=450 PRI=5 DUA OFL CPA CSR=172150 VEC=154 PRI=5 MUA OFL CPA CSR=174500 VEC=260 PRI=5 LPA OFL CPA CSR=177514 VEC=200 PRI=4 XEA OFL CPA CSR=174510 VEC=120 PRI=5 CO0: OFL DRIVER TT0: YLA0: OFL DRIVER TT1: YLB0: OFL DRIVER TT2: YLC0: OFL DRIVER TT3: YLD0: OFL DRIVER TT4: YLE0: OFL DRIVER TT5: YLF0: OFL DRIVER TT6: YLH0: OFL DRIVER TT7: YLJ0: OFL DRIVER TT10: YLK0: OFL DRIVER TT11: YLL0: OFL DRIVER TT12: YLM0: OFL DRIVER TT13: YLN0: OFL DRIVER TT14: YLP0: OFL DRIVER TT15: YLR0: OFL DRIVER TT16: YZA0: OFL DRIVER TT17: YZA1: OFL DRIVER TT20: YZA2: OFL DRIVER TT21: YZA3: OFL DRIVER TT22: YZA4: OFL DRIVER TT23: YZA5: OFL DRIVER TT24: YZA6: OFL DRIVER TT25: YZA7: OFL DRIVER VT0: OFL DRIVER RD0: ONL DRIVER DU0: DUA0: OFL DRIVER DU1: DUA1: OFL DRIVER DU2: DUA2: OFL DRIVER DU3: DUA3: OFL DRIVER MU0: MUA0: OFL DRIVER LP0: LPA0: OFL DRIVER XE0: XEA0: OFL DRIVER NL0: OFL DRIVER POOL=1200:12584.:12584.:1775 >; >; When you are finished with SYSGEN, software boot in your target >; system. Set the date and time, and save the system without any >; switches to verify that the system is working. Then save the >; system again, this time with the /WB switch to make it hardware >; bootable. >; >; The optional SAVE switches are: >; >; /WB writes the boot block >; /SFILE="filename" uses "filename" as the startup file >; /MOU="mount-switches" specifies mount switches to be used >; when the system volume is mounted >; >; For example: >; >; >BOOT [1,54]RSX11M.SYS >; XDT: 24 >; >; XDT>G >; RSX-11M-PLUS V3.0 BL24 >; >; > >; TIM 19-APR-85 12:00:00 >; >SAV >; >; RSX-11M-PLUS V3.0 BL24 256.K System:"MJTOAD" >; >RED DB:=SY: >; >RED DB:=LB: >; >RED DB:=SP: >; >MOU DB:"RSX11MPBL24" >; >@DB:[1,2]STARTUP >; . >; . >; . >; >* Please enter time and date (HH:MM MM/DD/YY) [S]: ^Z >; >@ >; >SAV /WB >; >; RSX-11M-PLUS V3.0 BL24 256.K System:"MJTOAD" >; >RED DB:=SY: >; >RED DB:=LB: >; >RED DB:=SP: >; >MOU DB:"RSX11MPBL24" >; >@DB:[1,2]STARTUP >; . >; . >; . >; >* Please enter time and date (HH:MM MM/DD/YY) [S]: 12:01 4/19/85 >; >TIME 12:01 4/19/85 >; >ACS SY:/BLKS=1024. >; >CON ONLINE ALL >; . >; . >; . >; >@ >; >SET /UIC=[1,54] >; >PIP [2,54]*.*;*/DE >; > >; >; You may wish to edit [1,2]STARTUP.CMD and [1,2]QMGSTART.CMD >; to reflect your desired initialization operations. >; >SET /UIC=[200,200] >; >REM MACT0 >REM PIPT0 >REM LBRT0 >REM TKBT0 >REM VMRT0 >; >; End of SYSGEN >; >TIME 02:00:04 2-OCT-06 >; >ASN = >; >@ >