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To: Users
From: Bob Supnik
Subj: PDP-10 Simulator Usage
Date: 15-Jun-2004
COPYRIGHT NOTICE
The following copyright notice applies to both the SIMH source and binary:
Original code published in 1993-2004, written by Robert M Supnik
Copyright (c) 1993-2004, Robert M Supnik
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Except as contained in this notice, the name of Robert M Supnik shall not
be used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from Robert M Supnik.
This memorandum documents the PDP-10 simulator.
1. Simulator Files
To compile the PDP-10, you must define VM_PDP10 and USE_INT64 as part of the
compilation command line.
sim/ scp.h
sim_console.h
sim_defs.h
sim_ether.h
sim_fio.h
sim_rev.h
sim_sock.h
sim_tape.h
sim_timer.h
sim_tmxr.h
scp.c
sim_console.c
sim_ether.c
sim_fio.c
sim_sock.c
sim_tape.c
sim_timer.c
sim_tmxr.c
sim/pdp10/ pdp10_defs.h
pdp10_cpu.c
pdp10_fe.c
pdp10_ksio.c
pdp10_lp20.c
pdp10_mdfp.c
pdp10_pag.c
pdp10_rp.c
pdp10_sys.c
pdp10_tu.c
pdp10_xtnd.c
sim/pdp11/ pdp11_dz.c
pdp11_pt.c
pdp11_ry.c
pdp11_xu.c
2. PDP-10 Features
The PDP-10 simulator is configured as follows:
device simulates
name(s)
CPU KS10 CPU with 1MW of memory
PAG paging unit (translation maps)
UBA Unibus adapters (translation maps)
FE console
TIM timer
PTR,PTP PC11 paper tape reader/punch
RY RX211/RX02 floppy disk and two drives
DZ DZ11 8-line terminal multiplexor (up to 4)
LP20 LP20 line printer
RP RH11/RP04/RP05/RP06/RP07/RM03/RM05/RM80 controller with
eight drives
TU RH11/TM02/TU45 controller with eight drives
XU DEUNA/DELUA Ethernet controller
The PTR, PTP, and RX211 are initially set DISABLED. The DZ11 and LP20 can
also be set DISABLED. Some devices support the SET ADDRESS command, which
allows the I/O page address of the device to be changed, and the SET VECTOR
command, which allows the vector of the device to be changed. All devices
support the SHOW ADDRESS and SHOW VECTOR commands, which display the device
address and vector, respectively.
The PDP-10 simulator implements several unique stop condition:
- illegal instruction (000) in kernel mode
- indirect addressing nesting exceeds limit
- execute chaining exceeds limit
- page fail or other error in interrupt sequence
- illegal instruction in interrupt sequence
- invalid vector pointer in interrupt sequence
- invalid Unibus adapter number
- non-existent exec or user page table address
The PDP-10 loader supports RIM10B format paper tapes, SAV binary files, and
EXE binary files. LOAD switches -r, -s, -e specify RIM10, SAV, EXE format,
respectively. If no switch is specified, the LOAD command checks the file
extension; .RIM, .SAV, .EXE specify RIM10, SAV, EXE format, respectively.
If no switch is specified, and no extension matches, the LOAD command checks
the file format to try to determine the file type.
2.1 CPU
The CPU options allow the user to specify standard microcode, standard
microcode with a bug fix for a boostrap problem in TOPS-20 V4.1, or ITS
microcode:
SET CPU STANDARD Standard microcode
SET CPU TOPS20V41 Standard microcode with TOPS-20 V4.1 bug fix
SET CPU ITS ITS compatible microcode
The CPU implements a SHOW command to display the I/O space address map:
SHOW CPU IOSPACE show I/O space address map
CPU registers include the visible state of the processor as well as the
control registers for the interrupt system.
name size comments
PC 18 program counter
FLAGS 18 processor flags (<13:17> unused)
AC0..AC17 36 accumulators
IR 36 instruction register
EBR 18 executive base register
PGON 1 paging enabled flag
T20P 1 TOPS-20 paging
UBR 18 user base register
CURAC 3 current AC block
PRVAC 3 previous AC block
SPT 36 shared pointer table
CST 36 core status table
PUR 36 process update register
CSTM 36 CST mask
HSB 18 halt status block address
DBR1 18 descriptor base register 1 (ITS)
DBR2 18 descriptor base register 2 (ITS)
DBR3 18 descriptor base register 3 (ITS)
DBR4 18 descriptor base register 4 (ITS)
PIENB 7 PI levels enabled
PIACT 7 PI levels active
PIPRQ 7 PI levels with program requests
PIIOQ 7 PI levels with IO requests
PIAPR 7 PI levels with APR requests
APRENB 8 APR flags enabled
APRFLG 8 APR flags active
APRLVL 3 PI level for APR interrupt
IND_MAX 8 indirect address nesting limit
XCT_MAX 8 execute chaining limit
PCQ[0:63] 18 PC prior to last jump or interrupt;
most recent PC change first
WRU 8 interrupt character
REG[0:127] 36 fast memory blocks
2.2 Pager
The pager contains the page maps for executive and user mode. The
executive page map is the memory space for unit 0, the user page map the
memory space for unit 1. A page map entry is 32 bits wide and has the
following format:
bit content
--- -------
31 page is writeable
30 entry is valid
29:19 mbz
18:9 physical page base address
8:0 mbz
The pager has no registers.
2.3 Unibus Adapters
The Unibus adapters link the system I/O devices to the CPU. Unibus
adapter 1 (UBA1) is unit 0, and Unibus adapter 3 is unit 1. The
adapter's Unibus map is the memory space of the corresponding unit.
The Unibus adapter has the following registers:
name size comments
INTREQ 32 interrupt requests
UB1CS 16 Unibus adapter 1 control/status
UB3CS 16 Unibus adapter 3 control/status
2.4 Front End (FE)
The front end is the system console. The keyboard input is unit 0,
the console output is unit 1. It supports one option:
SET FE STOP halts the PDP-10 operating system
The front end has the following registers:
name size comments
IBUF 8 input buffer
ICOUNT 32 count of input characters
ITIME 24 keyboard polling interval
OBUF 8 output buffer
OCOUNT 32 count of output characters
OTIME 24 console output response time
2.5 Timer (TIM)
The timer (TIM) implements the system timer, the interval timer, and
the time of day clock used to get the date and time at system startup.
Because most PDP-10 software is not Y2K compliant, the timer implements
one option:
SET TIM NOY2K software not Y2K compliant, limit time
of day clock to 1999 (default)
SET TIM Y2K software is Y2K compliant
The timer has the following registers:
name size comments
TIMBASE 59 time base (double precision)
TTG 36 time to go (remaining time) for interval
PERIOD 36 reset value for interval
QUANT 36 quantum timer (ITS only)
TIME 24 tick delay
DIAG 1 use fixed tick delay instead of autocalibration
Unless the DIAG flag is set, the timer autocalibrates; the tick delay
is adjusted up or down so that the time base tracks actual elapsed time.
This may cause time-dependent diagnostics to report errors.
2.6 PC11 Paper Tape Reader (PTR)
The paper tape reader (PTR) reads data from a disk file. The POS
register specifies the number of the next data item to be read. Thus,
by changing POS, the user can backspace or advance the reader.
The paper tape reader requires an unsupported driver under TOPS-10
and is not supported under TOPS-20 or ITS.
The paper tape reader implements these registers:
name size comments
BUF 8 last data item processed
CSR 16 control/status register
INT 1 interrupt pending flag
ERR 1 error flag (CSR<15>)
BUSY 1 busy flag (CSR<11>)
DONE 1 device done flag (CSR<7>)
IE 1 interrupt enable flag (CSR<6>)
POS 32 position in the input file
TIME 24 time from I/O initiation to interrupt
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of tape
end of file 1 report error and stop
0 out of tape
OS I/O error x report error and stop
2.7 PC11 Paper Tape Punch (PTP)
The paper tape punch (PTP) writes data to a disk file. The POS
register specifies the number of the next data item to be written.
Thus, by by changing POS, the user can backspace or advance the punch.
The paper tape punch requires an unsupported driver under TOPS-10
and is not supported under TOPS-20 or ITS.
The paper tape punch implements these registers:
name size comments
BUF 8 last data item processed
CSR 16 control/status register
INT 1 interrupt pending flag
ERR 1 error flag (CSR<15>)
DONE 1 device done flag (CSR<7>)
IE 1 interrupt enable flag (CSR<6>)
POS 32 position in the input or output file
TIME 24 time from I/O initiation to interrupt
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of tape
OS I/O error x report error and stop
2.8 DZ11 Terminal Multiplexor (DZ)
The DZ11 is an 8-line terminal multiplexor. Up to 4 DZ11's (32 lines)
are supported. The number of lines can be changed with the command
SET DZ LINES=n set line count to n
The line count must be a multiple of 8, with a maximum of 32.
The DZ11 can support 8-bit input and output of characters. 8-bit
output is incompatible with TOPS-20 and is off by default. The command
SET DZ 8B
allows output characters to be 8 bits.
The DZ11 supports logging on a per-line basis. The command
SET DZ LOG=line=filename
enables logging for the specified line to the indicated file. The
command
SET DZ NOLOG=line
disables logging for the specified line and closes any open log file.
Finally, the command
SHOW DZ LOG
displays logging information for all DZ lines.
The terminal lines perform input and output through Telnet sessions
connected to a user-specified port. The ATTACH command specifies
the port to be used:
ATTACH {-am} DZ <port> set up listening port
where port is a decimal number between 1 and 65535 that is not being used
for other TCP/IP activities. The optional switch -m turns on the DZ11's
modem controls; the optional switch -a turns on active disconnects
(disconnect session if computer clears Data Terminal Ready). Without
modem control, the DZ behaves as though terminals were directly connected;
disconnecting the Telnet session does not cause any operating system-
visible change in line status.
Once the DZ is attached and the simulator is running, the DZ will listen
for connections on the specified port. It assumes that the incoming
connections are Telnet connections. The connection remains open until
disconnected by the simulated program, the Telnet client, a SET DZ
DISCONNECT command, or a DETACH DZ command.
The SHOW DZ CONNECTIONS command displays the current connections to the DZ.
The SHOW DZ STATISTICS command displays statistics for active connections.
The SET DZ DISCONNECT=linenumber disconnects the specified line.
The DZ11 implements these registers:
name size comments
CSR[0:3] 16 control/status register, boards 0-3
RBUF[0:3] 16 receive buffer, boards 0-3
LPR[0:3] 16 line parameter register, boards 0-3
TCR[0:3] 16 transmission control register, boards 0-3
MSR[0:3] 16 modem status register, boards 0-3
TDR[0:3] 16 transmit data register, boards 0-3
SAENB[0:3] 1 silo alarm enabled, boards 0-3
RXINT 4 receive interrupts, boards 3..0
TXINT 4 transmit interrupts, boards 3..0
MDMTCL 1 modem control enabled
AUTODS 1 autodisconnect enabled
The DZ11 does not support save and restore. All open connections are
lost when the simulator shuts down or the DZ is detached.
2.9 RH11 Adapter, RM02/03/05/80, RP04/05/06/07 drives (RP)
The RP controller implements the Massbus 18b (RH11) direct interface for
large disk drives. It is more abstract than other device simulators, with
just enough detail to run operating system drivers. In addition, the RP
controller conflates the details of the RM series controllers with the RP
series controllers, although there were detailed differences.
RP options include the ability to set units write enabled or write locked,
to set the drive type to one of six disk types, or autosize:
SET RPn LOCKED set unit n write locked
SET RPn WRITEENABLED set unit n write enabled
SET RPn RM03 set type to RM03
SET RPn RM05 set type to RM05
SET RPn RM80 set type to RM80
SET RPn RP04 set type to RP04
SET RPn RP06 set type to RP06
SET RPn RP07 set type to RP07
SET RPn AUTOSIZE set type based on file size at attach
The type options can be used only when a unit is not attached to a file.
Note that TOPS-10 V7.03 supported only the RP06 and RM03; V7.04 added
support for the RP07. TOPS-20 V4.1 also supported only the RP06 and
RM03. Units can be set ONLINE or OFFLINE.
The RP controller implements these registers:
name size comments
RPCS1 16 control/status 1
RPWC 16 word count
RPBA 16 bus address
RPDA 16 desired surface, sector
RPCS2 16 control/status 2
RPDS[0:7] 16 drive status, drives 0-7
RPER1[0:7] 16 drive errors, drives 0-7
RPOF 16 offset
RPDC 8 desired cylinder
RPER2 16 error status 2
RPER3 16 error status 3
RPEC1 16 ECC syndrome 1
RPEC2 16 ECC syndrome 2
RPMR 16 maintenance register
RPDB 16 data buffer
IFF 1 transfer complete interrupt request flop
INT 1 interrupt pending flag
SC 1 special condition (CSR1<15>)
DONE 1 device done flag (CSR1<7>)
IE 1 interrupt enable flag (CSR1<6>)
STIME 24 seek time, per cylinder
RTIME 24 rotational delay
STOP_IOE 1 stop on I/O error
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 disk not ready
end of file x assume rest of disk is zero
OS I/O error x report error and stop
2.10 RH11 Adapter, TM02 Formatter, TU45 Magnetic Tape (TU)
The magnetic tape simulator simulates an RH11 Massbus adapter with one
TM02 formatter and up to eight TU45 drives. Magnetic tape options include
the ability to make units write enabled or locked.
SET TUn LOCKED set unit n write locked
SET TUn WRITEENABLED set unit n write enabled
Units can also be set ONLINE or OFFLINE.
The magnetic tape controller implements these registers:
name size comments
MTCS1 16 control/status 1
MTBA 16 memory address
MTWC 16 word count
MTFC 16 frame count
MTCS2 16 control/status 2
MTFS 16 formatter status
MTER 16 error status
MTCC 16 check character
MTDB 16 data buffer
MTMR 16 maintenance register
MTTC 16 tape control register
INT 1 interrupt pending flag
DONE 1 device done flag
IE 1 interrupt enable flag
STOP_IOE 1 stop on I/O error
TIME 24 delay
UST[0:7] 16 unit status, units 0-7
POS[0:7] 32 position, units 0-7
Error handling is as follows:
error processed as
not attached tape not ready; if STOP_IOE, stop
end of file operation incomplete
OS I/O error parity error; if STOP_IOE, stop
2.11 LP20 DMA Line Printer (LP20)
The LP20 is a DMA-based line printer controller. There is one
line printer option to clear the vertical forms unit (VFU):
SET LP20 VFUCLEAR clear the vertical forms unit
The LP20 implements these registers:
name size comments
LPCSA 16 control/status register A
LPCSB 16 control/status register B
LPBA 16 bus address register
LPBC 12 byte count register
LPPAGC 12 page count register
LPRDAT 12 RAM data register
LPCBUF 8 character buffer register
LPCOLC 8 column counter register
LPPDAT 8 printer data register
LPCSUM 8 checksum register
DVPTR 7 vertical forms unit pointer
DVLNT 7 vertical forms unit length
INT 1 interrupt request
ERR 1 error flag
DONE 1 done flag
IE 1 interrupt enable flag
POS 32 position in output file
TIME 24 response time
STOP_IOE 1 stop on I/O error
TXRAM[0:255] 12 translation RAM
DAVFU[0:142] 12 vertical forms unit array
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 out of paper
OS I/O error x report error and stop
2.12 RX211/RX02 Floppy Disk (RY)
RX211 options include the ability to set units write enabled or write
locked, single or double density, or autosized:
SET RYn LOCKED set unit n write locked
SET RYn WRITEENABLED set unit n write enabled
SET RYn SINGLE set unit n single density
SET RYn DOUBLE set unit n double density (default)
SET RYn AUTOSIZE set unit n autosized
The floppy disk requires an unsupported driver under TOPS-10 and
is not supported under TOPS-20 or ITS.
The RX211 implements these registers:
name size comments
RYCS 16 status
RYBA 16 buffer address
RYWC 8 word count
RYDB 16 data buffer
RYES 12 error status
RYERR 8 error code
RYTA 8 current track
RYSA 8 current sector
STAPTR 4 controller state
INT 1 interrupt pending flag
ERR 1 error flag (CSR<15>)
TR 1 transfer ready flag (CSR<7>)
IE 1 interrupt enable flag (CSR<6>)
DONE 1 device done flag (CSR<5>)
CTIME 24 command completion time
STIME 24 seek time, per track
XTIME 24 transfer ready delay
STOP_IOE 1 stop on I/O error
SBUF[0:255] 8 sector buffer array
Error handling is as follows:
error STOP_IOE processed as
not attached 1 report error and stop
0 disk not ready
RX02 data files are buffered in memory; therefore, end of file and OS
I/O errors cannot occur.
2.13 DEUNA/DELUA Ethernet Controller (XU)
XU simulates the DEUNA/DELUA Ethernet controller. The current implementation
is a stub and is permanently disabled.
2.14 Symbolic Display and Input
The PDP-10 simulator implements symbolic display and input. Display is
controlled by command line switches:
-a display as ASCII character
-c display as (sixbit) character string
-p display as packed (seven bit) string
-m display instruction mnemonics
-v interpret address as virtual
-e force executive mode
-u force user mode
Input parsing is controlled by the first character typed in or by command
line switches:
' or -a ASCII character
" or -c sixbit string
# or -p packed seven bit string
alphabetic instruction mnemonic
numeric octal number
Instruction input uses standard PDP-10 assembler syntax. There are three
instruction classes: memory reference, memory reference with AC, and I/O.
Memory reference instructions have the format
memref {@}address{(index)}
memory reference with AC instructions have the format
memac ac,{@}address{(index)}
and I/O instructions have the format
io device,{@}address{(index)}
where @ signifies indirect. The address is a signed octal number in the
range 0 - 0777777. The ac and index are unsigned octal numbers in the
range 0-17. The device is either a recognized device mnemonic (APR, PI,
TIM) or an octal number in the range 0 - 0177.
The simulator recognizes the standard MACRO alternate mnemonics (CLEAR
for SETZ, OR for IORI), the individual definitions for JRST and JFCL
variants, and the extended instruction mnemonics.