To: Users | |
From: Bob Supnik | |
Subj: Simulator Usage, V3.2-1 | |
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 SIMH simulators. These simulators are freeware; | |
refer to the license terms above for conditions of use. Support is not | |
available. The best way to fix problems or add features is to read and | |
modify the sources yourself. Alternately, you can send Internet mail to | |
bob AT supnik DOT org, but a response is not guaranteed. | |
The simulators use a common command interface. This memorandum describes | |
the features of the command interface. The details of each simulator are | |
documented in separate, machine-specific memoranda. | |
1. Compiling And Running A Simulator | |
The simulators have been tested on VAX VMS, Alpha VMS, Alpha UNIX, | |
NetBSD, FreeBSD, OpenBSD, Linux, Solaris, Windows 9x/Me/NT/2000, MacOS | |
9 and X, and OS/2. Porting to other environments will require changes | |
to the operating system dependent code in the SIMH libraries (sim_fio.c, | |
sim_timer.c, sim_console.c, sim_ether.c, sim_sock.c). | |
The simulator sources are provided in a zip archive and are organized | |
hierarchically. Source files for the simulator libraries are in the | |
top level directory; source files for each simulator are in individual | |
subdirectories. Note that the include files in the top level directory | |
are referenced from the subdirectories, without path identifiers. Your | |
build tool needs to search the top level directory for include files not | |
found in the simulator-specific directory, or you will have to copy all | |
files from the subdirectories into the master directory. File manifests | |
for each simulator are given in that simulator's documentation. | |
The simulators recognize or require a few compile-time #defines: | |
- The 18b simulators require that the model name be defined as part | |
of the compilation command line (i.e., PDP4 for the PDP-4, PDP7 | |
for the PDP-7, PDP9 for the PDP-9, PDP15 for the PDP-15). | |
- The PDP-10 simulator uses 64b integer variables, requiring that | |
USE_INT64 be defined as part of the compilation command line. | |
Since 64b integer declarations vary, sim_defs.h has conditional | |
declarations for Windows (_int64) and Digital UNIX (long). The | |
default is GNU C (long long). If your compiler uses a different | |
convention, you will have to modify sim_defs.h. | |
- The PDP-10, PDP-11, and VAX simulators share common peripherals. | |
To distinguish the target system, one of three variables must be | |
defined on the command line: VM_PDP10 for the PDP-10; VM_PDP11 | |
for the PDP-11; or VM_VAX for the VAX. | |
- The PDP-11, PDP-11, and VAX simulators optionally support Ethernet. | |
To include Ethernet emulation, USE_NETWORK must be defined as part | |
of the compilation command line. At present, Ethernet support has | |
been tested only on Windows, Linux, NetBSD, OpenBSD, FreeBSD, | |
Solaris, and Alpha VMS, but it should work in any host environment | |
that supports the Pcap library (see the Ethernet readme file). | |
- The PDP-11 and VAX simulators optionally support disks and serial | |
devices files greater than 2GB. To include large device support, | |
both USE_INT64 and USE_ADDR64 must be defined as part of the | |
compilation command line. | |
To start the simulator, simply type its name. (On version of VMS | |
prior to 6.2, the simulators must then be defined as foreign commands | |
in order to be be started by name.) The simulator recognizes one | |
switch, -Q; if specified, certain informational messages are suppressed. | |
The simulator interprets the arguments on the command line, if any, | |
as the file name and arguments for a DO command: | |
% pdp10 {<startup file> {arg,arg,...}}(cr) | |
If no file is specified on the command line, the simulator looks for | |
an startup file consisting of the simulator name (including its path | |
components) plus the extension .ini. If a startup file is specified, | |
either on the command line or implicitly via the .ini capability, it | |
should contain a series of non-interactive simulator command, one | |
per line. These command can be used to set up standard parameters, | |
for example, disk sizes. | |
After initializing its internal structures and processing the startup | |
file (if any), the simulator types out its name and version and then | |
prompts for input with: | |
sim> | |
1.1 Compiling Under UNIX/Linux | |
The sources originate on a Windows system and have cr-lf at the end of | |
every line. For use on UNIX or Mac, the sources must be converted to | |
UNIX text conventions. This can be done with the UNIX UNZIP utility | |
(unzip -a). | |
The supplied makefile will compile the simulators for UNIX systems | |
which support the POSIX TERMIOS. The VAX and PDP-11 can be compiled | |
with or without Ethernet support. To compile without Ethernet support: | |
gmake {target|ALL|clean} | |
To compile with Ethernet support: | |
gmake USE_NETWORK=1 {target|ALL|clean} | |
Notes for hand compilation: | |
- The default UNIX terminal handling model is the POSIX TERMIOS | |
interface, which is supported by Linux, Mac OS/X, and Alpha UNIX. | |
If your UNIX only supports the BSD terminal interface, BSDTTY | |
must be defined as part of the compilation command line. | |
- The PDP-8, PDP-11, 18b PDP, PDP-10, and Nova simulators use the | |
math library. If your UNIX does not link the math library | |
automatically, you must add -lm to the compilation command line. | |
Examples: | |
- PDP-11 under TERMIOS UNIX: | |
% cc -DVM_PDP11 pdp11_*.c scp.c sim_*.c -lm -o pdp11 | |
- PDP-9 under TERMIOS UNIX: | |
% cc -DPDP9 pdp18b_*.c scp.c sim_*.c -lm -o pdp9 | |
- PDP-10 under BSD terminal UNIX: | |
% cc -DVM_PDP10 -DUSE_INT64 -DBSDTTY pdp10_*.c scp.c sim_*.c -lm -o pdp10 | |
1.2 Compiling Under Windows | |
1.2.1 Compiling PDP-11 and VAX with Ethernet Support | |
The Windows-specific Ethernet code uses the WinPCAP 3.0 package. | |
This package for windows simulates the libpcap package that is freely | |
available for Unix systems. | |
WinPCAP must be installed prior to building the PDP-11 and VAX | |
simulators with Ethernet support. | |
- Download V3.0 from http://winpcap.polito.it. | |
- Install the package as directed. | |
- Copy the required .h files (bittypes.h, devioctl.h, ip6_misc.h, | |
packet32.h, pcap.h, pcap-stdinc.h) from the WinPCAP 3.0 developer's | |
kit to the top level simulation directory. | |
- Get the required .lib files (packet.lib, wpcap.lib) from the WinPCAP | |
3.0 developer's kit. If you're using Borland C++, use COFF2OMF to | |
convert the .lib files into a format that can be used by the compiler. | |
Then move the libraries to the standard library directory. | |
- Add -DUSE_NETWORK to the compilation command lines for the PDP-11 | |
and VAX. | |
1.2.2 Compiling Under MinGW | |
MinGW (Minimum GCC for Windows) is a free C compiler available from | |
http://www.mingw.org. The distribution includes a batch file | |
(build_mingw.bat) that will build all the simulators from source. | |
By default, the PDP-11 and VAX are built without Ethernet support. To | |
enable Ethernet support, install WinPCAP as described in the previous | |
section, and then use the alternative batch file (build_mingw_ether.bat). | |
1.2.3 Compiling Under Visual C++ | |
Each simulator must be organized as a separate Visual C++ project. | |
Starting from an empty console application, | |
- Add all the files from the simulator file manifest to the project. | |
- Open the Project->Settings dialog box. | |
- On the C/C++ tab, Category: General, add any required preprocessor | |
definitions (for example, USE_INT64). | |
- On the C/C++ tab, Category: Preprocessor, add the top level | |
simulation directory to the Additional Include Directories. For | |
the VAX and PDP-10, you must also add the PDP-11 directory. | |
- On the Link tab, add wsock32.lib at the end of the list of | |
Object/Module Libraries. | |
- If you are building the PDP-11 and VAX with Ethernet support, you | |
must also add the WinPCAP libraries (packet.lib, wpcap.lib) to the | |
list of Object/Module libraries. | |
If you are using Visual C++ .NET, you must turn off /Wp (warn about | |
potential 64b incompatibilities); otherwise, the compilations will | |
generate a lot of spurious conversion warnings. | |
1.2.4 Compiling Under Borland C++ | |
The Borland C++ compiler generates lots of spurious warnings about | |
missing function prototypes and conversions. All of these warnings | |
can be safely ignored. | |
1.3 Compiling Under OpenVMS | |
Compiling on OpenVMS requires DEC C. The simulators that require | |
64b (PDP-10 and VAX) will not compile on OpenVMS/VAX. The SIMH | |
distribution includes an MMS command file descrip.mms that will | |
build all the simulators from source. An example of hand compilation: | |
- PDP-8 under VMS: | |
$ cc scp.c,sim_*.c,[.pdp8]pdp8*.c | |
$ link/exec=pdp8 scp.obj,sim_*.obj,[.pdp8]pdp8*.obj | |
1.4 Compiling Under MacOS | |
The simulators have been tested on both MacOS 9 (with Codewarrior) | |
and MacOS/X (with Apple's tools). | |
1.5 Compiling Under OS/2 | |
Socket support requires the EMX compiler. | |
2. Simulator Conventions | |
A simulator consists of a series of devices, the first of which is | |
always the CPU. A device consists of named registers and one or more | |
numbered units. Registers correspond to device state, units to device | |
address spaces. Thus, the CPU device might have registers like PC, | |
ION, etc, and a unit corresponding to main memory; a disk device might | |
have registers like BUSY, DONE, etc, and units corresponding to individual | |
disk drives. Except for main memory, device address spaces are simulated | |
as unstructured binary disk files in the host file system. The SHOW | |
CONFIG command displays the simulator configuration. | |
A simulator keeps time in terms of arbitrary units, usually one time unit | |
per instruction executed. Simulated events (such as completion of I/O) | |
are scheduled at some number of time units in the future. The simulator | |
executes synchronously, invoking event processors when simulated events | |
are scheduled to occur. Even asynchronous events, like keyboard input, | |
are handled by polling at synchronous intervals. The SHOW QUEUE command | |
displays the simulator event queue. | |
3. Commands | |
Simulator commands consist of a command verb, optional switches, and | |
optional arguments. Switches take the form: | |
-<letter>{<letter>...} | |
Multiple switches may be specified separately or together: -abcd or | |
-a -b -c -d are treated identically. Verbs, switches, and other | |
input (except for file names) are case insensitive. | |
Any command beginning with semicolon (;) is considered a comment and | |
ignored. | |
3.1 Loading and Saving Programs | |
The LOAD command (abbreviation LO) loads a file in binary paper-tape | |
loader format: | |
sim> load <filename> {implementation options}(cr) | |
The types of formats supported are implementation specific. Options | |
(such as load within range) are also implementation specific. | |
The DUMP command (abbreviation DU) dumps memory in binary paper- | |
tape loader format: | |
sim> dump <filename> {implementation options}(cr) | |
The types of formats supported are implementation specific. Options | |
(such as dump within range) are also implementation specific. | |
3.2 Saving and Restoring State | |
The SAVE command (abbreviation SA) save the complete state of the | |
simulator to a file. This includes the contents of main memory and | |
all registers, and the I/O connections of devices except network | |
devices (such as Ethernet controllers and terminal multiplexors): | |
sim> save <filename>(cr) | |
The RESTORE command (abbreviation REST, alternately GET) restores a | |
previously saved simulator state: | |
sim> restore <filename>(cr) | |
Note: SAVE file format compresses zeroes to minimize file size. | |
3.3 Resetting Devices | |
The RESET command (abbreviation RE) resets a device or the entire | |
simulator to a predefined condition: | |
sim> RESET(cr) -- reset all devices | |
sim> RESET ALL(cr) -- reset all devices | |
sim> RESET <device>(cr) -- reset specified device | |
Typically, RESET stops any in-progress I/O operation, clears any | |
interrupt request, and returns the device to a quiescent state. It | |
does not clear main memory or affect I/O connections. | |
3.4 Connecting and Disconnecting Devices | |
Except for main memory and network devices, units are simulated as | |
unstructured binary disk files in the host file system. Before | |
using a simulated unit, the user must specify the file to be accessed | |
by that unit. The ATTACH (abbreviation AT) command associates a unit | |
and a file: | |
sim> ATTACH <unit> <filename>(cr) | |
If the file does not exist, and the -e switch was not specified, a | |
new file is created, and an appropriate message is printed. If the | |
-e switch was specified, a new file is not created, and an error | |
message is printed. | |
If the -r switch is specified, or the file is write protected, ATTACH | |
tries to open the file read only. If the file does not exist, or the | |
unit does not support read only operation, an error occurs. Input- | |
only devices, such as paper-tape readers, and devices with write lock | |
switches, such as disks and tapes, support read only operation; other | |
devices do not. If a file is ATTACHed read only, its contents can be | |
examined but not modified. | |
For simulated magnetic tapes, the ATTACH command can specify the | |
format of the attached tape image file: | |
sim> ATTACH -f <tape_unit> <format> <filename>(cr) | |
The currently supported tape image file formats are: | |
SIMH SIMH simulator format | |
E11 E11 simulator format | |
TPC TPC format | |
The tape format can also be set with the SET command prior to ATTACH: | |
sim> SET <tape_unit> FORMAT=<format>(cr) | |
sim> ATT <tape_unit> <filename>(cr) | |
The format of an attached file can be displayed with the SHOW command: | |
sim> SHOW <tape_unit> FORMAT(cr) | |
For Telnet-based terminal emulators, the ATTACH command associates the | |
master unit with a TCP/IP port: | |
sim> ATTACH <unit> <port>(cr) | |
The port is a decimal number between 1 and 65535 and should not used | |
by standard TCP/IP protocols. | |
For Ethernet emulators, the ATTACH command associates the simulated | |
Ethernet with a physical Ethernet device: | |
sim> ATTACH <unit> <physical device name>(cr) | |
The DETACH (abbreviation DET) command breaks the association between | |
a unit and a file, port, or network device: | |
sim> DETACH ALL(cr) -- detach all units | |
sim> DETACH <unit>(cr) -- detach specified unit | |
The EXIT command performs an automatic DETACH ALL. | |
3.5 Examining and Changing State | |
There are four commands to examine and change state: | |
EXAMINE (abbreviated E) examines state | |
DEPOSIT (abbreviated D) changes state | |
IEXAMINE (interactive examine, abbreviated IE) examines state | |
and allows the user to interactively change it | |
IDEPOSIT (interactive deposit, abbreviated ID) allows the user | |
to interactively change state | |
All four commands take the form | |
command {modifiers} <state list> | |
Deposit must also include a deposit value at the end of the command. | |
There are four kinds of modifiers: switches, device/unit name, search | |
specifiers, and for EXAMINE, output file. Switches have been described | |
previously. A device/unit name identifies the device and unit whose | |
address space is to be examined or modified. If no device is specified, | |
the CPU (main memory)is selected; if a device but no unit is specified, | |
unit 0 of the device is selected. | |
Search specifiers provide criteria for testing addresses or registers | |
to see if they should be processed. A specifier consists of a logical | |
operator, a relational operator, or both, optionally separated by spaces. | |
{<logical op> <value>} <relational op> <value> | |
where the logical operator is & (and), | (or), or ^ (xor), and the | |
relational operator is = or == (equal), ! or != (not equal), >= | |
(greater than or equal), > (greater than), <= (less than or equal), or | |
< (less than). If a logical operator is specified without a relational | |
operator, it is ignored. If a relational operator is specified without | |
a logical operator, no logical operation is performed. All comparisons | |
are unsigned. | |
The output file modifier redirects command output to a file instead of | |
the console. An output file modifier consists of @ followed by a | |
valid file name. | |
Modifiers may be specified in any order. If multiple modifiers of the | |
same time are specified, later modifiers override earlier modifiers. | |
Note that if the device/unit name comes after the search specifier, | |
the values will interpreted in the radix of the CPU, rather than of the | |
device/unit. | |
The "state list" consists of one or more of the following, separated | |
by commas: | |
register the specified register | |
register[sub1-sub2] the specified register array locations, | |
starting at location sub1 up to and | |
including location sub2 | |
register[sub1/length] the specified register array locations, | |
starting at location sub1 up to but | |
not including sub1+length | |
register[ALL] all locations in the specified register | |
array | |
register1-register2 all the registers starting at register1 | |
up to and including register2 | |
address the specified location | |
address1-address2 all locations starting at address1 up to | |
and including address2 | |
address/length all location starting at address up to | |
but not including address+length | |
STATE all registers in the device | |
ALL all locations in the unit | |
Switches can be used to control the format of display information: | |
-a display as ASCII | |
-c display as character string | |
-m display as instruction mnemonics | |
-o display as octal | |
-d display as decimal | |
-h display as hexidecimal | |
The simulators typically accept symbolic input (see documentation with | |
each simulator). | |
Examples: | |
sim> ex 1000-1100 -- examine 1100:1100 | |
sim> de PC 1040 -- set PC to 1040 | |
sim> ie 40-50 -- interactively examine 40:50 | |
sim> ie >1000 40-50 -- interactively examine the subset | |
of locations 40:50 that are >1000 | |
sim> ex rx0 50060 -- examine 50060, RX unit 0 | |
sim> ex rx sbuf[3-6] -- examine SBUF[3] to SBUF[6] in RX | |
sim> de all 0 -- set main memory to 0 | |
sim> de &77>0 0 -- set all addresses whose low order | |
bits are non-zero to 0 | |
sim> ex -m @memdump.txt 0-7777 -- dump memory to file | |
Note: to terminate an interactive command, simply type a bad value (eg, | |
XYZ) when input is requested. | |
3.6 Running Programs | |
The RUN command (abbreviated RU) resets all devices, deposits its argument | |
(if given) in the PC, and starts execution. If no argument is given, | |
execution starts at the current PC. | |
The GO command does NOT reset devices, deposits its argument (if given) | |
in the PC, and starts execution. If no argument is given, execution | |
starts at the current PC. | |
The CONT command (abbreviated CO) does NOT reset devices and resumes | |
execution at the current PC. | |
The STEP command (abbreviated S) resumes execution at the current PC | |
for the number of instructions given by its argument. If no argument | |
is supplied, one instruction is executed. | |
The BOOT command (abbreviated BO) bootstraps the device and unit given | |
by its argument. If no unit is supplied, unit 0 is bootstrapped. The | |
specified unit must be attached. | |
3.7 Stopping Programs | |
Programs run until the simulator detects an error or stop condition, or | |
until the user forces a stop condition. | |
3.7.1 Simulator Detected Stop Conditions | |
These simulator-detected conditions stop simulation: | |
- HALT instruction. If a HALT instruction is decoded, | |
simulation stops. | |
- Breakpoint. The simulator may support breakpoints (see | |
below). | |
- I/O error. If an I/O error occurs during simulation of an | |
I/O operation, and the device stop-on-I/O-error flag is set, | |
simulation usually stops. | |
- Processor condition. Certain processor conditions can stop | |
simulation; these are described with the individual simulators. | |
3.7.2 User Specified Stop Conditions | |
Typing the interrupt character stops simulation. The interrupt character | |
is defined by the WRU (where are you) console option and is initially set | |
to 005 (^E). | |
3.7.3 Breakpoints | |
A simulator may offer breakpoint capability. A simulator may define | |
breakpoints of different types, identified by letter (for example, E | |
for execution, R for read, W for write, etc). At the moment, most | |
simulators support only E (execution) breakpoints. | |
Associated with a breakpoint is a count and, optionally, one or more | |
actions. Each time the breakpoint is taken, the associated count is | |
decremented. If the count is less than or equal to 0, the breakpoint | |
occurs; otherwise, it is deferred. When the breakpoint occurs, the | |
optional actions are automatically executed. | |
A breakpoint is set by the BREAK command: | |
sim> BREAK {-types} <addr range>{[count]},{addr range...} | |
{;action;action...} | |
If no type is specified, the simulator-specific default breakpoint | |
type (usually E for execution) is used. As with EXAMINE and DEPOSIT, | |
an address range may be a single address, a range of addresses low-high, | |
or a relative range of address/length. Examples of BREAK: | |
sim> break -e 200 -- set E break at 200 | |
sim> break 2000/2[2] -- set E breaks at 2000,2001 | |
with count = 2 | |
sim> break 100;ex ac;d mq 0 -- set E break at 100 with | |
actions EX AC and D MQ 0 | |
sim> break 100; -- delete action on break at 100 | |
Currently set breakpoints can be displayed with the SHOW BREAK command: | |
sim> SHOW {-types} BREAK {ALL|<addr range>{,<addr range>...}} | |
Locations with breakpoints of the specified type are displayed. | |
Finally, breakpoints can be cleared by the NOBREAK command. | |
3.8 Setting Device Parameters | |
The SET command (abbreviated SE) changes the status of a device parameter: | |
sim> SET <device> <parameter>{=<value} | |
or a unit parameter: | |
sim> SET <unit> <parameter>{=<value>} | |
Most parameters are simulator and device specific. Disk drives, for | |
example, can usually be set WRITEENABLED or write LOCKED; if a device | |
supports multiple drive types, the SET command can be used to specify | |
the drive type. | |
All devices recognize the following parameters: | |
OCT sets the data radix = 8 | |
DEC sets the data radix = 10 | |
HEX sets the data radix = 16 | |
3.9 Displaying Parameters and Status | |
The SHOW CONFIGURATION command shows the simulator configuration and | |
the status of all simulated devices and units. | |
The SHOW DEVICES command shows the configuration of all simulated | |
devices. | |
The SHOW MODIFIERS command shows the modifiers available on all | |
simulated devices. | |
The SHOW QUEUE command shows the state of the simulator event queue. | |
Times are in "simulation units", typically one unit per instruction | |
execution, relative to the current simulation time. | |
The SHOW TIME command shows the number of time units elapsed since | |
the last RUN command. | |
The SHOW <device> command shows the status of the named simulated | |
device. SHOW <device> <parameter> shows the value of the named | |
parameter, if it can display a value. All devices implement parameters | |
RADIX (the display radix), MODIFIERS (list of valid modifiers), and | |
NAMES (logical name). | |
The SHOW <unit> command shows the status of the named simulated unit. | |
SHOW <unit> <parameter> shows the value of the named parameter, if | |
it can display a value. | |
3.10 Altering The Simulated Configuration | |
In most simulators, the SET <device> DISABLED command removes the | |
specified device from the configuration. A DISABLED device is | |
invisible to running programs. The device can still be RESET but | |
it cannot be ATTAChed, DETACHed, or BOOTed. SET <device> ENABLED | |
restores a disabled device to a configuration. | |
Most multi-unit devices allow units to be placed online or offline: | |
sim> SET <unit> ONLINE | |
sim> SET <unit> OFFLINE | |
When a unit is offline, it will not be displayed by SHOW DEVICE. | |
The standard device names can be supplemented with logical names. | |
Logical names must be unique within a simulator (that is, they cannot | |
be the same as an existing device name). To assign a logical name | |
to a device: | |
sim> ASSIGN <device> <log-name> -- assign log-name to device | |
To remove a logical name: | |
sim> DEASSIGN <device> -- remove logical name | |
To show the current logical name assignment: | |
sim> SHOW <device> NAMES -- show logical name, if any | |
To show all logical names: | |
sim> SHOW NAMES | |
3.11 Console Options | |
Console options are controlled by the SET CONSOLE command. | |
The console terminal normally runs in the controlling window. | |
Optionally, the console terminal can be connected to a Telnet port. | |
This allows systems to emulate a VT100 using the built-in terminal | |
emulation of the Telnet client. | |
sim> SET CONSOLE TELNET=<port> -- connect console terminal | |
to Telnet session on port | |
sim> SET CONSOLE NOTELNET -- disable console Telnet | |
Output to the console can be logged simultaneously to a file: | |
sim> SET CONSOLE LOG=<filename> -- log console output to file | |
sim> SET CONSOLE NOLOG -- disable logging | |
The console provides a limited key remapping capability: | |
sim> SET CONSOLE WRU=<value> -- interpret ASCII code | |
value as WRU | |
sim> SET CONSOLE BRK=<value> -- interpret ASCII code | |
value as BREAK (0 disables) | |
sim> SET CONSOLE DEL=<value> -- interpret ASCII code | |
value as DELETE | |
Values are hexadecimal on hex CPU's, octal on all others. | |
The SHOW CONSOLE command displays the current state of console options: | |
sim> SHOW CONSOLE -- show all console options | |
sim> SHOW CONSOLE TELNET -- show console Telnet state | |
sim> SHOW CONSOLE LOG -- show console logging state | |
sim> SHOW CONSOLE WRU -- show value assigned to WRU | |
sim> SHOW CONSOLE BRK -- show value assigned to BREAK | |
sim> SHOW CONSOLE DEL -- show value assigned to DELETE | |
3.12 Executing Command Files | |
The simulator can execute command files with the DO command: | |
sim> DO <filename> {arguments...} -- execute commands in file | |
The DO command allows command files to contain substitutable arguments. | |
The string %n is recognized as meaning argument n from the DO command | |
line. The character \ has the usual UNIX meaning of an escape character; | |
the next character is interpreted literally, even if it is % or \. | |
Arguments with spaces can be enclosed in matching single or double | |
quotation marks. | |
If the switch -V is specified, the commands in the file are echoed | |
before they are executed. | |
3.13 Executing System Commands | |
The simulator can execute operating system commands with the ! (spawn) | |
command: | |
sim> ! <host operating system command> | |
If no operating system command is provided, the simulator attempts to | |
launch the host operating system's command shell. | |
3.14 Getting Help | |
The HELP command prints out information about a command or about all | |
commands: | |
sim> HELP -- print all HELP messages | |
sim> HELP <command> -- print HELP for command | |
3.15 Controlling Debugging | |
Some simulated devices may provide debug printouts to help in diagnosing | |
complicated problems. Debug output may be sent to a variety of places, | |
or disabled entirely: | |
sim> SET DEBUG STDOUT -- direct debug output to stdout | |
sim> SET DEBUG STDERR -- direct debug output to stderr | |
sim> SET DEBUG LOG -- direct debug output to log file | |
sim> SET DEBUG <filename> -- direct debug output to file | |
sim> SET NODEBUG -- disable debug output | |
If debug output is enabled, individual devices can be controlled with the | |
SET command. If a device has only a single debug flag: | |
sim> SET <device> DEBUG -- enable device debug output | |
sim> SET <device> NODEBUG -- disable device debug output | |
If the device has individual, named debug flags: | |
sim> SET <device> DEBUG=n1,n2,... -- enable device debug flags n1, n2, ... | |
sim> SET <device> NODEBUG=n1,n2,... -- disable device debug flags n1, n2, ... | |
sim> SET <device> NODEBUG -- disable all device debug flags | |
If debug output is directed to stdout, it will be intermixed with normal | |
simulator output. | |
3.16 Exiting The Simulator | |
EXIT (synonyms QUIT and BYE) returns control to the operating system. | |
Appendix 1: File Representations | |
All file representations are little endian. On big endian hosts, the | |
simulator automatically performs any required byte swapping. | |
1. Hard Disks | |
Hard disks are represented as unstructured binary files of 16b data | |
items for the 12b and 16b simulators, of 32b data items for the 18b, | |
24b, and 32b simulators, and 64b for the 36b simulators. | |
2. Floppy Disks | |
PDP-8 and PDP-11 floppy disks are represented as unstructured binary | |
files of 8b data items. They are nearly identical to the floppy disk | |
images for Doug Jones' PDP-8 simulator but lack the initial 256 byte | |
header. A utility for converting between the two formats is easily | |
written. | |
3. Magnetic Tapes | |
Magnetic tapes are represented as unstructured binary files of 8b data | |
items. Each record starts with a 32b record header, in little endian | |
format. If the record header is not a special header, it is followed | |
by n 8b bytes of data, followed by a repeat of the 32b record header. | |
A 1 in the high order bit of the record header indicates an error in | |
the record. If the byte count is odd, the record is padded to even | |
length; the pad byte is undefined. | |
Special record headers occur only once and have no data. The currently | |
defined special headers are: | |
0x00000000 file mark | |
0xFFFFFFFF end of medium | |
Magnetic tapes are endian independent and consistent across simulator | |
families. A magtape produced by the Nova simulator will appear to | |
have its 16b words byte swapped if read by the PDP-11 simulator. | |
SIMH can read and write E11-format magtape images. E11 format differs | |
from SIMH format only for odd-length records; the data portion of E11 | |
records is not padded with an extra byte. | |
SIMH can read TPC-format magtape images. TPC format uses a 16b record | |
header, with 0x0000 denoting file mark. The record header is not | |
repeated at the end of the record. Odd-length records are padded with | |
an extra byte. | |
4. Line Printers | |
Line printer output is represented by an ASCII file of lines separated | |
by the newline character. Overprinting is represented by a line ending | |
in return rather than newline. | |
5. DECtapes | |
DECtapes are structured as fixed length blocks. PDP-1/4/7/9/15 DECtapes | |
use 578 blocks of 256 32b words. Each 32b word contains 18b (6 lines) | |
of data. PDP-11 DECtapes use 578 blocks of 256 16b words. Each 16b word | |
contains 6 lines of data, with 2b omitted. This is compatible with native | |
PDP-11 DECtape dump facilities, and with John Wilson's PUTR Program. PDP-8 | |
DECtapes use 1474 blocks of 129 16b words. Each 16b word contains 12b | |
(4 lines) of data. PDP-8 OS/8 does not use the 129th word of each block, | |
and OS/8 DECtape dumps contain only 128 words per block. A utility, | |
DTOS8CVT.C, is provided to convert OS/8 DECtape dumps to simulator format. | |
A known issue in DECtape format is that when a block is recorded in | |
one direction and read in the other, the bits in a word are scrambled | |
(to the complement obverse). The PDP-11 deals with this problem by | |
performing an automatic complement obverse on reverse writes and reads. | |
The other systems leave this problem to software. | |
The simulator represents this difference as follows. On the PDP-11, all | |
data is represented in normal form. Data reads and writes are not direction | |
sensitive; read all and write all are direction sensitive. Real DECtapes | |
that are read forward will generate images with the correct representation | |
of the data. | |
On the other systems, forward write creates data in normal form, while | |
reverse write creates data in complement obverse form. Forward read (and | |
read all) performs no transformations, while reverse read (and read all) | |
changes data to the complement obverse. Real DECtapes that are read forward | |
will generate data in normal form for blocks written forward, and complement | |
obverse data for blocks written in reverse, corresponding to the simulator | |
format. | |
Appendix 2: Debug Status | |
The debug status of each simulated CPU and device is as follows: | |
system PDP-8 PDP-11 Nova PDP-1 18b PDP | |
device | |
CPU y y y y y | |
FPU - y - - h | |
EIS/CIS - h - - - | |
console y y y y y | |
paper tape y y y y y | |
card reader - - - - - | |
line printer y y y h y | |
clock y y y - y | |
extra terminal y y y - y | |
hard disk y y y - y | |
fixed disk y - h - y | |
floppy disk y y y - - | |
drum - - - h h | |
DECtape y y - h y | |
mag tape y y y - h | |
system 1401 2100 PDP-10 H316 VAX | |
device | |
CPU y y y h y | |
FPU - y y - y | |
EIS/CIS - y y - - | |
console h y y h y | |
paper tape - y h h y | |
card reader y - - - - | |
line printer y y y h y | |
clock - y y h y | |
extra terminal - y y - y | |
hard disk h y y - y | |
fixed disk - h - h - | |
floppy disk - - h - - | |
drum - h - - - | |
DECtape - - - - - | |
mag tape y y y h y | |
system GRI-909 1620 i16 i32 SDS940 | |
device | |
CPU h h d y d | |
FPU - - d y - | |
CIS - - - - - | |
console h h d y h | |
paper tape h h d y h | |
card reader - h - - - | |
line printer - h d y h | |
clock h - d y n | |
extra terminal - - h y h | |
hard disk - h d y h | |
fixed disk - - - - h | |
floppy disk - - d d - | |
drum - - - - h | |
DECtape - - - - - | |
mag tape - - d y h | |
system LGP-30 1130 | |
device | |
CPU h y | |
FPU - - | |
CIS - - | |
console h y | |
paper tape h - | |
card reader - y | |
line printer - y | |
clock - - | |
extra terminal - - | |
hard disk - y | |
fixed disk - - | |
floppy disk - - | |
drum - - | |
DECtape - - | |
mag tape - - | |
legend: y = runs operating system or sample program | |
d = runs diagnostics | |
h = runs hand-generated test cases | |
n = untested | |
- = not applicable | |
Revision History (covering Rev 2.0 to present) | |
Starting with Rev 2.7, detailed revision histories can be found | |
in file sim_rev.c. | |
Rev 3.2, Feb, 04 | |
Added LGP-30/LGP-21 simulator | |
Added global SHOW modifier capability | |
Added global SET DEBUG modifier | |
Added global SHOW DEBUG,RADIX,MODIFIERS,NAME modifiers | |
Added VAX extended physical memory support (Mark Pizzolato) | |
Added VAX RXV21 support | |
Revised terminal multiplexor library to support variable | |
number of lines per multiplexor | |
Added PDP-15 LT19 support (1-16 terminals) | |
Rev 3.1, Dec, 03 | |
Added Alpha/VMS, FreeBSD, Mac OS/X Ethernet library support | |
Added Eclipse floating point and interval timer support | |
(from Charles Owen) | |
Added PDP-1 parallel drum support | |
Added PDP-8 TSC8-75 and TD8E support | |
Added H316/516 DMA/DMC, magtape, fixed head disk support | |
Added PDP-8, PDP-15, 32b Interdata instruction history support | |
Rev 3.0, May, 03 | |
Added logical name support | |
Added instruction history support | |
Added multiple tape format support | |
Added 64b address support | |
Added PDP-4 EAE support | |
Added PDP-15 FP15 and XVM support | |
Rev 2.10, Nov, 02 | |
Added Telnet console capability, removed VT emulation | |
Added DO with substitutable arguments (from Brian Knittel) | |
Added .ini initialization file (from Hans Pufal) | |
Added quiet mode (from Brian Knittel) | |
Added ! command (from Mark Pizzolato) | |
Added Telnet BREAK support (from Mark Pizzolato) | |
Added device enable/disable support | |
Added optional simulator hooks for input, output, commands | |
Added breakpoint actions | |
Added magtape simulation library | |
Added PDP-11 KW11P programmable clock | |
Added PDP-11 RK611/RK06/RK07 disk | |
Added PDP-11/VAX TMSCP tape | |
Added PDP-11/VAX DELQA Ethernet support (from David Hittner) | |
Added PDP-11/PDP-10 RX211/RX02 floppy disk | |
Added PDP-11/VAX autoconfiguration support | |
Added PDP-10/PDP-11/VAX variable vector support | |
Added PDP-1 DECtape | |
Added PDP-1, PDP-4 Type 24 serial drum support | |
Added PDP-8 RX28 support | |
Added PDP-9 RB09 fixed head disk, LP09 line printer | |
Added HP2100 12845A line printer | |
Added HP2100 13183 magtape support | |
Added HP2100 boot ROM support | |
Added HP2100 interprocessor link support | |
Added IBM 1620 | |
Added SDS 940 | |
Added Interdata 16b and 32b systems | |
Added 16b DECtape file format support | |
Added support for statically buffered devices | |
Added magtape end of medium support | |
Added 50/60Hz support to line frequency clocks | |
Added 7B/8B support to terminals and multiplexors | |
Added BREAK support to terminals and multiplexors | |
Rev 2.9, Jan, 02 | |
Added circular register arrays | |
Replaced ENABLE/DISABLE with SET ENABLED/DISABLED | |
Replaced LOG/NOLOG with SET LOG/NOLOG | |
Generalized the timer calibration package | |
Added additional routines to the multiplexor library | |
Added SET DISCONNECT, SHOW STATISTICS commands to multiplexors | |
Reimplemented PDP-8 TTX as a unified multiplexor | |
Implemented a PC queue in most simulators | |
Added VAX simulator | |
Added GRI-909 simulator | |
Added Peter Schorn's MITS 8080/Z80 simulator | |
Added Brian Knittel's IBM 1130 simulator | |
Added HP2100 DQ, DR, MS, MUX devices | |
Added SET VT/NOVT commands | |
Rev 2.8, Dec, 01 | |
Added DO command | |
Added general breakpoint facility | |
Added extended SET/SHOW capability | |
Replaced ADD/REMOVE with SET ONLINE/OFFLINE | |
Added global register name recognition | |
Added unit-based register arrays | |
Added Charles Owen's System 3 simulator | |
Added PDP-11 I/O bus map | |
Added PDP-11/VAX RQDX3 | |
Added PDP-8 RL8A | |
Revised 18b PDP interrupt structure | |
Revised directory and documentation structure | |
Added support for MINGW environment | |
Rev 2.7, Sep, 01 | |
Added DZ11 (from Thord Nilson and Art Krewat) to PDP-11, | |
PDP-10 | |
Added additional terminals to PDP-8 | |
Added TSS/8 packed character format to PDP-8 | |
Added sim_sock and sim_tmxr libraries | |
Added sim_qcount and simulator exit detach all facilities | |
Added Macintosh sim_sock support (from Peter Schorn) | |
Added simulator revision level, SHOW version | |
Changed int64/uint64 to t_int64/t_uint64 for Windoze | |
Fixed bug in PDP-11 interrupt acknowledge | |
Fixed bugs in PDP-11 TS NXM check, boot code, error status; | |
added extended characteristics and status | |
Fixed bug in PDP-11 TC stop, stop all functions | |
Fixed receive interrupt while disconnected bug in DZ11 | |
Fixed multi-unit operation bugs, interrupt bugs in PDP-11 | |
RP, PDP-10 RP, PDP-10 TU | |
Fixed carrier detect bug in PDP-11, PDP-10 DZ | |
Fixed bug in PDP-8 reset routine | |
Fixed conditional in PDP-18b CPU | |
Fixed SC = 0 bug in PDP-18b EAE | |
Fixed bug in PDP-7 LPT | |
Upgraded Nova second terminal to use sim_tmxr | |
Upgraded PDP-18b second terminal to use sim_tmxr | |
Upgraded PDP-11 LTC to full KW11-L | |
Removed hack multiple console support | |
Rev 2.6b, Aug, 01 | |
Added H316/516 simulator | |
Added Macintosh support from Louis Chrétien, Peter Schorn, | |
and Ben Supnik | |
Added bad block table option to PDP-11 RL, RP | |
Removed register in declarations | |
Fixed bugs found by Peter Schorn | |
-- endian error in PDP-10, PDP-11 RP | |
-- space reverse error in PDP-11 TS | |
-- symbolic input in 1401 | |
Fixed bug in PDP-1 RIM loader found by Derek Peschel | |
Fixed bug in Nova fixed head disk | |
Rev 2.6a, Jun, 01 | |
Added PDP-9, PDP-15 API option | |
Added PDP-9, PDP-15 second terminal | |
Added PDP-10 option for TOPS-20 V4.1 bug fix | |
Added PDP-10 FE CTRL-C option for Windoze | |
Added console logging | |
Added multiple console support | |
Added comment recognition | |
Increased size of string buffers for long path names | |
Fixed bug in big-endian I/O found by Dave Conroy | |
Fixed DECtape reset in PDP-8, PDP-11, PDP-9/15 | |
Fixed RIM loader PC handling in PDP-9/15 | |
Fixed indirect pointers in PDP-10 paging | |
Fixed SSC handling in PDP-10 TM02/TU45 | |
Fixed JMS to non-existent memory in PDP-8 | |
Fixed error handling on command file | |
Rev 2.6, May, 01 | |
Added ENABLE/DISABLE devices | |
Added SHOW DEVICES | |
Added examination/modification of register arrays | |
Added PDP-10 simulator | |
Added clock autocalibration to SCP, Nova, PDP-8, PDP-11, | |
PDP-18b | |
Added PDP-8, PDP-11, PDP-9/15 DECtape | |
Added PDP-8 DF32 | |
Added 4k Disk Monitor boot to PDP-8 RF08 and DF32 | |
Added PDP-4/7 funny format loader support | |
Added extension handling to the PDP-8 and -9/15 loaders | |
Added PDP-11 TS11/TSV05 | |
Added integer interval timer to SCP | |
Added filename argument to LOAD/DUMP | |
Revised magtape and DECtape bootstraps to rewind before | |
first instruction | |
Fixed 3 cycle data break sequence in PDP-8 RF | |
Fixed 3 cycle data break sequence in 18b PDP LP, MT, RF | |
Fixed CS1.TRE write, CS2.MXF,UPE write, and CS2.UAI in | |
PDP-11 RP | |
Fixed 4M memory size definition in PDP-11 | |
Fixed attach bug in RESTORE | |
Fixed detach bug for buffered devices | |
Updated copyright notices, fixed comments | |
Rev 2.5a, Dec, 00 | |
Added CMD flop to HP paper tape and line printer | |
Added status input for HP paper tape punch and TTY | |
Added Charles Owen's 1401 mag tape boot routine | |
Added Bruce Ray's Nova plotter and second terminal modules | |
Added Charles Owen's Eclipse CPU support | |
Added PDP-9/PDP-15 RIM/BIN loader support | |
Added PDP-9/PDP-15 extend/bank initial state registers | |
Added PDP-9/PDP-15 half/full duplex support | |
Moved software documentation to a separate file | |
Fixed SCP handling of devices without units | |
Fixed FLG, FBF initialization in many HP peripherals | |
Fixed 1401 bugs found by Charles Owen | |
-- 4, 7 char NOPs are legal | |
-- 1 char B is chained BCE | |
-- MCE moves whole character, not digit, after first | |
Fixed Nova bugs found by Bruce Ray | |
-- traps implemented on Nova 3 as well as Nova 4 | |
-- DIV and DIVS 0/0 set carry | |
-- RETN sets SP from FP at outset | |
-- IORST does not clear carry | |
-- Nova 4 implements two undocumented instructions | |
Fixed bugs in 18b PDP's | |
-- XCT indirect address calculation | |
-- missing index instructions in PDP-15 | |
-- bank mode handling in PDP-15 | |
Rev 2.5, Nov, 00 | |
Removed Digital and Compaq from copyrights, as authorized | |
by Compaq Sr VP Bill Strecker | |
Revised save/restore format for 64b simulators | |
Added examine to file | |
Added unsigned integer data types to sim_defs | |
Added Nova 3 and Nova 4 instructions to Nova CPU | |
Added HP2100 | |
Fixed indirect loop through autoinc/dec in Nova CPU | |
Fixed MDV enabled test in Nova CPU | |
Rev 2.4, Jan, 99 | |
Placed all sources under X11-like open source license | |
Added DUMP command, revised sim_load interface | |
Added SHOW MODIFIERS command | |
Revised magtape format to include record error flag | |
Fixed 64b problems in SCP | |
Fixed big endian problem in PDP-11 bad block routine | |
Fixed interrupt on error bug in PDP-11 RP/RM disks | |
Fixed ROL/ROR inversion in PDP-11 symbolic routines | |
Rev 2.3d, Sep, 98 | |
Added BeOS support | |
Added radix commands and switches | |
Added PDP-11 CIS support | |
Added RT11 V5.3 to distribution kits | |
Fixed "shift 32" bugs in SCP, PDP-11 floating point | |
Fixed bug in PDP-11 paper tape reader | |
Fixed bug in ^D handling | |
Rev 2.3c, May, 98 | |
Fixed bug in PDP-11 DIV overflow check | |
Fixed bugs in PDP-11 magtape bootstrap | |
Fixed bug in PDP-11 magtape unit select | |
Replaced UNIX V7 disk images | |
Rev 2.3b, May, 98 | |
Added switch recognition to all simulator commands | |
Added RIM loader to PDP-8 paper tape reader and loader | |
Added second block bootstrap to PDP-11 magtape | |
Fixed bug in PDP-8 RF bootstrap | |
Fixed bug in PDP-11 symbolic display | |
Fixed bugs in PDP-11 floating point (LDEXP, STEXP, | |
MODf, STCfi, overflow handling) | |
Rev 2.3a, Nov, 97 | |
Added search capability | |
Added bad block table command to PDP-11 disks | |
Added bootstrap to PDP-11 magtape | |
Added additional Nova moving head disks | |
Added RT-11 sample software | |
Fixed bugs in PDP-11 RM/RP disks | |
Fixed bugs in Nova moving head disks | |
Fixed endian dependence in 18b PDP RIM loader | |
Rev 2.3, Mar, 97 | |
Added PDP-11 RP | |
Added PDP-1 | |
Changed UNIX terminal I/O to TERMIOS | |
Changed magtape format to double ended | |
Changed PDP-8 current page mnemonic from T to C | |
Added endian independent I/O routines | |
Added precise integer data types | |
Fixed bug in sim_poll_kbd | |
Fixed bug in PDP-8 binary loader | |
Fixed bugs in TM11 magtape | |
Fixed bug in RX11 bootstrap | |
Fixed bug in 18b PDP ADD | |
Fixed bug in 18b PDP paper tape reader | |
Fixed bug in PDP-4 console | |
Fixed bug in PDP-4,7 line printer | |
Rev 2.2d, Dec, 96 | |
Added ADD/REMOVE commands | |
Added unit enable/disable support to device simulators | |
Added features for IBM 1401 project | |
Added switch recognition for symbolic input | |
Fixed bug in variable length IEXAMINE | |
Fixed LCD bug in RX8E | |
Initial changes for Win32 | |
Added IBM 1401 | |
Rev 2.2b, Apr, 96 | |
Added PDP-11 dynamic memory size support | |
Rev 2.2a, Feb, 96 | |
New endian independent magtape format | |
Rev 2.2 Jan, 96 | |
Added register buffers for save/restore | |
Added 18b PDP's | |
Guaranteed TTI, CLK times are non-zero | |
Fixed breakpoint/RUN interaction bug | |
Fixed magnetic tape backspace to EOF bug | |
Fixed ISZ/DCA inversion in PDP-8 symbol table | |
Fixed sixbit conversion in PDP-8 examine/deposit | |
Fixed origin increment bug in PDP-11 binary loader | |
Fixed GCC longjmp optimization bug in PDP-11 CPU | |
Fixed unit number calculation bug in SCP and in Nova, | |
Nova, PDP-11, 18b PDP moving head disks | |
Rev 2.1 Dec, 95 | |
Fixed PTR bug (setting done on EOF) in PDP-8, Nova | |
Fixed RX bug (setting error on INIT if drive 1 is | |
not attached) in PDP-8, PDP-11 | |
Fixed RF treatment of photocell flag in PDP-8 | |
Fixed autosize bug (always chose smallest disk if new | |
file) in PDP-11, Nova | |
Fixed not attached bug (reported as not attachable) in | |
most mass storage devices | |
Fixed Nova boot ROMs | |
Fixed bug in RESTORE (didn't requeue if delay = 0) | |
Fixed bug in RESTORE (clobbered device position) | |
Declared static constant arrays as static const | |
Added PDP-8, Nova magnetic tape simulators | |
Added Dasher mode to Nova terminal simulator | |
Added LINUX support | |
Rev 2.0 May, 95 | |
Added symbolic assembly/disassembly | |
Acknowledgements | |
SIMH would not have been possible without help from around the world. I | |
would like to acknowledge the help of the following people, all of whom | |
donated their time and talent to this "computer archaeology" project: | |
Bill Ackerman PDP-1 consulting | |
Alan Bawden ITS consulting | |
Winfried Bergmann Linux port testing | |
Phil Budne Solaris port testing | |
Max Burnet PDP information, documentation, and software | |
Robert Alan Byer VMS socket support and testing | |
James Carpenter LINUX port testing | |
Chip Charlot PDP-11 RT-11, RSTS/E, RSX-11M legal permissions | |
Louis Chrétien Macintosh porting | |
Dave Conroy HP 21xx documentation, PDP-10, PDP-18b debugging | |
L Peter Deutsch PDP-1 LISP software | |
Ethan Dicks PDP-11 2.9 BSD debugging | |
John Dundas PDP-11 CPU debugging, programmable clock simulator | |
Jonathan Engdahl PDP-11 device debugging | |
Carl Friend Nova and Interdata documentation, and RDOS software | |
Megan Gentry PDP-11 integer debugging | |
Dave Gesswein PDP-8 and PDP-9.15 documentation, PDP-8 DECtape, disk, | |
and paper tape images, PDP-9/15 DECtape images | |
Dick Greeley PDP-8 OS/8 and PDP-10 TOPS-10/20 legal permissions | |
Gordon Greene PDP-1 LISP machine readable source | |
Lynne Grettum PDP-11 RT-11, RSTS/E, RSX-11M legal permissions | |
Franc Grootjen PDP-11 2.11 BSD debugging | |
Doug Gwyn Portability debugging | |
Kevin Handy TS11/TSV05 documentation, make file | |
Ken Harrenstein KLH PDP-10 simulator | |
Bill Haygood PDP-8 information, simulator, and software | |
Wolfgang Helbig DZ11 implementation | |
Mark Hittinger PDP-10 debugging | |
Dave Hittner SCP debugging, DEQNA emulator and Ethernet library | |
Sellam Ismail GRI-909 documentation | |
Jay Jaeger IBM 1401 consulting | |
Doug Jones PDP-8 information, simulator, and software | |
Brian Knittel IBM 1130 simulator, SCP extensions for GUI support | |
Al Kossow HP 21xx, Varian 620, TI 990, Interdata, DEC | |
documentation and software | |
Arthur Krewat DZ11 changes for the PDP-10 | |
Mirian Crzig Lennox ITS and DZ11 debugging | |
Don Lewine Nova documentation and legal permissions | |
Tim Litt PDP-10 hardware documentation and schematics, | |
tape images, and software sources | |
Tim Markson DZ11 debugging | |
Bill McDermith HP 2100 debugging, 12565A simulator | |
Scott McGregor PDP-11 UNIX legal permissions | |
Jeff Moffatt HP 2100 information, documentation, and software | |
Alec Muffett Solaris port testing | |
Terry Newton HP 21MX debugging | |
Thord Nilson DZ11 implementation | |
Charles Owen Nova moving head disk debugging, Altair simulator, | |
Eclipse simulator, IBM System 3 simulator, | |
IBM 1401 diagnostics, debugging, and magtape boot | |
Sergio Pedraja MINGW environment debugging | |
Derek Peschel PDP-10 debugging | |
Paul Pierce IBM 1401 diagnostics, media recovery | |
Mark Pizzolato SCP, Ethernet, and VAX simulator improvements | |
Hans Pufal PDP-10 debugging, PDP-15 bootstrap, DOS-15 recovery, | |
DOS-15 documentation, PDP-9 restoration | |
Bruce Ray Software, documentation, bug fixes, and new devices | |
for the Nova, OS/2 porting | |
Craig St Clair DEC documentation | |
Richard Schedler Public repository maintenance | |
Peter Schorn Macintosh porting | |
Stephen Schultz PDP-11 2.11 BSD debugging | |
Olaf Seibert NetBSD port testing | |
Brian & Barry Silverman PDP-1 simulator and software | |
Tim Shoppa Nova documentation, RDOS software, PDP-10 and PDP-11 | |
software archive, hosting for SIMH site | |
Van Snyder IBM 1401 zero footprint bootstraps | |
Michael Somos PDP-1 debugging | |
Hans-Michael Stahl OS/2 port testing, TERMIOS implementation | |
Tim Stark TS10 PDP-10 simulator | |
Larry Stewart Initial suggestion for the project | |
Bill Strecker Permission to revert copyrights | |
Chris Suddick PDP-11 floating point debugging | |
Ben Supnik Macintosh timing routine | |
Bob Supnik SIMH simulators | |
Ben Thomas VMS character-by-character I/O routines | |
Warren Toomey PDP-11 UNIX software | |
Deb Toivonen DEC documentation | |
Mike Umbricht DEC documentation, H316 documentation and schematics | |
Leendert Van Doorn PDP-11 UNIX V6 debugging, TERMIOS implementation | |
Fred Van Kempen Ethernet code, RK611 emulator, PDP-11 debugging, | |
VAX/Ultrix debugging | |
Holger Veit OS/2 socket support | |
David Waks PDP-8 ESI-X and PDP-7 SIM8 software | |
Tom West Nova documentation | |
Adrian Wise H316 simulator, documentation, and software | |
John Wilson PDP-11 simulator and software | |
Joe Young RP debugging on Ultrix-11 and BSD | |
In addition, the following companies have graciously licensed their | |
software at no cost for hobbyist use: | |
Data General Corporation | |
Digital Equipment Corporation | |
Compaq Computer Corporation | |
Mentec Corporation | |
The Santa Cruz Operation | |
Caldera Corporation | |
Hewlett-Packard Corporation | |