To: Users | |
From: Bob Supnik | |
Subj: HP2100 Simulator Usage | |
Date: 15-Nov-2002 | |
COPYRIGHT NOTICE | |
The following copyright notice applies to both the SIMH source and binary: | |
Original code published in 1993-2002, written by Robert M Supnik | |
Copyright (c) 1993-2002, 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 HP 2100 simulator. | |
1. Simulator Files | |
sim/ sim_defs.h | |
sim_rev.h | |
sim_sock.h | |
sim_tmxr.h | |
scp.c | |
scp_tty.c | |
sim_sock.c | |
sim_tmxr.c | |
sim/hp2100/ hp2100_defs.h | |
hp2100_cpu.c | |
hp2100_fp.c | |
hp2100_dp.c | |
hp2100_dq.c | |
hp2100_dr.c | |
hp2100_lps.c | |
hp2100_lpt.c | |
hp2100_mt.c | |
hp2100_ms.c | |
hp2100_mux.c | |
hp2100_stddev.c | |
hp2100_sys.c | |
2. HP2100 Features | |
The HP2100 simulator is configured as follows: | |
device simulates | |
name(s) | |
CPU 2116 CPU with 32KW memory | |
2100 CPU with 32KW memory, FP or IOP instructions | |
21MX CPU with 1024KW memory, FP or DMS instructions | |
DMA0, DMA1 dual channel DMA controller | |
PTR,PTP 12597A paper tape reader/punch | |
TTY 12631C buffered terminal controller | |
LPS 12653A printer controller with 2767 printer | |
12566B microcircuit interface for diagnostics | |
LPT 12845A printer controller | |
CLK 12539A/B/C time base generator | |
MUXL,MUXU,MUXC 12920A terminal multiplexor | |
DP 12557A disk controller with four 2871 drives | |
13210A disk controller with four 7900 drives | |
DQ 12565A disk controller with two 2883 drives | |
DR 12606B fixed head disk controller with 2770/2771 disks | |
12610B drum controller with 2773/2774/2775 drums | |
MT 12559C magnetic tape controller with one 3030 drive | |
MS 13181A magnetic tape controller with four 7970B drives | |
13183A magnetic tape controller with four 7970E drives | |
The HP2100 simulator implements several unique stop conditions: | |
- decode of an undefined instruction, and STOP_INST is et | |
- reference to an undefined I/O device, and STOP_DEV is set | |
- more than INDMAX indirect references are detected during | |
memory reference address decoding | |
The HP2100 loader supports standard absolute binary format. The DUMP | |
command is not implemented. | |
2.1 CPU | |
CPU options include choice of instruction set and memory size. | |
SET CPU 2116 2116 CPU | |
SET CPU 2100 2100 CPU | |
SET CPU 21MX 21MX CPU | |
SET CPU EAU EAU instructions (2116 only) | |
SET CPU NOEAU no EAU instructions (2116 only) | |
SET CPU FP FP instructions (2100 only) | |
SET CPU NOFP no FP instructions (2100 only) | |
SET CPU IOP IOP instructions (2100 only) | |
SET CPU NOIOP no IOP instructions (2100 only) | |
SET CPU DMS DMS instructions (21MX only) | |
SET CPU NODMS no DMS instructions (21MX only) | |
SET CPU 4K set memory size = 4K | |
SET CPU 8K set memory size = 8K | |
SET CPU 16K set memory size = 16K | |
SET CPU 32K set memory size = 32K | |
SET CPU 64K set memory size = 64K (21MX only) | |
SET CPU 128K set memory size = 128K (21MX only) | |
SET CPU 256K set memory size = 256K (21MX only) | |
SET CPU 512K set memory size = 512K (21MX only) | |
SET CPU 1024K set memory size = 1024K (21MX only) | |
On the 2100, EAU is standard, and the FP and IOP options are mutually | |
exclusive. On the 21MX, EAU and FP are standard. The 2100 and 21MX | |
include memory protection as standard; the 21MX optionally includes | |
DMS (dynamic memory system). | |
If memory size is being reduced, and the memory being truncated contains | |
non-zero data, the simulator asks for confirmation. Data in the truncated | |
portion of memory is lost. Initial memory size is 32K. | |
These switches are recognized when examining or depositing in CPU memory: | |
-v if DMS enabled, interpret address as virtual | |
-s if DMS enabled, force system map | |
-u if DMS enabled, force user map | |
-p if DMS enabled, force port A map | |
-q if DMS enabled, force port B map | |
CPU registers include the visible state of the processor as well as the | |
control registers for the interrupt system. | |
name models size comments | |
P all 15 program counter | |
A all 16 A register | |
B all 16 B register | |
X 21MX 16 X index register | |
Y 21MX 16 Y index register | |
S all 16 switch/display register | |
F 2100,21MX 15 memory protection fence | |
E all 1 extend flag | |
O all 1 overflow flag | |
ION all 1 interrupt enable flag | |
ION_DEFER all 1 interrupt defer flag | |
IADDR all 6 most recent interrupting device | |
MPCTL 2100,21MX 1 memory protection enable | |
MPFLG 2100,21MX 1 memory protection flag | |
MPFBF 2100,21MX 1 memory protection flag buffer | |
MPVR 2100,21MX 16 memory protection violation reg | |
MPEVR 2100,21MX 1 memory protection freeze flag | |
MPMEV 2100,21MX 1 memory protection DMS error flag | |
DMSENB 21MX 1 DMS enable | |
DMSCUR 21MX 1 DMS current mode | |
DMSSR 21MX 16 DMS status register | |
DMSVR 21MX 16 DMS violation register | |
DMSMAP[4][32] 21MX 20 DMS maps | |
STOP_INST all 1 stop on undefined instruction | |
STOP_DEV all 1 stop on undefined device | |
INDMAX all 16 indirect address limit | |
PCQ[0:63] all 15 P of last JMP, JSB, or interrupt; | |
most recent P change first | |
WRU all 8 interrupt character | |
2.2 DMA Controllers | |
The HP2100 includes two DMA channel controllers (DMA0 and DMA1). Each | |
DMA channel has the following visible state: | |
name size comments | |
CMD 1 channel enabled | |
CTL 1 interrupt enabled | |
FLG 1 channel ready | |
FBF 1 channel ready buffer | |
CW1 16 command word 1 | |
CW2 16 command word 2 | |
CW3 16 command word 3 | |
2.3 Variable Device Assignments | |
On the HP2100, I/O device take their device numbers from the backplane | |
slot they are plugged into. Thus, device number assignments vary | |
considerably from system to system, and software package to software | |
package. The HP2100 simulator supports dynamic device number assignment. | |
To show the current device number, use the SHOW <dev> DEVNO command: | |
sim> SHOW PTR DEV | |
device=10 | |
To change the device number, use the SET <dev> DEVNO=<num> command: | |
sim> SET PTR DEV=30 | |
sim> SHOW PTR DEV | |
device=30 | |
The new device number must be in the range 010..077 (octal). For devices | |
with two device numbers, only the lower numbered device number can be | |
changed; the higher is automatically set to the lower + 1. If a | |
device number conflict occurs, the simulator will return an error | |
when started. | |
In addition, most devices can be enabled or disabled. To enable a | |
device, use the SET <dev> ENABLED command: | |
sim> SET DP ENABLED | |
To disable a device, use the SET <dev> DISABLED command: | |
sim> SET DP DISABLED | |
For devices with more than one device number, disabling or enabling any | |
device in the set disables all the devices. | |
2.4 Programmed I/O Devices | |
2.4.1 12597A-002 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 supports the BOOT command. BOOT PTR copies the | |
absolute binary loader into memory and starts it running. | |
The paper tape reader implements these registers: | |
name size comments | |
BUF 8 last data item processed | |
CMD 1 reader enable | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
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 or paper | |
OS I/O error x report error and stop | |
2.4.2 12597A-005 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 changing POS, the user can backspace or advance the punch. | |
The paper tape punch implements these registers: | |
name size comments | |
BUF 8 last data item processed | |
CMD 1 punch enable | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
POS 32 position in the 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 | |
2.4.3 12631C Buffered Terminal (TTY) | |
The console terminal has three units: keyboard (unit 0), printer | |
(unit 1), and punch (unit 2). The keyboard reads from the console | |
keyboard; the printer writes to the simulator console window. The | |
punch writes to a disk file. The keyboard and printer units (TTY0, | |
TTY1) can be set to one of three modes: UC, 7B, or 8B. In UC mode, | |
lower case input and output characters are automatically converted to | |
upper case. In 7B mode, input and output characters are masked to 7 | |
bits. In 8B mode, characters are not modified. Changing the mode | |
of either unit changes both. The default mode is UC. | |
The console teleprinter implements these registers: | |
name size comments | |
BUF 8 last data item processed | |
MODE 16 mode | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
KPOS 32 number of characters input | |
KTIME 24 keyboard polling interval | |
TPOS 32 number of characters printed | |
TTIME 24 time from I/O initiation to interrupt | |
PPOS 32 position in the punch output file | |
STOP_IOE 1 punch stop on I/O error | |
Error handling for the punch 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 | |
2.4.4 12653A Printer Controller (LPS) with 2767 Printer | |
12566B Microcircuit Interface | |
The 12653A line printer uses the 12566B microcircuit interface as | |
its controller. As a line printer, LPS writes data to a disk file. | |
The POS register specifies the number of the next data item to be | |
written. Thus, by changing POS, the user can backspace or advance | |
the printer. | |
As a microcircuit interface, LPS provides the DMA test device for | |
running the dual channel port controller and DMS diagnostics. Printer | |
mode verus diagnostic mode is controlled by the commands: | |
SET LPS PRINTER configure as line printer | |
SET LPS DIAG configure for diagnostic tests | |
The 12653A is disabled by default. | |
The 12653A implements these registers: | |
name size comments | |
BUF 16 output buffer | |
STA 16 input buffer or status | |
CMD 1 printer enable | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
POS 32 position in the output file | |
CTIME 24 time between characters | |
PTIME 24 time for a print operation | |
STOP_IOE 1 stop on I/O error | |
In printer mode, error handling is as follows: | |
error STOP_IOE processed as | |
not attached 1 report error and stop | |
0 out of tape or paper | |
OS I/O error x report error and stop | |
In diagnostic mode, there are no errors; data sent to the output | |
buffer is looped back to the status register with a fixed delay of 1. | |
2.4.5 12845A Printer Controller (LPT) | |
The line printer (LPT) writes data to a disk file. The POS register | |
specifies the number of the next data item to be written. Thus, | |
by changing POS, the user can backspace or advance the printer. | |
The line printer implements these registers: | |
name size comments | |
BUF 8 last data item processed | |
CMD 1 printer enable | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
LCNT 7 line count within page | |
POS 32 position in the output file | |
CTIME 24 time between characters | |
PTIME 24 time for a print operation | |
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 or paper | |
OS I/O error x report error and stop | |
2.4.6 12539A/B/C Time Base Generator (CLK) | |
The time base generator (CLK) implements these registers: | |
name size comments | |
SEL 3 time base select | |
CTR 14 repeat counter for < 1Hz operation | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
ERR 1 error flag | |
TIME[0:7] 31 clock intervals, select = 0..7 | |
DEVNO 6 current device number (read only) | |
The time base generator autocalibrates; the clock interval is adjusted | |
up or down so that the clock tracks actual elapsed time. Operation at | |
the fastest rates (100 usec, 1 msec) is not recommended. | |
2.4.7 12920A Terminal Multiplexor (MUXL, MUXU, MUXC) | |
The 12920A is a 16-line terminal multiplexor, with five additional | |
receive-only diagnostic lines. It consists of three devices: | |
MUX scanning logic (corresponding more or less | |
to the upper data card) | |
MUXL individual lines (corresponding more or | |
less to the lower data card) | |
MUXC modem control and status logic (corresponding | |
to the control card) | |
The MUX performs input and output through Telnet sessions connected to a | |
user-specified port. The ATTACH command to the scanning logic specifies | |
the port to be used: | |
ATTACH MUX <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. | |
Each line (each unit of MUXL) can be set to one of three modes: UC, 7B, | |
or 8B. In UC mode, lower case input and output characters are converted | |
automatically to upper case. In 7B mode, input and output characters | |
are masked to 7 bits. In 8B mode, characters are not modified. The | |
default mode is UC. In addition, each line supports the DATASET option. | |
DATASET, when set, enables modem control. The default settings are UC | |
mode and DATASET disabled. | |
The modem controls model a simplified Bell 103A dataset with just four | |
lines: data terminal ready and request to send from the computer to the | |
data set, and carrier detect and data set ready from the data set to | |
the computer. There is no ring detection. If data terminal ready is | |
set when a Telnet connection starts up, then carrier detect and data | |
set ready are also set. The connection is established whether data | |
terminal ready is set or not. | |
Once MUX is attached and the simulator is running, the multiplexor listens | |
for connections on the specified port. It assumes that the incoming | |
connections are Telnet connections. The connections remain open until | |
disconnected either by the Telnet client, a SET MUXL DISCONNECT command, | |
or a DETACH MUX command. | |
The SHOW MUX CONNECTIONS command displays the current connections to the | |
extra terminals. The SHOW MUX STATISTICS command displays statistics for | |
active connections. The SET MUX DISCONNECT=linenumber disconnects the | |
specified line. | |
The scanner (MUX) implements these registers: | |
name size comments | |
IBUF 16 input buffer, holds line status | |
OBUF 16 output buffer, holds channel select | |
The lines (MUXL) implements these registers: | |
name size comments | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
STA[0:20] 16 line status, lines 0-20 | |
RPAR[0:20] 16 receive parameters, lines 0-20 | |
XPAR[0:15] 16 transmit parameters, lines 0-15 | |
RBUF[0:20] 8 receive buffer, lines 0-20 | |
XBUF[0:15] 8 transmit buffer, lines 0-15 | |
RCHP[0:20] 1 receive character present, lines 0-20 | |
XDON[0:15] 1 transmit done, lines 0-15 | |
TIME[0:15] 24 transmit time, lines 0-15 | |
The modem control (MUXM) implements these registers: | |
name size comments | |
CTL 1 device/interrupt enable | |
FLG 1 device ready | |
FBF 1 device ready buffer | |
SCAN 1 scan enabled | |
CHAN 4 current line | |
DSO[0:15] 6 C2,C1,ES2,ES1,SS2,SS1, lines 0-15 | |
DSI[0:15] 2 S2,S1, lines 0-15 | |
The terminal multiplexor does not support save and restore. All open | |
connections are lost when the simulator shuts down or MUXU is detached. | |
2.5 12557A Disk Controller (DPC, DPD) with 2781 Drives | |
13210A Disk Controller (DPC, DPD) with 7900 Drives | |
The 12557A/13210A disk controller can be configured as either a | |
12557A, supporting 2.5MB drives, or a 13210A, supporting 5MB drives, | |
with the commands: | |
SET DP 12557A 2.5MB drives | |
SET DP 13210A 5.0MB drives | |
Drive types cannot be intermixed; the controller is configured for | |
one type or the other. The 13210A (for 7900/7901 disks) is selected | |
by default. | |
The simulated controller has two separate devices, a data channel and | |
a device controller. The data channel includes a 128-word (one sector) | |
buffer for reads and writes. The device controller includes the four | |
disk drives. Disk drives can be set ONLINE or OFFLINE. | |
The 12557A/13210A supports the BOOT command. BOOT DP loads the IBL | |
for 7900 class disks into memory and starts it running. BOOT -F DP | |
boots from the fixed platter (head 2). The switch register (S) is | |
set automatically to the value expected by the IBL loader: | |
<15:14> = 01 | |
<13:12> = 00 | |
<11:6> = data channel device code | |
<5:1> = 00000 | |
<0> = 1 if booting from the fixed platter | |
The data channel implements these registers: | |
name size comments | |
IBUF 16 input buffer | |
OBUF 16 output buffer | |
DBUF[0:127] 16 sector buffer | |
BPTR 7 sector buffer pointer | |
CMD 1 channel enable | |
CTL 1 interrupt enable | |
FLG 1 channel ready | |
FBF 1 channel ready buffer | |
XFER 1 transfer in progress flag | |
WVAL 1 write data valid flag | |
The device controller implements these registers: | |
name size comments | |
OBUF 16 output buffer | |
BUSY 3 busy (unit #, + 1, of active unit) | |
CNT 5 check record count | |
CMD 1 controller enable | |
CTL 1 interrupt enable | |
FLG 1 controller ready | |
FBF 1 controller ready buffer | |
EOC 1 end of cylinder pending | |
RARC[0:3] 8 record address register cylinder, drives 0-3 | |
RARH[0:3] 2 record address register head, drives 0-3 | |
RARS[0:3] 4 record address register sector, drives 0-3 | |
STA[0:3] 16 drive status, drives 0-3 | |
CTIME 24 data transfer command delay time | |
DTIME 24 data channel command delay time | |
STIME 24 seek delay time, per cylinder | |
XTIME 24 interword transfer time | |
Error handling is as follows: | |
error processed as | |
not attached disk not ready | |
end of file assume rest of disk is zero | |
OS I/O error report error and stop | |
2.6 12565A Disk Controller (DQC, DRC) with 2883 Drives | |
The 12565A disk controller has two separate devices, a data channel and | |
a device controller. The data channel includes a 128-word (one sector) | |
buffer for reads and writes. The device controller includes the two | |
disk drives. Disk drives can be set ONLINE or OFFLINE. | |
The 12565A supports the BOOT command. BOOT DQ loads the IBL for 2883 | |
class disks into memory and starts it running. The switch register (S) | |
is set automatically to the value expected by the IBL loader: | |
<15:14> = 01 | |
<13:12> = 10 | |
<11:6> = data channel device code | |
<5:0> = 00000 | |
The data channel implements these registers: | |
name size comments | |
IBUF 16 input buffer | |
OBUF 16 output buffer | |
DBUF[0:127] 16 sector buffer | |
BPTR 7 sector buffer pointer | |
CMD 1 channel enable | |
CTL 1 interrupt enable | |
FLG 1 channel ready | |
FBF 1 channel ready buffer | |
XFER 1 transfer in progress flag | |
WVAL 1 write data valid flag | |
The device controller implements these registers: | |
name size comments | |
OBUF 16 output buffer | |
BUSY 2 busy (unit #, + 1, of active unit) | |
CNT 9 check record count | |
CMD 1 controller enable | |
CTL 1 interrupt enable | |
FLG 1 controller ready | |
FBF 1 controller ready buffer | |
RARC[0:1] 8 record address register cylinder, drives 0-1 | |
RARH[0:1] 5 record address register head, drives 0-1 | |
RARS[0:1] 5 record address register sector, drives 0-1 | |
STA[0:1] 16 drive status, drives 0-3 | |
CTIME 24 data transfer command delay time | |
DTIME 24 data channel command delay time | |
STIME 24 seek delay time, per cylinder | |
XTIME 24 interword transfer time | |
Error handling is as follows: | |
error processed as | |
not attached disk not ready | |
end of file assume rest of disk is zero | |
OS I/O error report error and stop | |
2.7 12606B Fixed Head Disk Controller (DRC, DRD) with 2770/2771 Disk | |
12610B Drum Controller (DRC, DRD) with 2773/2774/2775 Drum | |
The 12606B/12610B fixed head disk/drum controller has two separate devices, | |
a data channel and a device controller. The device controller includes the | |
actual drive. Ten different models are supported: | |
SET DRC 180K 12606B, 180K words | |
SET DRC 360K 12606B, 360K words | |
SET DRC 720K 12606B, 720K words | |
SET DRC 384K 12610B, 84K words | |
SET DRC 512K 12610B, 512K words | |
SET DRC 640K 12610B, 640K words | |
SET DRC 768K 12610B, 768K words | |
SET DRC 896K 12610B, 896K words | |
SET DRC 1024K 12610B, 1024K words | |
SET DRC 1536K 12610B, 1536K words | |
The 12606B/12610B support the BOOT command. The BOOT command loads the | |
first sector from the disk or drum into locations 0-77 and then jumps to 77. | |
This is very different from the IBL loader protocol used by the 12565A and | |
the 12557A/13210A. | |
The data channel implements these registers: | |
name size comments | |
IBUF 16 input buffer | |
OBUF 16 output buffer | |
CMD 1 channel enable | |
CTL 1 interrupt enable | |
FLG 1 channel ready | |
FBF 1 channel ready buffer | |
BPTR 6 sector buffer pointer | |
The device controller implements these registers: | |
name size comments | |
CW 16 command word | |
STA 16 status | |
CMD 1 controller enable | |
CTL 1 interrupt enable | |
FLG 1 controller ready | |
FBF 1 controller ready buffer | |
TIME 24 interword transfer time | |
STOP_IOE 1 stop on I/O error | |
Error handling is as follows: | |
error processed as | |
not attached disk not ready | |
12606B/12610B data files are buffered in memory; therefore, end of file | |
and OS I/O errors cannot occur. | |
2.8 12559C Magnetic Tape Controller (MTC, MTD) with 3030 Drive | |
Magnetic tape options include the ability to make the unit write enabled | |
or write locked. | |
SET MTC LOCKED set unit write locked | |
SET MTC WRITEENABLED set unit write enabled | |
The 12559C mag tape drive has two separate devices, a data channel and | |
a device controller. The data channel includes a maximum record sized | |
buffer for reads and writes. The device controller includes the tape | |
unit. | |
The BOOT command is not supported. The 12559C was HP's earliest tape | |
drive and is not supported by most of its operating systems. It is | |
disabled by default. | |
The data channel implements these registers: | |
name size comments | |
FLG 1 channel ready | |
DBUF[0:65535] 8 transfer buffer | |
BPTR 16 buffer pointer (reads and writes) | |
BMAX 16 buffer size (writes) | |
The device controller implements these registers: | |
name size comments | |
FNC 8 current function | |
STA 9 tape status | |
BUF 8 buffer | |
CTL 1 interrupt enabled | |
FLG 1 controller ready | |
FBF 1 controller ready buffer | |
DTF 1 data transfer flop | |
FSVC 1 first service flop | |
POS 32 magtape position | |
CTIME 24 command delay time | |
XTIME 24 interword transfer delay time | |
STOP_IOE 1 stop on I/O error | |
Error handling is as follows: | |
error processed as | |
not attached tape not ready; if STOP_IOE, stop | |
end of file parity error | |
OS I/O error parity error; if STOP_IOE, stop | |
2.9 13181A Magnetic Tape Controller (MSC, MSD) with 7970B Drives | |
18183A Magnetic Tape Controller (MSC, MSD) with 7970E Drives | |
Magnetic tape options include the ability to make the unit write enabled | |
or write locked, and the ability to select the 13181A (800 bpi) controller | |
or the 13183A (1600 bpi) controller. | |
SET MTn LOCKED set unit n write locked | |
SET MTn WRITEENABLED set unit n write enabled | |
SET MT 13181A set controller to 13181A | |
SET MT 13183A set controller to 13183A | |
The 13181A/13183A mag tape drive has two separate devices, a data channel | |
and a device controller. The data channel includes a maximum record | |
sized buffer for reads and writes. The device controller includes the | |
tape units. | |
The 13181A/13183A supports the BOOT command. BOOT MS loads the IBL for | |
7970B/E magnetic tape drives into memory and starts it running. BOOT -S | |
MS causes the loader to space forward the number of files specified in | |
the A register before starting to load data. The switch register (S) is | |
set automatically to the value expected by the IBL loader: | |
<15:14> = 10 | |
<13:12> = 00 | |
<11:6> = data channel device code | |
<5:1> = 00000 | |
<0> = 1 if space forward before loading | |
The data channel implements these registers: | |
name size comments | |
BUF 16 data buffer | |
CTL 1 interrupt enabled | |
FLG 1 channel ready | |
FBF 1 channel ready buffer | |
DBUF[0:65535] 8 transfer buffer | |
BPTR 17 buffer pointer (reads and writes) | |
BMAX 17 buffer size (writes) | |
The device controller implements these registers: | |
name size comments | |
STA 12 tape status | |
BUF 16 buffer | |
USEL 2 currently selected unit | |
FSVC 1 first service flop | |
CTL 1 interrupt enabled | |
FLG 1 controller ready | |
FBF 1 controller ready buffer | |
POS[0:3] 32 magtape position | |
CTIME 24 command delay time | |
XTIME 24 interword transfer delay time | |
STOP_IOE 1 stop on I/O error | |
Error handling is as follows: | |
error processed as | |
not attached tape not ready; if STOP_IOE, stop | |
end of file parity error | |
OS I/O error parity error; if STOP_IOE, stop | |
2.10 Symbolic Display and Input | |
The HP2100 simulator implements symbolic display and input. Display is | |
controlled by command line switches: | |
-a display as ASCII character | |
-c display as two character string | |
-m display instruction mnemonics | |
Input parsing is controlled by the first character typed in or by command | |
line switches: | |
' or -a ASCII character | |
" or -c two character sixbit string | |
alphabetic instruction mnemonic | |
numeric octal number | |
Instruction input uses standard HP2100 assembler syntax. There are seven | |
instruction classes: memory reference, I/O, shift, alter skip, extended | |
shift, extended memory reference, extended two address reference. | |
Memory reference instructions have the format | |
memref {C/Z} address{,I} | |
where I signifies indirect, C a current page reference, and Z a zero page | |
reference. The address is an octal number in the range 0 - 077777; if C or | |
Z is specified, the address is a page offset in the range 0 - 01777. Normally, | |
C is not needed; the simulator figures out from the address what mode to use. | |
However, when referencing memory outside the CPU (eg, disks), there is no | |
valid PC, and C must be used to specify current page addressing. | |
IOT instructions have the format | |
io device{,C} | |
where C signifies that the device flag is to be cleared. The device is an | |
octal number in the range 0 - 77. | |
Shift and alter/skip instructions have the format | |
sub-op sub-op sub-op... | |
The simulator checks that the combination of sub-opcodes is legal. | |
Extended shift instructions have the format | |
extshift count | |
where count is an octal number in the range 1 - 020. | |
Extended memory reference instructions have the format | |
extmemref address{,I} | |
where I signifies indirect addressing. The address is an octal number in | |
the range 0 - 077777. | |
Extended two address instructions have the format | |
ext2addr addr1{,I},addr2{,I} | |
where I signifies indirect addressing. Both address 1 and address 2 are | |
octal numbers in the range 0 - 077777. |