H316/h316_doc.txt - emulators/simh - Rivoreo Source Code Repositories

 To:	Users
 From:	Bob Supnik
 Subj:	H316 Simulator Usage
 Date:	15-Nov-2003

 			COPYRIGHT NOTICE

 The following copyright notice applies to both the SIMH source and binary:

    Original code published in 1993-2003, written by Robert M Supnik
    Copyright (c) 1993-2003, 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 Honeywell 316/516 simulator.


 1. Simulator Files

 The H316 requires the following files:

 sim/		sim_defs.h
 		sim_rev.h
 		sim_sock.h
 		sim_tape.h
 		sim_tmxr.h
 		scp.c
 		scp_tty.c
 		sim_sock.c
 		sim_tape.c
 		sim_tmxr.c

 sim/h316/	h316_defs.h
 		h316_cpu.c
 		h316_fhd.c
 		h316_lp.c
 		h316_mt.c
 		h316_dp.c
 		h316_stddev.c
 		h316_sys.c

 2. H316/H516 Features

 The Honeywell 316/516 simulator is configured as follows:

 device		simulates
 name(s)

 CPU		H316/H516 CPU with 16/32KW memory
 PTR		316/516-50 paper tape reader
 PTP		316/516-52 paper tape punch
 TTY		316/516-33 console terminal
 CLK		316/516-12 real time clock
 LPT		316/516 line printer
 FHD		4400 fixed head disk
 DP		4623/4653/4720 disk pack controller with eight drives
 MT		4100 seven track magtape with four drives

 The H316/H516 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
 	- DMA/DMC direction does not agree with I/O device operation
 	- a write operation is initiated on a write locked magtape
 	  unit (hangs the real system)
 	- a disk write overruns the specified record size (destroys
 	  the rest of the track on the real system)
 	- a disk track has an illegal format

 The H316/H516 loader is not implemented.

 2.1 CPU

 CPU options include choice of instruction set, memory size, DMC option,
 and number of DMA channels.

 	SET CPU HSA		high speed arithmetic instructions
 	SET CPU NOHSA		no high speed arithmetic instructions
 	SET CPU 4K		set memory size = 4K
 	SET CPU 8K		set memory size = 8K
 	SET CPU 12K		set memory size = 12K
 	SET CPU 16K		set memory size = 16K
 	SET CPU 24K		set memory size = 24K
 	SET CPU 32K		set memory size = 32K
 	SET CPU DMC		enable DMC option
 	SET CPU NODMC		disable DMC option
 	SET CPU DMA=n		set number of DMA channels to n (0-4)

 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.  The HSA and DMC
 options are enabled, and four DMA channels are configured.

 The CPU includes special show commands to display the state of the DMA
 channels:

 	SHOW CPU DMAn		show DMA channel n

 CPU registers include the visible state of the processor as well as the
 control registers for the interrupt system.

 	name		size	comments

 	P		15	program counter
 	A		16	A register
 	B		16	B register
 	X		16	index register
 	SC		16	shift count
 	C		1	carry flag
 	EXT		1	extend flag
 	PME		1	previous mode extend flag
 	EXT_OFF		1	extend off pending flag
 	DP		1	double precision flag
 	SS1..4		1	sense switches 1..4
 	ION		1	interrupts enabled
 	INODEF		1	interrupts not deferred
 	INTREQ		16	interrupt requests
 	DEVRDY		16	device ready flags (read only)
 	DEVENB		16	device interrupt enable flags (read only)
 	CHREQ		20	DMA/DMC channel requests
 	DMAAD[0:3]	16	DMA channel current address, channels 1-4
 	DMAWC[0:3]	15	DMA channel word count, channels 1-4
 	DMAEOR[0:3]	1	DMA end of range flag, channels 1-4
 	STOP_INST	1	stop on undefined instruction
 	STOP_DEV	1	stop on undefined device
 	INDMAX		1	indirect address limit
 	PCQ[0:63]	15	PC prior to last JMP, JSB, or interrupt;
 				most recent PC change first
 	WRU		8	interrupt character

 2.2 Programmed I/O Devices

 2.2.1 316/516-50 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
 	INTREQ		1	device interrupt request
 	READY		1	device ready
 	ENABLE		1	device interrupts enabled
 	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

 	end of file	1	report error and stop
 			0	out of tape or paper

 	OS I/O error	x	report error and stop

 2.2.2 316/516-52 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
 	INTREQ		1	device interrupt request
 	READY		1	device ready
 	ENABLE		1	device interrupts enabled
 	POWER		1	device powered up
 	POS		32	position in the input or output file
 	TIME		24	time from I/O initiation to interrupt
 	PWRTIME		24	time from I/O request to power up
 	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

 2.2.3 316/516-33 Console Teletype (TTY)

 The Teletype units (TTY0, TTY1) can be set to one of three modes:
 KSR, 7B, or 8B.  In KSR mode, lower case input and output characters
 are automatically converted to upper case, and the high order bit is
 forced to one on input.  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 KSR.

 The Teletype reads from the console keyboard and writes to the
 simulator console window.  It implements these registers:

 	name		size	comments

 	BUF		8	last data item processed
 	MODE		1	read/write mode
 	INTREQ		1	device interrupt request
 	READY		1	device ready
 	ENABLE		1	device interrupts enabled
 	KPOS		32	number of characters input
 	KTIME		24	keyboard polling interval
 	TPOS		32	number of characters output
 	TTIME		24	time from I/O initiation to interrupt

 2.2.4 316/516-12 Real Time Clock (CLK)

 The real time clock (CLK) frequency can be adjusted as follows:

 	SET CLK 60HZ		set frequency to 60Hz
 	SET CLK 50HZ		set frequency to 50Hz

 The default is 60Hz.

 The clock implements these registers:

 	name		size	comments

 	INTREQ		1	device interrupt request
 	READY		1	device ready
 	ENABLE		1	device interrupts enabled
 	TIME		24	clock interval

 The real-time clock autocalibrates; the clock interval is adjusted up or
 down so that the clock tracks actual elapsed time.

 2.3 316/516 Line Printer (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 can be connected to the IO bus, a DMC channel, or
 a DMA channel:

 	SET LPT IOBUS		connect to IO bus
 	SET LPT DMC=n		connect to DMC channel n (1-16)
 	SET LPT DMA=n		connect to DMA channel n (1-4)

 By default, the line printer is connected to the IO bus.

 The line printer implements these registers:

 	name		size	comments

 	WDPOS		6	word position in current scan
 	DRPOS		6	drum position
 	CRPOS		1	carriage position
 	PRDN		1	print done flag
 	RDY		1	ready flag
 	EOR		1	(DMA/DMC) end of range flag
 	DMA		1	transfer using DMA/DMC
 	INTREQ		1	device interrupt request
 	ENABLE		1	device interrupt enable
 	SVCST		2	service state
 	SVCCH		2	service channel
 	BUF		8	buffer
 	POS		32	number of characters output
 	XTIME		24	delay between transfers
 	ETIME		24	delay at end of scan
 	PTIME		24	delay for shuttle/line advance
 	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 paper

 	OS I/O error	x	report error and stop

 2.4 4400 Fixed Head Disk (FHD)

 Fixed head disk options include the ability to set the number of
 surfaces to a fixed value between 1 and 16, or to autosize the number
 of surfaces from the attached file:

 	SET FHD 1S		one surface (98K)
 	SET FHD 2S		two platters (196K)
 	:
 	SET FHD 16S		sixteen surfaces (1568K)
 	SET FHD AUTOSIZE	autosized on attach

 The default is one surface.

 The fixed head disk can be connected to the IO bus, a DMC channel, or
 a DMA channel:

 	SET FHD IOBUS		connect to IO bus
 	SET FHD DMC=n		connect to DMC channel n (1-16)
 	SET FHD DMA=n		connect to DMA channel n (1-4)

 By default, the fixed head disk is connected to the IO bus.


 The fixed head disk implements these registers:

 	name		size	comments

 	CW1		16	control word 1 (read write, surface, track)
 	CW2		16	control word 2 (character address)
 	BUF		16	data buffer
 	BUSY		1	controller busy flag
 	RDY		1	transfer ready flag
 	DTE		1	data transfer error flag
 	ACE		1	access error flag
 	EOR		1	(DMA/DMC) end of range
 	DMA		1	transfer using DMA/DMC
 	CSUM		1	transfer parity checksum
 	INTREQ		1	device interrupt request
 	ENABLE		1	device interrupt enable
 	TIME		24	delay between words
 	STOP_IOE	1	stop on I/O error

 The fixed head disk does not support the BOOT command.

 Error handling is as follows:

 	error	     STOP_IOE	processed as

 	not attached	1	report error and stop
 			0	disk not ready

 Fixed head disk data files are buffered in memory; therefore, end of file
 and OS I/O errors cannot occur.

 2.5 4100 7-track Magnetic Tape (MT)

 Magnetic tape options include the ability to make units write enabled or
 or write locked.

 	SET MTn LOCKED		set unit n write locked
 	SET MTn WRITEENABLED	set unit n write enabled

 Units can be set ONLINE or OFFLINE, and WRITEENABLED or write LOCKED.

 The magtape controller can be connected to the IO bus, a DMC channel, or
 a DMA channel:

 	SET MT IOBUS		connect to IO bus
 	SET MT DMC=n		connect to DMC channel n (1-16)
 	SET MT DMA=n		connect to DMA channel n (1-4)

 By default, the magtape controller is connected to the IO bus.

 The magnetic tape controller implements these registers:

 	name		size	comments

 	BUF		16	data buffer
 	USEL		2	unit select
 	BUSY		1	controller busy flag
 	RDY		1	transfer ready flag
 	ERR		1	error flag
 	EOF		1	end of file flag
 	EOR		1	(DMA/DMC) end of range
 	DMA		1	transfer using DMA/DMC
 	MDIRQ		1	motion done interrupt request
 	INTREQ		1	device interrupt request
 	ENABLE		1	device interrupt enable
 	DBUF[0:65535]	8	transfer buffer
 	BPTR		17	transfer buffer pointer
 	BMAX		17	transfer size (reads)
 	CTIME		24	start/stop time
 	XTIME		24	delay between words
 	POS[0:3]	32	position, units 0-3
 	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		bad tape

 	OS I/O error		parity error; if STOP_IOE, stop

 2.6 4623/4651/4720 Disk Packs (DP)

 The disk controller can be configured as a 4623, supporting 10 surface
 disk packs; a 4651, supporting 2 surface disk packs; or a 4720, supporting
 20 surface disk packs:

 	SET DP 4623		controller is 4623
 	SET DP 4651		controller is 4651
 	SET DP 4720		controller is 4720

 The default is 4651.  All disk packs on the controller must be of the
 same type.  Units can be set ONLINE or OFFLINE, and WRITEENABLED or
 write LOCKED.

 The disk pack controller can be connected to a DMC channel or a DMA
 channel; it cannot be connected to the IO bus:

 	SET DP DMC=n		connect to DMC channel n (1-16)
 	SET DP DMA=n		connect to DMA channel n (1-4)

 The disk pack controller supports variable track formatting.  Each track
 can contain between 1 and 103 records, with a minimum size of 1 word and
 a maximum size of 1893 words.  Record addresses are unconstrained.  The
 simulator provides a command to perform a simple, fixed record size format
 of a new disk:

 	SET DPn FORMAT=k	format unit n with k words per record
 	SET -R DPn FORMAT=k	format unit n with k records per track

 Record addresses can either be geometric (cylinder/track/sector) or simple
 sequential starting from 0:

 	SET DPn FORMAT=k	format with geometric record addresses
 	SET -S DPn FORMAT=k	format with sequential record addresses

 Geometric address have the cylinder number in bits<1:8>, the head number in
 bits<9:13>, and the sector number in bits <14:16>.

 A summary of the current format, and its validity, can be obtained with
 the command:

 	SHOW DPn FORMAT		display format of unit n

 To accomodate the variable formatting, each track is allocated 2048 words
 in the data file.  A record consists of a three word header, the data, and
 a five word trailer:

 	word 0		record length in words, not including header/trailer
 	word 1		record address
 	word 2		number of extension words used (0-4)
 	word 3		start of data record
 	word 3+n-1	end of data record
 	word 3+n..7+n	record trailer: up to four extension words,
 			plus checksum

 A record can "grow" by up to four words without disrupting the track formatting;
 writing more than four extra words destroys the formatting of the rest of the
 track and causes a simulator error.

 The disk pack controller implements these registers:

 	name		size	comments

 	STA		16	status
 	BUF		16	data buffer
 	FNC		4	controller function
 	CW1		16	command word 1
 	CW2		16	command word 2
 	CSUM		16	record checksum
 	BUSY		1	controller busy
 	RDY		1	transfer ready
 	EOR		1	(DMA/DMC) end of range
 	DEFINT		1	seek deferred interrupt pending
 	INTREQ		1	interrupt request
 	ENABLE		1	interrupt enable
 	TBUF[0:2047]	16	track buffer
 	RPTR		11	pointer to start of record in track buffer
 	WPTR		11	pointer to current word in record
 	BCTR		15	bit counter for formatting
 	STIME		24	seek time, per cylinder
 	XTIME		24	transfer time, per word
 	BTIME		24	controller busy time

 Error handling is as follows:

 	error			processed as

 	not attached		pack off line; if STOP_IOE, stop

 	end of file		ignored

 	OS I/O error		data error; if STOP_IOE, stop

 2.7 Symbolic Display and Input

 The H316/H516 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 H316/H516 assembler syntax.  There are six
 instruction classes: memory reference, I/O, control, shift, skip, and
 operate.

 Memory reference instructions have the format

 	memref{*} {C/Z} address{,1}

 where * signifies indirect, C a current sector reference, Z a sector zero
 reference, and 1 indexed.  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 - 0777.  Normally, C is not needed; the simulator figures out from the
 address what mode to use.  However, when referencing memory outside the CPU,
 there is no valid PC, and C must be used to specify current sector addressing.

 I/O instructions have the format

 	io pulse+device

 The pulse+device is an octal number in the range 0 - 01777.

 Control and operate instructions consist of a single opcode

 	opcode

 Shift instructions have the format

 	shift n

 where n is an octal number in the range 0-77.

 Skip instructions have the format

 	sub-op sub-op sub-op...

 The simulator checks that the combination of sub-opcodes is legal.
	To: Users
	From: Bob Supnik
	Subj: H316 Simulator Usage
	Date: 15-Nov-2003

	COPYRIGHT NOTICE

	The following copyright notice applies to both the SIMH source and binary:

	Original code published in 1993-2003, written by Robert M Supnik
	Copyright (c) 1993-2003, 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 Honeywell 316/516 simulator.


	1. Simulator Files

	The H316 requires the following files:

	sim/ sim_defs.h
	sim_rev.h
	sim_sock.h
	sim_tape.h
	sim_tmxr.h
	scp.c
	scp_tty.c
	sim_sock.c
	sim_tape.c
	sim_tmxr.c

	sim/h316/ h316_defs.h
	h316_cpu.c
	h316_fhd.c
	h316_lp.c
	h316_mt.c
	h316_dp.c
	h316_stddev.c
	h316_sys.c

	2. H316/H516 Features

	The Honeywell 316/516 simulator is configured as follows:

	device simulates
	name(s)

	CPU H316/H516 CPU with 16/32KW memory
	PTR 316/516-50 paper tape reader
	PTP 316/516-52 paper tape punch
	TTY 316/516-33 console terminal
	CLK 316/516-12 real time clock
	LPT 316/516 line printer
	FHD 4400 fixed head disk
	DP 4623/4653/4720 disk pack controller with eight drives
	MT 4100 seven track magtape with four drives

	The H316/H516 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
	- DMA/DMC direction does not agree with I/O device operation
	- a write operation is initiated on a write locked magtape
	unit (hangs the real system)
	- a disk write overruns the specified record size (destroys
	the rest of the track on the real system)
	- a disk track has an illegal format

	The H316/H516 loader is not implemented.

	2.1 CPU

	CPU options include choice of instruction set, memory size, DMC option,
	and number of DMA channels.

	SET CPU HSA high speed arithmetic instructions
	SET CPU NOHSA no high speed arithmetic instructions
	SET CPU 4K set memory size = 4K
	SET CPU 8K set memory size = 8K
	SET CPU 12K set memory size = 12K
	SET CPU 16K set memory size = 16K
	SET CPU 24K set memory size = 24K
	SET CPU 32K set memory size = 32K
	SET CPU DMC enable DMC option
	SET CPU NODMC disable DMC option
	SET CPU DMA=n set number of DMA channels to n (0-4)

	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. The HSA and DMC
	options are enabled, and four DMA channels are configured.

	The CPU includes special show commands to display the state of the DMA
	channels:

	SHOW CPU DMAn show DMA channel n

	CPU registers include the visible state of the processor as well as the
	control registers for the interrupt system.

	name size comments

	P 15 program counter
	A 16 A register
	B 16 B register
	X 16 index register
	SC 16 shift count
	C 1 carry flag
	EXT 1 extend flag
	PME 1 previous mode extend flag
	EXT_OFF 1 extend off pending flag
	DP 1 double precision flag
	SS1..4 1 sense switches 1..4
	ION 1 interrupts enabled
	INODEF 1 interrupts not deferred
	INTREQ 16 interrupt requests
	DEVRDY 16 device ready flags (read only)
	DEVENB 16 device interrupt enable flags (read only)
	CHREQ 20 DMA/DMC channel requests
	DMAAD[0:3] 16 DMA channel current address, channels 1-4
	DMAWC[0:3] 15 DMA channel word count, channels 1-4
	DMAEOR[0:3] 1 DMA end of range flag, channels 1-4
	STOP_INST 1 stop on undefined instruction
	STOP_DEV 1 stop on undefined device
	INDMAX 1 indirect address limit
	PCQ[0:63] 15 PC prior to last JMP, JSB, or interrupt;
	most recent PC change first
	WRU 8 interrupt character

	2.2 Programmed I/O Devices

	2.2.1 316/516-50 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
	INTREQ 1 device interrupt request
	READY 1 device ready
	ENABLE 1 device interrupts enabled
	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

	end of file 1 report error and stop
	0 out of tape or paper

	OS I/O error x report error and stop

	2.2.2 316/516-52 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
	INTREQ 1 device interrupt request
	READY 1 device ready
	ENABLE 1 device interrupts enabled
	POWER 1 device powered up
	POS 32 position in the input or output file
	TIME 24 time from I/O initiation to interrupt
	PWRTIME 24 time from I/O request to power up
	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

	2.2.3 316/516-33 Console Teletype (TTY)

	The Teletype units (TTY0, TTY1) can be set to one of three modes:
	KSR, 7B, or 8B. In KSR mode, lower case input and output characters
	are automatically converted to upper case, and the high order bit is
	forced to one on input. 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 KSR.

	The Teletype reads from the console keyboard and writes to the
	simulator console window. It implements these registers:

	name size comments

	BUF 8 last data item processed
	MODE 1 read/write mode
	INTREQ 1 device interrupt request
	READY 1 device ready
	ENABLE 1 device interrupts enabled
	KPOS 32 number of characters input
	KTIME 24 keyboard polling interval
	TPOS 32 number of characters output
	TTIME 24 time from I/O initiation to interrupt

	2.2.4 316/516-12 Real Time Clock (CLK)

	The real time clock (CLK) frequency can be adjusted as follows:

	SET CLK 60HZ set frequency to 60Hz
	SET CLK 50HZ set frequency to 50Hz

	The default is 60Hz.

	The clock implements these registers:

	name size comments

	INTREQ 1 device interrupt request
	READY 1 device ready
	ENABLE 1 device interrupts enabled
	TIME 24 clock interval

	The real-time clock autocalibrates; the clock interval is adjusted up or
	down so that the clock tracks actual elapsed time.

	2.3 316/516 Line Printer (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 can be connected to the IO bus, a DMC channel, or
	a DMA channel:

	SET LPT IOBUS connect to IO bus
	SET LPT DMC=n connect to DMC channel n (1-16)
	SET LPT DMA=n connect to DMA channel n (1-4)

	By default, the line printer is connected to the IO bus.

	The line printer implements these registers:

	name size comments

	WDPOS 6 word position in current scan
	DRPOS 6 drum position
	CRPOS 1 carriage position
	PRDN 1 print done flag
	RDY 1 ready flag
	EOR 1 (DMA/DMC) end of range flag
	DMA 1 transfer using DMA/DMC
	INTREQ 1 device interrupt request
	ENABLE 1 device interrupt enable
	SVCST 2 service state
	SVCCH 2 service channel
	BUF 8 buffer
	POS 32 number of characters output
	XTIME 24 delay between transfers
	ETIME 24 delay at end of scan
	PTIME 24 delay for shuttle/line advance
	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 paper

	OS I/O error x report error and stop

	2.4 4400 Fixed Head Disk (FHD)

	Fixed head disk options include the ability to set the number of
	surfaces to a fixed value between 1 and 16, or to autosize the number
	of surfaces from the attached file:

	SET FHD 1S one surface (98K)
	SET FHD 2S two platters (196K)
	:
	SET FHD 16S sixteen surfaces (1568K)
	SET FHD AUTOSIZE autosized on attach

	The default is one surface.

	The fixed head disk can be connected to the IO bus, a DMC channel, or
	a DMA channel:

	SET FHD IOBUS connect to IO bus
	SET FHD DMC=n connect to DMC channel n (1-16)
	SET FHD DMA=n connect to DMA channel n (1-4)

	By default, the fixed head disk is connected to the IO bus.


	The fixed head disk implements these registers:

	name size comments

	CW1 16 control word 1 (read write, surface, track)
	CW2 16 control word 2 (character address)
	BUF 16 data buffer
	BUSY 1 controller busy flag
	RDY 1 transfer ready flag
	DTE 1 data transfer error flag
	ACE 1 access error flag
	EOR 1 (DMA/DMC) end of range
	DMA 1 transfer using DMA/DMC
	CSUM 1 transfer parity checksum
	INTREQ 1 device interrupt request
	ENABLE 1 device interrupt enable
	TIME 24 delay between words
	STOP_IOE 1 stop on I/O error

	The fixed head disk does not support the BOOT command.

	Error handling is as follows:

	error STOP_IOE processed as

	not attached 1 report error and stop
	0 disk not ready

	Fixed head disk data files are buffered in memory; therefore, end of file
	and OS I/O errors cannot occur.

	2.5 4100 7-track Magnetic Tape (MT)

	Magnetic tape options include the ability to make units write enabled or
	or write locked.

	SET MTn LOCKED set unit n write locked
	SET MTn WRITEENABLED set unit n write enabled

	Units can be set ONLINE or OFFLINE, and WRITEENABLED or write LOCKED.

	The magtape controller can be connected to the IO bus, a DMC channel, or
	a DMA channel:

	SET MT IOBUS connect to IO bus
	SET MT DMC=n connect to DMC channel n (1-16)
	SET MT DMA=n connect to DMA channel n (1-4)

	By default, the magtape controller is connected to the IO bus.

	The magnetic tape controller implements these registers:

	name size comments

	BUF 16 data buffer
	USEL 2 unit select
	BUSY 1 controller busy flag
	RDY 1 transfer ready flag
	ERR 1 error flag
	EOF 1 end of file flag
	EOR 1 (DMA/DMC) end of range
	DMA 1 transfer using DMA/DMC
	MDIRQ 1 motion done interrupt request
	INTREQ 1 device interrupt request
	ENABLE 1 device interrupt enable
	DBUF[0:65535] 8 transfer buffer
	BPTR 17 transfer buffer pointer
	BMAX 17 transfer size (reads)
	CTIME 24 start/stop time
	XTIME 24 delay between words
	POS[0:3] 32 position, units 0-3
	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 bad tape

	OS I/O error parity error; if STOP_IOE, stop

	2.6 4623/4651/4720 Disk Packs (DP)

	The disk controller can be configured as a 4623, supporting 10 surface
	disk packs; a 4651, supporting 2 surface disk packs; or a 4720, supporting
	20 surface disk packs:

	SET DP 4623 controller is 4623
	SET DP 4651 controller is 4651
	SET DP 4720 controller is 4720

	The default is 4651. All disk packs on the controller must be of the
	same type. Units can be set ONLINE or OFFLINE, and WRITEENABLED or
	write LOCKED.

	The disk pack controller can be connected to a DMC channel or a DMA
	channel; it cannot be connected to the IO bus:

	SET DP DMC=n connect to DMC channel n (1-16)
	SET DP DMA=n connect to DMA channel n (1-4)

	The disk pack controller supports variable track formatting. Each track
	can contain between 1 and 103 records, with a minimum size of 1 word and
	a maximum size of 1893 words. Record addresses are unconstrained. The
	simulator provides a command to perform a simple, fixed record size format
	of a new disk:

	SET DPn FORMAT=k format unit n with k words per record
	SET -R DPn FORMAT=k format unit n with k records per track

	Record addresses can either be geometric (cylinder/track/sector) or simple
	sequential starting from 0:

	SET DPn FORMAT=k format with geometric record addresses
	SET -S DPn FORMAT=k format with sequential record addresses

	Geometric address have the cylinder number in bits<1:8>, the head number in
	bits<9:13>, and the sector number in bits <14:16>.

	A summary of the current format, and its validity, can be obtained with
	the command:

	SHOW DPn FORMAT display format of unit n

	To accomodate the variable formatting, each track is allocated 2048 words
	in the data file. A record consists of a three word header, the data, and
	a five word trailer:

	word 0 record length in words, not including header/trailer
	word 1 record address
	word 2 number of extension words used (0-4)
	word 3 start of data record
	word 3+n-1 end of data record
	word 3+n..7+n record trailer: up to four extension words,
	plus checksum

	A record can "grow" by up to four words without disrupting the track formatting;
	writing more than four extra words destroys the formatting of the rest of the
	track and causes a simulator error.

	The disk pack controller implements these registers:

	name size comments

	STA 16 status
	BUF 16 data buffer
	FNC 4 controller function
	CW1 16 command word 1
	CW2 16 command word 2
	CSUM 16 record checksum
	BUSY 1 controller busy
	RDY 1 transfer ready
	EOR 1 (DMA/DMC) end of range
	DEFINT 1 seek deferred interrupt pending
	INTREQ 1 interrupt request
	ENABLE 1 interrupt enable
	TBUF[0:2047] 16 track buffer
	RPTR 11 pointer to start of record in track buffer
	WPTR 11 pointer to current word in record
	BCTR 15 bit counter for formatting
	STIME 24 seek time, per cylinder
	XTIME 24 transfer time, per word
	BTIME 24 controller busy time

	Error handling is as follows:

	error processed as

	not attached pack off line; if STOP_IOE, stop

	end of file ignored

	OS I/O error data error; if STOP_IOE, stop

	2.7 Symbolic Display and Input

	The H316/H516 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 H316/H516 assembler syntax. There are six
	instruction classes: memory reference, I/O, control, shift, skip, and
	operate.

	Memory reference instructions have the format

	memref{*} {C/Z} address{,1}

	where * signifies indirect, C a current sector reference, Z a sector zero
	reference, and 1 indexed. 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 - 0777. Normally, C is not needed; the simulator figures out from the
	address what mode to use. However, when referencing memory outside the CPU,
	there is no valid PC, and C must be used to specify current sector addressing.

	I/O instructions have the format

	io pulse+device

	The pulse+device is an octal number in the range 0 - 01777.

	Control and operate instructions consist of a single opcode

	opcode

	Shift instructions have the format

	shift n

	where n is an octal number in the range 0-77.

	Skip instructions have the format

	sub-op sub-op sub-op...

	The simulator checks that the combination of sub-opcodes is legal.