I1620/i1620_doc.txt - emulators/simh - Rivoreo Source Code Repositories

 To:	Users
 From:	Bob Supnik
 Subj:	IBM 1620 Simulator Usage
 Date:	15-Feb-2004

 			COPYRIGHT NOTICE

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

    Original code published in 1993-2004, written by Robert M Supnik
    Copyright (c) 1993-2004, Robert M Supnik

    Permission is hereby granted, free of charge, to any person obtaining a
    copy of this software and associated documentation files (the "Software"),
    to deal in the Software without restriction, including without limitation
    the rights to use, copy, modify, merge, publish, distribute, sublicense,
    and/or sell copies of the Software, and to permit persons to whom the
    Software is furnished to do so, subject to the following conditions:

    The above copyright notice and this permission notice shall be included in
    all copies or substantial portions of the Software.

    THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
    IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
    FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
    ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
    IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
    CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

    Except as contained in this notice, the name of Robert M Supnik shall not
    be used in advertising or otherwise to promote the sale, use or other dealings
    in this Software without prior written authorization from Robert M Supnik.

 This memorandum documents the IBM 1620 simulator.  This simulator is based on
 Geoff Kuenning's 1620 simulator, which is used by permission.

 1. Simulator Files

 sim/		scp.h
 		sim_console.h
 		sim_defs.h
 		sim_fio.h
 		sim_rev.h
 		sim_sock.h
 		sim_timer.h
 		sim_tmxr.h
 		scp.c
 		sim_console.c
 		sim_fio.c
 		sim_sock.c
 		sim_timer.c
 		sim_tmxr.c

 sim/i1620/	i1620_defs.h
 		i1620_cpu.c
 		i1620_fp.c
 		i1620_tty.c
 		i1620_pt.c
 		i1620_cd.c
 		i1620_lp.c
 		i1620_dp.c
 		i1620_sys.c

 2. IBM 1620 Features

 The IBM 1620 simulator is configured as follows:

 device		simulates
 name(s)

 CPU		IBM 1620 Model 1 or Model 2 CPU with 20K to 60K of memory
 		Model 1 options: indirect addressing, automatic divide,
 		   edit instructions, floating point
 		Model 2 options: indexing, binary capability, floating point
 TTY		IBM console terminal
 PTR		IBM 1621 paper tape reader
 PTP		IBM 1624 paper tape punch
 CDR,CDP		IBM 1622 card reader/punch
 LPT		IBM 1443 line printer
 DP		IBM 1311 disk pack with four drives

 The IBM 1620 simulator implements many unique stop conditions.  On almost
 any kind of error the simulator stops:

 	unimplemented opcode
 	reference to non-existent device
 	invalid digit
 	invalid alphameric character
 	invalid P address digit
 	invalid Q address digit
 	indirect address limit exceeded
 	invalid odd address
 	invalid even address
 	invalid function
 	invalid indicator
 	invalid return address register
 	skip to unpunched carriage control tape channel
 	card reader hopper empty
 	overflow with arithmetic stop switch set
 	I/O error with I/O stop switch set
 	invalid disk drive
 	invalid disk sector address
 	invalid disk sector count
 	invalid disk buffer address
 	disk address compare error
 	disk cylinder overflow error
 	disk write check error
 	field exceeds memory
 	record exceeds memory
 	floating point mantissa exceeds maximum length
 	floating point mantissas not the same length
 	floating point exponent check with arithmetic stop switch set
 	floating point exponent missing high flag

 The LOAD command is used to load a line printer carriage-control tape.
 The DUMP command is not implemented.

 2.1 CPU

 The CPU options include the CPU model (Model 1 or Model 2), a number of
 special features, and the size of main memory.

 	SET CPU IA		enable indirect addressing
 	SET CPU NOIA		disable indirect addressing
 	SET CPU EDT		enable extra editing instructions
 	SET CPU NOEDT		disable extra editing instructions
 	SET CPU DIV		enable divide instructions
 	SET CPU NODIV		disable divide instructions
 	SET CPU IDX		enable indexing
 	SET CPU NOIDX		disable indexing
 	SET CPU BIN		enable binary instructions
 	SET CPU NOBIN		disable binary instructions
 	SET CPU FP		enable floating point instructions
 	SET CPU NOFP		disable floating point instructions
 	SET CPU MOD1		set Model 1
 	SET CPU MOD2		set Model 2
 	SET CPU 20K		set memory size = 20K
 	SET CPU 40K		set memory size = 40K
 	SET CPU 60K		set memory size = 60K

 Model 1 options include IA, EDT, DIV, and FP; the first three are on by
 default.  Model 2 options include IDX, BIN, and FP; IA, EDT, and DIV are
 standard on the Model 2.

 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.  Initially, the CPU is a Model 1, memory size is
 20K, and indirect addressing, editing instructions, and divide are enabled.

 Memory is implemented as 5 bit BCD digits, as follows:

 	4	3	2	1	0

 	flag	8	4	2	1
 		<-------- digit -------->

 In BCD, the decimal digits 0-9 are (hex) values 0x0, 0x1, 0x2, 0x3, 0x4,
 0x5, 0x6, 0x7, 0x8, 0x9, respectively.  0xA is record mark, 0xC non-
 punching blank, and 0xF group mark, respectively.

 CPU registers include the visible state of the processor.  The 1620 has no
 interrupt system.

 	name		size	comments

 	IR1		16	instruction storage address register (PC)
 	IR2		16	return register
 	PR1		16	processor register 1
 	PAR		16	P address register (OR2)
 	QAR		16	Q address register (OR1)
 	SS1		1	sense switch 1
 	SS2		1	sense switch 2
 	SS3		1	sense switch 3
 	SS4		1	sense switch 4
 	HP		1	high/positive indicator
 	EZ		1	equal/zero indicator
 	ARCHK		1	arithmetic check (overflow) indicator
 	EXPCHK		1	exponent check indicator
 	RDCHK		1	read check indicator
 	WRCHK		1	write check indicator
 	ARSTOP		1	arithmetic check stop switch
 	IOSTOP		1	I/O check stop switch
 	IND[0:99]	1	indicator array
 	IAE		1	indirect address enable (Model 2 only)
 	IDXE		1	indexing enable (Model 2 only)
 	IDXB		1	indexing band select (Model 2 only)
 	IR1Q[0:63]	16	IR1 prior to last branch;
 				most recent IR1 change first
 	WRU		8	interrupt character

 2.2 Console Typewriter (TTY)

 The console typewriter (TTY) is a half-duplex console.  The typewriter
 registers are:

 	name		size	comments

 	COL		7	current column
 	TIME		24	polling interval

 When the 1620 CPU requests input from the keyboard, a reverse apostrophe
 (`) is printed.  The CPU hangs waiting for input until the return/enter
 key is pressed.  The typewriter has no errors.

 2.3 1621 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 starts the
 standard paper tape boot sequence at location 0.

 The paper tape reader implements these registers:

 	name		size	comments

 	POS		32	position in the input file

 Error handling is as follows:

 	error	      IOCHK	processed as

 	not attached	x	set RDCHK indicator, report error, stop

 	end of file	x	set RDCHK indicator, report error, stop

 	OS I/O error	x	set RDCHK indicator, report error, stop

 	parity error	1	set RDCHK indicator, report error, stop
 			0	set RDCHK indicator

 2.4 1624 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

 	POS		32	position in the output file

 Error handling is as follows:

 	error	      IOCHK	processed as

 	not attached	x	set WRCHK indicator, report error, stop

 	OS I/O error	x	set WRCHK indicator, report error, stop

 	invalid char	1	set WRCHK indicator, report error, stop
 			0	set WRCHK indicator

 2.5 1622 Card Reader/Punch (CDR, CDP)

 The IBM 1402 card/reader punch is simulated as two independent devices:
 the card reader (CDR) and the card punch (CDP).

 The card reader supports the BOOT command.  BOOT CDR starts the standard
 card boot sequence at location 0.

 The card reader reads data from a disk file, while the punch writes data
 to a disk file.  Cards are simulated as ASCII text lines with terminating
 newlines.  For each unit, the POS register specifies the number of the
 next data item to be read or written.  Thus, by changing POS, the user
 can backspace or advance these devices.

 The card reader registers are:

 	name		size	comments

 	LAST		1	last card indicator
 	POS		32	position

 The card punch registes are:

 	name		size	comments

 	POS		32	position

 Card reader error handling is as follows:

 	error	      IOCHK	processed as

 	end of file	x	set RDCHK indicator, report error, stop

 	not attached	x	set RDCHK indicator, report error, stop

 	OS I/O error	x	set RDCHK indicator, report error, stop

 	invalid char	1	set RDCHK indicator, report error, stop
 			0	set RDCHK indicator

 Card punch error handling is as follows:

 	error	      IOCHK	processed as

 	not attached	x	set WRCHK indicator, report error, stop

 	OS I/O error	x	set WRCHK indicator, report error, stop

 	invalid char	1	set WRCHK indicator, report error, stop
 			0	set WRCHK indicator

 2.6 1443 Line Printer (LPT)

 The IBM 1443 line printer (LPT) writes its data, converted to ASCII, to
 a disk file.  The line printer can be programmed with a carriage control
 tape.  The LOAD command loads a new carriage control tape:

 	LOAD <file>		load carriage control tape file

 The format of a carriage control tape consists of multiple lines.  Each
 line contains an optional repeat count, enclosed in parentheses, optionally
 followed by a series of column numbers separated by commas.  Column numbers
 must be between 1 and 12; a column number of zero denotes top of form.  The
 following are all legal carriage control specifications:

 	<blank line>		no punch
 	(5)			5 lines with no punches
 	1,5,7,8			columns 1, 5, 7, 8 punched
 	(10)2			10 lines with column 2 punched
 	1,0			column 1 punched; top of form

 The default form is 66 lines long, with column 1 and the top of form mark
 on line 1, and the rest blank.

 The line printer registers are:

 	name		size	comments

 	LBUF[0:119]	7	line buffer
 	BPTR		7	buffer pointer
 	PCTL		8	saved print control directive
 	PRCHK		1	print check indicator
 	PRCH9		1	channel 9 indicator
 	PRCH12		1	channel 12 indicator
 	POS		32	position
 	CCT[0:131]	32	carriage control tape array
 	CCTP		8	carriage control tape pointer
 	CCTL		8	carriage control tape length (read only)

 Error handling is as follows:

 	error	      IOCHK	processed as

 	not attached	x	set PRCHK, WRCHK indicators, report error, stop

 	OS I/O error	x	set PRCHK, WRCHK indicators, report error, stop

 	invalid char	1	set PRCHK, WRCHK indicator, report error, stop
 			0	set PRCHK, WRCHK indicator

 2.7 1311 Disk Pack (DP)

 The disk pack controller supports 4 drives, numbered 0 through 3.  Disk
 pack options include the ability to enable address writing (formatting).

 	SET DPn ADDROFF		set unit n address enable off
 	SET DPn ADDRON		set unit n address enable on

 Units can also be set ONLINE or OFFLINE.

 Unlike most simulated disks, the 1311 includes explicit representation
 for sector addresses.  This is to support non-standard formats, such as
 the inclusion of the drive number in the sector address.  As a result,
 1311 sectors are 105 digits long: 5 address digits and 100 data digits.
 If the 1311 has not been formatted, the addresses are zeroes and are
 synthesized, if needed, based on the sector number.

 The disk pack controller implements these registers:

 	name		size	comments

 	ADCHK		1	address check (compare error) indicator
 	WLRC		1	wrong length record check indicator
 	CYLO		1	cylinder overflow check indicator
 	ERR		1	disk error indicator
 	DPSTOP		1	disk check stop

 Error handling is as follows:

 	error	      DPCHK	processed as

 	not attached	x	set ERR indicator, report error, stop

 1311 data files are buffered in memory; therefore, end of file and OS
 I/O errors cannot occur.

 2.8 Symbolic Display and Input

 The IBM 1620 simulator implements symbolic display and input.  Display is
 controlled by command line switches:

 	-c			display as single character (alphameric
 				for CPU and DP, ASCII for others)
 	-s			display as flag terminated numeric string
 				(CPU and DP only)
 	-m			display instruction mnemonics
 				(CPU and DP only)
 	-d			display 50 characters per line, with word
 				marks denoted by "_" on the line above

 In a CPU string display, word marks are denoted by ~.

 Input parsing is controlled by the first character typed in or by command
 line switches:

 	' or -c			character (alphameric for CPU and DP, ASCII
 				for others)
 	" or -s			numeric string (CPU and DP only)
 	alphabetic		instruction mnemonic (CPU and DP only)
 	numeric			octal number

 Instruction input is free format and consists of an opcode and up to
 three operands:

 	op {+/-}ppppp{(idx)},{+-}qqqqq{(idx)},flags

 The p address and, if present, the q address, are always decimal.  A
 plus sign is ignored; a minus sign denotes indirect addressing (or a
 negative immediate operand).  If indexing is enabled, addresses may
 be indexed; index registers are decimal numbers between 1 and 7.  The
 flags field is used to set extra flags on the instruction.  It consists
 of digit numbers in ascending order, with no separators.  For example,

 	AM -12345(5),67890,110

 translates into
 	 _ _ ___  _
 	111234567890

 The flag over digits 3 and 5 specify the P index register; the flag
 over digit 6 specifies the P indirect address; the flag over digit 7
 marks the end of the immediate Q operand; and the flags over digits
 1 and 10 are specified by the third field.

 2.9 Character Sets

 The IBM 1620 uses single digits to represent numbers, and pairs of
 digits to represent characters (alphameric coding).  Only a small
 number of the 256 possible alphameric codings have legitimate values.
 Further, the translation between alphameric and devices varied from
 device to device.  The simulator implements a code called 1620 ASCII,
 which allows all 64 possible card codes to be represented by upper
 case ASCII characters.  In addition, lower case alphabetic characters
 are accepted on input as equivalent to upper case.

 Card code	PT code	RA	RN	LPT WA	ASCII representation

 <blank>		C	0	0	blank	blank
 12		XOC	10	0	+	+
 11		X	20	F+0	-	-
 0		O	70	0	0	0
 1		1	71	1	1	1
 2		2	72	2	2	2
 3		C21	73	3	3	3
 4		4	74	4	4	4
 5		C41	75	5	5	5
 6		C42	76	6	6	6
 7		421	77	7	7	7
 8		8	78	8	8	8
 9		C81	79	9	9	9
 12 + 1		XO1	41	1	A	A
 12 + 2		XO2	42	2	B	B
 12 + 3		XOC21	43	3	C	C
 12 + 4		XO4	44	4	D	D
 12 + 5		XOC41	45	5	E	E
 12 + 6		XOC42	46	6	F	F
 12 + 7		XO421	47	7	G	G
 12 + 8		XO8	48	8	H	H
 12 + 9		XOC81	49	9	I	I
 11 + 1		XC1	51	F+1	J	J
 11 + 2		XC2	52	F+2	K	K
 11 + 3		X21	53	F+3	L	L
 11 + 4		XC4	54	F+4	M	M
 11 + 5		X41	55	F+5	N	N
 11 + 6		X42	56	F+6	O	O
 11 + 7		XC421	57	F+7	P	P
 11 + 8		XC8	58	F+8	Q	Q
 11 + 9		X81	59	F+9	R	R
 0 + 1		OC1	21	1	/	/
 0 + 2		OC2	62	2	S	S
 0 + 3		O21	63	3	T	T
 0 + 4		OC4	64	4	U	U
 0 + 5		O41	65	5	V	V
 0 + 6		O42	66	6	W	W
 0 + 7		OC421	67	7	X	X
 0 + 8		OC8	68	8	Y	Y
 0 + 9		O81	69	9	Z	Z
 2 + 8		C82	? 0A	A	na	%
 3 + 8		821	33	B	=	=
 4 + 8		C84	34	C	@	@
 5 + 8		841	70	0	0	:
 6 + 8		842	? 0E	E	na	>
 7 + 8		C8421	? 0F	F	na	^
 12 + 2 + 8	XOC82	? 5A	? F+A	na	?
 12 + 3 + 8	XO821	3	? F+B	.	.
 12 + 4 + 8	XOC84	4	C	)	)
 12 + 5 + 8	XO841	40	0	na	[
 12 + 6 + 8	XO842	? 5E	? F+E	na	<
 12 + 7 + 8	XOC8421	5F	F+F	na	"
 11 + 2 + 8	X82	5A	F+A	na	!
 11 + 3 + 8	XC821	13	F+B	$	$
 11 + 4 + 8	X84	14	F+C	*	*
 11 + 5 + 8	XC841	50	F+0	-	]
 11 + 6 + 8	XC842	? 5E	? F+E	na	;
 11 + 7 + 8	X8421	5F	F+F	na	_
 0 + 2 + 8	O82	0A	A	na	 '
 0 + 3 + 8	OC821	23	B	,	,
 0 + 4 + 8	O84	24	C	(	(
 0 + 5 + 8	OC841	60	0	na	#
 0 + 6 + 8	OC842	0E	E	na	\
 0 + 7 + 8	O8421	0F	F	na	&

 			2		?
 			12		!
 			22		 '
 			32		0
 			35		:
 			36		blank
 11 + 0			50		-	]
	To: Users
	From: Bob Supnik
	Subj: IBM 1620 Simulator Usage
	Date: 15-Feb-2004

	COPYRIGHT NOTICE

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

	Original code published in 1993-2004, written by Robert M Supnik
	Copyright (c) 1993-2004, Robert M Supnik

	Permission is hereby granted, free of charge, to any person obtaining a
	copy of this software and associated documentation files (the "Software"),
	to deal in the Software without restriction, including without limitation
	the rights to use, copy, modify, merge, publish, distribute, sublicense,
	and/or sell copies of the Software, and to permit persons to whom the
	Software is furnished to do so, subject to the following conditions:

	The above copyright notice and this permission notice shall be included in
	all copies or substantial portions of the Software.

	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
	ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
	IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
	CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

	Except as contained in this notice, the name of Robert M Supnik shall not
	be used in advertising or otherwise to promote the sale, use or other dealings
	in this Software without prior written authorization from Robert M Supnik.

	This memorandum documents the IBM 1620 simulator. This simulator is based on
	Geoff Kuenning's 1620 simulator, which is used by permission.

	1. Simulator Files

	sim/ scp.h
	sim_console.h
	sim_defs.h
	sim_fio.h
	sim_rev.h
	sim_sock.h
	sim_timer.h
	sim_tmxr.h
	scp.c
	sim_console.c
	sim_fio.c
	sim_sock.c
	sim_timer.c
	sim_tmxr.c

	sim/i1620/ i1620_defs.h
	i1620_cpu.c
	i1620_fp.c
	i1620_tty.c
	i1620_pt.c
	i1620_cd.c
	i1620_lp.c
	i1620_dp.c
	i1620_sys.c

	2. IBM 1620 Features

	The IBM 1620 simulator is configured as follows:

	device simulates
	name(s)

	CPU IBM 1620 Model 1 or Model 2 CPU with 20K to 60K of memory
	Model 1 options: indirect addressing, automatic divide,
	edit instructions, floating point
	Model 2 options: indexing, binary capability, floating point
	TTY IBM console terminal
	PTR IBM 1621 paper tape reader
	PTP IBM 1624 paper tape punch
	CDR,CDP IBM 1622 card reader/punch
	LPT IBM 1443 line printer
	DP IBM 1311 disk pack with four drives

	The IBM 1620 simulator implements many unique stop conditions. On almost
	any kind of error the simulator stops:

	unimplemented opcode
	reference to non-existent device
	invalid digit
	invalid alphameric character
	invalid P address digit
	invalid Q address digit
	indirect address limit exceeded
	invalid odd address
	invalid even address
	invalid function
	invalid indicator
	invalid return address register
	skip to unpunched carriage control tape channel
	card reader hopper empty
	overflow with arithmetic stop switch set
	I/O error with I/O stop switch set
	invalid disk drive
	invalid disk sector address
	invalid disk sector count
	invalid disk buffer address
	disk address compare error
	disk cylinder overflow error
	disk write check error
	field exceeds memory
	record exceeds memory
	floating point mantissa exceeds maximum length
	floating point mantissas not the same length
	floating point exponent check with arithmetic stop switch set
	floating point exponent missing high flag

	The LOAD command is used to load a line printer carriage-control tape.
	The DUMP command is not implemented.

	2.1 CPU

	The CPU options include the CPU model (Model 1 or Model 2), a number of
	special features, and the size of main memory.

	SET CPU IA enable indirect addressing
	SET CPU NOIA disable indirect addressing
	SET CPU EDT enable extra editing instructions
	SET CPU NOEDT disable extra editing instructions
	SET CPU DIV enable divide instructions
	SET CPU NODIV disable divide instructions
	SET CPU IDX enable indexing
	SET CPU NOIDX disable indexing
	SET CPU BIN enable binary instructions
	SET CPU NOBIN disable binary instructions
	SET CPU FP enable floating point instructions
	SET CPU NOFP disable floating point instructions
	SET CPU MOD1 set Model 1
	SET CPU MOD2 set Model 2
	SET CPU 20K set memory size = 20K
	SET CPU 40K set memory size = 40K
	SET CPU 60K set memory size = 60K

	Model 1 options include IA, EDT, DIV, and FP; the first three are on by
	default. Model 2 options include IDX, BIN, and FP; IA, EDT, and DIV are
	standard on the Model 2.

	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. Initially, the CPU is a Model 1, memory size is
	20K, and indirect addressing, editing instructions, and divide are enabled.

	Memory is implemented as 5 bit BCD digits, as follows:

	4 3 2 1 0

	flag 8 4 2 1
	<-------- digit -------->

	In BCD, the decimal digits 0-9 are (hex) values 0x0, 0x1, 0x2, 0x3, 0x4,
	0x5, 0x6, 0x7, 0x8, 0x9, respectively. 0xA is record mark, 0xC non-
	punching blank, and 0xF group mark, respectively.

	CPU registers include the visible state of the processor. The 1620 has no
	interrupt system.

	name size comments

	IR1 16 instruction storage address register (PC)
	IR2 16 return register
	PR1 16 processor register 1
	PAR 16 P address register (OR2)
	QAR 16 Q address register (OR1)
	SS1 1 sense switch 1
	SS2 1 sense switch 2
	SS3 1 sense switch 3
	SS4 1 sense switch 4
	HP 1 high/positive indicator
	EZ 1 equal/zero indicator
	ARCHK 1 arithmetic check (overflow) indicator
	EXPCHK 1 exponent check indicator
	RDCHK 1 read check indicator
	WRCHK 1 write check indicator
	ARSTOP 1 arithmetic check stop switch
	IOSTOP 1 I/O check stop switch
	IND[0:99] 1 indicator array
	IAE 1 indirect address enable (Model 2 only)
	IDXE 1 indexing enable (Model 2 only)
	IDXB 1 indexing band select (Model 2 only)
	IR1Q[0:63] 16 IR1 prior to last branch;
	most recent IR1 change first
	WRU 8 interrupt character

	2.2 Console Typewriter (TTY)

	The console typewriter (TTY) is a half-duplex console. The typewriter
	registers are:

	name size comments

	COL 7 current column
	TIME 24 polling interval

	When the 1620 CPU requests input from the keyboard, a reverse apostrophe
	(`) is printed. The CPU hangs waiting for input until the return/enter
	key is pressed. The typewriter has no errors.

	2.3 1621 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 starts the
	standard paper tape boot sequence at location 0.

	The paper tape reader implements these registers:

	name size comments

	POS 32 position in the input file

	Error handling is as follows:

	error IOCHK processed as

	not attached x set RDCHK indicator, report error, stop

	end of file x set RDCHK indicator, report error, stop

	OS I/O error x set RDCHK indicator, report error, stop

	parity error 1 set RDCHK indicator, report error, stop
	0 set RDCHK indicator

	2.4 1624 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

	POS 32 position in the output file

	Error handling is as follows:

	error IOCHK processed as

	not attached x set WRCHK indicator, report error, stop

	OS I/O error x set WRCHK indicator, report error, stop

	invalid char 1 set WRCHK indicator, report error, stop
	0 set WRCHK indicator

	2.5 1622 Card Reader/Punch (CDR, CDP)

	The IBM 1402 card/reader punch is simulated as two independent devices:
	the card reader (CDR) and the card punch (CDP).

	The card reader supports the BOOT command. BOOT CDR starts the standard
	card boot sequence at location 0.

	The card reader reads data from a disk file, while the punch writes data
	to a disk file. Cards are simulated as ASCII text lines with terminating
	newlines. For each unit, the POS register specifies the number of the
	next data item to be read or written. Thus, by changing POS, the user
	can backspace or advance these devices.

	The card reader registers are:

	name size comments

	LAST 1 last card indicator
	POS 32 position

	The card punch registes are:

	name size comments

	POS 32 position

	Card reader error handling is as follows:

	error IOCHK processed as

	end of file x set RDCHK indicator, report error, stop

	not attached x set RDCHK indicator, report error, stop

	OS I/O error x set RDCHK indicator, report error, stop

	invalid char 1 set RDCHK indicator, report error, stop
	0 set RDCHK indicator

	Card punch error handling is as follows:

	error IOCHK processed as

	not attached x set WRCHK indicator, report error, stop

	OS I/O error x set WRCHK indicator, report error, stop

	invalid char 1 set WRCHK indicator, report error, stop
	0 set WRCHK indicator

	2.6 1443 Line Printer (LPT)

	The IBM 1443 line printer (LPT) writes its data, converted to ASCII, to
	a disk file. The line printer can be programmed with a carriage control
	tape. The LOAD command loads a new carriage control tape:

	LOAD <file> load carriage control tape file

	The format of a carriage control tape consists of multiple lines. Each
	line contains an optional repeat count, enclosed in parentheses, optionally
	followed by a series of column numbers separated by commas. Column numbers
	must be between 1 and 12; a column number of zero denotes top of form. The
	following are all legal carriage control specifications:

	<blank line> no punch
	(5) 5 lines with no punches
	1,5,7,8 columns 1, 5, 7, 8 punched
	(10)2 10 lines with column 2 punched
	1,0 column 1 punched; top of form

	The default form is 66 lines long, with column 1 and the top of form mark
	on line 1, and the rest blank.

	The line printer registers are:

	name size comments

	LBUF[0:119] 7 line buffer
	BPTR 7 buffer pointer
	PCTL 8 saved print control directive
	PRCHK 1 print check indicator
	PRCH9 1 channel 9 indicator
	PRCH12 1 channel 12 indicator
	POS 32 position
	CCT[0:131] 32 carriage control tape array
	CCTP 8 carriage control tape pointer
	CCTL 8 carriage control tape length (read only)

	Error handling is as follows:

	error IOCHK processed as

	not attached x set PRCHK, WRCHK indicators, report error, stop

	OS I/O error x set PRCHK, WRCHK indicators, report error, stop

	invalid char 1 set PRCHK, WRCHK indicator, report error, stop
	0 set PRCHK, WRCHK indicator

	2.7 1311 Disk Pack (DP)

	The disk pack controller supports 4 drives, numbered 0 through 3. Disk
	pack options include the ability to enable address writing (formatting).

	SET DPn ADDROFF set unit n address enable off
	SET DPn ADDRON set unit n address enable on

	Units can also be set ONLINE or OFFLINE.

	Unlike most simulated disks, the 1311 includes explicit representation
	for sector addresses. This is to support non-standard formats, such as
	the inclusion of the drive number in the sector address. As a result,
	1311 sectors are 105 digits long: 5 address digits and 100 data digits.
	If the 1311 has not been formatted, the addresses are zeroes and are
	synthesized, if needed, based on the sector number.

	The disk pack controller implements these registers:

	name size comments

	ADCHK 1 address check (compare error) indicator
	WLRC 1 wrong length record check indicator
	CYLO 1 cylinder overflow check indicator
	ERR 1 disk error indicator
	DPSTOP 1 disk check stop

	Error handling is as follows:

	error DPCHK processed as

	not attached x set ERR indicator, report error, stop

	1311 data files are buffered in memory; therefore, end of file and OS
	I/O errors cannot occur.

	2.8 Symbolic Display and Input

	The IBM 1620 simulator implements symbolic display and input. Display is
	controlled by command line switches:

	-c display as single character (alphameric
	for CPU and DP, ASCII for others)
	-s display as flag terminated numeric string
	(CPU and DP only)
	-m display instruction mnemonics
	(CPU and DP only)
	-d display 50 characters per line, with word
	marks denoted by "_" on the line above

	In a CPU string display, word marks are denoted by ~.

	Input parsing is controlled by the first character typed in or by command
	line switches:

	' or -c character (alphameric for CPU and DP, ASCII
	for others)
	" or -s numeric string (CPU and DP only)
	alphabetic instruction mnemonic (CPU and DP only)
	numeric octal number

	Instruction input is free format and consists of an opcode and up to
	three operands:

	op {+/-}ppppp{(idx)},{+-}qqqqq{(idx)},flags

	The p address and, if present, the q address, are always decimal. A
	plus sign is ignored; a minus sign denotes indirect addressing (or a
	negative immediate operand). If indexing is enabled, addresses may
	be indexed; index registers are decimal numbers between 1 and 7. The
	flags field is used to set extra flags on the instruction. It consists
	of digit numbers in ascending order, with no separators. For example,

	AM -12345(5),67890,110

	translates into
	_ _ ___ _
	111234567890

	The flag over digits 3 and 5 specify the P index register; the flag
	over digit 6 specifies the P indirect address; the flag over digit 7
	marks the end of the immediate Q operand; and the flags over digits
	1 and 10 are specified by the third field.

	2.9 Character Sets

	The IBM 1620 uses single digits to represent numbers, and pairs of
	digits to represent characters (alphameric coding). Only a small
	number of the 256 possible alphameric codings have legitimate values.
	Further, the translation between alphameric and devices varied from
	device to device. The simulator implements a code called 1620 ASCII,
	which allows all 64 possible card codes to be represented by upper
	case ASCII characters. In addition, lower case alphabetic characters
	are accepted on input as equivalent to upper case.

	Card code PT code RA RN LPT WA ASCII representation

	<blank> C 0 0 blank blank
	12 XOC 10 0 + +
	11 X 20 F+0 - -
	0 O 70 0 0 0
	1 1 71 1 1 1
	2 2 72 2 2 2
	3 C21 73 3 3 3
	4 4 74 4 4 4
	5 C41 75 5 5 5
	6 C42 76 6 6 6
	7 421 77 7 7 7
	8 8 78 8 8 8
	9 C81 79 9 9 9
	12 + 1 XO1 41 1 A A
	12 + 2 XO2 42 2 B B
	12 + 3 XOC21 43 3 C C
	12 + 4 XO4 44 4 D D
	12 + 5 XOC41 45 5 E E
	12 + 6 XOC42 46 6 F F
	12 + 7 XO421 47 7 G G
	12 + 8 XO8 48 8 H H
	12 + 9 XOC81 49 9 I I
	11 + 1 XC1 51 F+1 J J
	11 + 2 XC2 52 F+2 K K
	11 + 3 X21 53 F+3 L L
	11 + 4 XC4 54 F+4 M M
	11 + 5 X41 55 F+5 N N
	11 + 6 X42 56 F+6 O O
	11 + 7 XC421 57 F+7 P P
	11 + 8 XC8 58 F+8 Q Q
	11 + 9 X81 59 F+9 R R
	0 + 1 OC1 21 1 / /
	0 + 2 OC2 62 2 S S
	0 + 3 O21 63 3 T T
	0 + 4 OC4 64 4 U U
	0 + 5 O41 65 5 V V
	0 + 6 O42 66 6 W W
	0 + 7 OC421 67 7 X X
	0 + 8 OC8 68 8 Y Y
	0 + 9 O81 69 9 Z Z
	2 + 8 C82 ? 0A A na %
	3 + 8 821 33 B = =
	4 + 8 C84 34 C @ @
	5 + 8 841 70 0 0 :
	6 + 8 842 ? 0E E na >
	7 + 8 C8421 ? 0F F na ^
	12 + 2 + 8 XOC82 ? 5A ? F+A na ?
	12 + 3 + 8 XO821 3 ? F+B . .
	12 + 4 + 8 XOC84 4 C ) )
	12 + 5 + 8 XO841 40 0 na [
	12 + 6 + 8 XO842 ? 5E ? F+E na <
	12 + 7 + 8 XOC8421 5F F+F na "
	11 + 2 + 8 X82 5A F+A na !
	11 + 3 + 8 XC821 13 F+B $ $
	11 + 4 + 8 X84 14 F+C * *
	11 + 5 + 8 XC841 50 F+0 - ]
	11 + 6 + 8 XC842 ? 5E ? F+E na ;
	11 + 7 + 8 X8421 5F F+F na _
	0 + 2 + 8 O82 0A A na '
	0 + 3 + 8 OC821 23 B , ,
	0 + 4 + 8 O84 24 C ( (
	0 + 5 + 8 OC841 60 0 na #
	0 + 6 + 8 OC842 0E E na \
	0 + 7 + 8 O8421 0F F na &

	2 ?
	12 !
	22 '
	32 0
	35 :
	36 blank
	11 + 0 50 - ]