Digital PDFs

MAINDEC-08-D1H

December 1968

58 pages

Original

3.4MB

Document:	maindec-08-d1ha-d
Order Number:	MAINDEC-08-D1H
Revision:
Pages:	58
Original Filename:	https://svn.so-much-stuff.com/svn/trunk/pdp8/src/dec/maindec-08-d1h/maindec-08-d1ha-d.pdf

OCR Text

IDENTIFICATION
Product Code:

MAINDEC-OB-D I HA-D

Product Name:

PDP-8, 8/1, Extended Memory
Address Test

‘I

Date Created:

March I3, I968

Maintainer:

Diagnostic Group

Author:

J .W. Richardson
.

.4“-M

.m%;/sr\‘
.

f’"

ABSTRACT

l '.

The PD‘Pé-8, 8/1 Extended Memory Address Test tests all of memory not occupied by the
program to make

four tests.

sure that each location can be uniquely addressed.

This is performed by a series of

The first two tests write the address and complement address of each memory location into

itself, and then checks the contents of each location to make sure each is correct.
sets all of memory not

The third test first

occupied by the program to all ones, and then writes a word of all zeroes ,V,

except for one bit, into each location and checks for error.

The fourth test is similar except that a

word of all ones, except for one bit, is written into each location and checks for error.

REQUIREMENTS

2.l

Equipment
A standard PDP—8 or 8/1 with a minimum of 8K words of Core memory.

2 2
.

Storage
The program requires locations OOlO to 2534‘octal

2 .3

Preliminary Programs
The Binary loader must be in locations

7756-7776 octal

Also, all diagnostics for a basic

PDP-8 or 8/1 must have previously been run successfully.

3 l
.

LOADING PROCEDURE

Method
a.

Turn off the Teletype reader.

Set the SR to 7777.

Press LOAD ADDRESS, and then START.

0..

Place the Binary tape in the Teletype reader and turn on the reader.

When the program has been loaded, stop the computer, turn off the reader, and remove

the tape.

‘

STARTING PROCEDURE

4 l

Starting Address

Start from address 200 to specify the amount of core memory to test, SR settings, and to

receive a header print-out.

4 2

Restarting Address

Start from-address 2'” to change the test limits, SR settings, and to inhibit the header

print-rout

Operator Action

4.3

Immediately after starting from address 200 or 207,. the program will print ”TEST LIMITS”.
The operator must then specify, via the Teletype keyboard, the amount of core memory to test,
I

followed by a carriage return.

The Following rules govern the amount of memory to test:
a
Type two octal numbers, separating the numbers with a comma The first number
the
lowest
order 4K stack to test; the second signifies the highest order.
signifies
.

The program expects the 4K stocks to be numbered sequentially starting with stack 0.

c
If the highest order stack to test is typed as the first stack, the program will interthe
two
change
values so as to make the second value the first to test.
.

After typing the second octal number, press the carriage return key to terminate the
I

fine.
e.

The program will test the lowest and highest order 4K stack specified, plus every stack

between, starting with the lowest specified.
f.

Any single stock, or two or more sequential stacks may be specified.

The stack containing the program may be included when specifying two or more stocks.
9.
The stack containing the program will be tested after automatic program relocation takes place (see
section 5.3.1).

h.
If a typing error is made, press the RUB-"OUT key.
again. All previous input is disregarded.
’

”TEST LIMITS" will be printed

For the following examples assume the program to be located in stack 0, and the program

has been started from address 200 or 207.

Example A:

The amount of core memory available is 32K.

TEST LIMITS
A

0,7J

( a) denotes carriage return)

Example A indicates stacks 0, l, 2, 3, 4%, 5,. 6, and 7 will be tested.
Example B:

TEST LlMlTS

7,0 .3)
The program will perform exactly as Example A.

’

vaampleCi

TEST LIMITS

4’54

Orle sTacks 4 and 5 will be TesTed.
Example D:

TEST LIMITS
I

3,34

STack 3 alone will be TesTed

Example 'E:

TEST LIMITS

0,0 PROGRAM IS LOCATED IN FIELD 0

‘

TEST LIMITS

0,].1

Example E shows The message prinTed by The program when a single sTack is selecTed which

currenle conTains The program.

"TEST LIMITS"Ts prinTed again, and The operaTor musT Then correcT

The TesT limiTs.

OperaTionioT The program is unpredictable if The amounT of memory selecTed for .TesTing
exceeds The acTual amounT available, i.e. selecTing 32K for TesTing
PDP-8
8/1 equipped wiTh
on a

maximum of 28K

4.3.1

SeTup SR

program aperaTion,
The SR To 0000.

AFTer The TesT limiTs is specified, The program will prinT "SETUP SR”.

The SR musT be seT To equal

For normal

The carriage reTurn key aFTer seTTing

0000(8)' Press

The program will Then run unTil sTopped by The

opera’ror.

Normal program aperaTion

is defined as performing all four checkerboard paTTerns on all of available memory from every memory
sTack

OPERATING PROCEDURE.

5.]

Program and OperaTor AcTion
a.

Load The program info sTack 0 using The procedure described in secTion 3.

SeT The SR To 200; press LOAD

ADDRESS, and Then sTarT.

c.
The message ”TEST LIMITS" will be prinTed.
describedIn secTion 4.3.

The message "SETUP SR'Iwill be prinTed

Specify The limiTs, via keyboard, as

SeT The SR To 0000

reTurn key.
e.

and press The

The program will perform all Four TesTs on all of core memory specified, aTTer

auTomaTic program relocaTion Takes place.
5 2

(8)'

carriage

which,

OperaTional Swi‘Tch SeTTings
Normal operaTion of The program requires The SR seT To 0000
i

applicaTions, For swiTch seTTings provided for Trouble-shooTing
3

(8)°

Refer To secTion 8.2,

Subroutine Abstract:

5.3
'

5.3.l

The Patterns Used for Testing

The program executes a series of four teSts on core memory.

Each test writes a unique pattern, and checks each location for error.

Test l writes the value of each address into itself, from the lowest order to the highest order

4K field under test.
i.e

The address pattern is then read and checked for error in the same directon,

from the Vlovrest to highest field under test.

The pattern is then read and checked for error in

the reverse directions, i.e., from the highest to the lowest field under test.
reverse

When reading in the

direction, each location is repeatedly read a random number of times before reading the next

location. The minimum number of reads per location is one, and'the maximum is 20 octal

Error

checking is done after each read
Test l then Writes the same address pattern again, only this time starting with the highest
.

4K field under test, and

decrementing to the lowest under test.

performed as previously described

Reading and error checking is then

Test 2 writes the ones complement value of each location into itself, and proceeds to read
and check in the same manneras test ll.

Test 3 and 4 both write a "sliding" bit pattern throughoUt memory. The difference between

the two tests
use

being that test 3 rotates

the following test sequence

single bit equal to l, and test 4 rotates a single 0. Both tests

The sequence is'repeated l2 times, resulting in each bit of every

memory location being complemented

Write all l's into all of memory.

Write a sliding l or O pattern‘into one 4K field.

Read and test the 4K field in the forward direction only.

Repeat steps b and c ll more times before testing the next sequential field in the same

manner.

After test 4 is completed on all memory fields, the program is relocated, and restarted with
test l

set up.

ERRORS

Starting the program from address-200 will give a header print-out after the SR has been
The header identifies the information printed when a data error is found. The header appears

as:

OCTAL ADR.

FIELD

Where:

FIELD

GOOD

BAD

TEST

on octal number (0 to 7) indicating the 4K field containing
the error.
»

OCTAL ADR.

the memory address which contains the incorrect data.

4‘,

GOOD

BAD

what the data in octal should have been

the data as read. This will equal the good data except For one
bits complemented

or more

TEST

the number (l to 4) at the test which detected the error.

After each error print-out the program continues on with the next sequential memOry
location

6.l

Error Halts and Description

Placing SR 0 on a l during an error print-out will cause a halt at location2042.

Press

CONTINUE to resume testing.

7 l
.

RESTRICTIONS

Starting Restrictions
Start from address 200 to indicate the amount of core memory to test; to set up the SR and to

receive a header print-out.

Starting from 207 requires the same operator action, but no header will be printed

7 2
.

Operating Restrictions
None

8 l
.

MISCELLANEOUS

Execution Time

The time required to perform all Four tests on one 4K memory stack is approximately 20
‘seconds.

8 2
.

Applications
For operating convenience, and as an aid to trouble-shooting, the SR may be used to

control the program.

The switch assignments and their effect on the program are described below

Please note that it is important that-the program should be halted before changing the test selection

switches.

These switches are not sensed by the program duringtesting.

Halting the program with SR 0 is preferred, rather than with the STOP key. Using the STOP

key may result in a halt while the program is in the process of relocating, which is disastrous.

Halt After Test, or Errni

8.2.l
will

SR 0

Placing SR 0 on a l: at any time while the program is running

cause a half after the current test is completed. The MA will equal 2042 in the current stock con~

taining the program.

Press CONTINUE to resume testing, or restart from 200 or 207 to enter
8

new‘paral-

l
l
I

meters.

Placing SRlOona

‘l

exactly as described in the above paragraph
l

8.2.2

Inhibit Error Printout

‘-

SR l

SR l. may be

Bell on Error «4 SR 2

8.2.3

l’lacing SR T On

All other messages will net be inhibited.

print any information.

placed

on a

SR 2 an a l

l causes all error printouts to be inhibited.

causes

0 while the program is running .'

the program to ring the TTY BELL whenever an

This is, convenient when testing with power supply margins.

is detected

over

SR T if both should happen to be on a l

8.2.4

The programwill continue to recognize errors, but will not

error

running

during an error typeout will also cause a halt at location 2042. Proceed

SR 2 has ‘recedence

SR 2 may be placed on a. l or 0 while the program is

Test Selection SR 3 Through 6

Any one, or any combination of tests may be executed by

placing any one or any combination of SR 3 through 6 on a l
starting from 200 or 207.

Test selections may be made only

SR 3 specifies test l; SR 4, test 2; SR 5 test 3; SR 6 test 4.

when

The test specified

by the most significant SR on a i will be executed first.

if all foUr switches are

on a

0, all four tests willbe executed in order starting With test 1

Program relocation. is not effected, regardless of the SR settings
8.2.5

SR 7 and 8

8.2.6

Inhibit Program Relocation

SR 9

The program normally relocates automatically as
To retain the program in its current 4K field, place

Changing SR 9 to a 0 will permit relocation to resume.

Not used

8.2.7

SR 10

8.2.8

Change Test Limits and SR

Not Used

indicated by the INSTRUCTION FIELD indicators.

SR 9 on a l at any time.

SR ll

....

Placing SR ll on a l will cause the program to auto-

matically restart from address 207. The TEST LlMITS and SR may then be changed .. SR ll is sensed
only after all specified tests, have been completed on all of memory under test.

8.2 .9

Loop on Address

A subroutine is provided which may be used to continuously loop

single location, or a grOUp. of consecutive locations.

No error checking is performed

performs a read, and immediately follows with a write, On each location.

on a

The routine

The loop time between two

reads, or two writes, is approximately 22.5 ps.

Omarati ng Procedure
a.

Set the INSTRUCTION FIELD switches to the current field, and the SR to ”37.

Press LOAD ADDRESS

Set the DATA FIELD switches to equal the 4K field number to test, and set the SR to

equal the first address of the group.
d

Press START. A halt will occur at H42.

Set the SR to equal the

Laiaddress of the

group.

e.
_

Press CONTINUE. The address (5) specified will be looped until stopped by the

SR 0 will not halt this routine.
Operator with. STOP
I? To resume normal
restart the program from 200 or 207 of the current field.
.

operation,

PROGRAM DESCRIPTION

The Extended Memory address test is intended for use with a PDP-8, 8/1 or 8/S equipped

with the extended memory option. A total of four tests are executed by the program.
a
_

Each test writes
.

unique pattern into core memory and then checks for error. The patterns were chosen so as to aid

the operator in the event of addressing errors.

The program automatically relocates itself to each memory field under test to ensure that
all fields may be correctly referenced from any field

Control of the program is given to the operator by means of the SR.

The operator may halt

the program, inhibit error printouts, substitute the TTY BELL for error indication, halt after printout,
select any one or a combination of the four tests, inhibit program relocation, and create an automatic

program restart
lO.

‘

LISTING

TEST. HEAJER.

PAGE

ADRES

16:5@,4 MtHURY
4/1/68

SKIP
TO

2M7

RRESTART EQUIRED.
AT

LXTENDED CORE
BS

81:

2mg, 8K

SLHTS ERWRD

JNP B wQ UflflS

/PUP-6: /START /MIN.

*@1@

CDF=6291 CIF=6282 RDF=6214 R1F=624

ERWRafilfi 76UQ 76%3 7693 76 % 769% 7696 769 -76@
I

DATFLD’FLAGS: XLMT89 INSFLD:ERTBLp ENTBLQERWRUa

19 74”

463 2EU 1®m 49 2M TSTl TSYE TST3 TSY4

CMUVE

McmA, Klfip K74Qp K493: K2fi§£ Klfigt K4”: KQQ: XTSTIQ XTSTZ: XTSTao XTST4: IXMOVE:

@681 5@@1 @302 @fiBS @913 6291 62%? 6214 62 4 mama flflflfi e m gnaw 929 name gage 9 3% 9 9% $9 2 1497 .9 60 gaze Efisb 9&26 76%@ 76 % 76 0 763m 763% 769 76 9 769% 69 % 6 1% 674% 949% 926% @19 @w4w @fizfi @276 @3 3 E4@@ @583 2 23
@9 1 @692 @9 3

flfl fl 391 9612 3813 @914 @915 @filé 3617 092% @621 @92 @flZS@324 @325- @526 @6279338‘ @931 @632 @3 3- _2@34 mas @636 @937 Bfl4fl 0641 69420&43 @E4 9645 B?46 @947 @656 @fiSl 2%52 @953

1W1

PAGE

16§5694
4/1/68
SE?U1 261 262 265 264 7?6@

XSETU: K2§12 K252; K263; K254; M2$g

14am @261 $262 @263 @254 7 69

@954 @95 fig56 252357. @ 6@ 36 1

PAGh

1635@,4
4/1/68
I749i7 4 7 73 CHANK NXTBNK
m

6
I

FLCNT) MEMADR: FIRSTl LASTi! KCDF: KCIF. XHLT: XRTN: XFILU: XPRER: K7; CHAR; XHDR: XPER ! XPING:

M4?! M4: M5: TNUM: XBANK: XYBNK: COUNT; LO P! XR OR;

7 4m 7 74 7 73 gage lflcb 1 a3 gnaw @39 ag m 1232 689% 39 9 696% 6291 6292 2341 '2 13' 1 25 1346 9637 3 6% .1674 .1346 ,1315

@962 @963 3&54 @965 @36 Bfi67 @fi7fl 3671 @672 @673 @674 6E75 6&76 @97 @196 6131 @102 8153 0194' 9195 6186 9137 ‘91 6 @1 1

PAGt

1635figa
4/1féb
7 65 7 64 7 /2 26% 215 577 57M 277 CRLF

NFRl RFRl RBKlHR81 NFRZ RFRZ RBKZ NRBZ ONES 7 7

H.131 M14, Mlfia K269: K215: K37 : K373: K27 ; XCRLF: K1: NXLOC; EXIT; PATH; COMPR; XWRF; XFND; XBAKg XNRB! XWRFZ; XBAKZI XNRBZ! XONESQ

XFWDZ: SHIFT; DATA!

7 6%' 7 64 7 7% @26 @215 8377 937% @27 1354 63%: figflg‘ game 9 32 @932 9654 @72@ 16 0 @671 26 2 @736 1asa e794 1@57 fififig 7 7 mama
@1 2 @1 3 ‘91 4 @1 5 @1 6 @1 7 912% @121 @12 @123 @124 7%125 0126 @127 'fi EQ @131 9132 @13 @134 @135 @136 913? @143 @141 @142 @143

’7‘».

FIELD

page

FLAGS

LIMITS

LIMITS FIELD /~1@

PROGRAM TEST HEADER

‘

15:50.5

OFF

/CLEAR ISETUP ISETUP IPRINT

/PI

4/1/68

INSTRUCTION

TEST
ISET ISETUP lREAD

ICURENT

INSFLD FLAGS XLMTS XSTSR XHDR RTNl XLMTS XSTSR INSFLD XFILD Mia LO P ALAw' ERHRD I.£RHRDL0 9 ALAN ERTBLERNRO
I

lRESTART RSTRTI: RTNI:
‘

0262 sa z 729 62 4 SE23 3921 4422 4675 45a7 5213
@ZBE @281 @292 023 @294 @285 @26 0257 @21@

HERE JMS JHS RIF DCA JMS TAU DCA 76w” TAD I52 DEA 132 JHP TAD DCA

10F CLA RIF DCA DCA JMS JMS JMS JMP

§2w9 BEGIN:

ALAN;

-4 2 4675 62 4 3623 4563 1 14 3672 7690 12 % 2026 3426 '2372 52 % 1624 3%26
@21 @212 @213 @214 9215 @216 9217 @2 9 @2 1 @2 2 @2 3- @2 4 <02 5 @2 6 .92 7

BITS
TEST

AND

wgea
i.

$345
imAaK

16:5figé

ALL
a

/SET /3AV£

ALL

SKIP

SKY?

SKIP FlELfi
N0
QAYA
3?

ITEST

{#0

éflié

‘

x758?

iTEST

ITEST

RMQVE EQEATE
A

1;-

1&0

(RESTQRE zcagcfi liNfilBiT
,WLH

‘

‘_

XTST; MONA KEQ XTSTE MCHA Kg w X?ST§ Mflwév Kéfi XTSTQxFlLa
{4ch K74Q EXAMI MONA K749 Mch MCHA Kéfifi
.0

Mmhkmfi'l<

fl”;

4%9-23?R?1'

Rafi RTM;
ER
HAD ANQ SEA JMP TAD YAD DCA CLA rAD AND 82A ch TAD éNQ SEA JMP CLA TAD ANQ SEQ Jfi? OLA ?A9 AND SEA 4M9 JMS hfiS‘ 53$ afi$ ANS Sié JHE
a

fixémlwi

5 z

"JMP

ANS-Ki

Xfiflvg
J39»! SETSR

EXAMi:

EXAMSa

EXAMza

XSTSRg

Exéfié:

‘

'
'

‘
.

1E3? 5941 74 a 5237 1237 1%41 3Q37 729% 13 7 9&42 74 % 54 7 729 123? Zfi43 74 % 545% 726% 1%3? a a 7é4fi 5451 ?2@fi $fi37 fifiéfi 74 % 5452 égfifi ?éfié fi®23 74¢a 92: 7634 74%6 5213 5&53' afiéfi

$2?1-‘3@46

@2393 3231 6232 $23 @234 @235 @236 @237 @246 @241 9242 @243 @24 @245, @246 @247 9256 @251 @252 @253 fizgé $25 ,92§é. $25? @26 _Q26132$? 9253 azé $2éfi fié é -Q26?‘ @2?§ ‘@2?2 E2?3 @2?4 a275-

INTO

PAGE

LOCATION
EACH

16:50.6

BACKNANHS, FIELU
Ana

lST

FonARDs

NUMBER

PRUGRAM

TEST

W
R
I
T
I
N
G
C
O
U
N
T
ITEST FIELD /NEXT
AUR. BEGIN
HAS

FORWARDS FDRNARDS BACKWARDS

FIELD

T0.1ST COUNT FIELD INEXT

FOR

HAS

FE LE TEST

TEST

xADR. conpaa WRITING BACKHARDS BacwaR93*., /NEXT
.

zegn'rgawans

FOR

[SET [SET ISE xa sxw xwalTE 13545 ISEIUP

XSETU K261 TNUM MEMADR PATR xBANK TSTlAXHRF XFHD XBAK XTBNK TSTl*3

XBANK EXAM? XNRB x843;X?ENK TSTlAfi EXAMZ
I
'
X
S
E
T
U
CHA
M
E
H
A
D
R
P
A
T
H
BACKHARDS

WHITE THEN JMS TAD.DCA DCA DCA ans SKP an JNSJMS JMS JMS JMP
I

FROGRAM,

/SET /SE INC: INRlTE/READ IREAD /SETUP

STACK _/SET

THE READ

7 7 wean

FIELD
.

ADRES EACH

4/1/68

I I

/TESTI1I,TSELF, TSTl,
/

lw$fifigfiwm4

I I

JMS CLA DCA DC“ JMS SKP< JMP JMS JHQ. JM$~ JHSi JMP JMP

WRITE
/

lNOH TSTlA;
/

4 54 135 3965 3274 3126 4 6 741% 5313 4536 4531 4532 4 67 5391-

4 54 72463674 3126 4 6 741% 524 453 ‘453lu 4532 4 57 5314 524

@276 @27 ESGE BSfil @362 @363 @394 0395 3 86 0327 3 16 @31 3 12

0313 6314 @315 @316 9317 @320 @321 @32 @323. $324 @325 @326 $327

a
?

PAGE

NGRD

PREMRA’M

/ADQRES COMPARE FQRWARBS BACKNARDS

TC}

HELD

HEL ”) NUMBEQ COUNT HAS TEST
18‘1”
/TEST
HELP} INEXT

FZELS cauNT

137

FOR

1?”

B
A
C
K
W
A
R
D
E
V4f1/68

wean

paagm
HgS

g aLa TEST

753%:

xADRES compAfiE ng n {MEXTagexwaag BACKHARDS INEXT
NEXT

fifiga'fiafiwéfifis .zse3up
FOR

1525957 ADRES /E§ET ISET (SE . szLTE I‘REAB /READ /SETUP
0?

ISET ISET ISEE 1NR§TE xwagvg lREéD
; w.

‘

CUMPLEMENT XSETU MEMADR XBANK TST2A XWRFZ X5540? I.XBAK2 XTBNK TST2*3 BACKNARQS XSETU MEMADR XBANK EXA5§;-xwagXFan xanz XTBNK._.TSTBA$1 EXAHS‘

‘<

AND

K262 TNUM

PATR

METE FORWARD MS TAD DCA DCA CMA DCA JMS SKP JMP 4M5 was JMS JHS JMP
I

2;
.

[QAYTERN

NEST '75ng

cm; PATR
JMS cga 05A CMA DCA JMS 3K? 4%? 483 45$ JMS JM3 JHP JM?
i

NRITfi

/
,

/NO% TSTQAg

‘”

'.
.
A

4 .542 1856 3565 3674 7Q4® 3126 4 6 7416 5346 4534 4535 4536 4%?- 53 3

4 54 724% 3674 7a46 3126 4 6 7419 5251 4537 4535 4536 4 67 5347: 5251

@3 6; @3 1 @3 2 @3 3 $3 4 @3 5 @3 6 3 3? 834% @341 23 42 .a343 @34 @345

9345 9347 3 5 @351 @352 @353 @354 @35 535 @357 '@36@ @361 @362 @363

EACH
ONLY,
THRU

SINGLE DIRECTION
A

SLIDE FORWARD

16:59;9

THEN IN

4/1/68

195,

WRITE
ALL

PROGRAM

18T

ICDMPARE ADRES DECIMAL

‘

BIT

/SET

FIELD
TO

THE

BIT To

WORD

PAGE

PCOMPARE OSITIONS WITH

FIRST CD NT HAS
ISAVE FIELD

wfiwv,hw‘¢Hmewwwflw

AND FOR BET OVER

SKIP
wHEN /READ /CHECK NEXT ISTART

1'8

ISET /SEE INRITE /NRITE i~12

/POSITION

/DON£

XSETU K265.' TNUM PATR COMPR MEHADR XBANK 5x73 XONES M14 SHIFT PATH I-MEMAUR MEMADR RSL; SHIFT .¢4

‘

WRITE READ

JHS TAD DEA IAC DCA .lAcDCA DCA .JMS SKP JHP JMS TAD DCA TAD DGA 152 SK? JNP 152 JNP

ITESTs. INORD, *429 TST3.
/

WRDT,

WITH
NEXT

ISTART

TAD-GHPR JMP‘HROT TAQ‘PATRW

‘

,mwggwagigkwmwnh

AND

BIT "'

RAL?

PATR NRDT¢2

CLL ‘SZL 1A0 BOA JHP
_

A”;

.‘

‘_
'

‘

WH,¢.D_

D429 4 54 1657 36 5' 7091 3126 -7D 1 3127 3674 4 6 7419 53 1.- 454% 1 13 3141 1 26. 3474 2 74 7413 5236 2141 523% 1127 5214- $126 7i54- 7439 7D 1. 3126521b«

943§_J3g3¢$

@492 @491 @462 @493 @484 9495 @426 @467 @419 @41 2412' @413 @414 B415 @416 D417 @428 9421 @42 ' D423 6424 3425 242? 9435f $431 VE432 D43 8434 3435

12'POSIT10NS

g
9

POSITIQN cmumr
TO

{

PAGE
ONE

iFIRST

ADRES DECIMAL
S
L
E
D
I
N
G
légfifigig FOR ISE? x912

xsnve

4/1/68

/2'S‘COMPLEMENT

x05

ER GR

WITH
FOR BIT OVER
NEXT

IPRENT IDONE

AGAIN
FIELD ngLa_ TEST
SAME NEX?
FDR INEXT

V
'

SKEP zaomzl xca cx ISTART
.

SKIP.
12
.

ALL

iPOSETION

{, *

iDONi

xwazva xseruw

ROUTzNE COMPR PATR MEMADR SHIFT MEMADR DATA DATA PATH OLA XR QR- MEMADR cxoml- SHIFT .*4'- PAYR PATR R GT*2 COM?E. 1&4 RAT?" XTBNK 7373*3
TEST
TAfi“CQMPR DEA JMP-RQT TAD'QATR CLQERAQ;32L EAC' DOA JMP CL'RAQE 82L. JM? <DGATAD-FATR JMQ'HRDTmé‘ JMS £XAM4
00A TAD'M;4 DCA DOA TAD CIA 4MB visa SKP
AND
'

9*:

Tau DEA

TAD

TAD 82A

Tag

JMP 152 J”?

/R£AD RSLig R OT;

1 27 3126 3674 ‘1 13 3141 1474 3143 1 43 7m41 1 26 764a 4 73 2 74 7419 52?8 2141 5262 1 27 3126 524;- 1 26 .7ifiéw ‘7438. 7%Q1 3125 52%3

CKBNi:

JMP 4MP

EXTEg

1 3?' 7&3“ V743E '52?7 $126_ i126 52%6 4 é7 52%3 57$2 -azsé
@436 9437 24 % @4 1 @4 2 $4 3 "@4 4 @4 5 _@4 6 @4 7 @459 @451. 9452 ‘945 3454' @45 @456 @457 @46 @4éi '9462 fifiéfi @464 646$ 546 @467 VEE$3 *w47; 23472 @473 ‘2474 6475 $476 @47 flfififi 9561 95%?

LACH
TN N ONLY-

BIT

SINGLE UZRECTIUN 13TFIELD wufiBER
A

SLIDE FORWARD

16359.1 THEN /SET
0?

THE
IN

4/1/68 1‘8: READ
ALL

AND

PCOMPARE OSITIONS NTTH
.

PAGE

/TEST

WORD

PROGRAM

COUNT HAS
FIELD

/COMPARE ADRES

5K3? ANB FOR BTT OVER
H EN [READ checx NEXT (START

DECIMAL

1'5

/SET /SE IR ITE IR ITE /%12

IPOSITION

IDRNE

adfifimflflfiwg;gp1fl

XSETU K264 TNUM COMPR COMPR PATR MEMADR XBANK xT4 onEs N14 SHIFT PATR MEMADR NEMAQR x515 SHTFT .¢5 CONPR PATR PATR
{_

PATR

NR1T*3,

WRITE HRITE JMS TAD DCA vac DCA TAD CMA DCA .DcA JMS SKP JHP JHS STL TAD 094 TAD 004 Isa SKPT JMP 182 JMR TAD 8N4 DOA TAG RAL_ SNH DEA JR? CLA IAG .CMA STL~ JMP.9 6 EXAM4¢5 RSLO
1

IVEST /WORD! TST4,

XT49 XSL¢T

NRiT;

4 54 156% 3965 7361 3127 1 27' 7940 '3126 ”3974 44667413 5751_4545 7123 1 13 3141 1 26 3474 2974 7:195527 2141-53 6 1 27 75493126 1:26 7354._7§291 53443126 5121 7253. 7591;7940 7125, 5342 32635°99
2593 2534 @595 game3597 @515 @51 @512 9513 @514 9515 @515 @517 6526 9521 952 @523 9524 @525 @526 -fl§27«‘ @53 6531 @532 953 6534 5 35:” 0533'3537 9546 @5 1 3592 @543-@34 '3545 5 4a ‘9547f @5 9 95 1' 25 2
”

ugflgu‘

11
11

P
O
S
I
T
I
Q
N
S
SKIP

PUSYTION COUNT
KER?

PAGE

/1ST

DECIMAL

ISAVE

NITH
OVER

4/1/68

ROUTINE COMPR PATR MEMADR SHIFT MEMADR DATA DATA PATR CLA XR OR MEMADR CKDNfiSHIFT COMPR PATR R917 PATR

FUR

AND

fiéfifi /READ RSLQ.

@636

NEXY

IDONE

FOR

‘/DONE.AL {SETUP
R 1?*2

COMPR XRT4 XTBNK XST4 a‘1

.mfi
.¢3. PATH
M14
TAD CMA DCA DCA TAD DCA TAD DCA TAD CMA TAD CMA SEA JMS 15% SK? JHP 18% JHF TAD CMA DCA JMP TAD 515- 'RAL SNL JHP’ DCA JMP CLA 1A8 EMA 4M?— TAD CLL SNL JMP JMS JMP JMP

TEST

ER OR NHEN FGR ISTART
IMUSTsfl xpnme {DUNE IGHECK

1635@913

FIELD TALL‘ESTS

SLXDING

ADR:
/SET /?12 IREAU

SKIP

CKDNQ:

R iT!

EXAM4¢5 TST4+4 TST4¢3

EXT49 XRT4; XST4.

1 27 764% 3126 3W74 11133141 1474 ,3143 1 43 764% ’1 26 764% 764% 4 73 2674 741% 5242. Zifi 52 7.1 27 7%49 3125 5234 ~1 26 7129“ 73947429 5235 '3126 .5296.' 723$7mm1' 734E 5234 1127 7194 742% _5652 4 57 5653 5651 @263 9597 @596

'fléfifi‘g

@6 6 @691 6 82 $63 @6 4 @635 @696 6 67 @615 6 1 E612 @613 @614 @615 ,3616 961? 862% 3621 @62 3623 @624 @625 @626 $627 @631 @652 6 3 @634 @65 : $656 @537 @649 6 41 $642 3643 @64 . @645 @646 9647 @656 @651 @652 vwes

‘

‘L

SKIP
wHEN

INTO

PAGE

C
(
H
E
M
A
D
R
)
A
D
R
E
S
TST1

16:53.14

COMPLEMENT

COUNTER
I4K

'/w2175 ISAHE /u0NE /EXIT FDR IHRITE ICMEMADR) IDQNE xax17 FORTsT1A

FOR

4/1/68

SKIP
H EN

SAME
SKIP
INTO
WHEN

TSTZ

4«

VDONE

fiEBRES

COUNTER-

Faun

..i

TAD IS! JMP

TAD

ISE

‘

Infith wrgl,
/

IfiRITE NFRZ:
_

@20% 1374 3474 2974 525 5654

a za 1974 784% 3474 '2974 5263 56 2

0654 @65 @656 @657 @6 6 36 1

@6 2 @6 3 @6 4 $6 5 96 6* 6 67 9676

IDONE

IEXIT

ROUTINE MEMADR MEMADR MEMADR NFR1*1 wFR1 ROUTINE MEMADR MEMADR MEMADR NFR2*1 wFR2 ROUTINE MEHADR MEMADR Mamag ' HR81$2*
FORWARD DCA JMP FORWARD CMA DCA JMP JMP BACKNARD DGfi‘LQUP USA 15%.LDOP SKP TAD .IAQ JMP
I

FRDM

/INI1ALY:77 iSU§38Ac7.1 FaaTsvza INITIALY=77 ISUBTRACT
,

ADRES

’4K

SKIP
WHEN

IHRITE ‘HRBl;

TAD

BSA-MEMAfiR~-' acxwaeas»autimg
/

-fifizitm;m3“$afig;vg4gwmgmg;@7az;gfjgif.j

gmay; 9672 9673 3674 @675 @676 9733 a?321@763

‘
.

gag?»MEfiABR MENADR LO P NRBZ MEMABR M1 MEMADR HR82*2
I

BEA TAD CMA DOA ISi SKP JMP TAD TAD DCA JMP

zaRrTE H982;
1

3939 3a72 .1fi74 '7fl49 34?4' 2%72 74195734 V1974. 1 42 3574 53%6

alas 213 = eve l 6767371$ @71 '9712@715 ‘3714 @715 $716 @717

HERE

WORD

PAGE

TSTIA

/SAVE

AND

16358.15 TSTl

ICOMPARE EQUAL-Q ER OR

;

GET

TSTZA

NEVER AND

WORD

ISAVE

/MUST IPRINT IDUNE EXIT ISHOULU ”$FOR572

4/1/68

SKIP
WHEN

a“
_

..
‘

(“anging
R;

/COMPARE ER OR WHEN'SKIP

‘szBIRAC?'1

IMUSTzfi IPRINT IDGNE
‘

4'.

$5 3?

ROUTINE MEMADR DATA DATA PATH XR QR MEMADR RFR1PATR RFR;¢1 RFR1 ROUTINE MEHADR DATA -DATA PATH CLA z.XRgoR1MEMADR 9A?RV' PATR_firazag
FORWARD TAD ‘SZA JMS SKP JMP JMP JNP' FORHAR TAD 0 %, up
I

TAD DCA cIA TAD

CgA

{Si

[Si

/HEAD RFgla
/

IREAD RFRZ;
/

@Q@ 1474 3143 1 43 7941 1 26 7649 4 73 2974 7413 5723 12126 5321 572%
@726 @721 @72 6723' 9724 B725 B726 @727 $73 @731 @732 673$ 273$ @735

3735a7§2 676$-67%;“, 9742 6743 @74 @745 9745 @75967%;}: E752 $753 675% '2755

_.,-r‘
A

r-rr

2“ 2”

PAGE

COUNTER COUNT

751 A

/4K

AND

16353.16

151

WGRD

IADR. COMPARE ‘ISAVE
IREAD

ISET

FGR

4/1/68

SKIP
LO P WHEN

ADRES
I

FRUH

ER OR IRANDOM IDONE

IMUST=Q IPRINT

xEXIT

ISUBYRACT
4"

ROUTINE LO P MEMADR. 'PATR XSAL MEMADR DATA DATA PATR CLA XR OR FLCNT LBKl LOOP NEHABR MEMAQRMEHflDR 95K? ?
I

BACKHARD 'DCA
@

alfififl /READ RBKl:
/

CHA DCA CMA DCA JMS TAD DCA TAD CIA- TAD SEA JMS ISZ JHF 15% SK? 4MP 'TAE TAD 'BCA TAD W

LBKlz

lflflfi

938% 3272 7E4M< 3%74 7649 3126 46 5 1474 3143- -1 43_ 7$41 1 26 7646 4 73 2571 5297 2372' 7419 56 9~ 1674' 1 42 3 74 1979 5265‘
1ae 1591 1382 1593 1304 1965 1896 16 7 lfl fl’ 13111612 1613‘ 1014 1615 1816 1617 1926 1921 192 _ $923 1624 1625 1926 1%2?

PAGE

TSTgA
AND

7512 coumvap

4/1/68A1685@.17 ROUTINE

[4K

FOR

BACKNARD
/

woag

ER OR IRANDOM IDONE

ICOMPARE ILO P FIELD

WORD

IADR. COMPARE /SAVE

COUNT

IREAD

/SET

LO P MEMADR PATR
%

SKIP
LDOP WHEN

IHUSY=Q lPRINT

WHEN
4K

ONE

IEXIT

XSAL MEMADR DATA DATA PATR CLA xa oa FLCNT LBKZ LO P RBKZPATR

SKXP '
ra wa xaxlr

ONES

,NEMABR. MEMABR. LBKEmi WRITE
H1

UCA CMA DCA UCA JMS TAD DCh TAD cIA TAD SZA JMS 152 4MP 182 SKP JMP 132 TAD TAD- DEA JHP

T0
.

lfiEAD RENE;
/

LBKZ,

3&24“w.uw

mama 3672 724a 3974 3126 46 5 1474 3143 1 43' 7341 1 26- 764% 4 73 2371 5236 2972 7419 5&39 2126 1a7¢. 1:42~ 5235
1936 1631 1932 13 3 1334 1935 1536 1E37 1543 1341 1342 1343 194 1§45 1346 1947 1353 15 1 1952 1&53 135$ .1fl5 1656

{ROUTINE ONES:

“;$qug;fi§&fimjg*gfi%;

jacé

a
‘

$TAL

:XSALQIH

f13§$.f§3fiw;gj

1657 16611&62 16 3 1364 1365

,/«‘

--4

lea

“04a

“H.amnefi
mcxfixv
wm qa

MUN

PROGRAM
:7

PAGE

FPROGRAM IELD CALLAUSE
PROGQAM FIFLU FIELD AC=Q HAVE DATA FIELD FIELD
/D NE
TAPE HAS
INST? ISAVE DATA
NEW
TEST FE L? /HEAD lREAD IEQUAL ITEST IEXlT
2

zbzfimg17

/UESN‘T /INCREMENT IlNqucHEST

4xi/68 AD RES TESTEB
CBANK XTBNK CBANK CBANK CBANK
SEE
S
A
V
I
F
S
A
V
l
F
CLA
MEMQRY RIF DCA RDF 01A TAD SEA JMP JMS JMP 182 JMP
3F

/EX?ENDED IRGUTENE CBANKe
/

SAVIF!

@%@8 62 4 3 62 V6214 7fl41 1392 764% 56 6 4 67 Sé é 2 6 56 6 fiflfifi
ifibé lasz 1973 1371 1972 1273 1a74 1a75 1976 167 1 0a 1 51 1 92

f‘x

TEST

1N37.F1£LQ'EQ§AL

LAST

IPAGE

FIELD

FIELD
.6261 DATA

/
C
(
L
A
S
T
1
)
lEXIT /AD
DATA DONE
FIELD

16:58.18

/READ

4/1/68

/AL

DATA

saz=1
HALT:

NEW

/1NCREPENT ICHANGE /CHEc-HALT /£x1 CHE R

LAST1_ CLA ,+3 NXYBNK .*6 K16 KCDF .*1

SET
Y0
fl

swzfcu

CLA RDF ch TAD SZA JMP 152 JMP RQF TAD TAD DC‘ CDF

lRDUTiNE NXTBNK:
/

ifmflhTfifififitpyi<

RE618TER XHLT NXTBNK FIELD
cLA
LAS SPA JMS JMP
I

“1,1,1“
,

(CHECK

QATA
/

.1,_fw.w.»1.1.yw-ryi1

IMAKE

xeo

W44

BATA

AND

FOR

539?; 9*1 29 FIELD
1

an?

IRESTDRE FIELD:
/

1-.

1..«1
.1.“

1-1.-1._1.1,S.
1.-.
_

gage 7296 6214 7641 1376 7646 ‘5314 23Q3 5321 6214' 1949 197 3 29 6201

7634 7 19 45E1 ~svas

11931 m4 1 95 1 6 1 97 1 1a 1 1 1 12 1 13 1 14 1 15 1 16 1 17 1 26

1 21 1 2 1 23' 1 24-

sfigfig }

flflflfl 7269' 5214 ‘1fi7 -3 3‘. -62@1 729 5725.
1 25 1 26-1 27 'ilsflzg 1 131' 1 32 1 3 ‘ 1 34 1155.1 36

LIMIT
LIMIT UP ER
LOWER SETUP
IREAD /NOW

PAGE

1635E,19 ADRES
'4/1/68

FIELD
/READ

FIELD
xtEs?

IHRITE

/START

HiRt CLA LAS DCA HLT LAS DEA TAD DCA TAU DCA TAD CIA TAD SNA JMP ISZ JNP HLT
/

OVER; WRLOP:

‘

lRESTQRE lE lf’

DATFLD KCDF 0’1 G?kfi1_fl,

F1RST1 LASTi FIRSTi MEMADR MEMADR I‘MEMADRMEMADR L‘swlCLAV OVERMEMADR NRLOP

LOQP

TEST

.GLA. TAD TAD DEA GDP CLA

CFLD:

72E$ 7694 3%75 742 7684 3976 1&75 3674 1474 3474 1374 7941 1976 765%- 5345 297453477432 .9396 ‘729fi 1826 137 ‘ 3 6 63317236

.5?6;‘1[j

1 37 1 46 1 41 1 42 1 43 1 4 1 45 1 46 1 47 1 59 1 51' 1 52 1 53 1 54 1 5 1 56 1 57 1 69 1 61‘ ‘1 é2 1 63 1 64 1 65 1 6 1 67' 1.1.7

ER OR
2%

DATA
GO D

PAGE

DATA

ADRES FIELD FE LS

fSAVE /0CTAL
BAD

16;5@.2w
4/1/68

LAST
wgwa

/SAVE

pegw?ea

DATA

FzELB iLAST STQRE
Q

g
a

QOINTER

!?éBLE TABLE fRfiSTORE
3?

/RESTDR£ [DATA [Séfi iDONeT

gawa

fififififififi?cfi$£fi$fifi‘

BEL
Ring §EL

Tgagfi

TESTED

xsa

[8R1

/SET

1
&

‘/S%QE

FIELD

FRKNT
N0

fRING

ROUTINE

KFELD

DATA BAD PATH GO D MEMflDR OCADR FQCNT DATELD LAST CLA SW2 DATFLD gag? Efiwfifi

ER OR
/

ENngn‘ egg 2&3 ERTEL ERHRG3A7Egflg gai, Efifififi

EPQNTDATFLD

?RER%

ER OR

3&5 Sfli‘ K23?' 3%?- CLA KCDF s¢1 99
TAD DCA TAD DEA TAD DCA EMA 05AJMS TAD SEA $A§ SNé dfi? TAQ flag Téfl $E& ?£Q Sifi QM? TAQ 35$ $éfi wifié QQfi Lg RTQ gfifi 4%? ?§Q 9M5 .9fi? LAS EAL EMA JN? TAD TAD ch CDF CLA JMP
1

xpfin *12flg ER OR:

3&2;

Sflia

ER£XT§

,2figéfru

126% @69 1 43 3 63 1 26 3 64 1674 3 65 76 % 3&71 4563 132% 7941 iaéé 7é5fi 53 3 1%29 3 6 3925‘ 7$éi ifiafil ?é @ 523% 1324 3 26 gng_ SQZQ 76 4 7636 ??£$ fififiz 1367 .4346‘ 5311 7634 .7964 -7gg 5254 1329V1@7 3251' 6261 728% 569%;
12%@ 1291 1232 123 1264 1295 12 6 123? 1216 121 1212 1213' 121% 1215 1215 121? 12 % 322i 12 ? 12 3 12 4122% 12 6 12 ? '12361231 1232 12$3 i23é 12$§ .12éfi123? 126% 1261 '1242 1243 lzfld 1245 1246 1247 12591251 1252 1253

PAGE

1635@;21

NUMBER

ADR,

NUMBER

/CPaLF /TEST /PRINT /SPAC£ IOCTAL {SAVE /SPACE
ISPACE
fSPACE ITEST
DECIMAL DECJMAL
{PRENT /~B IPRINT IRS IPRINT
/’12

4/1/68
CRLF DATFLD

K26m PRER M14 LO P SPING OCADR CHAR PROCTL M19” LO P SPING 50 0 CHAR PROCTL M5 LOOP SPINB BAD-' flcHABPROCTL M5 LQOP SPING TNUM

.,.,

fRBIMI;,M. IGOVHALT
SR3
CK

IPRINT

ICH

'93fififiwuix;

CLA

XHLT
I

EREXT

K249

gas SPA JMS JMP
/

saw.

IEXIT
031 LO P

SP1NG+2 SPING
I

SPACES TAD TLS TSF JMP' ESE JMP CLA JMP
PRINT SPINGs
[

JMS TAD 9TH RAH TAD JMS TAD DCA JMS TAD DCA JMS TAD DCA JMS_ TAD DOA JMS TAD DCA JHS TAG .QCAJHS TAD DEA JMS 7&0 mé%$:

EPRNT:

[SPACE

/EIT

4354 1Z2® 7%12 7Q1E 1 15 4346 1 15 3672 4315 1365 Sifié 4326 1 14 39724315 1364 3196 4326 1964 $972 4315 1363 <31fl6 64326 1364 3fl72 4315 1fl65363 6' 76547 13 45E5246
1“

@963 137% 694¢ 6541 5329 -2fi72 5317 .7203 5715

1254 125 1256 1257 126% 1261 1262 1263 1264 1265 126 1267' 1273 1271 1272 1273 1274 12?5 12?6 .127 13691361 1362 13§3 1364 1365 .1596 1397 13:3 13111312 1313 1314

1315 1316 1317 1329 1321 132 1323 13241325

COUNTER

PAGE

ASCI DEE
IMAKE IPRINT

/0181T

16256.2

/-4

/CR ILF
,

NEXT
IDO

4/1/68
M4

OCTAL
E/

LO P CHAR RAL CHAR CHAR K7 K26fl PRER L60? POS!7N

1£x1?

PRGC?L‘

,%1

TAD DCA TAD CLL RTL DCA YAD RAg AND TAD JMS 152 JMP CLA JMP

PREQR

NUMBER 7L5 T3? 3M? CLA 'gfl?

;

/pRlNr PRQCTL: POSITN.

EEQ$;L.@”<

JEXZT
X

JPngT pa aeg

fiéfifiléfi-E?QE§MLENE

‘

K215. @RER K212 PRER CRLF
I

CRLFfi

CL“ Tau 9H5 TAU JMS JMP

m fl B

297 24% 212

BADe. 60 0: OCAQRe LAST: K2®7g K248; K212;

gage 1963 3872 1 6 71@4 7%6 31gb 1 36 79%4 Eififi 1 15 4346 2%72 53 1 726% 5726

% §@ éfifiéj 6&4; 535% 72%2 574%

@3 2 72g@ 1 16 4346 15?; 4346 5754 fi@ @ @953 egam gage 0267 624% 6212

1326 1327 13 2 13 1 13 2 13 3 13 4 13 5 13 6 13 7 1343 iséi 1342 134$ 134% 1345

13%613$? 1353 1351 1352 135$

135% 135 1356 135?. 1369 1361 1362 1363 1364 1365 136 1367 137a 1371

PAGE

INPUT

I£LD

16353.23

TEST

T157

0”

FIRST lFIHST /CHANGE /EXIT

4/1/68

Eégng 9*1
.

SET

*1émg

$RQUT£NE

-9
2‘

L‘
'

I60 ’355

31A-.-,:28 DOA cow JMP

/PDSITION mm

lfiASK

IT'S

was

698 TEST

FOR IF

LAST

IPRINT ’WAIT ’355 9 1 ILAST

IPOSITIDN

‘

/MASK

IDK

/IST

xfiILX’9RLFX‘TLIM XCRLF EggifiCHAR
INPUT J”?“”5.1 4M3 TADANDCLLRTL'

'-“

'*2
”TS
*3 L-

13 3:5I1fg9b5'C”EXéfi IJMS-éUERY

K35“

EggiCHARL
N. K7~ LASTFlIRST1 mm OKAS
‘

CIA gagJMP JMP JMS<4Mé TADAND

/ROUT1NE IKEYBOARD SLMng

2ND.

LEGAL

‘

rows: _/“AgTHFQR ‘IGET

9 1 TO

TEST

INPUT

ICR; /CRg

seru1 AC EPT

1’

TEST

QUESTION

lPRXNT

;

COfiMA

a
6

1‘

FIELD

MARK

I
T
’
S
‘
L
E
G
A
L
LiMsz Ac apr

R#thADCAIL Clfi

TA? Wis: OLA

-‘

‘

_
.

‘

'
_
‘

«
1

1
~
_

.1 ”

‘

14g®

7219 1275 197 szgs 62g1 569
*

14n1 1462 14%3 1464 1495

96
4
1
v

SE D 452 4751 452 4333 4314 1 6 @195 7194 7%36 575- '7641 .1353 7459 523 434 521 4313 1 36 $185 7124 7%86 3376 ‘1975 794; $32.3 5256 723
22
1497 191 1412 '1413~1414 1415 1416 1417 1429 1221‘ 1425 1426 1427 1436 1431 1432 143 " 1435. 1436 1437 14 6 1441144 14 3 1‘33: 14 6 14 7

“2323 ;1424-‘1Q6
1

1434».4314

LAST

PAGE

L.‘

FIRS”

wow

PROGRAM

HAS

IFIRST EQUQL
Nod

4/1/68

IF IF

/LAST

PRDGHAM FGR

3K1?

FIELD IPRINT iwAif
5£E
START

OVER

1?
fi

MARK
CeRg

16:50.25

LOCATIQN

/SEE /YES /w0w

/CURENT

[AND

[NO

QUESTIGN

IPRINT OVER
.[N0? /S?ART
Gg g

FIRST: CHAR LASTl FIRST1 CHAR LAST; LASTl FIRST1 ALOK FIRST; INSFLD CLA ALGK XLCAT SkMTS$2 KEVIN CHAR K215 SLMTS QUERY SLMTS¢2

i”;

ALOK;

XPER KEVIN
I

K$§KSF. JNP KRE QCA‘ TAD ans JMP

TAD DCA TAD DCA TAU DCA CLA TAD CIA TAD 52A JMP TAD CzA TAD SEA JMP JMS JMP 4M5 TAD Gga TAQ SMA QM? JMS 4MP

DKAS.

CHéR CHAR.

KEVINe

1875 31%6 1E76 3fi75 11963276 7292 1%76 7Z41 1E75 74 % 5273 1275 7E41 1&23 ?646 5273 4752 521 4363 1 %6 7Q41 1 16 7456 5 a? 434 521 Ease,Q 32~ 6831 5395 6 36 3196 ‘1 36 4510 5793

145% 1451 1452 1453 1454145 1456 1457 146 1461 14$? 1463 1464 1465 1456 1467 1479 1471 1472 iéyg 1476 1475 '1476 ‘147 . 159 1561 1592 153 , .igflém 153$ 1596 15 7 151$ 151$ 1§12 1513

.9'

PAGE
M

fHUBPQUT

COM A

IPRXNT'QUERY;NARK

IQUERY OVER
CIR!
ISTARY

15:52525
4/126

SLMTS+2

LEGAL

LEGAL: SLMTS52 XCRLFK27 “lyififififl'QUERY

CHAR K37 CLA CHAR K37w K262 CLA CHAR K254 CLA CHAR K215 CL5 QUERXV
fl

LEGAL?

TAD C1A TAD SNA JMP TAD AND 011 TAD SNA JMP TAU CIA TAO SNA JMP TAD 81A TAD SNA Jfi?v JMS-452

QUERY:

JHSTAD ;Jfi§y JHP

'TLIMT LQGfiT 25$
XTLIM; XLCAT; K2541

5 2% l fib 7fl41 1 17 765% 52111 36 $12(0 7641 1 15 765% 5714 1 56 7%41 1353- 765 5?14 1 56 7941 1 16 7659 5714 434 521 @5 2 452 1 21 451%574 .1546 169% '62541514 1515 1515 1517 152 1521152 1523 1524 1525 1526 1527 153 1531 1532 153 1534 1535 1535 1537 ,1546 1541 1542 1543 154 1545 1546 15fi?’ 1552 15 11 55215 3

PRGAM+25-

PAGE

FIELD

16:5@,28

IU R ENT

4/1/68

IFLDN

{DONE 15x1? lPRINT

{I /N / [F II IE IL x0 / xx

{P IR ID IS {R 1A [M 1 II

13
'

'ITERMINATOR

‘

PROGRAM

INSFLfl

FIELD
/

/PRINT ilég LUCAT;
/

K269 FLDN PRGAM 12

12
1

LOCAT XPER PLOCT
I

CLA TAD RTR RAR AND TAD DCA TAD BSA YAD SNA JMP JMS 4MP

PLOCT:

n.
,

PRGAM:

32% 322 317 397 322 56; 315. gag- «311 323 24% $$1 319 24% age 311 385 314 394 24%

w w

FLDN,

léflg @ @M 72@@ 1923 7%12 761% @165 1 15 324 1217 3%12 1412 7456 5639 451a 5212 .Qém 532 9317 @3 7 @32 @321 $31?Ifiafifi @31 6323 @249 631 ' @316 9243;9396 $31 @3 5 6314 6364 624% Bfigfi @983

léfifi léfi 16 2 léfi3 16E4 16fl5 1626 1687 1619 161 1612 1613 161“ 1615 1616 15171629 1621 162 1623 .1624 1625- 16261&2? 1639 1631 1632 163 . 1534 1635 1636 163? 1645 1641 1642 1643 164 1645

”AGE

IPRINT'FIELQW

LIMITS

TEST

16§5@,28 /PR§NT

{DONE

lDONE

4f1/68

/T /E /8 IT

IL /I IN /3 IT IS

ITERMzNATUR

zr-a

ISPACE.S

zo ma

fCR:
‘

TSTL 12

12
I

CLA TAU DCA TAD SNA JMP JMS 4M?

TLIMTt

FLINT;

XCRLF_ FILQ;

TLIMT XPER PL1N7
324 sas 323 624 24a 3L4 311 315 511 324 323

TSTL:

@3Q% 72@@ 1257~ SE12 1412 7459 5646 451% 5252 1657 @324 6395 @323 ‘9324‘ ’624fi @314 @31 6315 @31 @324 @323 .EBQE

XE R xpch
.t3. PFILD LO P, OTLDR

TAD

DCA

ROUTINE JMS _TA3 Dcfi “TAD SNA JMS JMP DEA JMS TAD
IHEADER PHDR: PFILD;
1

12
E

JMP

393% 452 413 23‘612 1412 7459 5365' ,4519 539% 16 4 3 72 451 1341 3912
16741575 1&76— 167? 178% 1791 17%? ‘1703. .1?@4 1795 17fié 1737 1716- 171

ADR
.

PAGE

16:5@,29

OCTAL

/PRINT

GO D
%

IPRINT

PAGE

IF
_

/SPACE /DONE INEXT

IDONE

4/1/68

[F 11 IE fk in

,/0 xg .‘17 [A 1k

1Q I0 /Q 'ID

/A ;Q /R
,

”a

.+3

XPER PDCDR
1

XPING

LOOP 60 0 12
1

.ts

XPER P60 0

PHDR

TAD SNA JMP JMS JMP TAD DCA JMS TAD DCA TAU SNA JMP 4M8 JMP

BSPCE

336 311 335 31a SQQ

517 3&3égfl‘.361 314 24% 391 33% 322 256 '9

3%? 517 317 3&4

4MP

PQCDR:

‘

PGQOD;

FlLDa

‘

OTLDR;

GO D.

‘

EXHDR,

”'4“

‘

{

wiféfiuv3§£§;'1‘f

1412 745% S317 451% 5312 16 4 3972 451 135 3912 1412 745a 5731 451% 5324 299 1732636 931 ‘ 9395'$3145394. QWB 1741 @317 a3@3_ 93 1‘ @514 5246 63 1 9364‘ @32 6256 gfiafir 175 6397 9317 @317 B394 flflfifi 5674

1712 1713 1714 1715 1716 1717 172% 1?21 172 1723 1724 1725 1726 172? 1736 1731 1732173 _173é 17351?3é 1737‘1746 1741 1743 1743- 1745. 1746 174?‘ 1759 1751 1752.1753j -1754~ 175 175 A 1757 17661761 1762 1763
,

PAGE
5

léZEQeSE

IPRINT

RTRNi

TEST if
E

BAD

lSPACE lPfiNT IQONE

HEREOR

iCRa IEXIT

IT¢M4W;W

/SPACE IDONE

4/1/68
M5

xPING

LO P BADO 12
I

12
I

9‘3

xPER PBAD LO P XPING TSTN
I

12
12

.*3

SPE z

PBAD;

IRESTAR7

XPEafi PTSTN XCRLF XPHUR
I

HALT

flégfi,39;325 324

TAD DCA JMS TAD DOA TAD SNA JMP JMS JMP TAD DCA JMS TAD DCATAD .SNA JMP 4M5 Jfi? JNS JMP
\$\Crz

IE. IS {T

PTSTN;

236% 1654 3%72 451 1234 3&12 1412 7452' 5212 4518 5295 1864 3672 451 12 6 3512 1412 745% 52 4 -4513 521? 452 5&4

T37§9

BAS ;

.3fi2 3&1 363

HALT:

HLT JMP

EXHDR

XPHQR:

2926 gfifififi6335@323 @324 353% Zfi34 wsaz wag; 3 64 E@ % ‘flfififi 7492. 5641 1763
ZQBE ZEQI ZQ Z 2%fi3 2394 2%05 29 6 2397 2615 231 2312 ,2913- 2314 2§lfi 2616 2317 2326 232% 262 :ZQES, 2%24 2625 2%26 :2g flm 23 3‘ 253% 2&3? 293 zese 2&35 2936- 2&3? 2Q49 2941“ 2&4? 2643 ga av

PAGE

RETURN FIELD SETUP
DATA IPRINT

CARIAGE

16:59.31

IRESTORE /CR§

TYPE

4/1/68

FIELD

ANOTHER

IDONE

IS IE

(#4,; -!9< 1/5

xear

_/R

DATA

[RESTORE IEXIT

SR.

XFILD GENRAN K17 FLCNT DATFLD KCDF 2+1 STAL
SETUP SR, XFILD XCRLF_ STSR .+3 XPER PSTSR {*4 XPER SETsR Mch HTCR
JMS JHS AND CHA DCA TAD TAD DCA CDF CLA JMP 9017
JMS JMS TAD DCA TAU SNA JNP JNS JMP KRB NSF JHP KRB JMS JNP LAS DCA JMP 323 395 324 325i 329 24% 323 522
HERE SET I
K17,
NTCR:
STSR)
/WAIT IAFTER SETSR:
PSTSR;
STAL !
12

I I

{

mafia 4593 452 1270 3612 1412 7459‘,5257 4519 5252 6 36 6 31 5265 6836 4518 5645' 7634 3E3? 525% 2E7B @323 fi3fi5 9324 9325' 632% 924% @323 "@32 flfififi 9 93' 4593 4317 6316 7%46 3971 .192 187 3 13 6291 7260 5792 aa17
2645 2&46 2947 2%56 2%51 2%52 2%53 2fl54' 235 2656 2&5? 2a¢e ,26 1 26 2 26 3 26 4 ‘2a gge s 26b? 2E79 2671 2&72 ~2373 2&74« 2a75 2a75 297 2193 21a1 2192 213 2194 2195 216 21E7 21 9 21 1 21 2 21 3 21 4 2115 .21 6

PAGE

16352132
4/1/68

RANTAB RANDEX CLA RANTAO-1 TBLRANRANDEX RANCON RAL RANCON RANDEX RANCON RANDEX RANDEX RANUEX 1.6ENRAN BL+16
K1

‘GENRANs

1254 RANT 4321 1416 5363 696% 5635 2572 3237 @214 991 RANT

TAD CIA TAD SEA JMP TAD DCA TAU CLL 52L TAD DCA TAD. TAD DCA TAD I32 JMP

RANTAD:

RANCONp, RANDEX: RANTBL:

RANTAB: TBLRAN:

2 9% 135 7241 1343 7642 53 4 1356 3 43 1342 7124 743 . 1 23 3 42 1743 1342 3743 1743 2343 5717 1234 2154 4321 1415 5363' 6262 3235 2572 3237 22142 9 2154 214
21 7 212 2121 212 2123 2124 2125 2126 2127 .2132 2131 2132 213 2134 2135 2136 2137 2142 2141 2142 2143 214 ~ 2145- 2146- 2147 2156 2151 2152 2153 #2154 215 21561

PDLNTER

PAGE

RELOCATION

16:52,3

FUR

4/1/68

FIELD FiELD
T
A
B
L
E
FIELD
2 202 TESTED TESTED EQUAL 02 2
CURENT /SETUP 121237 ILAST /START
MOVE

TIME
NEXT

MOVE
NEXT

72 ?

227

SKIP xsawup 2 27

[LAST

FOR

xo mvr

CUR ENT

252

222

222?“ Nix?

222

ICURENT NXL022£STvN

FIELD F202

AS TRY

12 2

ISUBTRAC?

FIELD

x521

DETERMINE

XFILD 2 72 £2 2 FlRSTl LASTi 22A x272 FLAGS /FIRST x72 FLAGS 2 37: ENSFLG 2 2 23 212 2x2 2

MOVE

FiELQ
222

/£5

(TAQAENSFLQ=

222 $2 1
228 752 TAD DCA TAD 212 TAD SNA 222 722 2A2 SZL 222 122 222 722 BCA 722 TAD DCA 21F cza. $22 222
<

SAME IYES.
NEXT

IRQUTINE #22 222,
/

‘

2 2 4523 72 2 12 4 32 6 1275 ‘7241 1272 7652 5 2 12 1 7212 7432 5725 72 1 32 1 1272 32 3 12 2 1 14 3124 2 2 ?$41 21823 765% 526

2 2 2 21 2 2 2 23 2 24 2 25 2 2 —2 27 2212 2 1 2 12 2 13 2 14 2 15 2 12 2 1? 2 2 2 2 2 2 -2 23 2 24 .2 25 2 2 2 2? 2 32

PAGE

MOVE

FIELD

R
E
C
O
R
D
E
D
IROINTER+1 /INZT£ALIE

NEW
IN

ER ORS

1635293 FE LS

IER OR

IND

FIRST

MOVE

IENTBL=ERNRD*18 iINITIALIZEIPOEMTER+1
DONE

/TABLE

NEXT 9?
Q?
FROM

POIN?ER

FE LD
ERQGR
{GET

4/1/68 ME“

f'/SURE&T

MOVE OVER FIELQ iYESL

IDQN’T /STARY £35 /suara cf
ET

TABLE

@3F

FIEkD

IRESWQE CURENT CURENT
2

[NEXT

iNEH

LOWEST,FIEgD
=

I15

LOWER
FIELD FRGM FIELD
{YES NEW INEXT
DF

ICURENT {SUBTRACT

ERNRD CLA STMV ERNRD ENSFLD CLA EQUAL ERwRo ENTBL CLA STMV ERNRQ CNXT ERNRD FIRSTI CLA XRTN ERWRD CLA 3931.iwsFLD Hgg NXLOC ERTQL ERNRD NXLQC INSg D CLA EQUAL NXLQC INSFLD INSFLD FERSTiCLA CKER INSFLD M13 NXLOC CKER
E
R
W
R
D
C
M
O
V
E
+
1
ER OR
I

FOR ISi TAD CiA TAD SNA JMP TAD CIA TAD SNA JMP TAD CIA TAD SNA

TAD

;

TAD SNA 4MP TAD DCA TAD 81A TAD SNA JMP TAD TAD DCA JMP

[CHECK CKER E
/

CNXT,

EQUAL:

2&26 iZQi 7941 1426 765% 531% 1426 7941 1623 7659 ‘5253' iggé7941 1%25 ,7652 531% 2%26 5237 1426 7%41 1a?5 765% 5 g2 1426 '75 3 526 1&23 1 14- _3124 193% V3fl26 1 2% 7fiéi 1623 7653 5253 1 24 3 23 1%23 7641 1975 .7659 5231 1%23 1 14 3124 5231
2 31 2 32 2 3 2 34 2 35' 2 36 2 37 2 4% 2 41 2 42 2 43 2 4 2 45 2 46 2 47 2 56 2 51 2 52 2353 2 54 2 5 2 56 2 57 2 %5 2 61 2 62' 2 63 2 54 2 65 2 6$ 2 67 2 7% -2 71 2 72 2 73 2274 2 ?5 2 76 2 7 23@@ 23fi 23 2 2363 23 4 23%5 2306 23%7

POINTER

TABLE

PAGE

EQUAL

IRESTOHE

16:53.35

MOVE OVER

MOVE

/UON’T fSTART IGO

4/1/68

ERTBL ERwRD XSRCE XSRCE INSFLD CLA- XRTN XMVE
I

CLA TAD DCA HgF USA TAD CIA TAD SNA JMP JMP

STF‘V;

SOURCE MOVE NXTMV
XSRCE! XMVE: XTMV§

729% 1924 3926 62 4 5723 1723 7E41 1623 765%- 55g; 5724 2522 '2537 24@@

231? 231 2312 2313 2314 2315 2316 2317 2329 2321 232 2323' 2324 ,2325

1F-2 MDVE

PAGE

FIELD

1635%435

lCURENT

4/1/68

FIELD
LOWER

FIELD NEXT

R
E
C
D
R
D
E
U
IPOINTER /1NIT1ALIZE

NEW

ITRY
IN

ER ORS

/ER DR

/NO

TABLE
NLTH

FIELQ

FUENTER FIELD

Nova

TABLE

INITIALIZExpotmra fRESTQRE

(DONE

LOWEST [MOVE

FIELC
FIELD LOWER
MOVE
FLOWER IELD NEW
FROM NEXT MOVE
LOWEST ISETUP INEXT CUR ENT INEN IGO

iNEXT

INEXT

LOWER
/NEXT

HIGHEST

TEST
[F

(NfixlfigflaflgNTMEF.fi

LOWEST

IF TO

NOW
lIS

ISUBTRACT

SOURCE ERNRD NXTMV ERNRD CLA STNXT ERNRD NXLUC CLA SUEZ ERNRD ENTBL CLA STNXT ER RD CKNXT ERTBL ERWRD NXLQC INSFLD GL4: CKNT4x106 FlasTi CLA STNX MVBK ngoc F1RST1 CLA' NXTHI NXLOC INSFLD INSFLD Mlfi NXLDC MOVE
1

lbmfl HIP DCA 18% TAD CIA TAD SNA JMP TAD CIA TAD SNA JMP TAD CIA TAD SNA JMP ISE JMP TAD DCA TAD c14 TAD ISNA 4M2TAO 211 TAD $24 422 442 TAD 231 TAD SNA JMP TAD DCA TAD 740 USA JMP

fiedafi NXTMV: CHNXT:
/

CKNXT!

STNXT4

CKNT:

STNX,

248% 76wfi- 62 4 33222826 12 6 7241 1426 7652 52 5 1426 7&41 1 24 765% 525 1926 7241 12 5 7659 52 5 2%26 521 . 12 4 32 4 1 24 7241 1923 292 5242* 1 24 7961 1375‘ 7640 ,5247 5362' 1124 7941" 1fl75 765% 5275 1 24 3 23. 12 3 1 14 3124 5327

243% 24Q1 2492 2403 2464 2495 246 2497 2415 241 2412 2413 2414 2415i 2416 2417 242% 2421 242 2423 2424= 2425 2426 2427 243 2431 243213 29332434 _2€35- 2436 2437 24 % 24 1‘ 24 2 24 3 24 4 24 5 24 6 24 7 2452 2451 2452 2453 2454

.
.

.w.

..—«.-_.‘

PoifiTEnFIELD

TABLE

PAGE

nova FItLDS

lHESTORE

TEST FIELD
TO
NEXT
LAST 1T

LOWER CAN'T
FIELD
E
Q
U
A
L
F
I
E
L
D
/NLXT OVER INOW
/YES /YES /VERY IMAKE
2

16:5936
4/1/68

LOWER
w

BIT

IDOES INC

fCLEéR

/=F1ELD ISTART tSUBTRACT ICURENT

THEY
/ARE

ERTBL ERwRD NXLOC XRTN H16 NXLOC NXLOC INSFLDV CLA CHNXT NXLQC CHNXT SU82é5 LASTi LflSTl iNSFLD CHNXT NXLQC INSFLD SOURCE FLAGS
I

TAD DCA TAD SNA JMP TAD UCA TAD ClA TAD 32A JHP TAD SNA JMP JMP TAD DCA TAD DCA JMP TADDOA REF ‘BCA DCA
N
.1:

I)
\U‘:

NxTHI.

MVBK:

1324 sage 1 24 745% 5 m2 1 14 3124 1 24 7941 1323 764% 5293 1 24 745% 523 5262 1976 ‘3124 ifi76 3 23 '5293- 1 24 3$23 62 4 3 2 : 3921
245 2456 2457 246% 2461 2462 2463 2464 2465 246 2467 2479 2471 2472 2473 2474 2475 2d76 247? 2596 25%1 2532 25fl3 -2564 25%5 2536

SKIP
HERE
HERE wHEN
FRGfi IN 4K

CDF

PAGE

60?

NON

/62fl1 FIELD NEW /62@1 /DESTN COUNT
FIELD
=

COUNT COUNTER

NEw

/4K CDF

laamga FIELDS ICURENTISOURCE INEw ISOURCE /DESTINATION /H1L
4/1/68

FE LD

/TAKE IPUT [DONE MOVING I6232

FIELD

R7Ni
T0

FE LS

/KE P ZNEW IQHANGE IEXlT {NEW

RELOCATE KCDF SOURcfiSOURCE_KCDF INSFLD DESTN
TO

TAD TAD DCA TAD TAD DCA CMA DCA CMA USA BSA TAD DCA 152 JM9 TAD TAO USA 0;? JMP
9

/RQUT1NE Mavg,

SOURCE: DESTN:

187 132 3 2 1a7 1Q23 3 24 734% sale 734% 361 3fl72 @3 0 141% $686 341 2&72 532 1 65 13233 3 6292 5 62

ER ORS

2567 2516 251 2512 2513 2514 2515 2516 2517 2523 2S21 252 2523 2524 2525 2526 2527 253 25312532 253 2534

ARE,N0'
THERE

PAGi

16:58.38
4/1/68

‘

TABLE

@2 3 1473 1363 2&34 @283 zflafi 136 6281 1 61 @136 2463 6262 9642 Z479 2 31 24 2 241 2 8% 2 37 6127 Bfl7fl 1354‘ 6343 9629 2524 @625 1254 ‘2 53 1zfiéwfl 1236 9 24 €826 9237 "924 @251 6256 .1763 @125_$561;6 5% 1 25. 1732 .6975 @2 1 @971 164421 7 175 1364 2341 @623 @67 @189
,

'
,

‘

SYMBOL ALAN ALOK BAD BAD BEGIN BSPCE CBANK CDF CFLU CHAR CHNXT CIF CKDNQ CKDNi CKER CKNT CKNXT CMOVE .CNXT COMPR COUNT CRLF DATA_ DATFLDDESTN ENTBL EPRNT ‘EQUALEREXT ER GR ERTBL ERHRD EXAMi EXAM? EXAMS. EXAM4~.EXHDR EXIT EXT3<'EXT4 FIELD FILD ‘FIRSTIFLAGS FLCNT FLDN GENRAN 60 0 GO D HALT INSFLD KCDF KCIF

PAGE

163594
4/1/68

TABLE

1525 @123 @fi4fi 964 21 6 @246 @343 1367 1371 @1 6 1379 15 3 @1 5 @35 8256 @657 $6 9 @121 ‘6129 @1 7 $645 6942' @195 '6941 136 @376 1697 1936 1514 16 9 9672 @3 7 @374 25972592 @142 @1 4 @1 2 61 3 @261 @6 3 @962 3 64‘ @124 1 3 2475 2460 1365 1456 1657 1741 1 452126'

SYMBOL KEYIN K1@ K129 K17 K22 K26 K267 K212 K215 K249 K2547 K265 K261 K262 K263 K264 K27 K37fi K37 K49 K¢68 K742 LASY LAST: LBKi LBKZ LE AL: LOCAT LO PMC”A MEMADR MOVE MVBK M13 M13 M14 M26 M49 NXLOC NXTBNK NXVHI NXTMVOCADR OKAS ONES OTLDR OVER WEATR~
K1

PAGE

16:58.56
4/1/68

TABLE

z gs 17e2 1724 1674 1652 1612 1712 13 1 1346 1617 .1326 2952 2317 154 2142 2143 215 ‘ 2135 214 ifififl $236 @214_ $723 @736 62 4 @4 1 aea4 6 3 9a35. @21 9213.1 92~ 2945 14mg @191 1497 252 - 13152192 2316 24 7 2425 2 76 2 6 245 131 1242 123 2156 1646 @6 5 1657 2926

SYMBOL pBAD PFILD PGO D PHDRFLINT PLOCT POCDR POSITN PRER PRGAH PROCTL PSTSR PTSTN QUERY RANCON RANDEX RANTAB RANTAD RANTBL RBK1 RBKZ RGF RFRl. RFRZ RIF R OT RRiT RSLB RSLl RSTRTi RTNISAVIF SETSR seru1SHIFT SLMTS souncaSPING STAL ;STMV‘ STNX SYNxT STSR SUBl suae'SNfl sw1 SW2 TBLRAN TLIMT TNUM TSTL TSTN

PAGE

16252956
4/1/68

TABLE

@275 @3 6 @346 E4EQ 'gsgs @5 4 @562 @671 @734 1 47 @414 @523 236 @132 @136 @36 @12 @13 @131 6135 6137 @131 15 2 az z afis .2324 6146 91 $ 294 ‘ Halil _a194. @373A@132 9652 1965 @954- @5 2 2323 @275 @653 @367 15 1 .2325 9 47 @959- figsl g gz 95 1 @13 @137 313% @134
'

‘

SYMBOL T871 T572 TSTZA TST5 ‘TST4 “F91 “FR? NR81 “R92 WRLOP ”R07 ’“R17 WTCR XBAK XBAKZ XBANK 'XCRLF XFILD XFWQ XFHDZ XHOR XHLT- XLCAV MTSX.OVE XMVE xomas Xfigfifl .XPHQRXPING XPRER XR OR XRTN' XRTQ “SAL XSETU XSLE XSRCE XSTSR vXSTQ XVBNK XTLIM XTMV X7571 X7372 XTST3 XTST4 XT4 XWRB XWRB XHRF XNRFZ
X

-_._._.
M

\._._._._

‘\

/‘.

16:51.2
4/1/68

TABLE

SYMBOL

PAGE

16:51,2
4/1/6&

@EZB @321 @92 -E%23 @924 @2 5 gaze @g37 @949 @941 gaqz z 4s @64 @z45 @946 @347 mean 53516352 5953 9354 a s _56 @252 6961 @ae ages 6964< @6 5 36 6 @967 @679 @671 9372@973 @374 3675' ‘5376 @67 @160 6151 @192 @193 @134 @185 @16 61E7 @1 9 .Ql l @1 2 @1 3 @1 4
57

TABLE

SYMBOL DATFLD FLAGS XLMTS INSFLD ERTBL ENTBL ERNRD MCWA Klm K743 K4Qfl K29 Klan ‘K4Q K29 *x151 x1372x7513 x7314 XMOVE xseru K261 K262 K263 K264 vmem M49 M4- ‘M5 TNUM XBANK XTBNK COUNTFLCNT LO P xanoa MEMADR FIRSTI LASTl KCDF KCIF XHLT XRTNW XFILD XPRER CHAR XHDR. .XPER XPING M13 M14 ,lea
///

PAGE

16:51.8
4/1/68
,

‘

TABLE

21 5 $1 6 @1 7 @126 @121 @12 @123 @124 @125 0126 @127 ‘5139 @131 @132 @13 @134@135 @136 e137 @142 @141 '3142 @143 626% @21 8213‘ @2 3, @237 .azg . 9251 6256 @275- @2767 $313 @3 6 @346 846 a a ‘ @436 @4 1 @478 aszx .QSQS @529 @5 1. @5 2 fléflfi @6Q4 ,m542 EbSfl @652 @653 @654
'

‘

,
.

.‘

SYMBOL K269 K215 K57 K376 .K27 XCRLF NXLOC_ EXIT PATR COMPR quF XFND XBAK. XNRB; waF2 waoz XBAK2 anaz xowes SHIFT DAIA BEGIN RSTRTl aRTNi ALAN EXAMi EXAflZL EXAM} EXAM4 XSTSR< ,TSTl TSTlATST2 TSTZA T813" ‘WROT RSL1 R OT CKDNi. EXTS TST4 wR1T' XT4 sta RSLE R 1T CKDNQ EXT4 XRT4 -XST4 anl
K1

PAGE

16:51.14
4/1/68

TABLE

E6 2 @671 $724 @728 @736 1ga 1297 \1fl3fl 1636 1657 lass 1%6 .1 92 1 93 1 1251 45 1 47 1 61 12a9 123 1242 .1246 1254 131 1315 1326 13 1 13é - lififl‘ 13631364 1365 136 1367 _137$1371 .14a 1467 1456 1473 1573 1514 154 15 1 15 2 15 3 1699 .1612 1617 164 1646 1652 1657
'

‘

SYMBOL wFaz wRBl wasa RFRl RFRZ RBKi LBKi RBKZ LBK2 ONES XSAL CRANK SAVIF NXTBNK FIELD OVER HRLOP CFLD ER OR 8H2 5N1 EREXT EPRNT 5W9 SPING' PROCTLPoSzTN PRER ' CRLF BAD 60 0 ocaoR LAST' K267 K246 K212 sEyui‘SLHTSj OKAS A LGK KEYIN LEGAL oua v XTLIM ~XLCAT K254 LOCA QAMFLENTLIVTPLIRT TS“..
so

p P

{

‘

>
_

€“M ~J

”‘

}

)

PAGE

16:51.21
4/1/68

TABLE

1674 1720 1712 1724 1732 1741 175 1763 2020 2025 2 17 20262034 ‘2941 2 4 204520522 60' 297B 2192 21 6 21 7 2135' 2142 2143 214 21552156 .2 20 2 31 2 37 22532 6 2310 2323 2324' 2325 2490- 2423 241 2425 24 2 24 7 245 - 2475 .2502 2567 2522 2524 .02 1 462 2 6214 62 4
'0

’

SYMBOL PHnR PFILD- PDCDR P60 0'FILD‘OTLDR 60 0 VEXHDR BSPCE PBADPTSTNTSTN0400HALTXPHDR SETSRPsxsn<uTcRSTSR STAL 17“ ENRAN RANTAD RANCON RANDEX .RANTBL RANTAB TBLRAN {canv27 CKER ' CNXT EQUAL 8031 STMV XSRCE XMVE xTMvNXTHV CHNXT. CKNXT'< STNXT CKNT STNX suez NXTH! MVBK MOVE 30 0 5 DESTNGDP C1? RUF RIF

“WE“,

1"”

PAGE;

16:5127
.4/1/68

TABLE

SYMBOL
‘

"4 WW