60024300J_CDC_1604A_Customer_Engineering_Diagrams_Jan1966 60024300J CDC 1604A Customer Engineering Diagrams Jan1966
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Customer EnineerinDiarams
CONTROL D
1604-A COMPUTER
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Customer EnineerinDiarams
CONTROL 0
1604-A COMPUTER
Pub. No. 60024300
January, 1966
Printed in the Tjnited States of Arnerica
SSSISSiSIIISSSI•SSSSSSSSSSSISSSurIiW
60024300
RECORD
REVISION
OF
REVISIONS
NOTES
E
ECN's 1-119 included in this printing.
F
Change Orders 9008 and 9067; pages 14, 21. 0,
25, 26, 27, 30, and 53 revised.
H
(7-21-65)
Change Order 9240 (did not advance Product Designation level 1604A-123).
Pages 5, 19.2, 24. 1, 33, 57, 80.0, 80. 1, 80.2,
80.3, 80.4, 80. 6, 80. 7, and 80. 8 revised.
Change Order 9986 and misc. corrections. New Product Designation 1604-A124. Pages 5, 9, 16, 19. 6, 24. 0, 28, 32, 42,
47.6, 49.3, 54.0, 54. 1, 55.0, 55. 1, 58 and 78 revised. Input Term Lists for pages 14 and 33 revised.
J
(11-10-65)
Change Order 11539 and misc. corrections.
Input Term Lists for 24.0 and 28 revised.
G
FORM CA 109
New Product Designation 1604-A125.
Pages 9, 24.0, 28 and 80. 7 revised.
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TABLE OF CONTENTS
27 Autoioad Wiring Diagrani
CONTROL SEQUENCES
STORAGE SECTION
1 Key to Symbols Used On Logic Diagrams
28 Manual Control
54 Storage Sequence Control (2 Pages)
2 Overall Logic Diagram
29 Resynchronizing Counter
55 Bit Plane Circuits (2 Pages)
3 Sequence Control Chart
30 Sense and Interrupt Circuits
56 Address Selection (2 Pages)
4 Sequence Exits
31 Interrupt Select and Sense Transiators
57 Initiate Storage Reference
5 Read Next Instruction
32 Interrupt Scanner and IAR
58 Storage Card Placement
6 Normal Jump
33 Interrupt Sequence
59 Storage Selection (2 Pages)
7 Zero Address Sequence
34 Digit Display Gates
8 Read Operand (2 Pages)
35 Breakpoint
9 Write Operand
BUFFER CONTROL SECTION
10 Search and Transfer (3 Pages)
36 Conimon Control Register and Comparator
11 Iterative-Main Sequence
37 Controi Registers (Upper)
12 Iterative-Multiply and Divide Control
38 Controi Registers (Lower)
13 Iterative-Fioating Point
39 Control Register Control
7
40 Inverter Ranks 1 and 1
14 Iterative-Round, Normalize, Final Floating
Point Assembly
15 Iterative-End Sign Correction
16 External Function Sequence
17 Auxiliary Sequence (2 Pages)
41
i
x,
zi 1 , CCRI 1
42 Righ Speed Storage Sequence
7
43 Transfer 1 to U 1
44 U, P 1 , and CCR Transiators
45 Auxiiiary Scanner
CONTROL SECTION
18 U i and U 2 Registers (4 Pages)
ARITHMETIC SECTION
INPUT - OUT PUT SECTION
60 Ready Resume Circuitry
61 Computer Input From External Equipment
62 External Function Inverters 00
63 Output Registers o, 0 2 ,0
and
CONSOLE INPUT-OUTPUT EQUIPMENT
64 Input Assernbly Register
65 Output Disassenibiy Register
66 External Function Translator
67 Typewriter Controi
68 Typewriter Interconnections
69 Paper Tape Punch Control
70 Paper Tape Punch Circuits
71 Paper Tape Reader Control
19 Operation Code and Designator Transiation
(7 Pages)
2
20 U Borrow Pyrarnid
46 A and Q Register Control
72 Paper Tape Reader Circuits
47 A and Q Register (9 Pages)
73 Paper Tape Reader and Punch Manual Controls
21 R Register (2 Pages)
49 X Register (5 Pages)
22 R Register Inverter Ranks I
2 3 4
48 Accumulator Borrow Pyramid (4 Pages)
50 X Register Control (2 Pages)
23 B Registers (3 Pages)
51 Shift Control
24 P Register (2 Pages)
52 Arithmetic Sensing Networks
25 Computer Master Clear
53 Arithmetic Faults
26 Autoload Circuit
CONSOLE, CLOCK AND POWER
74 Clock Card Interconnections
75 General Power Distribution (2 Pages)
76 Main Cabinet Power Distribution
77 Console Power Distribution
78 Console Display Panel
79 Console Relay Chassis Map
80 Main Cabinet Cable Connections (9 Pages)
81 Console Cable Connections
isssiiiiiiiiiiiiisssssissisiusssi
SYMBOLS
SINGLE INVERTER - 4 SINGLE INVERTER INVERTS INPUT SIGNALS SO THAT 4 II INPUT
II OUTPUT. INPUTS TO THE SYMBOL
GIVES A 0 OUTPUT AND 4 0 INPUT GIVES 4
TIME DELAY- 4 TIME DELAY IS USEC TO DELAY THE TIME AT WI-IICH 4 1 SIGNAL
IS SENSED BY THE INPUT OF 4 CARD. lT WILL 1-IAVE NEGLIGIBLE EFFECT ON 4 0
ARE SHOWN BY ARROWHEADS.
SIGNAL. THE METHOD OF CONNECTING 4 TIME DELAY BETWEEN TWO LOGIC CARDS,
4 AND B, AND TI-IE SYMBOL USED TO REPRESENT THIS CONNECTION ON 4 LOGIC
DIAGRAM IS SHOWN BELOW.
4503
4500
4505
SINGLE INVERTER
SINGLE INVERTER
WTN OR INPUTS
SINGLE INVERTER
WITH "AND INPUT
iri
Li
FLIP-FLOP (FF) - 4 FLIP-FLOP IS t TEMPORARY STORAGE DEVICE WITH TWO.STABLE STATES
DESIGNATED SET & CLEAR. WHEN 4 FF IS SET, THE SET OUTPUT IS 4 LOGICAL "1',
WHEN CLEAR,THE CLEAR OUTPUT IS 4 I THE LOGICAL SYMBOL FOR 4 FF IS 4 SQUARE
(FIG.A) FORMED BY THE COMBINATION OF TWO SINGLE INVERTER SYMBOLS. THE INTER-
‚JACK ASSIGNMENTS
CONNECTION OF THE TWO INVERTERS IS SHOWN IN FIG. B. BY CONJVENTION,SET INPUTS &
OUTPUTS ARE SHOWN ON THE UPPER OR LEFT HALF OF THE SYMBOL: CLEAR INPUTS &
OUTPUTS ON THE LOWER OR RIGHT HALF. WITH THE EXCEPTION OF THE B REGISTER,THE SET
INPUT IS TO THE EVEN NUMBERED INVERTER 8 THE SET OUTPUT IS FROM THE ODD INVERTER.
-
:— o
0
-l- SET
OUTPUT
11
-o
:— o
VERTICAL COORDINATE
124
HORIZONTAL COORDINATE
CARD CIRCUIT
WHEN MOST OF THE JACK ASSIGNMENTS ON 4 DIAGRAM ARE ON 4 COMMON
CHASSIS, THE CHASSIS NUMBER IS OMITTED FROM THE JACK ASSIGNMENTS
CLEAR
SET
CONVENTIONS APPLICABLE TO JACK ASSIGNMENTS SHOWN ON THE DIAGRAMS:
:FIG. 8
CONTROL DELAY - A CONTROL DELAY CONSISTS OF AN H
THE INPUT, AND 4 V
CHASSIS NO.
CLEAR
OUTPUT
CLEAR
FIG.A
ASSIGNMENT
0
CLEAR
=1=
JACK
2H
SET
INPUT
4 001
-
APPEAR NEAR lT.
-
SET
0
JACK ASSIGNMENTS INDICATE THE PHYSICAL LOCATION OF 4 PRINTED CIRCUIT CARD.
ON LOGICAL DIAGRAMS, THE JACK ASSIGNMENTS ASSOCIATED WITH EACH SYMBOL
FOR THIS CHASSIS AND SPECIFIED IN 4 NOTE ON THE DIAGRAM.
THE OMISSION OF THE CARD CIRCUIT LETTER FROM 4 JACK ASSIGNMENT
PART, WHICH RECEIVES
INDICATES CARD CIRCUIT B. (FOR FLIP-FLOPS WHICH INDICATE ONE JACK
OR N" PART,WHICH PROVIDES THE OUTPUT. THE
ASSIGNMENT FOR BOTH INVERTERS, THE OMISSION OF THE CARD CIRCUIT
OUTPUT IS 4 CLOCKED PULSE WHICH IS DELAYED WITH RESPECT TO THE INPUT BY
LETTER INDICATES CARD CIRCUIT 4 FOR THE EVEN-NUMBERED INVERTER
ONE PHASE TIME OF THE CLOCI< (0.2 MICROSECOND).
AND CARD CIRCUIT C FOR THE 000-NUMBERED INVERTER.)
CONVENTIONS APPLICABLE TO CONTROL DELAY5:
CLOCK PULSE INPUTS TO CONTROL DELAYS ARE NOT SHOWN ON THE DIAGRAMS
AND MUST BE OBTAINED FROM THE EQUATION FILE.
SYMBOLIC REPRESENTATION OF EQUATIONS
AN ODD NUMBER INDICATES 4 CLOCK OUTPUT OF ODD PHASE AND AN EVEN
NUMBER, OF EVEN PHASE.
v °63
THE TIME SCALES SHOWN ON ALL SEQUENCE DIAGRAMS ARE IN 0.2
F 506
V 006
FAULT DETECTOR
v065
31407
MICROSECOND (1 CLOCK PHASE TIME) INTERVALS.
:K
j337
K 634 = K 635
+ V 063 V 065
F 5
v 006
H 401
3HO74
006
K 635 = K
3H07C
K 364
3M56A
«V° 06 F
3M56C
5
+V 006 F
6 +C 318
V 401
3L56B V 401
4
+ w 160
: 1< 634
H
3M56A:
2 V 4 +C 319
3L57B
"H 4 +C 359
H 402 :H 816
V 402 =H 402 +C 3
V 402
3M56C
H 403
SINGLE INPUT & OUTPUT
QUADRANT SYSTEM
2
L
N °°4
MULTIPLE OUTPUT
TO FACILITATE THE LOCATION
006
H 0°7
K 634
v°°7
. V 00
J
INTO QUADRANTS AS SHOWN
MULTIPLE INPUT
ONLY WHEN SECOND INPUT
TERM
15 AN H
QUADRANT 0 QUADRANT 1
!
I
EACH PAGE HAS BEEN DIVIDED
H 634
H 634
OF TERMS ON THE DIAGRAMS,
CONDITIONED OUTPUT
WHEN SECOND iNPUT IS
TERM
00-1ER THUN H
?ONtES
o,&m oww,w
‚yw,
•
CONTROI. DATA
QUADRANT 2 QUADRANT 3J
1604-A
IN FIGURE.
-
Tau
KEY TO SYMBOLS USED
ON LOGICAL DIAGRAMS
XDP 214570
1011111111111111018 S8 8888 8 ei@ ei§$ i
2
~
.
Z
STORAGE
Z
48
5RAGE
REGISTER
STORAGE
48 BITS
—
STORAGE 1
~
i
16,348 WORDS
Z'
48
pl
—lt
ST0 R
AGE ADDRE:,SS REGISTER
(48
Si
S
CCRu -G
O TRANSMISSION
Z2
REGISTER
-
STORAGE
STORAGE
AGNETIC CORE STORAGE
TORAGEAD::ESSRE
GI
14 BITS
2
STORAGE
:I
ToRAGE
STER
u2
-lt
S2
-
s2
STORAGE SECTION
X-. U INDIRECT AODRESSING
48
48
U2
X
EXCHANGE REGISTER
XI
——
F
p
-
U EXPONENT (FLOATING POINT)
-
5 EXPOtNT (FLOATING POiNT)
OPERATION CODE
TRANSLATOR
—lt
INDEX CODE
TRANSLATOR
f0'
U
b
uLu
48
X2
f
0 OUTPUT TRANSFER
In
1 PROGRAM CONTROL REGISTER
48
UPPER 24 BITS
RIG HT
A
A'
0
AUXILIARY ARITH. REGISTER
48 BITS
LEFTA&Q SHIFT(I)01
REGISTER —
48 BITS
Q 2 -lt A'
2
P
A2 -t Q
4 L.EFT CIR.SHIFT
UI
lt
0 LEFT CIR.SHIFT
p2
-
REGISTER
15 BITS
LONG 8 & Q LEFT dR. SHIFT
0
UI
lt
1
0
0
lt
p 1 PROGRAM ADDRESS
U2
PROGRAM CONTROL REGISTER
5 BITS
0
2l
o
o
LOWER 24 BITS
8 0 SHIFTIIl
0
>2
1
>2
1
-
c0NDITI0N CODE
2
3
--
-
-
-
--
-
ADDRESS BUFFER
'
REGISTER
15 BITS
R2
CHANNEL 7
j
--lt
R
—lt
(TRANSFER)
81
-
3
R
R2
-
FUTION
7
T
-
R
5
R2
EXTE RNAL
ICHANNEL SELECTION
2
-
00
EF CODEEQUIPMENT SELTION
INPUT CHANNELS
u2
1
A RITHMETIC
Z
R'—ltU2AOD
DI
15 BITS
H
OUTPUT REGISTER
48 BITS (BUFFERED)
CHANNEL 2
2
B3
B4
INDEX
INDEX
INDEX
REGISTER
REGISTER
REGISTER
15 BITS
15 BITS
15 BITS
INDEX
REGISTERI
15 BITS
136
B5
INDEX
INDEX
REGISTER
EGISTE
15 BITS
CONTROL
30
—
ROL REGISTER
30 BITS
CONTROL SECTION
CHANNEL 4
(BUFFERED)
1
3o:S
TflT
0(RI9 C5CRWRO
.
—
NOTE
1 HEAVY
CHANNEL 6
INPUT — OUTPUT SECTION
LINES DENOTE "FORCED
TRANSMISSION
2 LIGHT LINES DENOTE TRANSMISSION OF ONE'S
INTO 8 PREVIOLSLY CLEARES REGISTER.
I
-1
-
- T ITU
1
OVERALL LOGIC
DIAGRAM
5
BITS
SSI11IiISIISSIIiOii;SiSiSSiIISiISI
ILIARY
AUXILIAfRY REQUEST
STORAGE BUSY
74
SEQUENC
H GH SPEED STORAGE
SEQUENCE
PAGE 42
EXTERNAL FUNCTION
SEQUENCE
PAGE 16
-6-------
J'_
bO+7
62-67
SEARCH & TRANSFER
:
PAGE 10.0
SEARCH & TRANS FER
__
J
(B).
nitiO
r
~
SEARCH & TRANSFE R
PAGE 10.1
PAGE 10.2
r
O
G
24 - 33
ITERATIVE MAIN
IAT0RS
SEQUENCE
PAGE 11
(32+33)(AO)
JUMP EXIT
HALF
(6)b
Initial
F
—K15-----
FULL EXIT
74.1-74.6
________8______________________________________________________________
READ NEXT
INSTRUCTION
J_—_-_*-------___K______
PAGE 5
E
24+26
NORMAL JUMP
SEQUENCE
6
ITERATIVE FLOATING
POINT SEQUENCE
PAGE 1 3
32
>
ITERATIVE MULTIPLY
SEQUENCE STEP
PAGE 2
EXIT
25+27
START
6
"6
ZERO ADDRESS
'-6------
SEQUENCE
SYMBOL
c
CLOCK REQUEST
READ
SEQUENCE
______
PAGE 8
::
INTERRUPT S
PAGE
—
:::
WRITE OPERAND
SEQUENCE
-'
INSTRUCTION OR OPERATION
4
f=(22+23+75+76)(b0-3)
B
01-11+34+35+50+51+54+55
C
12-17+36-46+52+53+70-73
0
(22+23+75+76)(b =4-71+20+2) +47+56-61
E
30+31+(32+33)IA ~ O)
F
SBT COMPLETE+ INTERRUPT+CLOCK REQUEST
0
(SBT COMPLETEI(INTERRUPT+CLOCK REQUEST)
H
CLOCK REQUEST
1
INTERRUPT
TIVEDIVIDJ
;
SEQUENCE
STEP
PAGE 2
33
c-
24-27
TERATIVE SEQUENCE
END CORRECTION
PAGE 5
j5>
32+33
CONTROL WORD REFERENCE
ITERATIVE FINAL
LOANGP0iNT
_
30+31
CONTROL DATA
CORPORATIOR
CCMPOP(ENTS
rarpncr
OJ,ImS OUlflYflU HICATtO)
1604-A
-
-
-
-
1 T011
SEQUENCE CONTROL
CHART
XDP 214591
3
litt# II SSO,$$iIIII
3P70
3P69
4J63
064
U
3
4J62
v °°7
K 5
III
0111111111
v 788
1
J2
SSS
1251
JEXIT
FF
w' 4°
iV1
INTERRUPT OR
CLOCI( REQUEST
4J08
t-V
K 782
K 796
1 256
K 200
L
J 06 '
4K05A
090
HALF RNI
K20'
JMP EXIT
J 029 MODE SW NOT UP
FULL EXIT'
966
TKO68
ADVANCE P
HALF
EXIT
v° 35
jO64
v 420
p507
E1
4L0I
K413
F5
K 413
N570
v 206 —O•—
F573
902
F
3680
v 10 2
V214
K' 39
K'37
v°26
033
K32'
J064
F673
K781
J 050
p550
F639
v360
K78'
v36°
os3
o62
v 102
J 062
v346
F 523
J064
4L03
F 656
EI
4W5
F662
548
9A
065
993
N57°
+
2
321
< 139
61
1<321
54.
4L04
F°°2
v026
Pl
v370
v' 88
v °4°
062
F 52 '
F 657
j0€4
J °53
v' °2
J065
v 420
F 507
J 062
j065
207
588
v 032
F520
K477
K 32 '
F 588
N 935
3L724
F 573
Ho30
410
v663
4997
653
v° 3°
F 596
F689
H °50
EI
050
3L78A
55(R0)
(3)80 : INTERRUPT 08 AOVANCE OLOCK
(4)ZA 54 (R0)
WO : 20+21+47+56+57-1-60+61
ZA : [01-03+05-07+34 A47 ~IA4S0+35A47*A46 AQO] no
NJ (22+23+75+T6)(b+0-3)-l-NO JUUP
SWEEP
(9)853 741-6
43 - 46
(II) 80 :[(37XX PIEG)+70 - 73] [ADV. CLOCK]
(12)80
12 - 17+40 - 42
4N78
K485
ST
)X>A((65+67(
:
)64+66((xA)
ZA [0-03+05-07+34 A47?eA46 A0+35A47*A46AQ0]R0
(33) HSS : 74.1-6
)34(
ZA
:
04
ZA
:
10+11
WO 20+21+47+56+57+60+61
WO
1
NJ (22+23±75+76)(b0-3(+N0 JUMP
ZA
-
-
)22+23+75+76))b4-7)
24) RNI STORAGE SWEEP
1
25)80
5
80
57'
L• H 04 '
ZA 04+10+11+54
2)) WO
_________
K
3651C
ST
(2)81 JUMP SATISFIED
12-17+40-42
43
46
SESRCH TERMINATED
ST [b7o))R0)+
)b0)J
SEARCH CONDITION
NOT SATISFIED
[)64+66)(xA)+ (65+6768>5)]
(40)R0
2
80 JUMP+(b4-7)(22+23+75-77)
55)R0(
FLOATING POINT OPERATION
24-27
53
(32+33((A0)
RO
52+53
80
36(X NEC)
RO 37)XPOS)+70-73
ST
62-67
ZA
(34
80
(36)(X P05)
EXF
ZA
74 0 (EXIT FF=0)+747)POSITIVE RESPONSE)
34)A47
51
62-67
ST
(b?E0((R0)+)b0)
ZA
50+51
ST
62+ 53){(b;i0))R0)+)bO)]
0
(32)(XA(
EXF 740)ExIT Ur 1) 747 (NEGATIVE RESPONSE)
780
1II
v344
K570
214
H047
F 628
347
°63
3678
v34_T
(10) 80
548
J027
J 063 r F
v040
j°63
209
F 506
207
881 : SiORAGE
4M06
1 36
067
F660
v 548
J 36
K061
053
F664
ZA
F 523
v 346
405
v20
(I)
4M05
K1
v °3°
671
+35))A45 *A46(
* A46 + A0)+(35)(A47
A 46 + AQO(
J176
r
521
K416
K 06
v508
\
Page 5
ERM
F107
LOCAT!ON
PAGE
608
QUAD.
DEFINITION
TERM
LOCATION
PAGE
DEFINITION
QUAD.
19.1
0
f = 7X
K068
4P54A
9
2
Interrupt Exit FF
F112
6M1OB q
19.1
0
f = 2X
K206
3M71A
9
0
Write Operand Wait Storage
F476
3M31C
19.3
3
76
K208
3031A
11
0
Iterative Wait Storage
F519
4M25C
19.4
2
21
K252
4N17A
17. 0
2
Aux. Seq. Wait Storage
F553
308B
19.4
1
56 +57
K453
5079C
18
1
X'
F554
4N04A
19.4
1
54 + 55 + 62 - 67
K600
4068A
57
2
Initiate Storage FF
F639
4K72A
19.5
0
00 + 77
K602
5J64B
57
0
Initiate Storage FF
F669
4M78B
8.0
3
RO Wait Storage 1 + (62) (ST Wait Storage )
K610
3H12 B
57
0
Initiate Storage FF
F673
4K72C
19.5
3
00 + 77
K782
6040A
33
3
C].ock Request
F682
4N83A
19.5
1
(Mode Switch Down) + (22 + 23 + 74 - 77) + (b
K796
6K83B
30,53
1
Internal Interrupt
F707
6JIIC
19.6
1
b4 7
F710
6J12B
19.6
0
76
L688
6N47A
33
1
Interrupt Lockout Light
F711
6J13A
19.6
0
b0+b4+(b1+5)(StopKeyl)
F712
6J14B
19.6
2
(b = 2 + 6) (Stop Key 2) + (b = 3 + 7) (Stop Key 3)
N945
4J77C
Odd Ciock Slave
F730
4K65A
19.6
0
b
N946
4P60B
Even Ciock Slave
F853
4J74A
19.6
1
56 + 57
P520
1F06
35
0
U437
6P23C
19
21
H788
•
•
4056
33
0
zk 0
7)
-.U'UA
Breakpoint
Interrupt Seq.
J
X2 + X3
1251
4N59C
33
3
Advance Clock
U444
6P24
19
2
1256
6H82
32
1
External Interrupt
U445
6P25
19
2
f = X4 + X5, + X 6
1258
6K66A
30
1259
6K66C
30, 53
V005
4K02C
28
1
Manual Control
V042
4K04C
28
3
Manual Control
53
1
1
?
1J
Internal Interrupt Request FF
J026
4J69C
28
3
Mode Switch Down
V071
4P53
54. 0-1
1
Storage Resume
J027
4J60
28
3
Mode Switch Down (Sweep Mode)
V073
3H08
54. 0-1
1
Storage Resume
J061
4002
33
0
Interrupt + Ciock Request
V075
4184
54. 0-1
1
Storage Resume
J062
4J62
4
0
Exit FF Clear
V402
3M56C
9
2
WO Seq.
J063
4J63
4
0
Exit FF Set
V788
4058
33
0
Interrupt Seq.
J064
3P69
4
0
Exit FF Clear
J065
3P70
4
0
Exit FF Set
W140
4K76A
25
0
J066
33
2
Interrupt
W141
4K76C
25
0
J067
4N54
4029C
33
2
Interrupt
W145
4K79
25
1
J112
4L07
24
3
(P = 7 - 17) (Exit FF
W159
6L62
25
1
External M. C.
W781
4P14C
60
3
No Buffer Active
1)
.
Internal MC.
J
fleff off .‚‚••.‚..• 8 sis.. ei§ gefv11,8 8,48
iioisosso•sissosssisisssössoi••ss'
ii
-01
00
1
07
1
08
1
09
1
10
1
II
12
1
1
066
wI4
v 402
78a
13
1
INTERRUPT
LOCKOUT
4L15A
H
K°65
026
15
LOCKOUT
16
1
1
INTERRLJPT
K064
1
J_____)l
14
1
LIGHT
3L80C
66
70
4029A
F669
3K41A
K072
EXIT
31_
:
V°0
H
1
v030
K0
H030
1
3L72C
3L71
032
1
O32
L__
1
1
L -----
3 4M05
H047 4M07
•
:
__________________________
_____________________________
45
10
1
_____________
04l 31<61
3L724
1 3L70
jII2
HALF EXIT
367v
H
hn
Q1<4
- _____
FULL EXIT
H033
31<60
H0
4L03
O37
EXIT
-
V88
N945
1 251
CLEAR u'
K460
4J0e
v
4KcA
4U01
41(76*
w140
INITIAL
START
K
K
I4I
OS7
INITIATE STcAGE
4615
1
1
ULUU
) H
K06
V042
K
461
1
v096
4043C
M ISS
R'
H152
4039C
H153
INTEUPT
EXIT
V
I534606A
1
V°75 408
XLA—
______
"H
V 52
7-
DISAB
4083 ______1
CAR f
H979
U)A
K 452
STOP 1
40390
•
-
S ropu
H °97
I 5 I 6-)b ONLY
H°
H 965
CLEAR R'
450
3JI3 1
________
F553
WAIT
STORA
F 853
INITIATE
STAGE
CLEAR U 1
K206
H955
3J42
CLEAR X
H983
H'CLEAR X
vo
AH STOP 1
1 F 2
1 <051
tK053
TRIJP
REQUEST
50
3640C
F707
41<11
K°5'
1
°67
INDIRECT
ADDRESS
4080
:28
219
CLEAR X'
1255
65
pHO9S
5J65
45'
1V0097
114
6o2
K603
42
834
[J
984J15
4 KO5C
>
4079
45
f=74-76
7
H'5'
UbAU 2
-.H 950
LLU
4p3
NDRECT
WßJT STORAGE
F68lv15I
K050
V09 e ERRUPT
MPLETE
1 256
K054
i°
3M69
K°4
e
STO RA GE
JUMP EXIT
--
INITLAL START
1<
4M02
H090
K 200
~
_______
F639
4M04 _______ _______
I
.9
U2
___
RETURN J
58
4P32A
3C38A
}
___________
ADVANCE P
u
K1<
UIu
H
LK O€O
--)H975
-----H'55
-
r1CLEAR CONTROL FFS
(SEE MC DIAGRAM)
4M77
)ITERATIvE)
H099
H 904
4P15
1
1
1
H6
A
=
H 501 (ST)
1
RTIAL A
IN A
INTERRUPT
SEQUENCE
1
1
v
1
1
I-1 °' )WO)
H 431 )WO)
K °50 (ST0P II)
1
1
1
1
1
1
x—i2
H601
1
v 0 42
STOP
012
2QI
EXECU
F 710
______
_______
STOP 1
1
4P38A
P520
START
ooi
OR STEP PtJLSE
(SEE MANUAL CONTRccAGRAM)
730
4J61
1
1
J°63 HALF EXIT
K 092
4N73
v°35
J32W3
K 09°
4N72
x 091
.
4
j062
v033
4M02
•J 1f;1
M °
MODE
SWITCH DOWN
(SWEEP)
1
1
L-
__
Il 1
I-
_
_
1 __ I•
—
1
READ NEXT INST SEQUENcE
.
CO ORATION
1604-4
XDP2(4533
1' 5
1
Page 6
TERM LOCATION
PAGE
QUAD.
DEFINITION
TERM LOCATION
PAGE
QUAD.
DEFINITION
A986
6J13C
52
0 A 0
W771
6L28C
52
1
A Neg.
A987
6J08C
52
0 A = 0
W772
6L29A
52
1
W773
6L27C
52
1
Q Pos.
Q Neg.
F501
3L81A
19. 4
0
(22 + 23 + 75 + 76) (b = 0
F516
6H13B
19.4
2
23
F528
6H09A
19.4
0
22
F582
3M83C
19. 4
1
76
F675
6H04C
19.5
1
75
F700
6J15
19
3
b 0
F701
5011
19
3
b1
F702
5P25
19
3
b2
F703
5010
19
3
b3
F704
5P2
19
1
b14
F705
5009
19
1
b5
F706
5P20
19
1
b ~ 6
F912
6H06A
19
3
b = 0 + 4
F913
6H06C
19
3
b = 1 + 5
F914
6H07A
19
3
b = 2 + 6
F915
6H07C
19
1
b = 3 + 7
J020
6HO1A
28
2
Jump Switch 1
J021
6HO1C
28
2
Jump Switch 2
J022
6H02A
28
2 Jump Switch 3
J023
6H02C
28
2
Stop Switch 1
J024
6H03A
28
2
Stop Switch 2
J025
6H03C
28
2
Stop Switch 3
J062
4J62
4
0 Exit FF Clear
J065
3P70
4
0 Exit FF Set
Q986
6H12A
52
2
Q987
6H12C
52
2
Q! 0
Q = 0
V002
4J03
5
3
Execute Instruction
V099
41(11
5
1
RN[
-
3)
Ii, 1 tIlliTlilt
s
.
‚rssisisirrrr
of
$$oil
Ju*P
j 050
NO JUMP
JUMP EXIT
1~ 4 HO31 41.01
41.12
K°5°
F 476
1 *76
1(22+23 * 75 479590-3)
v°°2
F 516
1 23
F912 ....J
j
6 ' 0 *4
‚E
44
____________
______________
9ua
90
05A
F
911
____________
______________
0-0
3
6.I45
f73
J Ot0
JUMP 1
F 75
b2,S
1.75
F415
F675
(*73
6*3+7
J 02I
jOZ 2
JUP2
JUP $
F516
F529
1 23
6-5c
QNEG
F 912
AllES
6610*
_J
31(93
3L832
v' ° '
771
(*22
w77
H'0 '
3L93C
K°51
1
3L848
-
Q 917
F
v °3 '
K05'
J
b 3+7
'QIS6
f23
0*0
F'13
9*1.5
F 516
W 775
(*23
0 POS
A987
A*0
(*22
529
F 913
9*1*5
(.22
F 326
jOSO
_-.
60 Jump
J 053
1
3L11
(*22
A*0
EXIT
35e3
OLIZ
w ,70
6*05
volo
SENSING IMSP CONDITION
f
K 561
F 914
9=2*5
F 914
9.2+6
f=76 F 562
60
J 053
4M03
NORMAL JUMP SEQUENCE
9*3
9*7
SENSING SELECTIVE STOP CONDITION
P;ip 7
TERM
LOCATION
PAGE
DEFINITION
QUAD.
TERM
LOCATION
PAGE
DEFINITION
QUAD.
F404
3M20B
19.3
0
ö
N570
5L62
21.0
2
R = 0
F410
3M26C
19.3
0
10
N670
5061
21.0
2
F455
3M28A
19.3
1
55
N931
3J76C
0 + 1
R
Odd Ciock Slave
F500
31,82A
19.4
0
01 - 07 + 10 + 11 + 34 + 35 + 50 + 51 + 54 + 55
N933
3L20C
Odd Clock Slave
F520
3M78A
19.4
2
04
N935
3049C
Odd Ciock Slave
F527
3N84A
19.4
0
04 + 10 + II
N991
3M09C
Odd Clock Slave
F549
3M71C
19.4
1
34 + 35 + 50 + 55
F550
3N79B
19.4
1
54
13704
6L49
F554
4N04A
19.4
1
54 + 55 + 62 - 67
F571
3078C
19.4
1
01 - 07 + 34 + 35
F673
3077B
19.4
1•
55
F585
3J56A
19.4
3
01 + 03 + 30 + 31
F586
3J56C
19.4
3
02 + 03 + 30 +31
F588
3J54A
19.4
3
34 + 35
F589
3J54C
19.4
3
(01 - 07) + (34 A 47 = A 46 A t 0) + (35 A47 = A 46 AQ i 0)
7594
3K55C
19.4
3
34 + 35 + 50 + 51 ± 54 ± 55
F596
3P16C
19.4
3
50 + 51
F615
3084B
19.5
0
01 - 07 + 34 + 35 + 50 + 51 + 54
F618
3K28A
19.5
04 + 10
F636
3K26A
19.5
0
0
F652
3M39A
19.5
1
06 + 07 + 35
F664
3N13C
19.5
1
10 + 11
F689
3JO1C
19.5
3
01 - 07 +(34)(A47 = A46 )(A
F731
3N12A
19.6
0
bj0
F902
3P16A
19.6
3
30 - 33
J064
3P69
4
0
Exi.t FF Clear
J065
3P70
4
0
Exit FF Set
K318
3L26B
14, 51
1
Normalize Shift E)dt O,ntrol
I
53
2
(01-03 ±05-07) (Shift Count127 10 )
-
05 + 07 + 34 + 35
'0) + (35)(A47 = A 46 )(AQ
0)
glossies$ $too, is
$$fell ill 111
$$$is
loll of of is of loll$
02
03
04
05
06
-
07
1
08
09
1 0
1
1
1
I
1
K 31°
932
K311
-----
EH
933
REDUCE R' — .R
R=O
N570
352
H 974
3L3r
3J28
H033
jN
K414
4-
K 415
1< 321
N99'
—
K312
3L30
F 586
N67°
3L2 9
F 455
RO
K
3L10
::1(71
F5
PARTIAL
ADD IN A
F 550
36456
3L08
F 410
H°
4C
N93'
33
3680
3L28
36738
K70
3L328
3 L13
~F
F 616
3L14
—
1
HALF EXIT
J065
41403
R 2-- e 6
36
U2-,, x I WITH EXI
8983L
H
943
31(78
H °5°
\
404
F 589
77C
V220
T
222
v5
041
477
L7V050
3K76C
K 477
v002
4
jse
1V20J
1F500
-...øl
R'
31(596
R2
31(60
31(560
R/O
H960
31(71
K41°
-0-11 H 952
Xl -
1
5661
JI H 212
LY1±J
31(61
31(63
u2 —, p'
L
3665C
K 41 '
31.12
K413
3665A
3668
F 88
F689
4678
F527 F=04 1011
K57'
H04'
B EXIT
Bb
R2
SL78AI V0501
1
3651C
H
F
3K77A
041
K 471
SCALE
TERMINATE
F596
ADD X2
476
IT
1
3678
3K51C
J3;jJJ
234
6L51
<235
K477
3633
V 214
H033
HALF EXIT
H°47
FULL EXIT
H033
H92 '
1
Q2
A'
J23
H 923
K
31(336
.
H9
[-1.
H 913
31(316
F 664
HALF EXIT
FULL EXIT
V °32
917
K570
3L784[JJ
V03
030
915
42—...Q'
H963
3M32
4677
3L72C
E
::
K55'
<410
jvBl'
K47'
36456
K55°
3L71 !
H 604
K472
CLEAR 8
032
4603
3.126
N7°
H053
R2
F 573
Q ' — Q2
7l
I861
3642C
K 413
F550
4601
960
31(81
F 550
K 472
3670
REDUCE R'—.R 2
[I3J44
F 04
31(73
-?-II H
F573
•
-L--11 14 04'
3651 C
3669*
R'— R2
F 52°
573
F73'
3J72
1r
31(64
JUMP EXIT
1
1
3J71
T
31(62
ADD R ' —U 2
1
F1.4
5642C
3J63
1v204
04
31(5S
~
4134
3J61
1
HALF EXIT
31(52
202
LL11
1
570
214
9IO
EXECUTE
INSTRUCTION
4678
K 571
4N80
R2—..B EXIT
INITIATE SHIFT
REDUCE R'—. R2
H 94 '
1
3L16A
N 570
t ~~
K32°
t2
F 615
1
K58°
RO
EXIT
CONTROL
r-1
LEFT
4M02
CLEAR A'
H915
SHIFT
K 476
1<'
v °33
F'5°
7V~~
I963
FULL EXIT
412
K
C MP R — R '
3L07
3631C
v223
A LEFT
3L09
F 520
3680
V°33
F9o2
J064
R 2 — R'
4
FULL EXIT
N70
3632C
PARTIAL
ADD IN U
'r
2
1
N
IGHT
930
I
j064
,03
4602
~
KBI
HALF EXIT
H041
960
j
t
L72A
L72C
K 472
V 32
[J,
0
H 033
FULL EXIT
3
j0651
-1
4603
T1
T2T
IHJTI
-
1
c
—
16C
LOGIC DIAGRAM
ZERO ADDRESS SEQUENCE
XDP 2145
20
TERM
LOCATION
F351
6KO6C
F472
41,72C
F502
F503
F522
F529
F530
F542
4M09A
4M09C
4M11A
4M12C
4M13A
4M16A
F543
4N01B
F544
4M16C
F562
4N06A
F563
4N06C
19.2
19.3
19.4
19.4
19.4
19.4
19.4
19.4
19.4
19.4
19.4
19.4
F5€6
4N07A
19.4
F576
4004A
19.4
F614
4K69A
F619
4K69C
4K65A
19.5
19.5
F730
I
PAGE
QUAD.
1
1
0
0
2
0
0
2
2
2
3
43
13 + 15 + 17 + 41
41 + 43 + 71
72 + 73 + Adv. Ciock
40 + 41
43 + 72 + 73 +Adv. Ciock
37 + 43 - 46
12 + 13 + 16 + 17 + 37 + 44 + 72
b 1 0
19.6
3
3
1
0
0
0
3
Adv. Ciock FF
31
2
Adv. Ciock
4N58
33
33
33
K208
K218
K252
3031A
4080A
41'117A
11
5
17.0
0
1
2
Iterative Wait Storage
Indirect Address Wait Storage
Aux. Seq. Wait Storage
V006
V073
V075
V788
4J05
31108
5
54. 0.].
54. 0, .1
33
3
1
1
0
Execute Instruction
losss
PAGE
QUAD.
DEFINITION
52 + 53
16 + 17 + 37
72 + Adv. Ciock
12 +14 +16 +37 +40 +42 +70 - 73 +Adv. Ciock
41+43+71+73
4N59A
4184
4058
LOCATION
52 + 53
72
12 - 17 + 36 + 37 + 40 - 46 + 52 + 53 + 70 - 73
1250
1251
1284
4N59C
TERM
DEFINITION
+
73
±
Adv. Ciock
Storage Resume
Storage Resume
Interrupt Sequence
sell I I
$less$
fell$ I
of sell I$ III #is
04
03
0
010
05
06
07
08
09
10
012
11
12
13
14
15
F 566
F542 COMP X ' TOX2
F543 A 1
H934
3K36A
X'
CLEAR
H937
3L13
< 580
31-14
3K36C
4J3O)
~
v311
0I
ADDR'TOU2
H °45
V.
K580
3L14 1
__________
3832*
F 566
503
ULMN 0
H98'
550
H9e5
1< 581
F614
::4:A
X'
3L13
__
H 952
F 351
1 250
LEAR A'
O2
1
41,177
3838A
1284
1284
t8HB4
v 788
ul__,u2
1284
WAIT
v oo6
_________
_________
_________
14J211
14J221
___i4J23j...
3O3
F
4K20A
4K20C
4825C
1 4J241
3O
4J25)
_____________
07 (4J26) ________ H 308 (4J27) _________
\/3O7
O7
3O5
4822
4824*
4823
H93'
5J64
III-;.:-]____fII:H933
1< 602
v856
4071
1<070
CLEAR R'
F5
4825A
(4J29)
309
3I0
____________________________________________________
_________________________________________________________
________________________________________________
4
2
1
1<202
-
4826
4830
4827*
29A
v
COMP X 1
474
1
H9
3KA
ADD X2 TO 4'
___*lIIII -
-
H 92 '
H 923
1 251
F562 ADD X2 TO 4'
F.
H 92 '
1(923
3 633*
X'-
X2
x
-
x2
1.1930
H 932
3632C
E 544 COMP X l -X 2
H 934
11 936
-
INDIRECT ADORESS
WAIT STORAGE
3636*
1<2 1 8
/
ITERATIVE
WAIT STORAGE
112,
F530
363 3*
1< 208
(4P22)]
LH82 7 LV
F529
4K4
X2
v 83
F 543
0'
3K31C
(P. 8 1)
1<540
65 15L71)
4871
H 34 '
K203
K°7'
1<541
4N75
3833C
4P32*
F 563 SET X407,
2 TO 1
f
1yJ
(4J28)
LQX
INIT STORAGE v543
_{(4P30l_
4824C
STORAGE 1
H932
3632C
2
2
c
K21
V073
STORAGE
RESUME
H 971
[yj
3K4 18
L..
H 973
P2ae
TERM
LOCATION
F436
4K73A
F437
41,68B
F443
19.3
F444
4L69B
4L70A
F503
4M09C
19.4
F521
4M17A
19.4
F523
4MIIC
F524
4M12A
F531
4M13C
2
2
0
F543
4N01
19.4
19.4
19.4
19.4
F545
4NO2A
19.4
1
F559
4N05B
19.4
F566
4N07A
19.4
3
3
F567
4027A
4005A
3M77A
4K70A
19.4
F57
F613
F628
F656
K695
K755
K783
K883
43
44
52
+
53
36
43 - 46
16 + 17
43 - 45
43
46
37
40 + 41
3
4J62
4J63
3P69
3P70
3NO3A
6J84C
6L52A
4
4
4
4
52
53
30
0
0
0
0
1
1
1
Exit FF Clear
Exit FF Set
Exit FF Clear
Exit FF Set
X Pos.
Overflow Fault
Select OXX70
4N69C
6064A
6040C
4N81C
33
60
33
33
0
3
3
3
Interrupt or Ciock Request FF
19.4
TERM
LOCATION
PAGE
QUAD.
V075
4184
4K41
3K48
1
4K77
54. 0, .1
8.0
51
25
4K79
5K39
3J02
6077
25
25
25
25
V340
V886
19.5
4K65C
4K64A
4K72C
J176
J177
J579
36
37
19.5
19.5
19.5
19.5
19.5
F672
J065
19.3
0
0
2
2
0
2
DEFINITION
37
37 + 70 - 73 + Adv. Ciock
24 - 27 + 30 - 33
53
12 - 17 + 40 - 42
X Neg.
12 + 13 + 16 + 17 + 37 ± 40 - 42
00 + 77
4M17C
4062
J063
J064
19.3
19.3
QUAD.
3
3
0
0
1
1
3
F657
F673
PAGE
R1
W142
W145
W156
W158
W184
1
0
0
1
2
3
2
DEFINITION
Storage Resume
R. 0. Sequence
Shift Control
Internal M. C.
Internal M. C.
Internal M. C.
Internal M. C.
Internal M. C.
Ciock Wait FF
Ciock Request
Ciock Request Slave
off
I $$file of $$III $oil$ of I
116
'i
'r
I iT
2r
119
2 11
2 12
24
213
25
26
27
i
i
i
~~H
l
LQX
F673f=OO+77
4N74
K540
H 82°
482
K54'
4975
142
PARTIAL
ADD A
3L07
-
047
fH
o3o
1
A
V03°
FULL EXIT
3L72C[J-9 H°33
H045
F 52 '
V 351
H 92 '
f =37
jJ?6
CLEAR X'
4P3
__cf_*
H 98'
-
486
DD x2A'
3(08
H923
82O
HALF EXIT
K 484
HALF EXIT
V 760
(MC)
~
H92'
1240
11 923
H 90 '
A'
V.
K205
(SEE SHIFTc0NTRH H903
3838A
-. X'
K487
H983
48
4P39
F443
F444
F672
K403
3K36C
[
28
904
2
813
V81'
SK
fI6I7
f=37
K 480
K 486
4937A
481
487
4p39
f 43-46
4K37C
1241
F—
v354
K
4836
H937
~
4P39C
K482
L
K
K883
486
K 483
4K40C
K755
124
340
4,145
Li1i
4K45A
4843
4842
---i[J -
?::
F436
-
::
4836
485
F656
J°62 HALF EXIT
X*I2
H647
647
-K481
::
~
U
K
4K5(A
4850C
4852
x093
F657
v 820
921
H923
P0 WAIT
STORAGE 2
KQ2 — A'
ENA8LE
FL(LL WRITE
83°
I2 I 3
3(13
4<580
VIS
Lx__]
365(4
3L (4
780JUMP
4<485
00+77
3K5(C
[J
ADVANCE
CLOCK
3642C
HALF EXIT
Q(___9..Q2
H904
44PIj__f
-. X2
9802:9
2J69
X— X
F 53 '
H 933
H932
F 545
FULL EXIT
H934
4960
H 0 33
H606
R 2—. B8
H 0 35
F 523 HALF EXIT
H
38364
043
250
251
FULL EXIT
36324
CLEAR
xi
gal
?'L1I3jI
065
H906
3852C
COMP X'X 2
‚
1
4<57I
4980
063
5
5(64
205
F673
H85IV050I
H962
4P30
4P32A
46
R'R2
H93 0
NIE STORAGE
H'56
EXIT
4N50C
R2-8B EXIT
H 91
3831*
H 045
IH°3'
4p384
X'9X 2
* A'
—
He
ALF EXIT
3(43
R'
383(C
H 037 EXIT
408
F613
H 915
487
F639
4<409
___________________
-. Q'
——'H'
00+77
4829C
856
4K61C
——.H9
V 76°
CLEARA
4<981
4p(53
A2
ADD X2—'A'
3K33A
INHIBIT
K 635
354
7
3M54
H°43
4ss
,
F559
566
~
H8184PII ____fII:
A2
3524J53
4J52
E XIT SLAVE
4N73
4977
H35'
064
K55°
K551
TO
49504
F437
KO9z
<483
4M40C
~~
A'
F 656
J 063
CLEAR B
4851C
LEFT SHIFT
FULL
484
-?---•
f=43-46
49499
F 657
-----H°37 EXIT
4840A
53
4848
F52'
-6—.H°
(43 &0
348 ________
34
»34
349
4K47
4K45C
1 = 1617
4)50
1
1
5J65
Page 9
TERM
LOCATION
PAGE
QUAD.
DEFINITION
TERM
LOCATION
PAGE
DEFINITION
QUAD.
F456
3M29A
19,3
1
56
K050
41,12B
28, 5
1
Stopil
F460
3M30A
19.3
3
Ö
K066
4L5C
5
0
Exit FF Clear
F505
31,82C
19.4
0
20 + 21 + 47 + 60 + 61
K252
4N17A
17. 0
2
Aux. Seq. Wait Storage
F506
3M84A
19.4
0
(b = 4 - 7 ) (22 + 23 + 75 -77)
K622
3HO113
54.0
2
Even Storage Busy
F507
3M84C
19.4
0
20 + 21 + 47 + 56 + 57 + 60 + 61
K662
4176B
54.1
2
Odd Storage Busy
F515
3M81C
19.4
2
21 + 47
K695
4N69
33
0
Interrupt + Ciock Request
F527
3N84A
19.4
0
04 + 10 + 11
K797
6K84
30
1
Internal Interrupt Request
F553
3083B
19.4
1
56 + 57
K396
3177A
57
0
Odd Ciock Slave
F557
3081B
19.4
1
22 + 23 + 75 + 76
K496
4H84A
57
0
Odd Clock Slave
F560
3080B
19.4
3
21
F569
:30 7 8A
19.4
1
20 + 2 1 + 47 + 60 + ß 1
V000
4J02
5
1
Execute Instruction
F577
4J64A
19.4
1
20 +21 +47
V006
4J05
5
3
Execute Instruction
F578
4J32A
19.4
1
57 + 61
V073
3H08
54. 0, .1
1
Storage Resume
F579
4J32C
19.4
1
57 +61
V788
4058
33
0
InterruptSequence
F593
3K55A
19.4
3
47
F731
3N12A
19.6
0
b # 0
W148
3J07A
25
2
Internal M. C.
F853
4J74A
19.6
1
56 + 57
W910
3M65A
19
2
U 2 Neg.
H071
41183
54. 0, .1
1
Storage Resume
1253
6J02
33
2
Internal Interrupt FF
1255
6N83
33
2
External Interrupt FF
1257
6M66C
32
1
External Interrupt Request FF
1283
4N58
33
2
External Interrupt
J029
61,37C
28
3
Mode Switch
J050
3L21
6
0
Jump
J053
3M17A
6
0
Jump
J063
4J63
4
0
Exit FF Set
J064
3P69
4
0
Exit FF Clear
J065
3P70
4
0
Exit FF Set
J066
4N54
33
2
Interrupt
J067
4029C
33
2
Interrupt
J068
6H83
33
2
Interrupt
J138
4M43C
17.0
2
Aux. Seq. Wait Storage
J139
4N43A
17.0
2
Aux. Seq. Wait Storage
I
Be I
of I I III III#$ oil
00
CI
02
03
04
05
06
07
08
1
1
1
1
09
1
1
10
1
1
1
1
INITIATE
EVEN STORAGE
INITIATE
RAG€
602
v000
F853
5J64
H 944
U
1138
F571
376
4J58
Y-
H9
UI TO U2
-9l1
F 553
H946
xH-x
0
34
4J63
4J15C
79
WRITE OPERAND
WAIT STORAGE
2P59
N - 33
N 380
ENABLE
E LOWER
H °7 '
F38
ENABLE PARTIAL
WRIT E UPPER
Q2A'
K 2°
207
33
2P39
4K34A
578
WRITE OPERAND
WAIT STORAGE
PARTIAL
13
139
v 97 '
6O3
K.
N 496
12
3K30
3HIl
INITATEODD
STORAGE
F553
WRITE
ENBLE FULL
002
11
3M68
311319
~
»:
31131C
J
066
_
NT. LOCKOUT
31839
77T!gr
~
SET - P '
314
F569
D1SABLE
H43'
F'
361749
5J65
1 053
36158
3M59A
v 407
5M59c
11
PARTAL
D IN U
PTO P'
3L09
K520
jO5OL1N
—OK 695
~9
3M62
PI
RETURN JUMP
x
_-______. H 968
A1 —8X'
-Q4
> H957
WRITE OPERAND
WAIT_STORAGE
066
F6I
31131C
v 407
K 252
LFEXIT
V'073
1<
041
RESUME
3M68
:: EXTEND SIGN
H698
K 46 '
K°
w' 48
U 2 -9 x[9
3]-
A2 —
K4°
F557
3L10
N854
3L65
F207
b
J°63
—
3H61A
3M60
6L66C
H952
CLEAR EXTERNAL
INTERRUPT REQ.FF
H 410
H
4:
"
K066
36473
065
'T'
46102
'-OH
~
H"
Q'
3K36C
—
3L16A
)Q2
3J26
J40
H 904
31140A
J 064
46102
L56I
INTERNAL
INTERRUPT
REQUEST
K600
INITIATE
STORAGE
068
K7
FULL EXIT
4o9
F557
311329
J 066
H832
F 507
w90 U 2 NEGATIVE
U 2 —OP'
F 527
ADDR'TOU2
H9°
H955
21140C
K54
H4
3L61
::
—
6274
3l2
F 357 DISABLE CLEAR
J066
068
K45l
H 953 CLEAR U'
J °68
-9-------3H 953 CLEAR u[
3L72C
1 255
392
3L14
-;:- -L______I__!LII: H0
603
067
CLEAR f
LQX
-9------
_____---9--
3U61C
1253
068
LyI
F557
047
602
4P32A
69
F 593
FULL DR
HALF EXIT
3L58
v°
-- H 928
v006
F
___
413
v006
4P30
F5
H 403
3N56A[j
INITIATE
STORAGE
{22
915
V006
933
J050
A2—* I
J066
v78
CLEAR
31140
311314
°67
x2
----*i
F56° T--~ H e'2
F506
F557
1253
J067
K46'
567 -O Ul
> 1253
j
1255
u 2
2.
°
22
23
X'
:v :44
31(4 1 A
4P28A
x'—)•X2
R930
60
H932
3K42A
3K32C
F 575
R2 —*B
K 570
K 330
1
4NT8
4M42
ADOR'—U 2
1
1
H 845
4P29
v 843
K33'
K 57 '
~
M0 —X 2
3K40A
—
52
v 523
1
H526
4L35
________
_______
4M30A
4M32C
v°
)
I H 527
4L36
L
28
________
_______
_________
4M34A
.I
4L37
529
52
_________
4M30C
V 6'
4U35A
S&T
COMPLETE
K 46
4H40
4L39
p53I
4L40
v532
F
1
INPUT
TRANSFER
ACTIVE
____
575
4S
H936
X2
-of
T-
548
F547Jy8311
447A
4M47C
LOX
540
4N74
31<36A
4N75
—
H 932
OUTPUT
TRANSFER
F 533
ACTIVE
3632C
4
K 772
7A
r
> K690
4M56
v5 52
142
OUTPUT
TRANSFE R
RESUME
N95'
N
M046
J 094
GPKA
4M62A
468
4M62C
65
N948
I
N946
K:
W
4P69
K835
N95'
N948
TRANSFER
L°48
767
P156
. -
W 140
cCHT*O(DATA
1-t
a
1604-A
-
Uh
111u
sEARcHaTRANSFERSEQ.
______
XDP 214537
C
Iio.i
Page 10. 2
TERM F
LOCATION
A990
A993
PAGE
QUAD.
DEFINITION
TERM
LOCATION
PAGE
QUAD.
1L46A
52
0
X >A
V012
4M77
5, 25
2
4K62A
52
1
x =
V507
4M23A
10. 0
V521
4M29
10.0
0
1
63
V541
4M46
10.1
3
V543
4L47C
10.1
1
A
F533
4M14B
19.4
0
F575
4N07C
19. 4
1
62
F660
4K74C
19.5
1
62 + 63
F661
4K63A
19.5
1
X5 + X7
W140
4K76A
25
0
F662
4K63C
19. 5
1
X4 + X6
W142
4K77
25
0
F671
4M39C
19.5
3
(64 + 66 ) (X = A) + (65 + 67) (X>A)
W144
4K78
25
1
H543
4L48
10.1
3
S & T Seq.
11787
4055
33
H789
4N70
33
01
?
Interrupt Seq.
11791
6P69B
33
3
Advance Ciock Logic
J135
4K39C
(b
J136
4K34C
(b
K060
4K16B
5
0
Exit FF Clear
K061
4K17B
5
0
Exit FF Set
K067
4L16C
5
0
Exit FF Set
K417
4M40C
10.0
2
S & T Complete
K431
4K28C
10.0
2
Transfer active FF For Line Printer on Chnl. 7
K695
4N69C
33
0
Interrupt + Ciock Request
K773
4M56B
10.1
3
Output Transfer Active
K830
4P63A
10.0
2
1(831
4P63C
10.0
s&
2J
K883
4N81C
33
3
N940
4M74A
Even Clock Slave
N946
4P60B
Even Ciock Slave
N953
41,43C
Odd Ciock Slave
oJ
1
1
DEFINITION
Clear Control FF's
1
s &
t
T Sequence
Internal M. C.
0) (S & T Cornplete)
0) (S & T complete)
T Sequence
Ciock Request Slave
:
fell$ I I I I of I t-ii-i-i--is
•s•isoisissiiisosoisiiisiossoöossi
23
24
25
26
27
1
1
28
29
30
31
1
1
1
F 662
A 993 (X=A)
FULL EXIT
1 135
033
1136
H 52 ' SEE SHEET 1
----F533
F66'
A 990
OUTPUT
F 533
L.Q.X.
TRANSFER READY
fl74
K 067
766
K54
N75
-1:____J
1
ftALF EXIT
M06
M65
—
_---1
H 52 ' SEE SHEET
F67 '
Lf____1
M03
----K
w'4°
F 66°
j 36
061
F 67'
v 3
[L4J
7
L52
:45
M49
546
547
M50A
M50C
M48C
L(t)J
K0B
—I
K°81
L
L53
48
9JI35V55O
L54
M5BC
H 55°
L55
M57C
.Q-.
H 785
1
K863
F
w144
1
K 693
065
-C)
-* K69'
36453
COMP R 2 * R'
83I
7I
N 963
K 693
v55°
5M36B
K 695
REDUCE
R'R2
773
::
::
H9605::
R'-R 2
H553L:
H 972
K 69°
s9i
R
H96'
H 799 (INTERRUPT SEQUENCE)
1104
N63C
v 54 '
F 533
Q
74
552
K 773
2M56
K 69°
K69'
0394
M79C
< 417
K77'
K695
N9
N46'
OUTPUT
TRANSFER
ACT)VE
'
LYi
‚1
F575
v507
CLEAR
INPUT
TRANSFER
B.
rLIYE
M584
N76
N 56°
K 770
K551977
K 690
K 883
w'42
K69°
K 693
_1!.2!5±J
693
K 83°
H55'
H?B9
978
K57'
N80
v 551
H 791
INTERRUPT
OR CLOCK
K767
K 773
K695
940
NOTE:
ALL JACKS 09 CHASSIS 4 ONLESS OTHERWISE SHOWN
DUR)NG63(I)
":K4
INTERRUPT
OR CLOCK
D
63
K692
N
507
< 550
63
N68
<431
K693
461
5LIOC
553
961
H552
H55'
K789
R0BICEORAWIMGS
COMPONENTS
__________________________________________
1 ‚antI«
VM.OE
II«
1 I«s«
1 I««««
'ERM 'LOCATION
:
PAGE
QUAD.
DEFINITION
F382
6J03A
19.2
1
(24
+
F384
+
2
(30
25
F432
3M25C
19.2
19.3
19.3
1
F425
6J03C
3M23A
F512
3M82A
19.4
0
F513
3M82C
19.4
F514
3M81A
19.4
0
2
F517
3M80B
19.4
F525
3M76A
19.4
F526
3M77C
19.4
F536
3N84C
19.4
0
2
F540
3N81B
19.4
2
F541
3N80B
19.4
F546
3M78C
19.4
F555
F561
F565
3082B
19.4
2
1
1
3079A
19.4
3079C
19.4
F587
3J55B
19.4
F590
3K41C
19.4
F612
F616
F620
F630
F641
3M17C
3K29C
3K28C
3K27C
3P27B
19.5
19,5
19.5
19.5
19.5
F653
3K24C
19.5
3
3
0
0
0
0
2
1
F663
31,84C
F669
4M78B
19.5
8.0
1
3
F731
F741
3N12A
19.5.8.0
o
3P24B
19.6
2
F940
3P21B
19.6
3
J129
J171
J173
J175
3N04A
3N06
52
52
3
3
3N05B
52
3
3K09B
fees
25
27) (SR
31) (SR 1)
+
=
1)
o
2
0
3
3
24
24
+
27
26
+
30
-
TERM
LOCATION
PAGE
QUAD.
K208
303
11
O
K209
K218
K252
3031C
4080A
4N17A
11
5
17.0
Iterative Wait Storage FF
OJ
1
2
Indirect Wait Storage
Aux. Seq. Wait Storage
N934
3049A
V002
V073
V077
4J03
5
31108
54. 0, .1
3M74C 54. 0, .1
1
1
1
Execute Instruction
Storage Resume
Storage Resume
X470
X471
2080B
2081B
49.4
2
49.4
2
X Pos.
X Neg.
DEFINITION
33
25 + 27
25 + 26 + 27
24 + 27
25 + 27 + 33
(30 + 31) (SR 1) + 32 + 33
30 + 31
30 - 33
24 + 26 + 30 + 31
24 - 27
(24 + 25 + 27) (SR = 1 )
26+27
27 + 33
(24 + 26 ± 27 + 30 - 33) (A Neg.)
(32 + 33) (A = 0)
32
24 +26 +32
27
30 - 33
25
(32 + 33)(A = 0)
RO Wait Storage 1 + (62) (S & T Wait Storage)
b 1 0
30 - 33
30 31
Even Ciock Slave
Q Neg.
x Neg.
A Neg.
S.R.
= 1
so so$ see
8 -9-" 1
I $is $is lllll
01
02
03
04
1
05
1
ADD X 2— A'
06
1
‚-.
07
09
08
1
1
i
1
921
H_D
Q—OUPPER
10
COMPX'—X2
3J3o
L____.
v820
936
5 40
F517
H923
T ,~
V.43
314
-
QoaLowER
H 950
-
F 663
ITERATIVE
WAtT
STORAGE
36406
H °5°
CLEAR R1
~
3L7O
30316
208
COMPXIX 2
209
F 653 DIVIDEND
J
SIGN
H934
E
831
U2
[H—
6013N,:
______
_________
________
30206
602
:
3020C
30216
3021C
ADD X - A
H 607
54'
605
06
30234
-
987
H923
H 92 '
DD X 2—.. A'
F 54 '
565
36334
J173
__________
__________
H 856 4P30
-
J 173
INITIATE
K 602
3025
1
I4
Ii3
I5
116
XIX2
COMPX'
H93°
H 932
v82'
F514
36322
x2
Et~~t
x 470 x
72
F 74 '
SIGN
:!
N934ks
U12
K 503
3611
____
F382
1213—
H 962
v6'4
6i3
-
N62
Lvn
~
CLEAR X 1
-'
F
fI H983
H 862
3034
3)10
1( 491
H 963
662
36384
74'
36454
L H 906
H91'
363 4
F384
913
H 96'
F 616
F 940
582
-
1
rk
FSL4
1I<36I44
_O -8• H' (DIVIDE STEP)
F 74 '
::
H622
:0:::T1NG POINT SEQUENCE)
31436
v 073
1(252
1(208
38414
3Ms2c[yJ
H °36
F=7
3J45
r
83
K5,4
7Ht~g_E
COMP R2 —* R 1
H 98 '
V 622
3033
H4
F'
31314
H 936
583
3U4
~ R'
5066
CLEARA
—
F 62°
8C
3029
os1 36364
66
H 62°
3M3
3N31
3631C
CLEAR A
3H13 1
1
582
—?-H K
FS4H
F 94°
•_____
SET 12
3136C
1 18
IiT
95
H917
H939
F 541
F653
30286
H8'
K °9
5J65
3027
42 __QI
<209
H 937
6 03
6II
3026
609
3036C
38336
STORAGE
1
6'0
6,2
H923
02n
CLEAR A
4
612
Vor?
:: 23
F 616
36336
3N25
v°
3023C
H9'
H 92 '
ADDX2—.4'
CL X'EXP
H 608
HI
36336
t=—je
F 54 '
3924
H 915
3J27
84
F27
3N23
3022
2
H 816
E
1 13.,00
K
6
3617
A2 —' Q
ADO X4'
U'
3638C
v °°2
36316
3 1< 32C
X 1 EXP-9U 2
WTH SIGN EXT
5M61
932
36
38366
F525
H932
F54'
49
H 913
P42
F536
H °47
HLF EXIT
F 555
:74
936
904
H 930
X2
XI
032
3L72C
Ft
H
H°33
EXI
H 91 '
36354
J175
J129
ADO R'—U2
F 73 '
i
i
i
4
1 3
12
II
i
(MULTSTEP)
F 513
PARTIAL
ADD IN 4
2P57
(MULTSTEP) XINEG36
F 6
COMP X'—'X2 LOWER
F 63°
INHIBIT
A'—* 42
3207
F546
JFfl
j'7'
1(408
.1iL42
1(409
3L08
F555
3810
3L43
k °
________
F 382
___________________________________
-
r
R6FE8!C6 *WI6G5
3112
1(501
3611
1(503
40 SIGNRECORD
COM?O $l0ff5
nncn onaIwk
nm
w a —
6
J 171
-
-
i
!aJ
rITERATIVE SEQUENCE
(MAIN SEQUENCE)
_____
P21e
TERM
LOCATION
F477
3K24A
19.3
3
36
+
37
F513
3M82C
19.4
0
24
+
26
F514
3M81A
19.4
0
25
+
27
F587
3J55B
19.4
3
27
+
33
F616
3K29C
19.5
0
32
F630
3K27C
19.5
0
27
K476
3M32B
51
1
Scale Termination
N570
51,62
21
2
R=O
N670
5061
21
2
R
N930-
3J76A
volo
von
31,79
25
1
Clear Control FF's
31,78C
25
1
InternalM.C.
V621
3034
11
V622
3036A
11
21
2
3037
11
2
V675
3063C
13
2
V660
3052A
13
0
W147
3JO6C
25
2
V623
•
so$$
PAGE
DEFINITION
QUAD.
=
12
TERM
LOCATION
PAGE
DEFINITION
QUAD.
0,1
Even C1ock Slave
Iterative Sequence
InternalM.C.
so$
I Be
is of I
$$sell so$$ I
-01
00
01
02
03
1
O4
i
00
STOP SHIFT
0$
R * 0
K 406
K 402
K 407
I-
DIVIDE STEP
'•''
N510
R=0
SHIFT RGHT
voll
N41
(EXECtJTE FLOATINGPOINT)
K
400
675
F616
_•
INHIBITA-.A2
v
K40'
42
(MAINSEQUENCE)
V 62 I_
R=OoRI
F'_
W147
H65° END SION
C0RECTI0N
K°'
H 650
30
V 63°
K4o
H 631
L33
________
M36
L34
END SIGN
CRECTI0N
632L336
V
v 62
M57A
M37C
H633L37k
________
K409
K402
4
ITERATIVE
WAIT STORAGE
H 635
L38
M39
v66
0
8
M3 C
M40
20
v888
CR 923
649
ITERATIVE
WAIT STORAGE
g
- 0
___
031A
0
ULTIPLY STEP
1< 209
032
-.
H920}
922
__-_
—
RIGHT
SHIFT
QIQ2
r
~
(SCALE TERMINATE)
648
4:55
STOP SHIFT
R'
L___
K7
NOTE:
V °88
N 6'
649*
H907
(EXECUTE
2
LEFT
SHIFT
H 9 IA
FLOATI NG
POINT)
St-lIFT
A'—.A2
H9241
V675
SHIFT
QI
H926
F 567
4
INHIBIT A'A2
R
%I
j49
F 477
4O3
M44
H905
REDUCE R-9R2
K408
ft
R2
H °88
K 402
R=0
H9b0}RIGHT
H912
R
'
M46
ii
H96'
H
A2
H903J
v8°6
K 406
633*
J4B
4241
K48
H 92 '
J29
H°86
032
476
V 622
MAIN SEQUENCE
ADD Xi—.
(SCALE TERMINATE)
H901 1
1
H903
H886
v 63
630
2
H901
4I
T
K 476
0316
< 208
635
v653
MOBA
Q000
0
v o,o
K208
REDUCE R'-.R 2
H646
623
L52
(MAIN
JACK ASSIGMNTS THA1 DO NOT D€SU94ATE
8 cHASSIS REFER TO CHASSIS 3.
M53
Q000
SET
A > 6
[1J
641
LM48A
_____
-0
L46
642
M48C
3
81H644
L48
M496
M49CENCE
-
H
L4l
4
N51
1
H92
-
1M43
000
645
'
ADDX2—.A'
LQ-8
H 65° END SIGN CORRECTION
6152*
< 403
-01
00
1
011
02
1
03
1
04
1
05
00
1
01
COMPONEMT!
-
TTU
r,, OUWRWIMT
ICATEOI
ITERATJVE SEQUENCE
MULTIPLY DIVIDE CONTROL)
a
XE
I
P2ue 1
TERM tLOCATION
PAGE
QUAD.
DEFINITION
A997
3K54C
52
0
X = A
F430
3M24C
19.3
2
30
F432
3M25C
19.3
0
32
F440
3M09A
19.3
0
30 + 31
F537
3N83B
19.4
2
32 + 33
F540
3N81B
19.4
2
30 + 31
F587
3J55B
19.4
3
27 + 33
F610
3K54A
19.5
0
(32) (X = A)
F616
3K29C
19.5
0
32
F637
3P29B
19.5
0
32 + 33
F640
3P28B
19.5
2
30 + 31
F737
3P26B
19.6
2
32 + 33
F740
3P25B
19.6
2
30 + 31
F741
3P24B
19.6
2
30 - 33
F837
3P23B
19,6
1
32 + 33
F840
3P22B
19.6
1
30 + 31
3P21B
19.6
3
30 + 31
J134
3N08A
21
3
R
J137
3N08C
21
3
R
J171
3N06
52
J175
3K09B
K500
3K10B
11
N570
5L62
21
N931
3J76C
Odd Ciock Slave
N991
3M09C
Odd Clock Slave
U143
51,59B
18.3
2
U 2 Neg.
volo
31,79
25.5
1
Clear Control FF's
V22 3
3K69C
V623
3037
11
2
Iterative Sequence
V693
3P57
14
2
Iterative Sequence
W149
3J07C
25
2
Internal Master Clear'
F940
•
TERM
LOCATION
PAGE
QUAD.
DEFINITION
36 10
>36 10
X Neg.
S.R. = 1
S. R. = 0
2
R=0
Full Exit + Half Exit
$$less so B e
I
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
°r
CII
oio
04
HALF
EXIT
03
05
06
1
1
CLEAR X EXP
07
08
09
1
1
1
10
H987
EXIT
3
A2
XZ__XI UPPER
Q1
F737
HXXI
x 2 —. x'
4997
3631C
X6pU 2 (EXT)
x2 — x' LOWER
61Fl95I5M6I
:II
537
v62
141
H 660
3652
3052A
V66°
:
3633C
'LI
3052C
3J37
v
834
F610
H 666
3054
3055
3056A
3057
H 934
3058
587
H 936
77
QI__4Q2
CLEAR A
[1
F
ADO X 2 TO
H 93°
3113
XX
3060
H 93°
—9--H
U 2 SIGN
RECORD
‚
J172
3N07
52
1
A Pos.
J173
3N05
52
1
A Neg.
J529
6L56C
30
1
Clear Arithmetic Faults
K310
3L31A
51
0
A Right Shift
K410
3K71B
21
2
R i 0
K583
3M14B
47
3
Clear A'
.
13
3
T-
1
J
Iterative Sequence
36 10
E n.000000000000uu,
s•1sssu.•
I
sellsiississsiiiissssisssssisiiiss
24
2
2(
31
212
R'—R2
2r
COMP X'—X2
[~H
1861
H960
934
:
LO5A
-?-'1IIEII-----H866
6364
2
K42C
H965
CLEAR R1
F94°
Jilo
FLOATING SHIFT jI34 EXECUT
EXIT CONTROL
ROUND
322
K506
2J
K3
-'
2r
2r
A342
A353
H932
K32C
COMP R2—'R'
5J71
PARTIAL
AIJD IN
SET X2TO 1
4071
O11
K53 0736
CLEAR X'
836 37
v834
_____________
H9 81
H68' P31
LOC
P32 V681
v68°
074
ADD R'U2
5N61
H963
682
P34C
PART AL
ADO IN 4
L07
520
i
LOB
F65°
K51'
___
H92'
K508__F390
A4736009
H923
F39'
W184K509
F440 F637 K310
AD~
X"~A'
INHIBITA'—.A2
JI37 659 K323
v22'N935fl
408
K41040954°
633A
L43
L70
r—1 H°3°
j173
NO RIGHT
SHIFT EXIT
6366
i__,o
‚2Ij:8
L23
325
?— H93°
932
P36
H684
H69'
P52
v69'
53C
H692
< 325
N934
P54
v692
155
H826
K507
2 J36
'1v83232
6360
H937
L_, H939
JHIT ADD
4996
N38
1
K405
1
633C
38
39
41
H686
P41
v686
6336
INHIBIT42
L42
K408
K319L22_fl
NO RIGHT SHIFT
EXIT CONTROL
J131
L43
K325
v69'
P446
P476
H68 9 P46
V669
P47C
III
H690
P51
V 690
P536
H 697
CONNECT A4f° Ijill
SHIFT IGHT
1 ______________
j131 -'J--.lr---------i
L H637 L41
SEE SHIPT
CONTROL
V6959<3277
F676
6440
H923
XI SIGN RECORD
2
3
615
H93'
P606
X' SIGN RECORD
KISC
ADOR'—.U2
H847
:43
6406
632C
COMP X'—'X2
38
43
CLEAR A
83 -i-ii
K 582 1
K513
6360
U'33
U707
921
ADD
P63
v697
P656
H698
P49
v698
P44C
H69'
963
COMP R2-R'
97 6658
__________
1\5977
6659C
EXP
OVERFL FAULT
238
2386L5
7
I32 1<239
45
EXP
U707 UNDERFL
FAULT
47
-fiBIT ADD
H930
~
6169
599
6J704
6J70C
N 38
H934
148
H936
NOTE
ALL JACKS ON CHASSIS 3
UNLESS 01HERWISE SHOWN
1< M14
L
___
44
CLEAR A
K584 1
6J59 1
:923
1336
6657
__________
66596
I-1°
OLI6C V6I9
Xl—,. X0
H 952
F74'
42
P
H
P64
P62C
CONNECT
A47 70 A°°
326
i—----i
1< II
9K327
:
614
—ii::::i
:‚0
40
p39
v65
'
2P36
U2 EXP —X'
______________
______________
PARTIAL ADD IN A
.
A343 1
w147 A352
(A35= A36)
NORMALIZE
23 SHIET LEFT
LZ61
K 318
CLEAR X'
H933
']V69
y9j
P59
SIGN RECD
P57
85
P38
684
031C
405
v698
(
H047
L:: _________
34
: 36
X2—X'
COMP XIX2
H68 3
H682
J
K328
F64'
[_*H960566
M66
N6°
- K07'4N71
v679
073C
34
T
H93°
JI?2
33
i°
36
L-,
1I1- +{71.
072
0?13L16C
Nil
I
H676
32
318
2r
iI1!1$1
.m
0;
46
47
IFEI
i:-
TITLE
- 02LiTERATJVE SEQUENCEEXECUTE
t01JNDNORMALIZEFINAL ASS'Y.
COe4TR0I. DATA
cooIATIoN
_t p
XDP 214549
14
Pe 15
TERM
LOCATION
PAGE
QUAD.
DEFINITION
F433
6M26A
19.3
0
5-3
F518
3M79B
19.4
2
26 + 32
F526
3M77C
19.4
0
25 + 27 + 33
F620
3K28C
19.5
0
24 + 26 + 32
F625
6J80C
19.5
0
25 + 27
F637
3P29B
19.5
0
32 + 33
F903
3M28C
19.6
1
24 - 27
K400
3M41B
51
1
Shift Right
K402
3M43}
51
3
R
K475
3K08C
11
0
Dividend SRFF
K501
3KIIB
11
2
AQ SR = 11 1"
Q004
3M34A
47.5
Q758
2M16
52
2
Q24 - Q29 = l's
Q818
21(41
52
2
Q982
1F76C
52
Q 30 - Q35 = l's
000
023 = lts
V631
3M37J
12
V635
3M38C
12
0
Iterative Sequence
V645
3M52J
12
3J
W773
61,27C
52
1
1
TERM
LOCATION
PAGE
QUAD.
DEFINITION
0 In Divide Shift Control
-1
Sewnd Bit of Q2
11011
Q Neg.
•sssssisssssssssssssssssssss*isis
•ssssssssösssssiossssssssssssiisss
010
°r
011
04
03
1
H
O6
015
07
018
1
0 19
1
Q
FF'5
3
j
F
PART IAL
ADO IN A
—
coMe x'
tK
QI -..Qt
TO X2
.38
HOS
LOe
jOJ
:
VI"
K34A
k32A
MULTIPLY
EXIT TO ROUND,NORMALIZE.FINAL ASS'Y
13
4
~
043A
HSSO N40
056C
041
041
_ .(232
INH BIT
A'—. t
K
CLEAR
2
x'
H''
H 5
N41
H' 57 N47
v.57
04
HOLT IPLY
v 445
H55 N 48
FUO
C
ADO X 2 TO A'
H'2 '
H ST.
H 15 ' Pl4
V45.
VII'
041
045C
F 63?
1171
071
DD X'A'
DIVIDE
H 13 j3
k4
Fen
H'3
L43
KUA
OIVIDE
FALJL T
H
V$ZO
K'°'
11920 1
H23
K33*
.04}
H 123
11 33*
HALF EXIT
K232
VGl2
H °3° L70
F'
K 233
L72C
NOTE:
JACK ASSIGNMENTS THAT DO NOT DESNATE
A CHASSIS REFER TO CHASSIS 3.
H 151
H°47
H"7
VExIT
VC
Klic
IHSIS
Q112
w"
F 51' AOD X t-. A'
921
St4
+
SII
_
vao
H913
11111*
Q 75$
•
-
1
CONT1OI. DAT
Il
604-A
„‚
ITERATIVE SEQUENCE
(END SIGN CORRECT ION)
XDP
214562
115
P(1c
I
TERM
LOCATION
04 + 10 + II
V004
4J04
5
3
Execute Instruction
0
74
V026
6M59
29
3
Even Resync. Pulse
19.4
2
74.0 + 74.7
V027
6M60
29
3
Odd Resync. Pulse
4M15C
19.4
3
74.1 - 74.6
V457
6N64
17.1
0
Aux. Seq.
F717
4N39B
2
F720
6J1OA
19.6
19.6
3
b = 1 - 6
b = 0
W142
4K77
25
0
Internal M. C.
F727
6J1OC
19.6
1
b = 7
W154
6L61C
25
2
Internal M. C.
H027
6M61
29
1
Resynchronizing Circuit
J062
4J62
4
0
Exit FF Clear
J968
7P61
30
2
Sense Response (Internal)
K262
4N33A
45
1
K263
4N33C
45
1
K622
3H01B
54.0
2
Even Storage Busy
K662
4176B
54.1
2
Odd Storage Busy
K712
. 4006B
45
3
Aux. Req.
TERM
LOCATION
F527
3N84A
19.4
0
F534
4N16A
19.4
F535
4M15A
F558
PAGE
DEFINITION
QUAD.
1
J
PAGE
DEFINITION
QUAD.
Aux. Req. Slave
1
M051
8P14C
M151
8P19C
M251
8P22C
M35l
8P25C
N964
6066B
N966
6N82A
N969
6P64B
O.
8J09A
63
3
Lowest Bit of EXF Code = 0
U142
51,60B
18.3
2
U2 Positive
Sense Response (External)
Even Clock Slave
j
Odd Ciock Slave
II
is$$$
888888—I'l
so sell I $Is I off I I
00
01
02
03
04
05
1
06
1
xooj
x
H930
LOAD EXTERNAL
FUNCTION CHANNEL
P58
oo
3K32C
H 932
v°°4
F534
K712
F7
_
K622
F
2
4810
4811
4N12
H7°
5
4813
Hrn
4814
H705
(HS STORAGE SEQ)
v705
K662
4011
4052C
-
<216
K263
F 717
4P42C
WRTE UPPER
j 834
;
F5'
v 457
j—
AUX.
REF REG.
F°
SELECT
16M521
1
K 76
086
7
9..FJ1__
09
6076
K'47
J '°
38165A
U I42
U2 —)
X'
6L46
L
F727
H8
6M54
K718
31,
--
681531
ENABLE
SENSE EXIT
H943
WITH EXTENSION
SENSE
1
W' 54-9
F527
H
68147 1
J'
941
RANK 1
K'35
K146
Z K036
J 05 '
V°
K 146
L73
K' 3 '
K
132
--
< 032
RANK]I
‚<131
5L74
7
‚<718
N
~
6 M411
K717
‚<716
'J45'
8801
‚<147
i
K131
K718 ‚<030
FUNCTION
READY
F716
H
027
034sENSE
<
N964
V 027
68820
‚<146
EADY
968
INTERNAL
CHANNEL
7
CHANNELS
‚2
M' 5 '
CHANNELS
3,4
M 25 '
CHA83€LS
5,6
M35'
062
‚<717
eNo2
K719
{iEEI1
8813C
SENSE
RETURN
_[IJ
K
SENSE
RESYNC
8N14C
j 916
‚< 136
88144
V °26
c!:(::
4L05
M55
':
FULL EXIT
J H °39
68156
1
K030
033
‚<137
___________
0000
K033 —
'10— f
133
48102
‚<030
HALF EXIT
‚<032
H 047
-026
4810
v °35
lEERE
8
v026
‚<716
N 969
CE (8AWE!IGS
_____________________________
‚< 718
CONTROL DATA
CORPORATION
E F COUNTER
lILI
-
EXTERNAL FLtJCTIONSEQUENcE
XDP 214514
H
16
_______________________________________
Pae17.O
TERM LOCATION
F717
4N39B
PAGE
19.6
QUAD.
DEFINITION
2 b 1 - 6
TERM
I LOCATION PAGE
V174
4014C
42
0
. V176
4021C
42
0
. . H061
3G01
54.0
2 Storage Sequence Control (Even)
V177
4024A
42
1
H081
4G77
54.1
2 Storage Sequence Control (Odd)
V178
4024C
42
1
V180
4031C
42
1
.
1750
8030
40
1 Content of C.R. In Use Odd
V181
4034
42
1
1774
8M32
40
1 Content of CR. In Use Even
V187
4046C
42
3
V190
J835
4041A
42
2 Read Lower
V448
4052A 17.1, 42
4N26 • 17. 1
J836
4041C
42
2 ReadUpper
V456
6048C 17.1
J845
7M72C
45
2 RanklScannerOdd
V457
6N64
1(212
4028A
K213
4028C
K217
4042B
631] Clear 0 FF
•
iJ
63
0 f = 74. 1 - 74. 6
16
K254
4P28B
45
1
K622
3H01B
54.0
2 Even Storage Busy
K624 . 3H02A
54.0
2 Diverter Drive (Even)
4176B
54.1
4177A
DEFINITION
QUAD.
0,3
H. S. Storage Seq.
Aux. Seq. or II. S. Storage Seq.
0
03.
V462
17.1
4P42A 42
oJ
V474
4M53C 17.1
f
V476
4M59C 17.1
V4'77
4M73A 17.1
ii
3
Aux. Seq.
H.S. Storage Seq.
ir
Aux. Seq.
0
V703
42
4012A 16
2 Odd Storage Busy
V900
3H09
o
H. S. Storage Seq.
EXF.
54.0
2
Storage Seq. Control
54.1
2 Diverter Drive Odd
V902
4174 •
1
2
Storage Seq. Control
K712 • 4006B
45
K713
4007B
45
W162
7K50
25
0
External MC.
K714
4P65B
4074
45
45
31 Aux. Req. FF
3J
3 Aux. Req.
1 Inhibit Rank 1 of Scanner -' ARD
W163
7J49
25
0
External M. C.
W183
6151C
25
1
External M. C.
1(662
K664
K768
Aux. Req.
. V480 • 6L69 •
4P43
V487
17.1
iJ
Odd CIock Slave
N901 ' 4038C
R039
4L42A
44
R059
8P72C
44
CCRu 00001 00006
1 CCRTJ ÖT01"006
soll
3D80
56.0
3 Lowest Bit of S'
S013
4D02
56.1
3 Lowest Bit of S 2
S021
3D82
56.0
3 Second Bit of S'
S023
4D04
56.1
3 Second Bit of S 2
1
.1 SSIISSIISUSISOSISSSSSSSSSSSS
III I $$sells 8881118 11 $$$is I Bill Is so
00
1
01
02
03
1
1
1
K 253
76
< 217
C.C.R.
v'78
7H4
04
05
06
07
08
09
1
1
629
N 63 '
7P69
N 6 33
7P70C
N 635
8P38
N637
8P49
R059
8B34
:
N 639
RANK 1 SCANNER
v 48 '
6P55C
K 662
K713
N2O
v44°
441
4 2 4N2
H.S. STORAGE
4N23
25
45216
4N21C
45246
42746
V 430
3G76C
V432
v487
K712
v703 -0-o-----------
v462
V'87
K622
J
v477
EVEN
STORAGE BUSY
1
F 717
K 714
K62331
<217
7i2
H 638
7P71
28
7P65
N 553
3D76
7
N 63°
7P68
N 555
3E76
N 632
7P702
N 557
3676
N 634
8P37
N 65 '
4648
N 636
8P48
N 653
4849
N6
6P55A
P1 655
4N504
ODD
STORAGE BUSY
F 717
v902 .Q__Y_
L
C C R.
v 430
v 487
4176
SET S' & S 2 TO ALL Is
Q
K 663
K664
H°8'
)J
8064
v 446
7
8P71C
8061
1750
CR0
C C.R5
8P69
S2
J 550
K624
K 663
1448
LK0
K °' 5
I8
K005
w849
H°6'
8M84
8P68
8053C
8053A
8 56
552
w ie3
w859
80546
183
T647
1 774
CCR 0
1
-
S
s°23
K544
8 P60
w 869
s o21
8P61
1
K 1 54
Z
.P62
41-56
v432
K 155
74
217
W'63
I0 9 15 1 6
CRLI7
v480
so il
J 45
7pig
-1
40376
w162
vial
j 846
VISO
v 190
v 456
w
7N044
16
7N076
jj
GG5 I0I5
T
v' 74
5
7NOIC
Ko 15:
K217
-EII
viel
v 180
v 190
31976A
7N04C
t
7003A
i )- i
7N07C
78026
-I1II
7NO2C
7N05C
7001C
7N034
7N066
70026
70056
7002C
7005C
7N054
-HII1
70016
-I1I
70046
j 198
AUX SEQ WAIT STOR
4M43C
E
52,
v456
w ie3
L
i
4M436
, ~q
ARD
s°'3
7p
8
v447
H 84 60821—
1771
542
1771
j835
< 213
-
4M63
4J696
1770
K 662
< 254
217
ro62
6O6O1
_[
7NO3C
W~
—
L
7N06C
--~
W
-74
4 157
<153
CRu
H 516 ‚H 518 ‚H 520
4L58
I7
1 770
462
H 445
I8
H 517 H 519 ‚H 523
H776
623
4N09
v900
SET CRu 4 Is
K212
N901
NO8
R059
CLR. 0
6N76A
K768
< 622
8851
R039
MI°
ARD
H986
I
6N50C
S 1 S2—
ARD
H485
6084
6083
Z
10
F
]'
M
H19 0
H638
H639
H986
J166
J186
J259
K005
K012
K013
K014
K015
K217
K253
K713
K919
K768
R907
R908
LOCATION
4051
7P71
7H84
6071
3F04A
4F84A
4Hh]A
8P56C
7P20A
7P19B
8N25A
8N24B
4D42B
4N17C
4007B
7K64C
4074
6M63
6M64
PAGE
3
0
0
3
H. S. Storage Seq.
54.0
54.1
17.0
2
2
2
Count of 3 In Even Storage Sequence Counter
Count of 3 In Odd Storage Sequence Counter
Aux. Seq. Wait Storage
1
CCRu
17.0
39, 17.0
39, 17.0
39, 17.0
39,17.0
16
17.0
45
71
45
36
36
3F07A
54.0
V073
V083
31108
4F78A
54. 0, . 1
54.1
W821
6036C
W822
6N37
W823
6037C
6N38
W825
W826
6038C
6N39
DEFINITION
42
17.0
17.0
45
V063
W824
QUAD.
CCR
Clear CCR
Rank 1 Scanner
i
1
TERM
LOCATION
PAGE
QUAD.
DEFINITION
-
ARD
18
2., 211 CRL
2,2J
1
1
I FF
3,2
FF
CRu
3,2
0
f = 74. 1 - 74. 6
2
Aux. Seq. Wait Storage
3
Aux. Req.
1
Reader Motor FF
1
Inhibit Rank 1 of Scanner
2
CCR = CCRL
2
CCRu
CCRL
1
-
ARD
2
1
2
Storage Sequence Control (Even) 27 time
Storage Resume
45
1
=
45
45
45
45
45
1
1
1
1
1
ARD
ARD
ARD
ARD
ARD
ARD
=
Storage Sequence Control (Odd) 27 time
=
=
=
=
1
2
3
4
5
6
I I I ct-il
1181881881888111818 1 is Is is Bill is $I
II
12
v073
4526
K253
4N27A
________________
L
15
13
4N28
L
4N29
H 450
1
H 45 '
4N34
H453
4536
453
H 986
4N30C
45354
4N35C
21
v472
4M534
21
22
33
32
j 186
v 472
H 455
6563
H 466
v455
V' 90
6865
v466
H 457
6877
H 478
j259
1< 253
1<003
K 769
READY RESUME WAIT
REQUEST
OH
I
6051
W 62 '
R908
1
K 784
6041
K 785
w82'
OH.I
K 70°
6650
H 90
K 70 '
OH.
OH.
2
K 726
6052
W 872
<727
R908
2
K 786
6042
<787
w822
H 457
OH.
2
K 702
6551
<703
R 907
OH.
w 823
OH.
3
K 73°
6055
W 823
3
K788
6043
K 789
R908
;
OH,
3
K 704
6N54
823
K 705
R 907
BUFFER AOTIVE
w824
OH.4
OH.4
K 734
6056
W 824
K 735
K
6540
R908
w824
K79'
OH.4
K 726
6N55
K707
R 907
OH.5
OH.5
1< 738
6059
w825
W 825
1<792
6541
R908
OH.5
K708
w825
6N58
1< 709
R 907
w826
OH.
OH.
6
1<742
6060
K 743
W 826
6
K 794
6N42
795
R908
OH.
6
K 71°
w626
K 7"
R 907
l
_____
Öl v 19° ________
1< 015
R907
w822
20
H455
6859
L
4537
1<768
H 47 '
45384
L
453
H 472
H 473
4N55
v454
4M514
4M51C
r23
4562
24
H 476
4N64
25
1
v 477
4M594
1< 0 14
4M59C
4M734
H639
CLR.00R
I l O_
4N66
6048C
OH
19
6L69
v083
K 217
[
V4
4N
4M53C
v°63
1
22
H 474
j 166
20
18
17
1
________________
K°°5
16
_]
4M38
45
1
H 638
I7
OOR
TERM ILOCATION
1
PAGE
IQUAD.
F351
6K06C
19.2
F541
3 N8 OB
F549
3M71C
F553
3083B
F557
3081B
19.4
19.4
19.4
19.4
F569
3078A
19.4
F6 37
3P29B
F640
3P28B
F650
3M25A
F7 30
4K65A
F7 31
3N12A
F737
3P26B
19.5
19.5
19.5
19.6
19.6
19.6
F740
3P25B
F840
3P22B
F940
3P21B
19.6
19.6
19.6
1250
4N59
33
1284
4N58
1500
1A 27 B
1600
1A53 B
1EO6C
33
55.0
55.1
43
3
3
1
33
33
28
2
2
1
5
5
5
14
9
13
0
0
0
2
3
1,3
1715
J067 4029C
J068 6H8 3
J840 4N04C
K061
4K17B
1(2 00
4J15A
K2 01
4J16B
K40 5
3N38C
K461
3M69C
K511
3K1.4B
N2 54
5M16B
N931
3J76C
N9 50 5L46B
N9 60
6P66B
1
2
1
1
3
1
0
2
1
0
0
2
2
1
3
3
2
D E F N lT ION
52
30
+
53
TERM I LOCATIONI PAGE
IQUAD.
V005
vOlo
4K02C
3L79
V077
V094
V096
V099
V151
V153
V203
V302
V402
V405
V406
V410
V420
V431
V508
V524
V532
V602
V609
V661
V665
V666
V668
V670
V672
V676
V679
V680
V694
V786
V871
3M74C 54. 0, 1
41(06
5
4K08C
5
41(1].
5
4075
5
4084C
5
3K60
7
4K20C
8. 0
3M56C
9
3M62
9
3M59C
9
3M63A
9
3M73
9
3M74A
9
4M24B
10. 0
4M32A
10.1
4M48A
10.1
3020C
11
3025
11
3052C
13
3055
13
3056A
13
3058
13
3060
13
3061
13
3071
14
3073C
14
3074
14
3P59
14
4057A
33
4P38A
5
xl Exp
U 2 (Ext)
Odd Clock Slave
W150
3J08
Even Clock Slave
W156
Even Ciock Slave
W781
33
34 + 35 + 50 + 55
56 + 57
22 + 23 + 75 + 76
20 + 21 + 47 + 60 + 61
32 + 33
30 + 31
(30 + 31) (U 2 SR = 1) + 33
b 0
b 0
32 + 33
30 + 31
30 + 31
30 + 31
-
Adv. Ciock
Adv. Ciock
Lowest Bit of i
Lowest Bit of I
Lowest 1.t of 1
Interrupt
Interrupt
Stop II F
=
hiT?
Exit FF
RNI Wait Storage FF
Inhibit Add
Return Jump
U 2 SR = 11 1"
28
25,
1
1, 2
5
.
1
DEFINITION
Manual Control Circuit
Clear Control FF's
Storage Resume
01
0
1
1
1
0
0
0
3
0
3
3
2
1
0
1 I
o}
1
0
0
0
1
1
2
0
0
0
2
0
3
RNISeq.
ZA Seq.
RO Seq,
wo Seq,
S&
T Seq.
Iterative Seq. (Main)
Iterative Seq. (Execute Floating Point)
Iterati ve Seq. (Round, Normalize, Final Ass'y)
Interrupt Seq.
2
3
R'
-~
5K39
25
25
31
2 J
Internal M. C.
41`14C
60
3
No Buffer Active
flTSSTfl1SIISTS11TS1I1flflTLLfl 1
•SS,S,S,SSSSSSUSSISSSSSSS 0SIS
r
1.
1
b
m
6 STAGES
3 STAGES
15 STAGES
THRU U4°/U4 '
u 420/u 421
u 39/u 39'
TYPICAL STAGE
•0 •
:D :D
M718
u240/u 4
U410/U41 '
TYPtCAL STAGE
t)
-
wtP
u_ _J
THRU
:
u
0
dl
0R2
u —J L
u
0
L
24 STAGES
U80/u
XLA —. UA
TYPCtL STAGE
N t
t
THRU
U
U
5079
W4tU
M715
0
542
r 539
I2
1639
-J'
M2
•
F557
N53
v 41 °
O68
5M09
'0
-77
10
j 0
u OOI
i'
UI8I
;
7H
602!
v I5
40
MANUAL CLEAR
EXEC0TI
ADDR€SS
vlsi
°'
6022
N96°
CLEAR
5K
—f«-_- M724
H 955
v 672
0
000
___________
H.
L
0
W ISO
511
2/U3 THRU u9/11093
0
&
0
0
x
•
'
00 000
(90 00.
•‚.0 oo
_
w781v071
40553
I0
x36
0
x
0
HX360
3J40
F553
302
F549
002
F73'
F 730
R1 TO
—
v406
v666
F64°
205
1
c
4P12C
0
v 099
A
F 73'
40A
v 679
K5
5M39
F65°
v 6°9
F 54 '
5M38
670
H0l
1
t.j°
F569
up_-~ u2
0
F—
LIW
R
5L61
1
v402
524
w
•03
•n
jO
J 06?
F73'
v°°
TYPICAL STAGE
-
:
N93'
F 4°
10 STAGES
U
THRU U142/040
TYPICAL STAGE
)( -&
557
U
Sk4OC
670
u UPPER
5 STAGES
v409
v050
v 18
6N178
2 0
1( 461
3J42
MANUAL CLEAR
FUNCTIOR CODE
u 02/u 03
H 975
ULOWER
N254
M725
3J12
T___!!_.
4
v680
K 450
52
v096
1( 061
v676
____ ___________
volo
o
Dj
6026
6020
H 967
v 431
11
200
CLEAR b
6
0
1 500
1600
1715
6I5
CLEAR f
U1
953-
1 834
i
LEAR
v °96
K061
OOOO
J
U
TYPICAL STAGE
K 452
0 0 t in 01 cl In 0
00.00000
ID
v094
u °°°/u°°' THRU u230/u23
EXTEND EXPONENT
X 1 .p
)U 2
v 67°
F 637
661
3J41
IN
DATA
v672
.
z
.=ol
EIT
K5'
604A
F737
K405
1
l
PROGRAM CONTROL
Ii'
und
REGISTER
U'
XDP 214550 1 C
18.0
1
Page 18. 1
TERM
LOCATION
PAGE
DEFINITION
QUAD.
1715
1E06C
43
1
1716
1E07C
43
1
1717
1E08C
43
1
1718
1E09C
43
1
1719
1F07C
43
1
1720
1F08C
43
1
1865
6E01C
43
1
1866
6E02C
43
0
1867
6E03C
43
0
1868
6E04C
43
0
1869
6E05C
43
0
1870
6E06C
43
0
1871
6EO7C
43
0
1872
6E08C
43
0
1873
6EO9C
43
0.
N053
6L23B
Clear U
N075
6027B
I5
N153
61,24B
Clear U
N175
6028B
N253
61,2513
Clear U
N275
6029B
I5
N353
61,2613
ClearUL
N375
6030B
1
7
-U
,
1
6
6
-
,
Inverters
u
6
6
-
TERM
LOCATION
PAGE
QUAD.
DEFINITION
u 3 '°
uoo
¶
oI
T-
_
010
:
~
It
_____
0
:
l
I
____
1
u 27°
u 260
rIH
u 250
riii
0
______
10
01
0
N O3
03
u 2°
0
'
r0
0
1
N°
(0
2
0
0
o
Jo
0
0
D D
NL3
1 506
1 607
1 505
1 606
1 504
1 866
1 605
1503
1 665
1 604
1 720
1603
1 719
1 602
N 175
1718
1 50 1
1601
N 075
1 717
1 716
1 715
N°75
N °75
N 075
N 075
N °75
u 370
u 360
u 350
U 4O;
U 33°
U 320
u 390
u 060
¶
0
D
_
01
0
1
1 615
N 275
1I 0
1
‚
Nt53
N 2D53
1 515
-
1 514
3
3
.
1614
1512
1613
1 873
1612
1 872
1871
1 870
N 275
N275
N175
u 44°
u 430
u 45 °
0
0
1
1 51 1
161
0 (0
I
1
:3
1 513
N 075
1 50 2
0 _
1
1
0
1
1 500
1 600
o
T
TT
N—
1510
1 522
1 623
1 521
1 622
N 375
N 375
353
H
D
W1
t
1 609
1 869
1608
1868
1867
N 175
N175
N175
u 420
u4 °
u 40 °
1 610
-
00
N 353
0
N 353
D
N'5
1 508
LI
N
A_
0
1 509
1
1 523
t053
m
o
:]i
°
_
0
N°53
1 507
N ' 75
1
u 29°
(0
_
N 50
1 520
1 621
1 519
1 620
1 518
1 619
1 517
1 618
1 516
N 375
1 617
1 66
N375
N 375
N 375
N 275
N 275
]
RU8PE#CE OR8WINGS
CONTROL DATA
- 8I_
COMPONENTS
UJNLE5S
TiiWi5E
INDIOrnD,
TCiLXMCE
1604-4
8
UowER
XDP 214607
______
1
18.1
Page 18.2
TERM
LOCATION
PAGE
QUAD.
DEFINTON
J114
5080B
J115
5081B
J116
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I, i6
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TERM
LOCATICN
PAGE
QUAD.
DEFINITION
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b only
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NOTE:
ALL JACI 36
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25
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). CONT DATA
.
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1604-A
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R REGISTER
XDP214551
21.0
1
Page 21.1
TERM
LOCATION
PAGE
QUAD.
DEFINITION
H872
5022
21
H874
5K49
21
21
2
H876
5035
21
2
H878
5K62
21
2
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R
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R2 -.R 1
3
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Comp. R2
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U 2 -' R 1
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Clear R 1
N160
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fil •-.•R2
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Comp. R 2
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U 2 -' R2
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Clear R 1
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Reduce R
N260
5M23B
N261
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N262
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R 2 -'.R 1
2
3 _‚ R
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Comp. R 2
N264
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Clear R'
N270
5N56B
Reduce R
N360
5N23B
R' -'
N361
5L31B
R2
N363
5M36B
Comp. R 2
N364
5K41B
u2
N370
5056B
Reduce R
1
Reduce R Logic
PAGE
DEFINITION
QUAD.
TERM
LOCATION
R166
5J38
21
31>
R175
5J3'7
21
3J
R >36 Transiator
-- R2
‚
.
R
-
-
3
R
-
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-' R2
-
-
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-
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u 561
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N
U621
u640
u647
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N 370
N37°
N 37°
N 37°
ifl
Pasie 22
ERM
F433
F701
LOCATION
PAGE
F703
F704
F705
F706
3M26A
5011
5P25
5010
51`21
5009
5P20
K690
4L63A
K891
K693
4L63C
4N68C
U426
U437
U445
6P21A
6P23C
6P25B
19
19
19
V012
V343
4M77
4K46
3036C
25,5
8.1
11
F702
V608
QUAD.
DEFINITION
0
3
33
b=1
b = 2
19
3
3
19
1
19
19
1
1
10.2
10.2
10.2
31 Interrupt +
Ciock Request During 63 (1) FF
3
Interrupt + Ciock Request During 6 3(11)
3
2
2
2
1,2 Clear Control FF's
0
RO Sequence
1
Iterative Seq. (Main)
19.3
19
19
b
b
b
b
= 3
= 4
= 5
= 6
Slave of
Slave of
Slave of U 44
TERM
LOCATON
PAGE
QUAD.
DEFINITION
$is Is $$Bill Is $is$ I I
RANK i 2
15 STAGES
1214
1 2 00 THROUGH
R
X380
080
R
0
108
B I 14
070
R050
R060
X 0*
1411
0
B306
B,. ~
13205
:
B go
X2
F
x 310
X,_.o
R040
I 2o B t
B30
R 030
1.B
B
4
X
7*
0
-
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R 00 ]
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Rolo
J2
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B302
B 301
XZ50
B 102
B-"
)–X240
B
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B'
F 70 '
b *1
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K090
K092
12
82
SET 12
r---i4090
b *2
6
[j
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1714,
j321 ___jl< 09I
J 322
12
B—
4672
J320
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RNI
P41
1320
j 323
K090
I'
J -°---
<092
SET 1 2 FOR
F 703
b *3
u 426 1 INSTRUCTIONS
-EIJ--°--437
RANK 13
u445
15 STAGES
1300
T
Y
C
P
R' 4°
3l4
A
L
S
~ ~
8513
T
A
G
E
S
R °2°
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J
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12
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i
THROUGH 1 314
R' 20
R 130
1
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11J20A
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F 704
b *4
Fi
E,413
~ E".,
E3402
8412
093
8401
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J 320
13
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J321
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8 614
8613
8 612
B512
8602
ß600
8601
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B6
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13
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P40
EI*-o.----
37—
-
r
F 706
6*6
RANK I
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ALL JACKS 06 CIIASSIS 5
15 STAGES
UNLESS OTHERWISE SHOWN
i °° THRO4JGH i'
T
'l
P
1
C
A
L
S
g4 8614
B1136413
B 2 8 412
3102 82
8 514
B314 8 414
8 213 8213
B212 8 512
8202 B 02
B 612
B 02 8602
8 214
B313 B613
75
74
R' 42
ß312
R 132
R 122
11'9
R 022
T
A
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8b01 B 40 '
8201 B 50 '
B 30 ' B 60 '
E
S
B' °° B 400
B200 8 500
B300 8600
I9
R 012
R 002
3
2
K 090
K092
j
v343
4673
V oI2
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RNI
Page 23.0
TERM
LOCATION
PAGE
F503
F573
4M09C
3077B
F594
F721
F722
F723
3K55C
5N09A
5N09C
5N08A
F724
F725
F726
5N08C
5N07A
5N07C
19.6
K693
4N68C
DEFINITION
QUAD.
19.4
0
19.4
19.4
19.6
19.6
19.6
1
TERM
L0CATIONI
QUAD.
PAGE
DEFINITION
52 + 53
55
34
35 + 50 + 51 + 54 - .5
19.6
19.6
3
3
3
3
1
1
1
b
b
b
b
b
b
10.2
3
Interrupt + Ciock Rccuest During 63 (II)
= 1
= 2
= 3
j
= 4
= 5
= 6
Manual Set Buttons on Corisole
MB
5 & T Seq.
N880
4039A
10. 2
3
V012
V205
V207
V208
V214
V340
V342
V521
25, 5
7
7
7
7
3.0
8.1
10.0
10.0
10.1
10.1
1,2 Clear Control FF
O
0
ZA Seq.
1
1
V523
V524
V526
V790
4M77
.3K61
3K63
3K65C
3K51C
41(41
4K43
4M29
4M31
4M32A
4M34A
4M79C
33
1
1 ‚ s & T Seq.
0
0
Interrupt Seq.
0
W144
4K78
25
1
11 Read Operand Seq.
r
OJ
1
Internal M. C.
I10110000SSSS00011I11101111SSH
n
H
ussssissIissösssssssisIsssisssssis
J 45
MASTER
EÄR
6
IN39A
O
W 6H
CLEAR B'
15 STGES
(bI)
2
—
CLEAR B
N 680
K69'
521
F 722
v 340
205
F594
4N76
v
v207
v342
L80°
30
3
CLEAR
-0
1400
M 800
-
K55'
M
N3BC
—
2
640
w 64
CLEAR B4
M 983
N86°
1< 690
w65-
164
8200/
j4I
B214 / 5264
15 STA6ES
B250
THRU
15 STAGES
g 300 / 350
TYPICAL STAGE
1200
L815
°
0
1200
L830
M 83
1400
w6k
w62 —
STAGE 0
0___
1200
co
io
82
w72
3I4/ B364
THRU
TYPICAL STAGE
M 815
w 7I-.
CLEAR B'
N 37A
J650
THRU B11 4/
T YPICAL STAGE
M 981
N38A
-
K 550
BI 00/ B 150
M 98°
1
CLEAR B 2
STAGE 0
14B3
CLEAR
3
STAGE 0
CLEAR B5
~~N37C
:
—
B'
6
(b= 5)M9 4
(b6)
B2
86
M 985
5 STAGES
(b I
F 72 '
__-‚
v24
THRU B 414
P3IC
L°45
1 300
F 123
P30C
I-9 B 4
L
F 724
P26A
NOTE
1b51
F 725
ALL JACKS 06 C4ASSIS
5
UNLESS OTIIERWISE SF4OWN
M
w
w64
CLEAR B 4
v526
INPUTS ANK MANUA L
SET 8U1TONS 06 CONSOLE
(b6)
075
i
65
w15-_
w65-
J4
STAGE 0
B4
).
1
300
M8T5 4
1400
M860 H
I-9 B3
B614/B664
STAGES
THRU
TYPICAL SrAGE
L0 1 300
> B2
i—
P304
NIO
B600/B650
TYPICAL STAGE
F 722
4N78
4680
5
15 STAGES
THRU 13 5 1 4
B °°/B
TYPICAL STAGE
B
v 208
F 573 v524
5400/8450
1 —) 5
1400
w 765
w66
-
CLEAR 135
STAGE 0
6
CLEAR B6
B5
P26C
B6
F726
2
5
STAGE 0
Page 23. 1
TERM
LOCATION
W610
W611
W612
5P44A
5P43A
5P42A
W620
W621
W622
5P39A
5P38A
5P37A
5P34A
W630
W631
W632
W710
W711
W712
W720
W721
W722
W730
W731
W732
5P33A
5P32A
5P44C
5P43C
5P42C
5P39C
5P38C
5P37C
5P34C
5P33C
5P32C
PAGE
DEFINITION
QUAD.
.
I.
J
1
J
PAGE
QUAD.
DEFINITION
C].ear B 2
J
1
J
1
LOCATION
Clear B 1
J
J
1
TERM
Clear B 3
1
4 .-. B'
14
1
B2
-* B3
1'1111111111111101101001111111111
L814 1214
L
I
L813 1213
L
—
m
I
I
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t 1
M8I4
W612
M8I3
L812 1212
t
w 612
L8'
LI J
I
co
M8I2
I
WtI2
i21
L60 1210
1
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M8TW. I2
lo
I
H
M8I0c
oi
I
6I2
L 809 1 209
io
10
MB09
1 414
1 413
1 412
1 411
1410
1 409
w 12
w 712
w 12
w 12
w 72
w'
L829 1 214
Lt
CO
M829
—
‚'J
Fcn
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t
L828 1213
1k
W622
t
M828
L827 1212
rd
t
w 622
M 827
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j622
L826 1211
L825 1210
—
N
I
M826
j622
M 625
ol
tuoI1
oj
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w61'
1°
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1 407
W711
L 822 1207
L 823 1 208
i
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621
wt
M 824
M 823
j621
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-
j621
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1 405
w'
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w62
i
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H
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1 404
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1- 819 1 2
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1
i
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lo
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M 800
w6 '°
1 40 3
1 402
1 401
1 400
w °
w
w
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10
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L 817 1 202
1
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M 8 18
MBI7
w620
W 620
M 816
M8I5
w 62°
w 62°
1 414
1 413
1 412
1411
1 410
1 409
1408
1 407
1 406
1405
1 404
1 403
1 402
1 401
1 400
w 722
w 722
w 722
w 722
w 72 '
w 72
w 72 '
w 72 '
w 72 '
w 720
w 720
w720
w 720
w 720
L
—
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t
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1 414
w 732
L843 1213
L 842 1 212
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w 732
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10
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L839 1209
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W 632
L637 1207
L838 1 208
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L835 1205
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L833 1203
L 834 1 204
1
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w 722
L844 1214
81
1 815 1 200
L816 1 201
1
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1- 818 1 203
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M 803
L 600 1 200
L 50 1 1 20
L802 1202
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L820 1205
in
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w 611
1 406
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7
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L806 1 20
M
L824 1209
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L 807 1201
L 808 1 208
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10
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I
11
I
630
M833
L 832 1202
1
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I
1
i
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w 630
w 63°
L83' 1201
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L830 12
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1
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w 3°
w 630
1 412
1 411
1 410
1 409
1 408
10
1 406
1405
10
1 403
1 402
1 401
1 400
w 32
w 732
w 32
w 73 '
w 73 '
w 73 '
W73 '
W 73 '
W 70
w 730
w 73°
w 73°
w 3°
NOTE
ALL JACK LOCATIONS ON CIIASSIS
UNLESS OTHERWISE SHOWN.
5
j1[TT_
1
i 1
1
L
1
E
Room
1
T— 1 604—A
o—,
j
CONTROt. DMA
CO'CATION
INDEX REGISTERS
8 1 ‚B, & 8
XDP 21 4610
________________
k
23.I
Page
TERM
LOCATION
W640
5P29A
W641
5P28A
W642
5P27A
W650
5P24A
W651
5P23A
W652
W660
5P22A
5P19A
V661
5P17A
W662
5P16A
W740
5P29C
W741
5P28C
W742
5P27C
W750
5P24C
W751
5P23C
W752
5P22C
W760
5P19C
W761
5P17C
W762
5P16C
PAGE
QUAD.
J
1
DEFINITION
Clear
B4
Clear
B5
Clear
B6
23.2
TERM
LOCATION
PAGE
QUAD.
DEFINITION
J
1
J
1
J
1
i
B4
I
B5
J
1
J
1
4
B6
sells
II
L859 1 314
L858 1313
to
I
m
•I1
I
I
t1 t
M 859
W 642
L
L857 1312
j
a
ti 1
M 88
W 642
L856 I
LV
LI
MB57
j642
L854 1 309
L655 1310
O
i
—
'O
w642
M86
O
i
°
CO
W642
M854
L 852 1307
L853 1 308
w 4'
i
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M853
H
i
j64I
i
o
L85' 1306
10
i
M852
j64I
°
'I
i
1
M85I
L 849 1 304
L850 1 305
j64I
10
1i
M 850
w 4
L848 1303
i
M 849
1 0
i
wG 40
L 847 1302
M848
J
1°
i
i
M847
w 64°
1°
i
'I
i
L 845 1 300
L846 I0I
W 64O
m
M846
'Ii
o
i
o
W 64O
1 414
1 413
1 412
1 411
1410
1 409
1 408
j407
1 406
1 405
1 404
w742
w 42
1 40 3
1 402
w 40
1 401
w 742
w 4'
1 400
w 4
w 74 '
w 4'
w 4'
w 74°
w 740
w 40
w 40
w 740
tt
1
1 1
t
M874
W 652
i"i
1
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1
i
1 0
oi
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1
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1 0
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I
1
52
M 872
M871
w 62
1 414
1 413
1 412
w 752
w 52
w 752
L888 1 313
t1
¶1
tt
1
W662
Lt
M888
LS 87 1312
L886 1311
t
1
Vj662
L866 1306
L865 1
1 864 1 304
L 862 1302
L863 1 0
L86 '
1301
L860 1 300
M 870
W 652
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1
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1
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1 410
1 409
1408
1 407
1 406
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1 404
1 403
1 402
1 401
1 400
w 52
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w 5'
w 5'
w 75 '
w7 '
w 750
w 50
w 70
w 50
w 750
L885 1310
L884 1309
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L867 1307
4
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L8e9 1 314
L868 1308
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L 870 1310
L 87 ' 1311
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L 873 1 313
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w 640
w 42
L 874 1 314
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1
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1
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L 880 1305
L879 1304
L 877 1302
L878 1 303
L876 1301
L875 1 300
1'1'
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w 66°
1 414
1 413
1 412
1 411
1 410
1 409
1 408
1 407
1 406
1 405
w 760
w762
1 404
1 403
w 762
1 402
1 401
1 400
w 762
w 62
w 6'
w 76'
w 6'
w 76 '
w 6'
w 60
w 60
w 6°
w 76°
w 76°
NOTE:
ALL JACK LOCATIONS ON CHASSIS
UNLESS OTI-IERWISE SHOWN.
B6
1
REFERDICE D0AWIIIG
11
1—•1Ii
5
[ 11
lI
1011
-
j
C0MP0NEITS
WRLM onow
CONTROL DATA
CORPORATION
*WLCT O P00000!
1604—A
RUMORS
„
TUOE
••
INDEX REGISTERS
64 ‚B 5 ‚ 8 B6
XDP 214611
IPO" 23.2
TERM
LOCATION
F557
3081B
19.4
22+23+75+76
F573
3077B
19.4
55
F582
3M83C
19.4
76
1254
6N83A
33
1270
6K75A
32
1272
6K76A
32
3
1274
6K7'7A
32
3J
J050
31,21
6
0
Jump
4066
4N54
33
2
Interrupt
J068
61183
33
2
[nterrupt
K060
4K16B
5
0
Exit FF Clear
K411
3K72B
21
2
R1O
L751
6180B
L752
6180C
M993
2D04A
28
3
Mode Switch Up
N909
61,38B
N961
6J17B
Solo
3D79
56.0
31
s'
S020
VOlO
3D81
31,79
56.0
25,5
3J
1,2
ClearControlFF'S
V033
4M02
5
0
Full Exit
V102
31,83C
6
1
Normal Jump Sequence
V103
3L84A
6
1
Normal Jump Sequence
V205
3K61
7
0
ZA Seq.
V401
3M56A
9
0
V405
3M59A
9
0
V409
3M62
9
3
PAGE
QUAD.
2
DEFINITION
TERM
LOCATION
PAGE
QUAD.
DEFINITION
Externa]. Interrupt
1
Interrupt Address Re gister
Odd Ciock Slave
}
1
J
Register
WO Seq.
Page 24. 0
W149
3J07C
25
2
Internal M. C.
Rev. J
181811118181888888 loss$$ $is$ I $is I I
III III I I I is $is so
SEE BREAR POINT
TRANS LATOR
p 301 p 501
e 50° p 500
1
IE76C
s021
H B9O SOf Z pOO 9 KO78
SOfS K°79
1E78
R890
P30I
X 012
X °'
X0221
1E79
p 501 p 500
p501 p300
r'tI1iEIb
Y
X 003
X002
EllA
1E77C
s °2°
L752
F'"O
S° ' °
L75 '
6104C
p 020
s0f
S 0f
p 500
,P
1E76A
s 2 P 009 K 06
P SoI
P Soo
K077
H890 HT pOO9KO7
H9
P ol0
6009C
p 009 K 075
40
6U04A
60092
w 184
PC4'
RANK P 1
15 STAGES
P 120/ P 1 2'
THROUGH
P 140/ P' 4 '
P0 9
P0 9 '
THROIJGR
P"° / P"
P060/ P 0 6 '
P °30/ P 0 3 '
THROUGH
THROUGH
poec, ‚oet
iP
poso, posi
r
.
!o
CA
o
-
u°'3
C4
(I'
I
I2B
6
T
u
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M 751
U
003
H__
___
__
10
M75o
MASTER
CLEAR
154
.
w
324
If1
CLEAP P
±2
28O
EXT INTERRUPT
1254
P 122/ P 123
THROUGH
p 142, p 143
P092/ P093
THROUGH
P 112 /p 113
P062/ P 063
P03
P082/
p052,p053
THRGH
p0e3
1
P033
THRGH
ooI
1
cf_N I
N96
I3
a.
N961
f
1283
EXT. INTERRUPT
1
1
MANUAL
CLEAR
FSR2
V208
v03
F573
v103
?- K4"
Job
-?
L27R
_________
1 3&.ii 1
F857
1 ‚< 560
K'3112 ri W'4
'
E1
LIT H92
N 28
volo
V40'
j068
6oA
0
6J05A
6J06C
I270
8i
6660C
626C
1283
1274
"
6N84C
P303
N 96 '
N 961
RIOIA
6 UNLESS OTHERWISE SHOWN.
P030
L75°
STAGES
W79-
u2 -. P'
SET P
RANK P 2
.__k_42C 1
1 283
IH
15
M'5°
1
6N84A
1198
0
p 3€
J OB8
P 040
J IOG
P REGISTER
.‚46A
K53
.366
.266
EXTER MAL
SEE RNI
.l66
072
4L07
J 499
j 158
F-:;-7-1
160
l60C
6
P 09 '
P l01
Pl'1
N909
L35
P°6 '
P oll
pORI
9 09
634
P °3 '
P O4l
°33
L33
T
P °° '
P oll
posi
Pool
N 909
N 909
I
~~~
J°5°
V4o5
LIlA
uO2fl
98
8C
M
M 993 SWITCH
P303
64
1 J
1
J
T
P l33
1
P 43
[-L--1
J58A
P OSS
P 03
Pl' 3
6 3 VAC
61l IC
--!i
r--i
J57C
PO
p 0 63
P ol3
p 032
ADVANCE P
1 NTERRUPT
6904
J57A
p0
M
S200
1604/1604-A
SWITOH
J260
fH
1
po 12 1
Poo2
J 499
1
P7-17 TRANSLATOR
58
1
ikII
_____________________________
1
Page 24. 1
TERM
LOCATION
PAGE
QUAD.
H892
6L34
24
2
H894
6L35
24
2
H896
6L36
24
2
DEFINITION
Advance P Logic
J
TERM
LOCATION
W170
6N49B
W700
6L41B
W701
61,42B
W702
6L43B
1254
6N83A
33
2
External Interrupt
W703
6L44B
1283
6J26C
33
2
External Interrupt
W790
6L30A
W791
6L30C
W792
61,29C
M790
6101A
24
N028
6J54B
N128
6J55B
N166
6K32B
N228
6J56B
N266
6K39B
24
2]
N366
6K46B
24
2
N466
6K53B
24
N961
6J17B
N963
6J16B
N965
6K17B
N967
6K16B
P019
6N79
44
P029
6N78
44
r
oJ
P300
6J57A
24
3
P301
6J57C
24
3
P302
6J58A
24
3
P303
6J58C
24
3
P503
1F02A
35
3
P504
1F02C
35
3
P506
1F03A
35
3
P507
1F03C
35
2
P509
1F02A
35
2
P510
1F04C
35
2
P512
1F05A
35
2
P513
1F05C
35
2
24
1
2
Manual Clear P
I
PAGE
25
QUAD.
2
DEFINITION
Internal M. C. (Sets P - 00020)
‚.
u2
-
Clear P
SeIP
Advance P
Set P
.
Advance P
Odd Clock Slaves
0L
P
i
Transiator
P = 7 - 17 Translator
Breakpoint Transiator
$is $sell
—#I
188881
p 507 p 507
P506 p506
p506
P 506 P507
22
894
W
07
xo:3
v
1F78C
s°8°
s°82
1F78A
u083
OBI
O83
u 073
w°°'
M °58
1
N-
0
0
°-
w°9'
0
M °°°
E1-1
0
N 128
O6O
P 064
P°65
8834
1E83C
u 063
w°o'
O83
18829
u053
w73'
w70'
w 79 '
1
N' °8
F
N
___
O4O
P
O42
IE8tA
1
043
w°°'
W79'
P 503 P 504
rHIE1
t
L °°°
P045
s°4'
JE8IC
O43
s°3°
1
033
______
0
M 753
159
so3'
033
f
E80A
u°42
w'499
70
lX 032
034
5032
w°'
M°54
p 503 p 504
x 033
H892
L °54
052
19
M°55
O53
1E82C
P 503 P 504
X043
H 89°
O5I
so50
5052
u°62
0
N 28
266
F
N
X052
'o53T
892
062
M758
P 503 P 504
L_
O7I
w°9'
°-
P 504 P 504
(L
S073
u °72
w°°'
r-
g
P 503 P 503
LL
x°72
1884C
u°82
w°°
702
p 506 p 507
22
P 075
s°7°
5072
p 506 p 507
p0
u°32
0
Q
o_
w 790
15€
1283
N °28
N 228
P C36
P ol9
pOL9
P ol9
P30,
p 322
P ol9
p30,
P OL9
P30'
p 019
P 300
0
o
o
N 965
p512 pOL2
N 965
N 965
N 965
p 513 p 513
p 512 p 513
p 512 p 513
N963
o
p 512 p 513
N 963
p 512 p 5 ' 3
P 509 P 509
963
N 96°
P 509 p510
P 510 P 510
N 96°
p509
pSLO
P 509 P 510
p509
p0
N 967
N 96°
1
REFWEICE ORAWINGS
i
NOTES
CONTROL DATA
1.
ALL JACKS ARE 05 CHASSIS €
UNLEOS OTHERWISE S9OWN
COM?ONEWTS
.
TITSE
L
r
OJALESS UflIWWISR
REGISTER '
'
BITS 03 THRU
4
. - CORPORATION
XDP214606
" 24.1
118111118118818811 $Is $$$is is is is I I
62005
6
2502
7J39A
D
1 364
j395
1 364
1 395
EXTERNAL
CLEAR
V.
1 396
1396
7J39C rA
K989
1257
L9
L 266
L' 66
1 363
K 939
NEUTRAL
FO
7149
<910
K 933
1<629
K143
1<919
1349
K22'
1< 243
1<247
K145
1<225
K239
1< 237
1<917
K253
1<227
1< 235
1 253
1<907
K 903
1< 229
1< 233
1< 065
K 005
<0 15
1< 231
< 003
lot
20029
1361
1339
1341
1343
w ill
255
1< 883
2D038
135
1359
1355
1 365
1331
HIllilil
4675
46769
4676C
46
J
1< 054
1< 060
K 067
K 213
1< 201
1 241
K467
1< 661
K 113
1< 665
1< 551
1< 203
1< 767
1<017
1< 205
K 073
2P258
2P26C
'fIIII1
CLEAR SWITCH
1'
1<451
1< 051
1< 219
1< 501
K 607
1< 671
1< 531
1< 091
1<667
1<617
1<093
1< 669
1<619
1< 217
K 695
1251
K 57 '
K 781
1<851
1< 693
j 356
1< 411
1< 541
1< 771
K21'
3L79
1<39
K 321
4M77
K 07 '
1<081
- 15V
62005
46476
V010
N 941
<053
1< 674
V4K79
H°'2
4
329
1337
INTERNAL
CLEA
62205
A
6151
61518
6673
6L76
H°
1< 481
1<331
1< 601
1< 663
1< 605
1S673
1< 675
3L76
jO 42
Ja44
J 045
jO46
J 047
1< 681
K 685
1< 403
IE1
1< 407
CLEAR Q
1<561
1< 409
3J08
1 142
f
3J05A
w 15°
3106C
w 151
NOTE
1. CONTACTS FOR 62005 ARE SHOWN IN OE-ENERGIZE0
POSITION. WHEN COMPUTER 15 OPERATING 62005
15 LATCHEO IN ENERGIZED POSITION AFTER FIRST
INTERNAL MC.
F
1<634
31074
1< 315
1< 461
473
1<207
1< 317
1< 471
1< 491
1<209
1< 327
1< 405
1< 511
1< 311
1< 401
3607
K6'
1<613
1 032
1 033
1< 513
1< 561
J O35
1 03€
1< 313
1< 623
1< 625
1< 635
1< 627
1< 641
1< 629
1< 645
K 631
1< 633
1< 621
1< 521
J 037
50
w 158
1<325
1< 323
3)421
5666
1
CLEAR U
36 40 C
5076C
5639
-t1
61-59
M06°
143
1<142
l56
6L61C
6077
1< 603
1 630
j6
1<891
j 650
660
6
K585
754
1259
j 640
CLEAR B
EXTMC
1
159
69
T
6L6lA
6LNOC
'54
w'84
J6 10
j 62 O
1
K 73
K 765
1< 722
K719
6K42C
K 727
1< 791
K 797
K895
K°
P O4O
ICLEAR P
6J61A
K 717
1< 730
K 735
1< 701
1< 703
1<705
738
K 707
K 743
1< 709
K
1
6J6OA
COMPONIPM
CLEAR 4
M 548
—
04—A
1< 562
1< 584
CON1O( DATA
CCOSATIC'1
1188
MASTER CLEAR
XDP 214539
25
-DEFINITION
TERM
LOCATION
PAGE
QUAD.
J009
4K55C
28
1
60
J140
6D03B
25
0
Internal M. C.
K029
4K58C
28
0
Manual Control
M156
7K14A
M986
2D02A
25
0
Clear SwitchDown
V008
4J06
28
0
Manual Control
V025
41,10B
29
Odd Resync. Pulse
V297
7J21
29
31
I,
3J
W163
7J49
25
0
External M.C.
-
TERM
LOCATION
PAGE
QUAD.
DEFINITION
'
•iiii•isusssssssssisssisssssssssi
jssss110011111IIIsssssssSSSISSSSSI
ABCOE
F
GH
1
JR
LMNOP
J
2F07B
27
TEST
M°6°
START
26
140
MODE
K'42
7074
25
24 START
23
MAN
CLR 1
22
MC
21
Ei
SET
STEP
17
613
612
6
A23
422
646
4
A47
CR
AlO
620
All
A 16
AlS
644
A40
639
425
CR
A15
613
AlT
616
434
626
424
-
10
222
647
j4
F.C.
446
CLR
A
4
tP
U23
ULH
74
UI
5
STEP
6
CLEAR
7
SET U 1
AlO
623
422
621
620
645
A44
637
636
UI
U21
CLRI
F.E.I
ANS
NEUTRAL
4
20 0
00000;
U12
START
20016
M 99 0
C
4
74
0
32005
74
7
K 044
32000
4K14
ANS
v 025
4
00001,
A74
K
3
00002
74
735000
K 045
041
8
2 CLEAR UI
3 SET U'
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vo 25
32011
0
20
0
00003
4. STEP
1 U201
1 009
II, STEP
15MASTER
1
EUT
0
l0.SETU200
612
UO
U22
E
MASTER CLEAR
8. STEP
STEP
U3
5
18-4
‚
U1
9. CLEAR L1 1
SiE P
6
U22
621
12
8
U0
645
LR
13
Et
INT
STEP
CLEAR
18
9
2
U00
20'
Z
0
LOAD PROGRAM
MASTER CLEAR
STEP
20 U22
19
AUTO
K'43
w'63
MANUAL
UIO
STEP
CLEAR
2DOIC
CLEAR P
NEUTRAL
K 040
M °92
START
4 612
STE
K04
008
-
1
2
GROLIND
78-2
J20901-S
STEPPING SWITCH
TERMINAL BOARD
7N815
J20302-Z
)>
->
AUTO LOAD
START
m 995
K 082
7680
K 083
FF
7J84
I
r
7L78C
7J82A
087
470
_
l0Of
TO 6 AU REGISTER MANUAL SETS;
MASTER CLEAR INT , MASTER CLEAR EXT,
798
STEP, ANS START SWITCHES
P20901
J20901
f
P20902
J20902
v° 25
J 009
FRON
STEPPING SWITCH
J20901-T
TERNINAL BOARD
FO 1
NOT
110V COH
GROUND
WHT
_F
TNRIC
711-0
76
16
110V
J20302-o
2DOIB
AUTO LOAD
STEP
MANUAL
G296.
CONTROL
2
C
4
Sl2
oT 6
‚:------°
J20901 - P
2UO2B
7J39A
A
EXTERNAL CLEAR
AUTO
LOAD
J20901-R
M 995
J20303-Z
1M2-Z
IG0611
2P33A
?
M 986
120901 - S
< 029
SOl
2D03A
tIII
CLEAR SW
NOT DOWN
FRON
TERMINAL 624
SEE TABLE ABOVE
FOR COMPLETE WIRING OF STEPPING
SWITCH TERMINAL 8OARD
COMPUTER
NOTE
AUTO LOAD CHASSIS
TAlSDIAGRAM SUPPLEMENTS THE
COMPUTER MASTER CLEAR (PAGE 25)
AND MANUAL CONTROL (PAGE 28)
OIAGRAMS WI-IEN THE AUTO LOAO
5 USED.
MASTER
( PAGE 25
!
CLEAR
INTERNAL CLEAR
4613
Bills
604-4
REGISTER
CONSOLE
REGISTER SWITCH
TERMINGL 1
1
P20901
AUTO LOAD
BOX
STEPPING SWITCH
TERMINALS
J20901
/
1
(U231
SF - 23
A
A
AR- 6
(U22)
SF - 22
8
B
CD - 6,
(021>
SF-21
0
C
EF-6
(U20)
5F-20
D
2
56-6
IUISI
SE - 13
E
E
IJ- 6
IUI2I
SE -
2
F
F
EL- 6
(0101
SE -
0
6
6
MN-6
AB - 0,
Ii- 17
AB- 20
(UO3)
SE - 03
J
j
AB- 7
IUOI)
SE-Ol
1<
1<
CD-20
IUOO)
SE - 00
L
L
CD- 7,
GH-17,
(CLR. EC.I
SF - CL
M
M
CD- 5,
CD-9
Er- 4,
CD- IN
CLR. E.A.)
SE -CL
N
N
AB- 5,
A8-9,
CD-14,
AB-IN
sI2-F
p
p
C0-3
(EXT.M.C)
(INT.
MC)
6
J20303-Z
R
J20302-Z
5
501-1
AB-24)
(STEP)
J20302-O
T
T
AB- 4,
AB
SP- CL
0
A
AB- 23
(CLR. P)
______________
v
v
w
w
AR-22
R, AB- 3,
T
0
z
z
6
b
—
AB- 21
AB-I,
CD-I,
EF-I,
56-1,
IJ-I,
KL-1,
MN-I, GROIJNO
_
1
P20902
—
320802
____
(A47)
54-47
A
A
CD-I0, AB-15
IA461
SA - 46
8
B
EF- 0,
CD - IN
(A45)
SA-45
C
C
56-10,
EF-15
16441
SA-44
5
5
11-10,
OH-IN
(640)
SA-40
E
E
13-15
(ASS)
SA - 39
F
F
KL- 15
637)
SA-37
H
H
KL-IO
1A36I
56 - 36
1
j
MB- 0
IA341
56 -34
1<
K
AB-Il
(426)
SA- 26
L
L
CD-II
625)
SA - 25
M
M
MB- 15
1A241
SA-24
N
5
EF-Il
16231
56 - 23
P
P
AH- II,
AB-16
(622)
SA-22
R
R
IJ-II,
CO-I6
IA2I)
SA - 21
5
S
KL- II,
EF- 6
(620)
SA - 20
T
T
MB- II,
All- 6
(A17)
SA - 17
U
AB-12,
IJ- 6
(A16)
SA -
6
v
CD-12,
AL- 6
(415)
54 - 15
W
W
EF-12,
MN-16
(613)
NA -13
6
1)
GH-12,
AB-17
(412)
SA-12
0
0
IJ-12,
CD-17
(410)
SA - 10
Z
Z
EL- 12,
EF-17
( CLEAR A)
AB-IB,
1
x
GROUND
AB-3,
Er- 20
(START)
‚
1
loss III I
1
1
1
SA - CL
0
0
AB- 14,
AROUND
b
b
AB-),
-
F
T
RGERE8C)DMWI1IGS
__________________________________
COMPOBENT)
0CE
Er
CD-),
EH-),
OH-),
23-),
EL-),
MN-I,
CONTROI. DATA
CORPORATION
WNLESS OTHERWISEIND!CATEOI
V0E
GROUND
F
TIME
AUTO LOAD WIRING
DIAGRAM
27
TERM
LOCATION
F476
3M31C
19. 3
F639
4K72A
19.5
F673
4K72C
19.5
F675
6H04C
19.5
F682
4N83A
F700
6J15
19.5
19.6
F701
5011
5P25
5010
5P21
5009
5P20
6J11C
6J12B
6J13A
4K65A
6H05C
19.6
19.6
19.6
19.6
19.6
19.6
19.6
19.6
19.6
19.6
0
0
0
1
F916
6H06A
6H06C
6H07A
6H07C
6H1OA
19.6
19.6
19.6
19.6
6,19.6
3
3
3
1
0
1258
6K66A
30,53
1,0 Internal Interrupt Request
J062
4J62
J063
4J63
J113
J140
4M25A
2D03B
J900
4J17
K086
M986
7J84
2D02A
M156
7K14A
1F06
F702
F703
F704
F705
F706
F707
F710
F711
F730
F911
F912
F913
F914
F915
P520
.
PAGE
19.6
QUAD.
3
0
3
1
1
1
1
1
1
3
3
3
3
DEFINITION
TERM
25
28
0
0
26
25
71
1
0
1
Auto Load Circuit
Clear Switch Down
Reader Neutral Switch
35
0
Breakpoint
29
3
29
29
29
29
29
29
29
4
54. 0, . 1
W140
W145
W163
W781
4K76A
4K79
7J49
4P14C
25
25
25
60
00 4- 77
00 + 77
75
(Mode Switch Down) + (22 + 23 + 74 - 77) + (b i 7)
b 0
b 1
b / 2
b 3
b 4
b 1 5
b 6
b 1 7
76
b = 0 + b = 4 +(b = 1 + 5) (Stop Key 1)
b 0
t23(b = 0 + 4) Q = 0] + [23(b = 1 + 5) Q 01 +
[23(b = 2 + 6)Q Pos.] + [23(b = 3 +7)Q Neg.]
b=0 + 4
b = 1 + 5
b=2 + 6
b = 3 + 7
[22(b=0+4)A=0]+[22(b=1+5)A0]+
[22(b = 2 + 6) A Pos] + [22(b = 3 + 7) A Neg.]
Exit FF Clear
Exit FF Set
Interrupt Half Exit
InternalM.C.
Light Disconnect
QUAD.
V021
V022
V023
V024
V025
V028
V029
V033
V071
V020
0
0
PAGE
2E02
2E05
2E03
2E06
41,09
4L1OB
4K61A
4K56C
4M02
4P53
76
4
4
LOCATION
3
3
3
2
3
1
1
0
1
DEFINITION
Resync. Pulses
Full Exit
Storage Resume
01
1 J
0
3
;'.
Internal M. C.
External M. C.
No Buffer Active
Page 28
Rev. J
I II I i I I I IIIIII I II I IIIIIIIIIIIIiSiI
Is issssssissosui
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u 445
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U 465
u455
u454
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u455
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U 434
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X7
U 464
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F' 5°
ObB
F' 03
3X
F' °4
4X
F
5X
F 106
GX
F' °7
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3X
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4
426
F 057
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U460
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M02C
IE
M07A
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N076
M02A
1J46
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105
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XI,X3
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6096
6
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u 43
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lI1 xoxi
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OX
u437
u -
1I
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2X
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X6,X7
MIIB
0134
47
M07C
u 475
F00°
X5,X7
F 213
605C
OIIB
moic
447
u 444
F 055
:i
u4 26
u 44
4
u424
2X
N058
u 44
X5
F102
N045
u 475
:
NI3A
ix
NO3B
u 475
U 464
007B
u434
NO2B
U4
u454
0066
u435
u4
u454
u 465
u 4 '5
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0058
u42
u435
u 4_75
u455
X2
0048
u 434
u 445
u
I
MOA
5
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M08B
3X
X2,X3
447
MI2B
OI3C
XI
F 001
F' 54
0144
4X
MI3
F 003
F 155
F 005
F' 56
5X
MI4B
0154
u454
56
F°06
6X
MI5B
U 464
7X
u 474
015C
F 007
NIOB
X7
F' 52
2X
NI
IN
3X
F' 53
NI2B
5X
F 155
NOTE:
NO9C
F' 57
7X
ALL JACKS ON CHASSIS 6 UNLESS OTHERWISE SHOWN.
jfJ161_______
CONTRO DATA
1604-A
_____
TRANSLATORS
F°°°THRU F299
XDP214620
---
is$$$ $is
Q[25
LIIA
dT63
:
3
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7
F 050
12-17-4-52+53+70-73
F 051
F lo
F
F 107
F213
u 415
F' °5
F223
:
lOS
50+51
F' °5
Q7
4
Q2
O3
F
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F
is
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F' 13
F221
L125
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F lOS
K083
F'02
+
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50+51+54+55
)b=4-7)(22+23+75-77)
434
F 113
32
:
34+35
F222
u 45
F 220
F 106
36+37
F223
6I
F221
62+63
F 056
F 112
F'°6
12+144-16
0 425
-o-ft
12+13+16+17
L07C
-
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053
114
J
FlOG
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40-42
F117
u
446
F22'
LOBA
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4
6033
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40+42
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LO8C
F 02
F221
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F' °4
22 -4- 23
F2'
1
NI5C
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LlOA
F22
F °57
27
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F
114
A986
F 004
F'13
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+73
6144
(A00X34)(A 47 A46 )+(A0 ~ O)(4 47 =A 46
124
j 126
F 211
F'23
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41+43
JO7C
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(30-33)(APOS.)+A0v. CLOCK
F' 23
009
u 440
-o-----4IEEI1
(30-33)(A NEG.)
KSH
_O_f
6044
1 284
KO4C
J084
F''°
J 628
05+34+37
FH3
F °07
NOTE:
FHO
_011
F °°5 •K)F 103
F 015
F006
JOTA
j 124
F222
F004
(30+31)(SR,~ l)
(133
603C
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JO3C
F'04
24+26
7
KIIC
4
7
F 057
FU4
u
F' 03
K 502
<023
0 446
JO34
T5
F222
KOIA
F
13+15+17
L07A
F
F10'
::
KIIA
ALL JACKS ON CHASSIS 6 UNLESS OTHERWISE SHOWN.
608C
5-6
(30+31)(U2SR=I)
)(35)
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I
I
F °°4
3M20B
F 002
04
F
F000
3M26C
F000
F'°2
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F 017
F
F 123
F'25
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F006
F 004
F 123
F 125
F
F 015
of37
3M094
3M22C
F 90 '
F 006
30 --3I
F122
F015
F °° '
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14
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127
F°°'
3L 802
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F 002
F'°T
F 122
°{IIEIIII
3M24A
F 00°
123
3M24C
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F000
F 116
F ‚‚4
F''4
F°°6
4L70A
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F'
4172C
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F
3M29A
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17
4M72B
F 004
7
-----!
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3M3 14
F °°2
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F
113
F223
46744
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F107
61
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4L70C
F 006
3M30C
4
46
30
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Q:5
3M30A
41-696
F004
27
4L72A
F °05
F003
26
F 25
IIEIIII1 63
F 16
F'25
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4673C
F°°3
4L714
46734
3M226
3M27B
104
3M26A
F003
To
F' 0 '
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3M25C
I
36244
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72
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CORPORATION
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1604-A
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REGSTER
BITS 12 THRU 23
XDP 214594
147.2
I
Page 47. 3
TERM ILOCATIONI PAGE
IQUAD.
DEFINITIO
N002
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A 1 -.A 2
N003
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A2 -'A 1
N012
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A Right Shift
N013
2J17B
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N023
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Add X2 to A 1
N102
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A
N103
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N113
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N 116
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A 1 -A 2
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A 2 -A 1
N212
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N213
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N223
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II TERM ILOCATION
PAGE
IQUAD.
DEFINITION
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A282
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CONTROL DATA
i:
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CORPORATION
i
4 REGISTER
BITS 24 THRU 35
XDP 214595
I 47•3
Page 47.4
1
I
TERM ILOCATION 1
N302
2J63B
N303 2J60B
PAGE
DEFINITION
IQUAD.
I I
A 1 -A2
A2 -'A 1
N312
2J64B
A Right Shift
N313
2J62B
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2K64B
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N413
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II
TERM ILOCATIONI
PAGE
IQUAD.
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A 402
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I
A REGISTER
BITS 36 THRU 47
CONTROL DATA
CORPORATION
1604 — A
00
XDP 214596
47•4
Page 47. 5
TERM
LOCATION
F678
F679
1H83A
1H83C
06
N004
N005
N015
N020
N024
N104
N105
N115
N120
N124
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N205
N215
N220
N224
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1J21B
1N23B
1M20B
1N24B
1L25B
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1H84C
3J76A
Q' -'Q2
Q2 -'Q'
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W800 1015B
W8O1 1043B
PAGE
QUAD.
DEFINITION
TERM
LOCATION
PAGE
QUAD.
DEFINITION
Right Shift Q
Left Shift Q
Q 1 .-I. Q 2
Q2 - Q'
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A2 -.Q'
RightShiftQ
LeftShiftQ
Q' -Q2
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jo
N 020
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N°24
f
073
N 115
_______ w 801
4080
00I0
0
N 020°
Q000
cy
1
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0II
N°20
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1
N °°4
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1 10
I
Qoo
N °24~
Q 578
0
0
0
020
L,
N °2°
A 082
N 215
—
w 80 '
O i
4090
0
01
z
N020
Q 021
N °°4
Q 073
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3
N °24
092
l
Q
Q0I0
N° 24
xI0I
Q121
fo
L 405
M 409
A'°'
4 100
N°20
0
072
4093
N 215
1
z
0
w 80 '
N °°
F 679
0
Q063
Q 082
4102
z
Q 03I
L 409
Q II3
Q 578
Q568
Q SlB
0 040
N °04
Q 093
Q 1I2
0
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Q-2n
L 410
0 I22
Q568
N 215
N020
N' °4
Q102Q 103
4113
050
20
1
0
Q041
0-0
C
062
•
0
-
_______ w 80 '
0
0
IO
M 406
-0
0
0
N105
4071
N 115
SOI
A061
4060
x071
x061
0
0
Q O8O
2
Qo7I
120
N' °
N
QO6I
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N' 24
N 124
N 124
0
0
N 104
o7o
0
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0
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050
N 124
N 104
WE
DAWI0
CONTROL DATA
Ot8KT1
ml00
CORPORATION
oirn cncawio lICArE0l
1
‚
1604-A
00
0
Q
REGISTER
BITS 00 THRU II
XDP 214597
100
Page 47. 6
TERM ILOCATION 1 PAGE IQUAD.
DEFINITION
N304
1M46B
Q' -.Q 2
N305
1L63B
N315
1J46B
Q2 -II Q 1
A2 -'Q 1
N320
1J65B
N324
1J45B
Right Shift Q
Left Shift Q
N404
1L68B
Q1
N405
1M60B
Q
N415
1L64B
A2
N420
1M69B
Right Shift Q
N424
1N60B
Left Shift Q
N504
1069B
Qi
N505
1N71B
N515
1N70B
N520
1N69B
N524
1N68B
Q2 -Q 1
A2
Q1
Right Shift Q
Left Shift Q
W802 1 1046B
W803 11063B
I
1
-
TERM
ILOCATIONI PAGE IQUAD.
DEFINITION
Q1
Q2
Clear Q
0 SSSiISI 11010101 0'I 1 II III IJLLLLIS
Is I Bill Is $is$ I I
162
4173
N415
163
Q
182
183
628
Q638
f f
A'7°
4163
415
w
0
i
M 417
415
4172
w802
4
Q I62
Q 628
Q 638
Q 628
- •
802
0
80
N420
N42°
M 415
61
A' 6°
x 7
0
N 315
1
N
_______
Q171
I6I
I60
Qi5i
N 424
424
N 424°
I
I
I
0
0
0
Q223
242
Q243
Q688
Q698
4233
-
0
11
70
Q232
688
4 232
4223
N 515
N515
0
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[
24I
N 520"J
Q
221
1
N 504
~
A:
A22°
231
Q240
0
f f
Q 140
Q 131
N 324
N 324
N 520
N 52°
L 524
N 524
Q 222
I
4 222
4213
N 515
N 515
zi
0
1
N 504
f
Q688
-‚
c—__J
w 803
k
4221
0
Q22i
N 52°
N 52°
N 524
N 524
4132
4123
N 315
N 315
N 315
—
f
I
4122
1
0
30
C,
C3
M412
k
21
31
21
4
0
L
150
Q141
N 32°
N32°
QI3O
N 324
12
N 321
0
01
0
1
4
Q131
Q130
N320
N 320
N 320
Q120
Qill
N 324
N 324
L
-of
N 304
Q 183
Q 172
Q 173
Q 223
Q 212
Q 213
Q 202
Q 203
Q192
Q193
Q698
Q 688
Q 698
Q 688
Q 698
4203
H_j
0
I
-1
-i i
4202
4193
N 515
N 415
3Fz__O
0
0
W 803
M 420
11
M419
N 505
4 211
21
W 803
A20'
4 200
1
4190
x20i
o1
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Io
w
2
A3
N 415
N 415
i
‚
1
N 504
I
l
-
4182
01
k
w 803
M416
91
4180
91
N415
-
0
1
0
598
Q688
192
lo
1
O-H
1
N 324
L 418
L419
Q 182
N515
0H0
N 304
Q 193
N 515
w802
31
Q 192
4212
N 315
0
M4'3
x 4'
1
0
0
Q113
203
0
Q230
Q638
N 304
0
4210
x2
-
0
-J
0
2
M42'
Q628
4133
L42°
Q 202
Q 638
0
11
N 304
4
0
0
N 324
N 424
133
Q 628
4142
4141
Q151
Q I41
Q 150
Q 698
0
M422
160
L421
CO
w 803
1
0
N32°
N32°
Q 132
01
N 320
N 20
Q213
233
—0
M 423
4140
Q112
QI42
143
N 315
w 802
51
Q iGi
Q 638
w8o2
01
J
Q212
.I
N5
N 315
151
0
L422
Q222
4143
N315
4150
N 404
L423
A152
f
b
'
-
Q 628
Q I23
Q I22
I53
QI52
61
0
N 420
Q 163
Q638
L 412
L413
I33
Q132
4153
4162
415
1
ol
°
M416
143
Q142
I73
4171
0
0
0
QI8I
I53
QI52
I72
1
L 414
L 415
L416
L 417
0
j
4
803
4181
x 81
0
GQ220
N 52°
N 524
02H
Q 210
N 52°
N 52°
1
Q 201
N420
0 191
Q 90
Q181
N 524
N 524
N 424 —
N 504
‚
0
0
Q200
N 420
QI80
J—
N 424
N 404
Q19i
QN 424
"'
0
2
0
0
I 1 —L
N404
N420
Q170
N 424
Page 47. 7
FTM ILOCATION1 PAGE
IQUAD.I
DEFINITION
N006
2MO1B
Q
N007
2K01B
Q2 -..Q'
N017
2L01B
A2
N022
2N01B
Right Shift Q
N026
2J21B
Left Shift Q
N106
2N23B
Ql
N107
2M20B
Q2 -.Q 1
Nil?
2N24B
A2 - 'Q 1
N122
2L25B
Right Shift Q
N126
2K25B
Left Shift Q
N206
2M41B
N207
2M39B
Q2 -.Q l
N217
2M40B
A2 -.Q 1
N222
2025B
Right Shift Q
N226
2024B
Left Shift Q
W804 12015B
W805 2043B
II TERM ILOCATIONI PAGE
IQUAD.I
DEFINITION
-'Q
Clear Q
•rnrrrssisssssisissssssstsssssss
off
L 428
L 429
Q 282
303
Q 293
758
748
0758
A 293
A 292
A 283
N'' 7
N 117
N'' 7
________k
273
Q272
Q292
Q 253
Q302
748
'
_______
M 429
f f
!
80
0
0
0
0
0 0 0
301
11
30O
Q 281
Q280
Q271
N' 26
N' 26
N' 26
Od
342
Q362
Q 808
Q343
363
Q 818
4
A343
N 217
11
0
1
o,
Q748
I
_______
A 351
x 35
t t
N 206
360
N222
0
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Q
L_0_
35l
N 222
N
°‚'
I
N°'7
w 804
NI22
N °22
N' 26
Q 26I
N °26
Q 242
Q 243
Q 273
758
Q 262
748
Q263
758
I
A262
A 253
N 07
N017
ol
0
_
k
4
0
w° 4
0
Q270
Q261
N°22
N 022
N°22
Q 25I
Q 250
N 026
Q 241
Q 280
QZ?I
N °22
Q 26O
N°26
N °26
1
1
1
o
1
1
8O4
N
L 432
k
L)—
A240
25'
241
4
Q260
0
N 006
N °7
M424
A 25 '
N022
-J TT
N 026
A 243
N 017
&
h
A250
Q24O
N °26
0
0
25O
Q25I
N022
N 022
Q231
230
N °26
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L 431
Q302
253
758
1
01
0 0
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0
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0
Io o
sells$
Q 233
Q232
252
Q
748
A 252
NOt?
_1
A261
A26°
271
L424
25
253
M426
A271
0
0
is
N °°6
L 430
323
Q 312
Q313
o352
Q322
342
343
Q 332
Q 333
Q322
323
012
313
Q 808
Q 818
Q 808
Q 818
Q 808
Q 818
Q 808
Q818
0808
0818
4342
A 333
N 217
N 217
4:
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ZI
ol
k
JOD
'
Od
0
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263
A272
°
0
tells$
Q333
353
0
M434
0
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34I
Q 758
N °°6
I
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w 805
________
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Q 748
L 433
332
A 352
N 217
I
Od
Q 272
L 434
L 435
Q361
Q281
N' °6
N' °6
o-
Q 283
0
z
Q291
N122
Q 282
A 270
0
0
Nl22
350
M42
x281
N 1 22
M 435
4
A281
x 29
4
L 426
Q 252
0
0
0
sell
0263
r-
'1
I
427
L
Q26
*
N °7
z
Iz
M 425
w 804
A 273
A 282
4290
A353
N 217
#Is
I
I
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1
w 805
I
A332
4323
N 217
N217
__________
_________
M 433
A330
x341
805
jh
TT L
M432
N 222
340
33l
330
N 226
N 226
341
0
N222
Q 321
N 226
Od
0
°
C~
N 206
C3
—
4
A 322
A 313
A 312
N 217
N
N''7
i
J.:
'
20
33
0
o-I
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Jy
0)
0
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1
N6
N 206
I
33I
N 222
N 222
-J
_
M 43 '
A321
x
2'
330
Q32I
N222
N122
Q320
3I 1
3I0
30l
N 226
N 226
N 226
N' 26
N 206
4
Od
W BO5
Od
340
7
-
J
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0
A 303
NUO
M 430
A3
4
°
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A 30°
x 31
A 301
0
0
320
NI22
300
N 126
N 106
A 302
117
8
w 8O5
0
0
bOdo
293
Q292
Q 303
0 011
N'22
Q 291
N 126
Od
0
°
° TT -L
0
N106
NI22
290
N'26
Page 47.8
TERM
LOCATION
PAGE
QUAD.
o
o
DEFINITION
F002
6003B
19
F110
6K05C
19
N306
2M46B
N307
2L63B
N317
2J46B
1
2
Q-, Q
2
1
Q-Q
2
1
A-.Q
N322
2J65B
Right Shift Q
N326
2J45B
N406
2L68B
N407
2M60B
N417
2L64B
Left Shift Q
1
2
Q-Q
2
1
Q4Q
2
1
A -.Q
N422
2M69B
Right Shift Q
N426
2N60B
N506
2069B
Left Shift Q
1
2
N507
2N71B
N512
2071B
N51?
2N70B
Connect A 00 to Q 47
2
1
A-Q
N522
2N69B
Right Shtft Q
N526
2N68B
Left Shift Q
W806 12046B
W807 2063B
II
TERM ILOCATION! PAGE
IQUAD.
DEFINITION
f=2
fO
2
1
Q3.Q
11
Clear Q
oil ultrs • • • In srunrsnurrrssrs •
off$ $still$ I $I'll #I
V
L44 '
L440
403
Q402
Q 422
Q 423
Q412
Q 868
Q 878
Q 868
¶
A 413
N 417
Q392
A 412
A 40 °
N 417
N 417
4
0
0
'
M 44 '
w806
L 439
o393
413
Q 878
L 438
Q382
383
Q 402
Q403
Q 868
Q 878
f
A 393
N 317
ko
1
—I
L 437
Q 372
392
Q373
393
Q 868
Q878
Q362
Q382
Q868
A 392
A 383
A 382
N 317
N 317
N 317
k
__
M439
M 44°
$I'll $ISSÖIi
‚I
L 436
Q 363
o383
Q 352
372
Q 353
373
878
Q 868
Q 878
N 317
A 372
A363
N 317
N 317
62
N317
I
1
w8
o—,
w 806
M 438
M 437
W 806
‚°
1
?fl
w 806
M 436
407
410
°
0I
A41
Q420
Q411
N 422
N 422
N 422
Q 40I
Q 400
Q39!
N 426
N 426
N 426
04
Q 421
0)
1
: 01
A40°
x4'
Q 410
•0
A
400
Q401
Q
N322
N322
I
3BI
390
N 326
N 426
N 406
A39
A 39°
N 406
380
N °26
A38'
3 8I
380
39I
A
Q390
37I
N 306
N 322
370
cy
N 326
38O
Q35I
N 322
0
OGI
N 326
N 326
1
N 322
-J
Q3GO
N 326
N 306
A 36 '
360
x361
37I
c
N 322
35I
370
N 322
Q 350
N 326
N 326
N 306
N 306
L 447
w 772
-
A003
Q002
1 129
Q 462
Q
003
Q 452
Q453
Q 472
Q 463
Q 472
Q 928
Q 938
Q 928
Q 473
0 938
L446
A 472
A 463
N517
N 517
L)M447
'
1
•
w807
_
‚1
1040
J-1
o 0
M 446
°
A 462
N 517
‚1)
_______
_______ W 807
-I
0
1
A46°
N 517
1
F 110 4
N 522
I N522
000
00I
_______
Q471
-
1
4'
L 443
o 442
443
Q 462
Q 463
Q 452
Q453
Q 928
Q 938
Q 928
Q 938
1_1
l
432
A 452
t0 t
_______
0 _______
Q422
Q442
433
N5'
Q928
A 442
A 433
N 517
N417
_______ 0 0 _______
f
1
SO?
M 444
1
450
h
N 522
L444
04 0
M 445
46
F 002
4
4
1
A 432
N 522
460
Q
N522
Q 450
Q441
N 526
44Q
43I
430
N 526
N 526
N 526
N522
________
_____
_____
Q460
N 526
N 526
N 506
45I
N 526
_
N 526
N 506
N 506
N 506
A423
N4'7o4
t
_______ 0 0
BO?
Q 938
f
_
422
t0 t0
i:
M 442
431
Q461
a451
Q 928
Q 413
Q433
420
450
44l
N 522
N 422
N 422
Q 42I
Q42O
N 426
N 426
N406
L
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4I
1
N 426
w80
x 42!
x 431
N 022
04
Q432
104
44
0 470
04
M443
Q 412
Q 443
o938
441
44Q
40
807
L 442
Q423
N5I2
N512
46I
1
461
A471
X 471
A 470
104
L 445
0)
-
Q 430
422
10
N 426
I sells# sells#
$$'I
STAGE TOGGLE CONTROL
STAGE NO-BORROW INPUT
000
J 000
STAGE BORROW INPUT
x 003
GROUP BORROW INPUT
SECTION BORROW INPUT
SECTION BORROW GENERATION
SECTION BORROW ENABLE
GROUP BORROW GENERATION
GROUP BORROW ENABLE
STAGE BORROW ENABLE
x ''3 x' 2
4
113
4 112
x'°3
4 103
x'°2
4 102
093
x °92
4093 A002
x °63 x °82
x 073 x 072
4 083
4 073
4 082
4 072
x °63 x 062
4 063 4062
x °" x °52
A 053
4 052
x 043 x 042
x033 X032
4 043
4033
4 042
4032
x 023 x 022
x ° ' 3 x 012
4023 4022
4013
4012
x 003 x 002
4003 4002
4
CONTROt DATA
111111
NOTE:
ALL JACXS ON CHASSIS
UNLESS OTHERWISE SHOWN,
1604-A
LOGIC DIAGRAM
ACCUMULATOR BORR(
PYRAMID- SECTION
TInl
-
I
XDP 214579
1 OF 4
48.0
STAGE TOGGLE CONTROL
STASE NO-BORROW INPUT
45
J 000
J 000
STAGE BORROW INPUT
GROUP BORROW INPUT
SECTION BORROW INPUT
SECTION BOIROW GENERATION
SECTION BORROW ENABLE
GROUP BORROW GENERATION
GROUP BORROW ENABLE
STAGE BORROW ENABLE
x
4 233
4 232
x"
x""-
x'
4 223
4 222
4 213
4 212
x"'- x-
x
4 203
4 193 4192
4 202
x'
x
163
4 162
x'
x''
4 173
4 172
x' x'
4163 462
x'
x
4153 4152
x 143 x 142
x
4143 4142
3 x 132
4133 4132
I22
x123
4123 4122
f
CONTROE DATA
CORPORATION
NOTE:
ALL JACKS 06 CHASSIS 1
UNLESS OTHERWISE SHOWN.
;IIIiiii-
I
-
JJ
-
?
LOGIC DIAGRAM
ACUMULATOR BORROW
PYRAMID- SECTION 2
I 604- A
XDP 214572
2 OF 4
48.1
111111111118 $$sells of oil$
4330 4351
A
340 4341
4 330
4331
4 320 4321
4310 311
4 00
4301
4 280 4 281
4290 4291
4 270 4 271
4 260 4261
4250 4251
4240 4241
STAGE TOGGLE CONTROL
STAGE NO-BORROW INPUT
J ool
J ool
STAGE BORROW INPUT
GROUP BORROW INPtJT
SECTION BORROW INPUT
SECTION BORROW GENERATION
SECTION BORROW ENABLE
GROUP BORROW GENERATION
GROUP BORROW ENABLE
STAGE BORROW ENABLE
x 353 x 352
4 353 4352
x 343 x 342
4 343 4342
x 333 x 332
4333
4 332
x 323 x 322
4 323
4 322
x 35 x 32
4 313
4 312
x 303 x 302
4 303 302
x 293 x 292
4 293
x 283 x 282
4 283
4 292
4 282
NOTE:
ALL JACKS ON CHASSIS 2
LINLESS OTHERWISE SHOWN.
x 273 x 272
4273
4272
x 263 x 262
4263 4262
x 253 x 232
4 253 4252
x 243 x 242
A243 4242
$#III I loss#$
STAGE TOGGLE CONTROL
STAGE NO-BORROW INPUT
J ool
J ool
STAGE BORROW INPUT
GROUP BORROW LNPUT
SEC11ON BORROW INPUT
SECTION BORROW GENERATION
SECTION BORROW ENABLE
GROUP BORROW GENERATION
GROUP BORROW ENABLE
STAGE BORROW ENABLE
x 473 x 472
4 473
4 412
x 463 x 452
4463 4462
x 453 x 452
A 453
4452
x 443 x 442
x 433 x 432
A443 4442
A433 4432
x 423 x 422
4423
4 422
x 43 x 412
x 403 x 402
4 413 4412
4403 4402
x 393 x 392
4393 4392
x 3" x
2
4383 4382
x 33 x 32
4373 4372
x 63 x 362
4363 4362
•
NOTE
ALL JACKS ON CHASSIS 2
LJNLESS OTHERWISA SHOWN.
CONTROL DATA
CORPORATION
1604-4
ce
----
LOGIC DIAGRAM
? ACCUMULATOR BORR
PYRAMIfl - SFflÖN
XDP 214576
4 OF 4 I'48.3
1• S1 SUSIIIS
I$
RANK X'
48 STAGES
x°°°/x°°'
N
THROIJGH
x 470 / x 47
59
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x 472 / x 475
CONTROt DATA
CORPORATION
l604----rnu
1
_
XDP 214552
X REGISTER
l 490
Page 49. 1
TERM
LOCATION
F626
F627
4M81A
4M81C
19.5
19.5
0
0
72 + (30 - 33) (A Pos. ) + Adv. Ciock
73 (30 - 33) (A Neg. )
K070
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4071
4N71
14
14
0
0
Set X2 to 1 FF
N030
N031
N034
1J23B
1K22B
N037
N041
N068
N071
1N16B
1020B
1K23B
1J22B
1K24B
1N20B
1N17B
1N15B
1N22B
1J41B
1N21B
N081
N130
N131
N134
N137
N141
N168
N171
N181
N230
N231
N234
N241
N268
N910
PAGE
J
1P38B
QUAD.
DEFINITION
Comp. X 1 -.X2
A1 -i
U2 -ix '
P' -sX2
15161 '
Clear X
X 1 -.X2
X2 -..- x 1
Comp. X 1 -'x2
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-..
1N45B
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PAGE
x l ipx2
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LOCATION
P 1 -'-X2
III ' -Clear X
1J39B
1N42B
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7P21B
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TERM
X 1 -.X2
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BITS 00 THRU 11
.Xr
CONTROL DATA
CORPORATION
1604
4
XDP 214601
49.1
Page 49.2
TERM
LOCATION
PAGE
QUAD.
DEFINITION
N237
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N241
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N271
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PAGE
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REGISTER
BITS 12 THRU 23
. _
CONTRO DATA
CORPORATION
XDP214602
Page 49. 3
TERM ILOCATIONI PAGE
N032
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II TERM ILOCATION PAGE
IQUAD.
DEFINITION
1
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REGISTER
BITS 24 TF-IRU 35
xDP 214603
I
100
49.3
1
Page 49.4
TERM ILOCATIONI PAGE
DEFINITION
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PAGE
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1642
1543
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N236
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4867
4675
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N339
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4880
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905
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4967
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N 532
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REGISTER
B!TS 36THRU47
CONTROL DATA
CORPORATION
XDP214604
1 '49.4
4
Page 50. 0
TERM
LOCATION
PAGE
QUAD.
DEFINITION
TERM
LOCATION
V307
4K24C
8.0
0
PAGE
QUAD.
F462
4K74A
19.3
3
F476
3M31C
19.3
3
T6
V309
4K26
8.0
1
F523
4M11C
19.4
2
43 - 46
V311
4K27C
8.0
1
F527
3N84A
19.4
0
04+10+11
V340
4K41
8.0
1
F541
3N80B
19.4
2
30 - 33
V341
4K42
8.1
0
F543
4N01
19.4
2
43
V343
4K45A
8.1
0
F548
4NO3A
19.4
1
66+67
V345
4K47
8.1
0
F553
3083B
19.4
1
56 + 57
V349
4K50A
8.1
1
F566
4N07A
19.4 •
3
40 + 41
V405
3M59A
9
2
F569
3078A
19.4
1
20
V407
3M60
9
2
F575
4N07C
19.4
1
62
V409
3M62
9
3
F576
4004A
19.4
1
43 + 72 + 73 + Adv. Ciock
V521
4M29
10.1
3
F593
3K55A
19.4
3
47
V527
4M34C
10.1
0
F597
4005A
19.4
3
37 + 70 - 73 + Adv. Clock
V529
4M35C
10.1
0
F641
3P27B
19.5
0
30 - 33
V541
4M46
10.1
3
F737
3P26B
19.6
2
32 + 33
V544
4M48C
10.2
0
F740
3P25B
19.6
2
30 + 31
V605
3022
11
0
F840
3P22B
19.6
1
30 + 31
V609
3025
11
1
V611
3027
11
1
-1-
21 + 47 + 60 + 61
.
DEFINITION
RO Seq.
»
WO Seq.
J
S & T Seq.
Iterative Seq. (Main)
J
K203
4K30
8.0
1
RO Wait Storage 1
V651
3041
15
0
1(205
4K31B
8.1
3
RO Wait Storage 2
V663
3053C
13
0
K208
3031A
11
0
Iterative Wait Storage
V665
3055
13
0
K211
4M41C
10.0
3
V667
3057
13
1
K216
4P42C
16
0
f = 74.1 - 6
V669
3059A
13
1
K218
4080A
5
1
Indirect Wait Storage
V677
3072
14
0
K252
4N17A
2
Aux. Seq. Wait Storage
V686
3P42
14
1
V691
3P53C
14
2
V696
3P62C
14
2
V'701
4010
16
0
EXF Seq.
N380
17.0
2J6913
U142
5L60B
v000
4J02
V005
4K02C
V073
3H08
V099
4K11
V205
3K61
S & T Wait Storage
X
18.3
L
X
Iterative Seq. (End Sign Correction)
Iterative Seq. (Ex. Floating Point)
Iterative Seq. (Round, Norm. ‚ Final Ass'y.)
2
U 2 Pos.
V789
4M79A
33
0
Interrupt Seq.
5
3
Execute Instruction
W144
4K78B
25
1
Internal M. C.
28
1
Manual Control
1
Storage Resume
5
1
RNI Seq.
7
0
ZA Seq.
54. 0, .1
lirrt-f-t-
Is
IS
Issoss j,,s,ss,Iss0505,,ss,ss Iii,
7P21
V307
7P22
U 2-
F 543
w 50 '
4I
V407
v34'
M°X2
1P33C
F593
w 92
j 92 O
LQX
v54'
K33°
v27
F
3L15
3LIGA
7P50
4M42
v 29
4674
898
w502
7P49
F575
N4'
F553
7P23
F 523
F 52
F527EXTENDSIGN
w 503
K331
H943
7P5
2P35
13M65A
w 504
v343
XA
IP65
144
409
7 P52
w505
v544
LOGICA
U2XLA
XI
M ° ->
4N79
WITH EXTENSION
X2
V 789
v 345
4P25
H 98 '
P36
H 97 '
N 8'
v 52 '
V 0°0 N 380
(SEE
46104
208
216
K 218
v 1<34
V 1<7
F740
H
844
V 686
2P36
K203
K2H
v677
'
F 462
00
v609
F641
3J39
P27
H 987
v 665
3j47
213
4P36
H973
46178
K 215
N 383
u 103
2P61
F543
H 939
H 868
V34°
v349
K 205
1 5 16
F 566
A' -* X'
I7-X'
2661
N 283
3638C
F 737
CLEAR
2P60
N39
N73
F 669
J.[2065
663
H 838
P60
V844
36414
H983
v6
H931
3136C
v °73
F 670
H836
54'
K 252
3L80C
v65'
3J37
v605
F 566
V 691
1<
31<384
H 004
F476
P61
v340
v669
F 840
N 7'
2
V005
v 099
43J36
v405
r569
v3'
F 597 076
X'
v696
IIIEI::
uExP
2
E
*X'
Page 50. 1
TERM
LOCATION
PAGE
QUAD.
DEFINITION
TERM
LOCATION
PAGE
DEFINITION
QUAD.
F430
3M24C
19.3
2
30
V206
3K62
7
2
F432
3M25C
19.3
0
32
%T303
4K25C
8.0
0
F440
3M09A
19.3
0
30 + 31
V304
4K22
8.0
0
F514
3M81A
19.4
0
25+27
V305
4K23
8.0
0
F529
4M12C
8.0
0
72 + Adv. Clock
V307
4K24C
8.0
0
F530
4M13A
19.4
0
12 + 14 + 16 + 37 4- 40 + 42 ± 70 - 73 + Adv. Ciock
V310
4K27A
8.0
1
F531
4M13C
19.4
0
43 - 45
V340
4K41
8.0
1
F533
4M14B
19.4
0
63
V341
4K42
8.1
0
F534
4N16A
19.4
0
74
V344
4K46
8.1
0
F535
4M15A
19.4
2
74. 0 + 74. 7
V407
3M60
9
2
F536
8N84C
19.4
2
(30 + 31) (SR # 1) + 32 + 33
V524
4M32A
10.1
0
F537
3N83B
19.4
2
32 + 33
V540
4M45
10.1
3
F540
3N81B
19.4
2
30 + 31
V542
4M47A
10.1
3
F541
3N80B
19.4
2
30 - 33
V561
4M30C
10.1
0
F542
4M16A
19.4
2
41+43+71+73
V602
3020C
11
0
F543
4N01B
19.4
2
43
V610
3026
11
1
F544
4M16C
19.4
2
13 + 15 + 17 + 41
V620
3033
11
2
F545
4NO2A
19.4
1
46
V622
3036A
11
2
F546
3M78C
19.4
1
24 + 26 + 30 + 31
V623
3037
11
2
F547
4NO2C
19.4
1
64 + 65
V652
3042
15
0
F548
4NO3A
19.4
1
66+67
V662
3053A
13
0
F557
3081B
19.4
3
22 + 23 + 75 4- 76
V663
3053C
13
0
F563
4N06C
19.4
3
72 + 73 + Adv. Ciock
V664
3054
13
0
F575
4N07C
19.4
1
62
V665
3055
13
0
F616
3K29C
19.5
0
32
V666
3056A
13
0
F628
4K70A
19.5
0
53
V671
3059C
13
2
F640
3P28B
19.5
2
30 + 31
V674
3063A
13
2
F717
4N39B
19.6
2
b= 1 - 6
V678
3073A
14
0
F740
3P25B
19.6
2
30 + 31
V680
3074
14
0
V682
3P34C
14
0
ZA Seq.
RO Seq.
WO Seq.
T Seq.
Iterative Seq. (Main)
Iterative Seq.
Iterative Seq. (Ex. Floating Point)
Iterative S. (Round, Norm. ‚ Final Ass'y.)
K500
3K10B
11
2
AQ Sign Record FF
V692
3P55
14
2
K510
3K13A
14
2
U2 Sign Record FF
V693
3004C
13
2
Iterative Seq. (Ex. Floating Point)
K512
3K13C
14
2
V696
3P62C
14
2
Iterative Seq. (Round, Norm. ‚ Final Assty.)
K513
3K15B
14
2
xi
V702
4011
16
0
EXF Seq.
V971
3K30B
9
1
(Storage Resume) (56 ± 60 + Return Jump)
(WO Wait Storage) (Aux. Wait Storage)
f
Sign Record FF
N241
1P50B
U 2 - X1
N368
1J69B
P 1 -X2
1
•ssoissis•sisssssiuossiissisri.ui
W144
4K78
25
1
Internal M. C.
$lose$
j664 v622
v692
j172
v4
F 543
F 540
F 432
96
J 172
v67&v692
j17373
K52
F575
524
F575
J
F53'
610
F536
v693
F
LII_133
F 542
-H_1P;
H 823
v344
v 630
v 304 v 31°
_j
F 535 F 533
t3
F546
1 171
v 702 v 40
v 561
v 407
x 470
H 82 '
T
v 660
1 175
3J28
F 540
o
K
v 305
F 54° F 514
34
HS33
v340
544
3432C
-H1---V 821
3K36A
v 542 v 344
F 548 F 545
v607
F 54 '
3J31
674
440
1 P57
4P2 4
-
v 540
F547
2 P59
H 35
2P58
2P57
-32
v666
v665
v 67 ' v663
F 740
K 51°
v660
F537
v610
F54°
175
v340v304
F 530 F 529
v623
F 546
v6602
X
X2
v662
'
H827
X ' -'X2
4
x471
3
v696
K513
COMP X '- X 2
v
F 557
F 626
P62
v971
v68°
991
CLEAR
N24'
F 717
F
X'L
P' -'.X2
303
F5 63
v307
4071
K °7 '
XLAXA
v 682 w' 44
SET X 2 TO ONE
li
_____________________________
•X•
----
lkT
CONTROL DATA
CORPORATION
1604-A
XDP214554
X REGISTER CONTROL
1
1
k
50.1
1dg1
TERM 11LOCATION
F455
F477
F514
F550
PAGE
3M28A
3K24A
3M81A
19.3
19.3
19.4
19.4
19.4
19.4
19.4
F585
F586
F588
F630
F636
F641
F652
F940
3N79B
4027A
3078C
3077B
3J56A
3J56C
3J54A
3K27C
3K26A
3P27B
3M39A
3P21B
19.4
19.4
19.4
19.5
19.5
19.5
19.5
19.6
Jill
J123
J130
J131
J134
3N11C
3N13A
3M65C
3NO3C
3N08A
52
52
52
52
21
K487
4P39
F567
F571
F573
.
N911
N923
N925
N931
N932
1P24C
2P24C
2P24A
3J76C
3L20A
N933
N935
N991
3L20C
3049C
3M09C
volo
voll
V050
3L79
3L78C
3L78A
8.1
QUAD.
1
.
3
0
1
DEFINITION
55
36 + 37
25 + 27
3
54
37
01 - 07 4- 34 + 35
55
01 + 03 4- 30 + 31
02 +03 +30 +31
34+35
27
05 + 07 ± 34 + 35
30 - 33
06 + 07 + 35
30+31
1
1
0
1
3
A 36 A 37
A 35 = A 36
A = 0
A 36 = A 37
1136 10
0
f
3
1
1
3
3
3
0
0
2
1
=
37 FF
Odd Ciock Slave
5, 25
25
7
)1
TERM
LOCATION
V202
V206
3K59A
3K62
3K65A
V210
V220
V221
V222
V223
V346
V347
V348
V560
V590
V594
V622
V623
V630
V634
V635
V637
V644
V645
V646
V647
V660
V672
V675
V687
V688
V689
V860
3K77C
3K76C
3K76A
3K69C
4K48
4K49B
4K51C
4M30A
3002A
3006
3036A
3037
3M36
3M39
3M38C
3M40
3M51
3M52A
3M53
3M54
3052A
3061
3063C
3P44A
3P4'7A
3P47C
3K42A
W147
W151
3J06C
3J06A
PAGE
7
7
7
7
7
7
7
8.1
8.1
8.1
10. 0, .1
13
13
11
11
12
12
12
12
12
12
12
12
13
13
13
14
14
14
21
25
5
DEFINITION
QUAD.
0
1
1
1
1'
1
1 1
1
0
0
1
0
2 ]
3 J
2 1>
2
0
0
0
0
3 I
ZA Seq.
1
J
J
1
ROSequence
S
& T Seq.
Iterative Seq. (Ex. Floating Point)
Iterative Seq. (Main)
Seq. (Multiply Step)
J
3 1
3 t
3 J
0
2
2
1
1
1
1
Seq. (Divide Step)
'
J
Iterative Seq. (Ex. Floating Point)
Iterative Seq.
Iterati ve Seq
}
2
(Round, Norm ‚ Final Ass'y. )
.
R2 -R'
M. C.
2 j»
Clear Control FF's
2
1
Internal M. C.
3
R2 -. B Exit
1 lilI 01100 $$oil loss$$ 000 01
I
is I $loss $loss$$ I
134
K 413
j
v594
131
F
23
687
3L26
A343
A 352
H9P4 ,4
L3I
N
RIGHT
H90°
WIS'
H902
;:
F
912
1130
v
L
'
1
H 33
< 313
0 RIGHT
_
H916
348
487
)( 321
H 90 '
v
RIGHT
151
K 40 '
~
0
R2R'
v 202
N
K 416
v590
K560
H970
N9'
v 672
31(71
K 414
3L25
3 1(72
v2
K 415
032
H99221
H
v 206
v 554
H 97°
v°7
H8
K 310
RO
v886 31(48
K312
K314
N 614
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H 920
V860
F57'
v437
F 587
H
5N66
Hp
v560
H 65°
38442
348
SHIFT
SHIFT EXIT CONTROL.
F 573
H63°
K 40 °
N91'
:
v olo
SHIFT RIGHT
N°'
K313
¶
v011
1P41
H 903 2P41
670
H65°
N 570
H926
A2Al
________
L v6
H914
p< 312
3L30
050 K 317
K402
K403 1
3M441
v347
H974
VWI5r
6
H640
H6 47
R~O
v646
H924
I
61
F588
K
v 22°
H °4 ' K 315
i!J H
2P44
K
594
415
3mIO
K 32°
V223________Il K32'
4
J134
K413
F 586
v221
H°5°
K317
450
N2
NORMALIZE SHIFT EXIT CONTROL
v634
3N32
637
645
STO P S'
K406
3M46
H 63°
A451 SCALE
A46OTERMINATION
T
N935
K 315
K 403
F 588
321
K 317
3L.22
N935
K 315
~
v 637
RI T H974
K 415
K 314
K318
342
585
RIGUT SIIIFTO
RE(3JE 8 70 1(2
H886
F 630
H 905
111844
v 622
K316
F
587
v 66°
K 510
1 —
H880
933
V OID
v
637
MULTIPLY SHIFT CONTROL
N624 11184C
H9l41,LEFT
H
H°3'
< 412
K
43
31(73 L
H86'
K415
F636
H°
v220
K310
K312
4
3L29
K4
3 15
K318
28
H4
v 647
_
-_---8LIIII;141 1
j=fj
H902
N 67°
SHIFT
147
F641
~
K 318
~,
4
647
476
N932
REDUCE
933
H 916
K313
V
F
317
Q LEFT
K413
.
K
476
3L324
K4
_____
F 514
R=OoRL
R *0
v€23
IN
R24
91
:::
F477
K
31.453 VolI_'
5035
H 878 51(62
5L62
926
- 26
N
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STOPSHIFT
<406
31.446
635
L
H65°
K407
402
¶
570
421 R=O
DIVIDE SHIFT CONTROL
H033
H°41
T
t N 67°
N 923
1
5I
SHIFT INSTRUCTION CONTROL
<401
v 643
v347
LEFT
SHIFT
K476
RAR
2
K403
H 872 5022
H874
N67°
1(2
3M43]
Ls2
y1j
H 924 IPSS
:hi7H97
ro
H630
-
-.
F 587
477
v647
F652
3M
a
REDUCE 1(
6
-‚
476
93
H
--
K
N 933
_
H 974 3.152
K315
LEFT SHIFT Q
31-53
H 974
K 31 '
N91'
H 926}
647
933
H914
H90°
K32'
SHIFT INITIATE CONTROL
K 319
SUIFT 4
6J
-:
11(1(11(11(1 08*8383
11
-
CO4TROL DATA
..
KltR3
-
08-08 0R08*08 AA081_____
5 1153
SHIFT CONTROL
XDP 214583
I ,. 51
Page 52
M
A50 4
F
A512
A632
A752
A872
F433
F476
F516
F528
F661
F662
F910
F912
F913
F914
F915
LOCATION
PAGE
QUAD.
DEFINITION
TERM
1L20
48.0
1
EndAround
1L44
1L45
2L44
2L45
48.0
48.1
48.2
48.3
3
3
3
3
Sec. 1 Borrow Enable - Accumulator Borrow Pyrarnid
Sec. 4 Borrow Enable - Accumulator Borrow Pyramid
3M26A
3M31C
6H13B
6H09A
4K63A
4K63C
6H05A
6H06A
6H06C
6H07A
19.3
19.3
19.4
19.4
19.5
0
33
6H07C
$less
19.5
19.6
19
19
19
19
3
2
0
1
1
1
3
3
3
1
LOCATION
PAGE
QUAD.
DEFINITION
Sec. 2 Borrow Enable - Accumulator Borrow Pyramid
Sec. 3 Borrow Enable - Accumulator Borrow Pyramid
f =
f =
X5
X4
No
23
22
+ X7
+ X4 + X6
Selective Jump
b = 0 + 4
b = 1 + 5
b = 2 + 6
b = 3 + 7
fill
so$$ I
is I I
I $is Is is$ I I Is$ I
TEST
MODE
J' 40
FO7
1
M°°
DISCONNECT
J 90°
LE
NTIAL START
Tw °
4K76A
J 006
2105C
K 143
025
M90
F
K 045
H °°2
440t
4K14
E
D
K °86
M992
024
4L02
v ool
v °°8
4402
4J06
H °94
4J09
1 F( °95
1
4)10
V071_Y____i
K2014 J16
v °7
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RESUME
4K06
:;*.l4L____1
H °96
1
096 4KOBC
4KO5CINITILSTART
J009
v °2
STEP
14
K °22
K o2°
4J78
008
1< 021
wie'
j
K023
K 024
00 9
W
H°05
480
MASTER
2P33A
Ja55
TEST MODE
J00e
OO6
F673
p=
POINT P
t_;0o.77
52 °‚
—
—..K
4J81
4K82
1
__________________
____________________________1I 1< 050
_______________ ______________________
140
}(051
043
------.
U' — U2
H95°
L08
w —
- - - 1 v°42
H °°4
v 099
F476
v007
F639
f00j7___ H
1<055
2G09A
151 LNDIRECT ADORESS
4M04'
H98'
‚
Joos
4%04A
H090
027
J026
BREAK
--
2F06A
CLEAR X'
3.2 VAC
2G09C
1<
K°29
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NOT DOWN
f76
F 71° F 682
F712
1
4402C
v°28
4K13
4J01
4K08A
4M28
v°°
K°25
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r
I
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HALF EXIT
L5
'5
H 000
v 099
V
7.
H °°7
K043
__________
H °99 4J14
1< 05
STEP
520013
13
1
__________
___________ ______
v028
K °43
M 991
V °97
1 840
J900 OISCONNECT
K041
4J12
4K09A
w78'
NEUTRAL
2501
12
H962
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F73°
W7
J 009
1 H °°7
4O43C
K 6 INITIATE
K 61° STORAGE
B
A
ii
4J11
051
4K12
C
4405A
LIGHT
K°4°
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1
CLEAR R'
H 965
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v °9°
96
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K026
H °° '
K°44
10
EXECUTE
IN STRUCT ION
4J15A
‚
4K15
V °24
START
09
SGE
1
J009
START
__________
< 054
J' 4
7074
MC
08
MASTER
K °26
K 142
07
00
-01
LIGHT
2F06C
005
V 028
START — STEP SWITCH
AND AFFECTED CIRCUITS
K °5°
K °5°
b
i76
b~ 2
03
F 702
4
b
b#6
*
t76
V 099
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1 6J13A
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7
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705
F707
F 706
F 707
F 702
6*6 ±b
~
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2
F 700
F'°3
9I6
ADVANCE P
__________________
°
F675
1 b
1_
MODE SWITCH UP
0ISA8LES AOVANCE
F9I4
b2.6
F915
1b3,7
N66
V033
b 15
f
D
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6HO A
6H02A
6402C
6H03A
03C
1` 910
b~ 4
b~ 0
7 ±b ~ 3
476
F 476 ----6HOj
IN NEUTR4L
6L37A
6L37C
4J60
4J69C
J oso
9j
2004
4j027
..‚
0
1
_
_
1
1
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11
1
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1
1
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1
1
1
1
1
1
V022
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I
I
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1
4J01
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SWITCH
PREVENTS EXECUTION
1
1
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4J02
099
OF INSTRUCTION.
SWEEPS STORAGE
t
0i
1
I
I
1
1
11
°
1
1
______________________________________________________
____
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1 0
1
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4,104
i
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_
V023
H °43 4M05
1
1
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2G06C
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HALF EXIT
SWITCH
027
__
V°2'
4M03
FULL EXIT
l-1°
4LO3
4J61
4M02
2008A
____
08C
J 590
2G06A
2G07A
J58a
L_1
2G04A
2GOSA
J584
2G03A
—
so
L_1
CONTROL DATA
I
JUMP AND STOP SWITCH
UP
—
LOCK
DOLE:NOSELEC1iON
M 695
3
SELECTIVE
M 694
2
STOPS
M 693
1
SWITCH
M 692
3
OMWINO
o5
M 69 '
2
SELECTIVE JUMPS
M 690
1
SWITCH
•
CO6ES
1
1
A
l
l
Z
ua
_
1
CORPORATION
1
XUE
1604—A
XDP214521
MANUAL CONTROL
I28
TERM
LOCATION
N920
2F08A
Even Ciock Slave
N921
2F08C
Odd Clock Slave
PAGE
DEFINITION
QUAD.
TERM
LOCATION
PAGE
QUAD.
DEFINITION
Page 29
Rev. J
0 ISISISSISSISS SO 0000001000,,
I is$
I
EVEN
SYNC
PtJLSE
v°2 °
CHRONJZEO
000
SYNC
PULSE
V
EVEN
SYNC
PULSE
V °J
1
k
I.4s-J
TYPICAL RESYNCHRONIZING CIRCUIT
TIME INTERVALS ARE CLOCK PHASES (0.2 MICROSECONDS)
4ING CHART
7J27
7J25
7 J23
7J 21
1
LOCATION
PAGE
QUAD.
186
6N43C
31
2
Sense OXXOO 1
K136
1286
6J05C
33
1
Interrupt Lockout
K144
-TERM
DEFINITION
TERM
LOCATION
PAGE
QUAD.
4P54C
16
2
Sense Resync. FF
6M56.
60
3
Real Time Clock Selected FF
8.1
DEFINITION
TERM
LOCATION
PAGE
QUAD.
W152
25
3
W159
25
fl
f.
1293
6E77A
33
1
Interrupt Lockout
K339
GGO2C
1
Ciock Overflow
1367
: 6M76C
31
W164
25
O
3
Select OXXOO, 1
K700
6N50A 45, 17.1
0,2
Chnl. 1 1
1375
6K40
31
W167
25
3
EXF Code = XXOXX
1J
K702
6N51A 45, 17.1
0,2
Chnl. 2
1376
6K45
31
2
EXF Code = XX1XX
W184
25
3
K704
6N54A 45, 17.1
0,2
Chnl. 3
1378
6L47
31
3
EXF Code = XX3XX
K706
6N55A 45, 17. 1
0,2
Chnl. 4
1383
6M33
31
2
Sense 0)0(00, 1
K708
6N58A 45, 17. 1
0. 2
Chnl. 5
1384
6M69
31
3
EXF Code = XXOXX
KVlO
6N59A 45, 17.1
0,2
1
Chnl. 6 J
1385
6M82
31
3
EXF Code = X1XXX
K723
6051C
60
0
Wait Ready FF (Chnl. 1)
1386
6N26
31
3
EXF Code = X2XXX
K726
6052A
60
0
Wait Resume FF (Chnl. 2)
1387
6N44
31
3
EXF Code = X3XXX
1(731
6055C
60
2
Wait Ready FF (Chnl. 3)
1388
6N53
31 •
3
EXF Code = X4XXX
K734
6056A
60
2
Watt Resume FF (Chnl . 4)
1389
6N57
31
3
EXF Code = X5XXX
K739
6059C
60
1
Wait Ready FF (Chnl. 5)
1390
6N69
31
3
K742
606A
60
1
Wait Resume FF (Chnl. 6)
1394
6J33C
31
1
EXF Code = X6XXX
71
(Sense Chrü.
Interrupt) (Condition Met) + (Sense Chn.
70 Interrupt) (Condition Met) -1- (Sense lnterrupt Exit FF
(FF Set)
K905
7L61C
66
1
End of Tape FF (reader)
K907
7L59C
66
0
Interrupt on End of Tape
0
.
1397
6063C
31
1
EXF Code
XOXXX
K930
709A
.1
71
1
Character Mode
6039A
31
EXF Code = XX2XX
K989
7069C
67
2
Interrupt on Carriage Return or Tab
61f83
33
3
2
Interrupt
K997
7070C
67
2
Carriage Return or Tab
J070
6J47
33
1
Lnterrupt Lockout
J177
6J84C
Overflow Fault
M051
8P14C
J191
6N52A
60
0
Chiil. 1 Active
M150
8P19B
32
2
J192
6N52C
60
0
Chn1. 2 Active
M151
8P19C
i193
6N56A
60
2
Chnl. 3 Active
M250
8P2213
32
2
J194
6N56C
60
2
Chnl. 4 Active
M251
8P22C
J195
GNGOA
60
1
Chnl. 5 Active
M350
8P25B
J196
6N60C
60
1
Chnl. 6 Active
M351
81`25C
J197
6064C
53
0
(Allow Internal Interrupt) (Overflow Fault + Ciock
Overflow)
M450
J450
8NO2
62,16
2
Sense Ready
J451
8N01
62,16
2
Function Ready
Chnls. 1 & 2, External Sense Response
Chnl. 4, External Interrupt
Chnls. 3 & 4, External Sense Response
Chnl. 6, External Interrupt
7M70A
32
2
Chnl. 1, External Interrupt
M550
7M70B
32
2
Chnl. 3, External Interrupt
M650
7M70C
32
2
Chnl. 5, External Interrupt
Chnls. 5 & 6, External Sense Response
J504
6M70B
66
3
EXF Code = XXX(OOx)X
N909
6L3813
Odd Clock Slave
J505
6M71B
66
3
EXF Code = XXX(Olx)X
N928
6033C
Even Ciock
J506
6M72B
66
3
EXF Code = XXX(lOx)X
J507
6M73B
66
3
EXF Code
XXX(llx)X
0000
8J09A
J526
6KO1C
31
1
EXF Code
X1XXX
0001
8J09C
J937
7N64C
66
2
ChnL 1 Sense Ready
0030
8M09A
J941
7N66C
66
2
Chnl. 2 Sense Ready
0120
8J29A
J942
7N79A
66
3
EXF Code
XXX(xxO)X
0130
8K29A
0140
8L29A
0620
8J31A
0630
8K34A
0640
8L31A
U707
3
EXF Code
XXXX(xxO)
3
EXF Code
XXXX(xxl)
3
EXF Code
XXX(xxø)X
2
EXF Code
(xxO)XXXX
62
2
EXF Code
(xOx)XXXX
62
2
EXF Code
(Oxx)XXXX
62
2
EXF Code
(xxO)XXXX
62
2
EXF Code
(xOx)XXXX
62
2
EXF Code = (Oxx)XXXX
5063
53
3
U1'
RNI Sequence
62
62
62
62
J943
7N79C
66
3
EXF Code
XXX(xxl)X
J946
7N71B
66
3
EXF Code
XXX(Ox)X
J947
7N77B
66
3
EXF Code
XXX(lo)X
J960
7060
66
3
EXF Code = X11XX
J963
7061
66
3
EXF Code = X12XX
J965
7064C
66
0
Sense 112XX
J974
6M74B
66
3
EXF Code = XXX(xxO)X
V006
4J05
5
3
3M58
9
01
6M75B
66
3
EXF Code = XXX(xxi)X
6M76A
66
3
EXF Code
XXX(xx0)X
V407
3M60
XXX(xxl)X
V415
6L66C
V598
6J69
J977
6M77B
66
3
EXF Code
U 14 Unequal
WO Sequence
0
.
Internal M. C.
Cbiil. 2, Exterrial Interrupt
2
J976
External M.C.
Chnl. 7, External Sense Response
32
3975
Internal M. C.
Buffer Active
1398
68
V404
DEFINITION
9
14
3
'
Iterative Seq. (Round, Norm. ‚ Final As s ! y .)
1
I$
$is I
is $$fell
I
M 450
M 5°
m 250
M 55°
6103B
L°7 '
L°72
INTERRUPT
LOCKOUT
M 650
61316
L°74
L°73
1 293
M 35°
€GO3C
L075
048
049
006
L°6
84
1383
1 384
1385
N0OUTPUT
M 35°
06000,1
EX. Cft6
01000,
NOOUTPUT1
EX. CA. 1
NT.
CH 4 BUFFER
INACTIVE
INACTIVE
INACTIVE
INACTIVE
K704
-y--- K 73 '
CH. 3BUFFER
60 INPUT
INACTIVE
READY
— K723
60 INPUT
READY
r
CA.
1CH 2
w'
j 384
M' 5°
EX. CH . 2
NT.
K 108 - - K 739
CH 5 BUFFER
60 INPU1
INAC1IVE
CA 3
1CH4
w6
w' 64
Nc
f
CA 5
1 286
197
j
070
j505
j 975 j 977
j 974 j 976
j 508 jSOS
j 975 j 977
yw 164
68828
j$O€j 506
jAlE
XXX3X
jSO€ jSO€
jA? 7 j 977
jA?€
384
1 388
1384
1 389
M 550
M 250
M 650
ES. CF4.4
NT.
4AMITHMETIC
RRLPT
EX. CII. 5
INT.
SAIFT
FAULT
FT
I
l1
•8
t
1
-J
0
a
tOVERFLOW
FAULT
66034
1
I1 ‚ -
1
XXX4X
j 507 ‚jSO 7
j 974 jA?6
XXX3X
TO M 650
EH. 5
F
LI
j
K 225
K 70°
K 704
K 723
K 73 '
jA08
jXII
11
I6603C
0030
SELECT
SELECT
00100
00101
J
SELECT
529
6L52A
jSII
0030
W167
XlXx
579
6A
6684
j 50 7
JA12
K 229
JsII
j 9?7
SELECT
06870
88868
509
j451
516
—9-
76688
1 368
1 567
K 905
K 989
7P31C
K 907
M 151
M05'
J 916
M25'
'J=
j 31 ' •1
SIEWX
OXOXX
K
1- <136
0000
J515
K339
00300
SENSE CLOCK
OVERFLOW
450
0630
A37
A6O
j946
A42
SENSE READY
11148
jIll
XXXIX
CA. 1
ACTIVE
j
92
XXXZX
OHO
ACTIVE
J SOA
J SO€
J SO7
J A?A
j 93
J 974
‚j 84
J 975
j 95
J974
j 196
68833
CA 3
ACTIVE
XXX4X
064
ACTIVE
XXXTX
CH.5
ACTIVE
SENSE
2DO4C
CASE
OXOXX
J516
NSE REASY
11208
J 52 '
SENSE
965
943
i394
SENSE
00125
6983*
K 997
K 930
CARRIAGE
RETURN
TAB
ASSEMBLY
l
1376
UODE
2003
PUNCHSWITCH
TITYIEWRIIER) END OF TAPE
85868
EH 6
ACTIVE
SENSE CIRCUIT
J 504
J A05
J305
J5O6
J506
J A75
J A?€
J 9?7
237
J A?4
J 9?•l
K233
K235
XXXIX
88828
DIVIDE
FAULT
SHIPT
'AULT
6Id83C
0 00
SENDE READY
II lOS
6
69
J SOS
6680
0640
F 78
jAOS
1974
SENDE
OOIXS
JA'8
965
A4?
K 905
END OF TAPE
(READER)
J A04
1975
317
?5I5
SENSE
RE ADT
SEN5E
08188
READY
7
i
SENSE
OXIXX
7 1
7 P608
1186
6K49C
516
968
F
SELECT
4C
l5
J530
6080C
J 5'6
—9------ 0000
1 SENSE
SNI3IRETURN ANI4A
'35I
6MAI
08888
76664
997
6979
8978*
o°
INTERRUPT CIRCUITS
S:T
0620
630
}
l
V 598
J6C
K339
j 5 O9
FUNCTION
READY
M 45°
I
N
Ö-K 238
u707
TO M 550
CII. 3
J66038
EXPNT
UNDFL
FAULT
OVERFL
FAULT
ACTIVE INTERRUPTS
<221
j505
N 928
N 926
CA 6
LII
XXXIX
-
'286
SELECT
OXOX
j A04 j 504
384
iSS?
EX. EH. 3
NT.
TO M 450
CH. 1
SELECT
OxOXl
w' 5 2
CH. 6 8UfFR
1386
—
r-:;
JA34
v45
6L39A
IST
N926
CH 2 BtFFER
CH BUFFEN
184
1 390
M 45°
N0OUTPUT
K
L
j368
1383
1384
6L83
EXPNT
L695 FAULT
4
INS
INTERNAL
RESUEST
6664
070
6131C
XXX3X
OVERFLOW
FAULT
K 239
XXX4X
EXPONENT
OVERFLOW
FAILT
K 247
XXX5X
EXPONENT
UNDERFLOW
FAULT
.___4
7
515]
ALS7C
-_8[iIEII1 ii513i
Page 31
TERM
LOCATION
PAGE
DEFINITION
QUAD.
TERM
LOCATION
PAGE
QUAD.
DEFINITION
0000
8J09A
62
3
EXF Code
=
XXXX(xxü)
1051
8072C
62
3
EXF Code
=
XXXX(xlx)
0030
8MO9A
62
3
EXF Code
=
XXX(xxO)X
1052
8073A
62
3
EXF Code
=
XXXX(lxx)
0060
8J20A
62
3
EXF Code
=
XX(xxü)XX
1053
8073C
62
3
EXF Code
=
xXX(001)X
0070
8K20A
62
3
EXF Code
=
XX(xOx)XX
1054
8074A
62
3
EXF Code
=
XXX(xlx)X
0080
8L20A
62
3
EXF Code
=
XX(Oxx)XX
1055
8074C
62
3
EXF Code
=
XXX(lxx)X
0090
8M20
62
3
EXF Code
=
X(xxü)XXX
1056
8080A
62
3
EXF Code
=
XX(xxl)XX
0100
8N20A
62
3
EXF Code
=
X(xOx)XXX
1057
8080C
62
3
EXF Code
=
XX(xlx)XX
0110
8020A
62
2
EXF Code
=
X(Oxx)XXX
1058
8081A
62
3
EXF Code
=
XX(lxx)XX
1059
8081C
62
3
EXF Code
=
X(xxl)XXX
W160
7J39A
25
01
1060
8082A
62
2
EXF Code
=
X(xlx)XXX
W166
6L75A
25
oJ
External M. C.
1061
8082C
62
2
EXF Code
=
1270
6K75A
32
3
1271
6K75C
32
3
1272
6K76A
32
3
1273
6K65C
32
3
1274
6K77A
32
3
1275
6K77C
32
3
1364
6K72A
32
3
Master Interrupt Mask
J510
J517
6M78A
6M78C
62
62
0
0
Internal Select
Interna]. Sense
J521
6J61C
30
3
Sense 00 1XX
J532
6K56B
30
3
Sense Fault (Ijivide. Shift, Overflow, Exp. Overflow,
Exp. Underflow, Interrupt Exit FF Set.)
K069
4P54C
9
2
Interrupt Exit FF
M050
8P14B
32
3
Chnl. 7 Input
M070
7K04C
32
3
Chnl. 7 Output
M150
8P19B
32
2
Chnl. 2
M250
8P22B
32
2
Chnl. 4
M350
8P25B
32
2
Chnl. 6
M450
7M70A
32
2
Chnl. 1
M550
7M70B
32
2
Chnl. 3
M650
7M70C
32
2
Chnl. 5
X(lxx)XXX
Interrupt Address Register
External Interrupt Request
I I I I fill$# of iiiissii
$lose$
394
6009C
6012C
6016C
6017C
6025C
6O3C
6032C
r
603
6039C
6044
J532
604
6J33C
6L7L
XXX7X
0751 0030
740
1
1
if
10
if
60124
60164
10
56788
68780
fTT
1 27
I2
1 271
60174
1 057
1 056
260
1 27TJ
1 372 1 372 1 372 1184
1376
J52 j 521
1 391 1 392 1186
184 1164
I
M 05° M °70 I 397
K 069
6009A
1 050
0740
1
6K79A
6K79C
IIrII
112631
27TTJ
1 27T1
1 272
1 270
i 272
1 270
1271
60258
60318
60328
10
1 058
66804
R
1 27rTT
1 061
6601C
6063C
791
6680C
66818
1 266
x0xxx
0821
0811
1048
I265I
1 27TJ
66810
r-i
1274272
1 273
1 270
1 271
60336
0 1 381 1 382
1
1 272
1 270
1 271
INTERRUPT ADDRESS TRANSLATORS
61-83B
6643C
SENS,1
1383
TJ
j505
6N43A
i364
1 385
M 45°
1 I1°
I 387
M 380
1 383
i °
1 386
i°
1054
1
M 35°
6M69
6M82
6N26
o T7
R1 xixxx
8
1 032
1 053
I384
r -i xxoxx
08
1 060
0790
1 058
6N44
oeiT11
T1
0800 1
1 059
6N53
ri X3XXX
[1 xxxx
0'
0 800
6N57
10-T--T
1060
790
o'
1
i°
61516
6158
M°
1 186
1384
I
6L650
oo8 —
Liii
61510
6240
i37°
SELECT
6628
371
03X00
SELEcT
6631
03X00
077
f-t
0
6633
SELECT
03X01
06T
1 I00 1
T
w 6°
1395
T
1 396
i395
1 396
1 364
1 364
'Tt
1 060
0790
0800
079
136
761
38116
XX4XX
0
r-i XX5XX
o8TT'
T
070
1 050
0 000
o°°
0 000
61M17
00
6M26
r---i
XX6Xx
XX7XX
6TT
o '
o° 1
o°°
Q761
0060
6L659
6673
X6XXX
1 055
1 383 i
1 384 1
M 150 M25°
62344
6N69
r--i X5XXX
[] X4XXX
00
60398
68
SELECT
374
6840
SELECT
6645
6
1376 XXIXX
375
04X00,I
6L47
XX2XX
I
R1 XX3XX
1
ii0
0 78
0 070
058
060
1 056
0 070
1038
1 056
0 060
J510
1055
1 054
1053
62338
1
0xx00,I
1 052
6M76C
•
1 1° 1
P 1
1
1
FUICE DRA8I
_________________________________
_______________________________
COMPONEPM
CONTROL DATA
CORPORATION
1604-4
w,cIron
1
‚T
' INTERRUPT SELECT a
SENSE TRANSLATORS
XDP 214512
E
31
Page 32
TERM
LOCATION
PAGE
QUAD.
DEFINITION
1050
8072A
62
3
EXF Code
1253
6J02
33
2
1260
6K78A
31
1261
6K78C
1262
LOCATION
PAGE
QUAD.
\V18O
6134A
31
2
Internal Interrupt
\V181
6K73
31
2
0
IAR = 0
1A'l82
6I51A
31
31
0
IAR = 1
W183
6151A
31
6K79A
31
0
IAR = 2
1263
6K79C
31
0
IAR = 3
1264
6K80A
31
0
IAR = 4
1265
6K80C
31
0
IAR = 5
1266
6K81A
31
0
IAR = 6
1267
6K81C
31
1
IAR = 7
1291
6E76A
33
1
Interrupt Lockout
1292
6E76C
33
1
Interrupt Lockout
1370
6J40
31
3
Select 03X00
1371
6K28
31
3
Select 03X00
1372
6K31
31
3
Select 03X01
1373
6K33
31
3
Select 03X01
1374
6K38
31
3
Select 04X00, 1
1375
6K40
31
3
EXF Code = XXOXX
1376
6K45
31
3
EXF Code = XX1XX
1377
6K26
31
3
EXF Code = XX2XX
1378
61,47
31
3
EXF Code = XX3XX
1379
6L68
31
3
EXF Code = XX4XX
1380
6M16
31
3
EXF Code = XX5XX
1381
6M17
31
3
EXF Code = XX6XX
1382
6M26
31
3
EXF Code = XX7XX
J070
6J47A
33
1
Interrupt Lockout
N852
6175
9
j
N854
6174
9
N982
6F76A
Even Ciock
N984
6F76C
Even Ciock
N986
6N74
Even Ciock
0700
6009A
31
0
EXF Code = XXXX (xx0)
V404
3M58
9
0
wo
fill#
XXXX(xxl)
TERM
I
2 .J
DEFINITION
Disallow All External Interrupts + External M. C. +
Disallow Any One External Interrupt
External M. C.
Clear Edernal Interrupt Request
Seq.
so I see
81111181111118118818 is fillsösissss
INTERRUPT
REQUEST
CH7 °,4,5,G
INTERRUPT
REQUEST
CH.7, 1,2,3
I
CH. 70
CH. 6
CH. 5
CH. 4
I
RK2
'I83
w 181
N963
-6
6- N932
N9
-0
0- N 982
v 73 '
v 735
132 9
W 181
1373
6E77C
CH. 7'
RK 1
t
179 1 79
CH. 3
‚-
REQUEST
W181
1-4
1372
N 984 N
V 404
1 261 1 363 1 253
4-4
~J
IF
v 3 ' v 74 ' v 735 v745
1322 I
I
CII. 2
CH. 1
EXTERNAL
INTERRUPT
1 -1
i°
1 1371
1 380 1 390
INTERRUPT MASKING REGISTER
v 747
1341
V733 v 743
1 3421 320
4-'
v 743
i 33 '
v 737
1336
4-'
w'82
373
1 73
i'
1 381 1 261
1371
1 382 1 382
1 187
134
v 737 v 747
4-'
w182
N 654
0- N 984
N 962
4-
1 372 1 370
1 3781 378
i°
j070 j070
4-
w183
4-'
‚‚
w82
1 372
1370
1 377
4-
1 370
i
1 376
1376
1 77
INTERRUPT ADDRESS REGISTER IAR)
0
.4
6677
1 327
6679
6678
1
1 327
1
1 327
1325
1 322
1325
1323
6081
6680
1 324
1 322
1 323
1 323
1 322
N984
N 984
MASKED INTERRUPT REGISTER
4
4
‚4'
-I
0
I
1 -1
l-4
F1
v 747
v745
1 291
k
348
1
1 261
;
VI
V21
Ile
-1
W' 80
v 735
1352
1292
°
1 29
1 262
1 263
1 264
N 852
N 852
N 652
• -1
0
I-.l
1354
_5J)
MASTER
EXTERNAL
INTERRUPT
MASK
4
e
Ii
i
1 291
N 852
4
v 733
v731
I 346 -
1 29 1
I
I-.l
1 292
1265
1266
N 852
N 852
18i
M a -
v 74 '
1292
1356
4-4
q
1267
I 26
1 374 1 374
N854
1
375
1 050 Q700
375 1
04001
8P198
7M70C
7M708
8P25B
CH 1
CH 2
CH 3
8 P148
7604C
M °60
M 55°
CH. 4
CH. 5
CH. 6
w'83
N 854
SELECT
78704
CH.7 OUTPUT
I
II
11 326
1 1 325
1 324
13.23
1322
11 326
1 326
11326
1 324
6684
6683
6082
I
CH.7 INPUT
SELECT
04000
OISALLOW
ALLOW
ALL
SELECTED
EXTERNALEXTERNAL
INTERRUPTS
1 321 1 320
1 319
N 986 N 986
N 986 N 986
1 318
1 317
1 316
N 986 N986
W1
82
Rev. H
Pa e 33
TERM LOCATION
PAGE
DEFINITION
QUAD.
TERM LOCATION PAGE
N880 4039A
10.2
S & T Seq.
3
Odd Ciock Slave
N901 4038C
H012
4M76
5,25
2
Clear Control FF's
DEFINITION
QUAD.
I
N940 4M74A
N946 4P60B
Even Ciock Slave
1187
6E77C
32
1
External Interrupt
1241
4K54C
8.1
0
f = 00 + 77 FF (Advance Ciock)
1251
4N60
33
3
Adv. Clock
V031 4M01
5
0
Jump Exit
1256
6H82
32
1
External Interrupt
V033 4M02
5
0
Full Exit
1.259
6K66C
53,30
0
Internal Interrupt Request
V035 4M03
5
0
Half Exit
1296
4059C
33
3
Adv. Clock
V098 4K08A
5
1
RM Seq.
1328
6J79A
32
3
Chnl.7 Input
V122 6N73
29
1
Resync. Pulse
1330
6J78A
32
3
Chnl. 7 Out Pui
V351 4K51A
8.1
1
1332
6J77A
32
3
Chnl. 6
V352 4K52
8.1
1
1334
6J76A
32
2
Chnl. 5
V354 4K61A
8.1
1
1336
6J75A
32
2
Chnl. 4
V402 3M56A
9
0
1338
• 6J74A
32
2
Chnl. 3
V410 3M63A
9
1
1340
6J73A
32
2
Chnl. 2
V420 3M56C
9
0
1342
6J72A
32
2
Chnl. 1
V550 4M57C
10.2
0
V552 4110A
10.2
2
initial Start
V760 4N50C
8.1
3
RO Seq.
Exit FF Slave
b{ide Fault
W143 4J82
25
0
Internal MC.
W164 6L76
25
0
External M. C.
Masked Int errupt Res.
K055
4K15C
28
0
K066
4L15C
4,5
o
1(067
41,16C
4,5
0
K233
61,50C
53
0
K235
61,51C
53
0
Shift Fault
1(237
61,53C
53
1
Overflow Fault
K239
61,54C
53
1
Exp. Overflow Fault
K242
61,55A
53
0
Arithmetic Interrupt
K247 . 6L40C
53
1
Exp. Underflow Fault
K339
6G02C
53
1
Clock Overflow
R570
4N78A 10. 2, 23
3
R2 -' B FF
K690
4L63A
10.2
3
Interupt + Ciock Request During 63 (1)
K693
4N68C
10.2
3
Interrupt + Ciock Request During 63 (II)
K753
6062C
60
3
Adv. Clock Resync. Logic
K755
6064A
60
3
Clock Wait FF
K771
4M54B
10.2
3
Input Transfer Active
K796
6K83B
53
0
K797
6K84B
53
OJ
K831
4P63C
10.0
2
J
Internal Interrupt Request FF
S & T Seq.
N951 4N84B
Odd Clock Slave
RO Seq.
J
WO Seq.
J
'1
J
T Seq.
fell I I
$Iloilo$$
INTERRUPT
LOCKOUT
066
K
v402
3L79
V0 ' 2
K 693
259
K69°
K 693
N68°
V °3
_________
K77'
V 76
K°66
H°'2
61 H7891
4060
v789
V 550
40570
061
K 83
4062
1
6]H 787
K77'
4056
EI 788
V ?88
787
40610
4061C
4057C
4058
CLR X'
N79
v 834
j 061
1 251
4055
055
v790
4M79C
464790
864j
H 792
1256
K 782
K796
N90'
4002
INTERRURT OR
CLOCK REQUEST
K694
EXIT
K 060
4616
4617
K °6 '
1 251
1P62
EI 93 '
284
RO
066
K°64
K797
1250
1
1
INTERNAL
INTERRUPT
K 695
l
4
io
H968
t
-'-'-----
1
K°55
1
EXTERNAL INTERRUPT
1
1
K°64
K796
1290
K 763
CLR
H 955
6
1
6J021
4854
J
E XTERNAL
INTERRUPT
254
1
K 69°
WO
H40'
4-l:5-.
25,
420
6N63
H 852
1
1 255
49634
CLOCK
ACTION
REQUEST
K 753
K755
v 22
1 241
v35'
1
K762
604j
K783
CLOCK
N95'
V 00
SLAVE
K882
REQUESTLfEE
4N61
LJ
v785
}(8B3
v352
4L58C
I
K763
V005
V7606l
ADVANCE
CLOCK
1 250
4659
1251 4N60
1
1
40594
4 N58
1284
K77'
N 940
INTERNAL
INTERRUPT
LIGHT
68478
800
EXTERNAL
INTERRUPT
LIGHT
6081
42
K339
6079C
78
K247
K239
33
235
JK
K257
1 328
1 330
1 332
1334
L688
40294
INTERRUPT LOCKOUT LIGHT
6J05C
6E770
6E764
CLEAR
CONTROL
FFs
SEE
PAGES 5 & 25
K 570
v °98
4L15A
jO26
68474
1 336
13 4 0
1342
4029C
)fl
6483
68 INTERRUPT
6J474
6E76C
J070
1 292
P:uye 24
TERM
LOCATION
PAGE
DEFINITION
QUAD.
J062
4J62
4
0
Exit FF Clear
K021
4J78C
28
0
Manual Control
K050
4L12B
28
1
Stop II
K052
4L14B
28
1
Stop 1
K054
4K15A
28
0
Initial Start
K143
7074C
28
0
Test Mode
W780
41`14A
60
3
Buffer Active
TERM
LOCATION
sells I is$ so
PAGE
QUAD.
DEFINITION
$$sell
sell sell$$
K 052
STOP 1
•ss•ssssssisssississsssussssi••sss
BREAK POINT DIGIT SWITCHES
WHEEL-4
M-SYMBOL
JACK
WHEEL-3
M-SYMBOL
JACK
WHEEL-2
M-SYMBOL
JACK
M 94 °
003C
0
M 93°
COlA
0
M 92°
H068
0
M 94 '
GO4A
1
M 93
GOIB
1
HO6C
1
2
M 942
5049
2
M 93°
GOIC
2
HO7A
2
3
M
004C
3
M 933
GO2A
3
M 923
HO7B
M 944
GO5A
4
M 934
6029
4
M 924
HO7C
0
4
M 922
WHEEL-
M-SYMBOL
JACK
WHEEL-Ø
M - SYMBOL
JACK
HO3C
0
M90°
HOIA
HO4A
1
M 90 '
HOI B
M 912
HO4B
2
M 902
HOIC
3
M 913
HO4C
3
M 903
HO2A
4
M 914
HO5A
4
M 904
H028
1
M91°
M9'
1
5
M °45
GoB
5
M 935
602C
5
M 925
HOBA
5
M9 '
HO5B
5
M 905
HO2C
6
M946
GO5C
6
M °36
603A
6
M 926
HO8B
6
M 916
HO5C
6
M 906
HO3A
7
M94°
GO6A
7
M937
603B
7
M 927
HOBC
7
M' 7
HO6A
7
M 907
H039
P BREAKPOINT
K 05°
F06
M 947
M 944
M 943
M 940
M 937
M 934
P l25
P' 24
P' 25
P' 24
P095
P 094
P 095
P° 94
P 135
P l45
p I34
p I35
P 105
P l04
P l05
P l04
P 145
P' 44
P 134
P 144
Pl
pI 15
p 114
FO5C
1
5A1
M 946
M 945
M 942
M94
pI24
pI5
pI24
p125
P l35
P l45
P' 34
P 145
P' 35
P144
P' 34
P 144
F94C
p 140
15
F04 C
P 095
P' °4
P 5
P l05
Pl'5
M 933
M 930
FO4A
P 094
P' °5
P 114
p
4
M 927
M 924
P 0€5
P 064
P075
P074
p 085
p 085
FO3C
M 923
M 920
F 065
P 064
P075
p 084
P 074
FO3A
p 084
M 917
M 93
M 914
P 035
P 034
P 045
po
P 035
P 045
P044
p054
O2C
yr
907
M910
034
M
P 044
P 015
P
02
p 054
P 064
p 065
p °64
P 065
p 034
P o74
P 085
P o75
P 084
p034
p' °4
P ol' 5
P0e5
P035
P O74
P o84
P 045
P 055
P °44
P° 45
p 44
p 055
P ol5
p 054
p 054
P 025
F844
F03C
F83A
F82C
F82A
F8C
F8IA
F8OC
F8OA
F79C
F79A
F78C
p14 '
p 130
p 131
p 120
p121
Pilo
p 111
p' °°
p 101
p 090
p 091
poBo
35
M 903
M 900
P 014
P 015
p o4
p O25
p 024
M905
M 902
P
FOIC
M0
P 095
P'' 4
M 904
P 005
004
P004
P 005
P°04
P ol4
Pol5
P°25
p 024
P 004
po 24
FOIA
M 90 '
0-
14
p 024
F7SA
E84C
E84A
E63C
E63A
E82C
E82A
EOIC
E8IA
EeoC
EeOA
E79C
E79A
E78C
E78A
E77C
E77A
pOBI
p070
p 07 '
p060
p °6 '
p05°
p 05 '
p 040
p °41
p °3°
p 03
P 020
P 02 '
p°tO
p° 1 '
p000
001
-
CONTROL DATA
NOTE
ALL JACAS ON CHASSIS
UNLESS 01HERWISE SHOWN.
CORPORATION
-
1604-A
1
LOGIC DIAGRAM
BREAK POINT TRANSLATOf
XDP 214574
135
E
Page 36
TERM
LOCATION
PAGE
N628
N629
N630
N631
N632
N633
7P65
7P66
7P68
7P69
7P70A
17.0
QUAD.
N634
N635
N636
N637
N638
N639
7P70C
8P37
8P38
8P48
8P49
8P55A
8P55C
17.0
17.0
17.0
17.0
17.0
17.0
0
0
0
0
0
0
0
0
0
0
0
0
V445
8P71C
17.0
1
17.0
17.0
17.0
17.0
17.0
DEFINITION
TERM
LOCATION
PAGE
QUAD.
DEFINITION
-
17
Aux. Seq.
CCRL
Clear CCRL
i
CCRL
Clear CCRL
i ''
-
CCRL
Clear CCRL
1
-'.
-
CCRJ
Clear CCRU
1
CCR
Clear CCRJ
1
CCRU
Clear CCRU
-
I
sells
II
$is lessees$
I
$googol$$ Iloil o $$ III I I looses$$$$ I I
CCRL
1713
1714
1 709
1710
j711
1712
1 706
1707
1706
1 703
1704
1705
1702
1
CCR5
I
N639
1 763
j764
1 760
j 761
1 762
i
I
I
I
1756
1
Ti I
l
I°
i 753
I
N66
jlSl
1 752
N 644
N
17
i
1 700
u
I
N636
156
762
642
I
1 760
1 763
1 785
1 786
1 787
1 764
I
j754
N636
j788
I
N67
1 757
6
i_75
I
701
1 761
1783
1 784
1 782
1758
1
781
1
1.,
1779
1755
1776
1 778
I
1 750
l
-
N 635
CLR. OCR0
N 634
f- CCR u
N 640 1 7+1
1 750
CCR0
1 751
1 752
6M 64
R 908
1 730
OCR0 ~ CCRL
v 445
1 731
1 732
6M60
R 907
CCR 0
1733
= CCRL
i7+ H*CCR
8P16A
861 6C
R 906
80524
8052C
80346
8034C
77331
R 228
R 277
R 229
R
27 6
R 227
R 274
R 901
R 903
R 226
R 275
R 224
R 273
R 225
R 272
R 222
R 27 '
R 223
R 270
R 22°
R 269
R 219
R 22 '
R 268 R 266
8001
8002
8013
8613
R 904
R 218
R 267
216R
t
R 217
R 264
R 215
R 262
R 212
R 26 '
R 213
1 260
COM PARATOR
R 210
R 259
R2
R 258
R 20 8
R 257
R 209
R 25 6
R 90°
R 206
R 255
R 207
R 254
R 204
y R 253
R 202
R 25
R 205 R 203
R 252
R 250
R 200
R 249
1 760
1 756
1757
1754
1 750
1751
1 761
1758
1 755
1752
FROM 1 7 (P.40)
R 20 '
R 248
!
3 i 2
1
!1
-_
SO3IPONENTS
6
v-u
•
•2
CORPORATION
-
:=
!
8
Rff8ICE DAW1MGS
1
COMMON CONTROL
REGISTER CCRL
AND COMPARATOR
CCR6
XDP 214501
1
4
36
Paie 37
TERM
LOCATION
N736
N737
N738
N739
N740
N741
N742
N743
N744
N745
N746
N747
N748
N749
N750
N751
N752
N753
N754
8E08
8E07
8H72
8D76
8134A
8151A
8F08
8F07
8H82
8H81
8134C
8151C
8G08
8G07
8175
8174
8K23A
8K64A
8G09
8F09
8111
8110
8K23C
8K64C
8109
8108
8J64
39
39
39
39
39
39
39
39
39
39
39
39
8J54
8J84A
8J83A
8L54
8K54
8J82
8J81
39
39
39
39
39
39
39
8J84C
8J83C
39
39
N755
N756
N757
N758
N759
N760
N761
N762
N763
N764
N765
N766
N767
N768
N769
N770
N771
PAGE
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
QUAD.
1
1
1
1
1
].
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
DEFINITION
I
TERM
LOCATION
PAGE
QUAD.
DEFINITION
CR
Set CR
18
CR
Set CR
18
CR
CR
1's
-
CR
Set CR
18
].tS
-
CR
Set CR
18
l's
-
CR
Set CR
18
1's
-
Set CR
18
l's
-
CR
Set CR
18
1's
-
Set CR
18
l's
-
CR
Set CR
18
l's
-
l's
-
CR
Set CR
Ps
-
1 8 -CR
Set CR
18
CR
Set CR
18
l's
-
-
lts
-ca
Set CRu
1's
18
cRu
Set CR
-
18
cRu
lts
Set CRu
1
8
CR
l's
Set CRu
1
cRu
Set CRu
l's
1
CRu
lTs
Set CRu
-
$less$$ I so I $$sells I I
is sells III is$$ I I
r
f
1
1 888
H
'.
1 888
ri
N765
I
188 7
1 888
\
N 764
1 885
1 6
1887
T\
1 884
1 886
1887
\
1
!
N7 8
N759
1 886
1 887
T
1885
1 887
j
1 884
1 883
1 884
1852
1 856
1 885
1 884
—rA
1 883
1882
1 883
w
"
1N 762 J
1 886
1 882
i 881
t
:
____
1884
1 883
1 876
‚
1882
1 882
1 881
T
STU
;::
1 875
1 87 4
‚
.
Ty,
1878
[880
1 878
¶1
1 879
SET CR
N 76 '
1 575
_
1 879
1 880
____________ _______
1885
T
1 877
I
1 876
1 875
674
1 676
1 875
1874
I
IB77
N755 SET CR
_1 T _I _1 _ 1
___________
1887
0
1 879
1 580
1 880
1 884
1 877
1 878
1 879
1879
756
1881
1 885
N75
FT NN 57
1 881
1
T
CRIS
ILI
1 880
-
Hi
1 883
-
;::
1 660
H1
H'H
_
1 886
t
1 81
_ 1 _1
Tj:::~
1 888
1882
jeBi
1
_
T _1
1 888
1 883
L7T
T _1 _1
1888
!
cr
1 878
1 677
_ t _t
1 876
t _t
_
1 877
1 75
1 876
1875
:
1 874
;::
1874
STU
_____
___________
1 879
1878
1 877
1 876
1 875
737
1 874
COMPONUM
—
—
>
-
Is
Page 38
TERM LOCATION
N700 7K01
N701 7E07
N702 7J45
PAGE
0
0
18
0
18
N704
N705
N706
N707
N708
N709
7J47A
7D83A
7K02
7F07
7J46
7D82
N710
N711
N712
N713
N714
N715
N716
N717
N718
N719
N720
N721
N722
N723
N724
N725
N726
N727
N728
N729
N730
N731
N732
N733
N734
7J47C
7D83C
7K03
7G07
7J48
7H12
7J69A
7175A
7134
7G08
7K28
7G09
7K29A
7151A
7E09
7107
7J51
7174
7J69C
7175C
7F09
7109
7J53
7J20
7K29C
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
39
N735 7151C
DEFINITION
39
39
39
39
39
39
39
39
39
39
N703 7D81
QUAD.
39
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
TERM LOCATION
PAGE
QUAD.
.
DEFINITION
CRL
Set CRL - l's
CRL
Set CRL is
18
CRL
Set CRL l's
18
CR L
Set CRL - l's
1 8 -CRL
Set CRL -
1
CRL
Set CRL -. 1's
18
CRL
Set CRL -. 1s
18
CRL
Set CRL - l's
1 8 cR L
Set CRL __-j. Ps
8
CRL
Set CRL _. 1)5
18
CRL
CRL Ps
18
CRL
CRL
18
CRL
CRL l's
18
CRL
CRL l's
18
CRL
CRL l's
18
CRL
CRL ]'s
1 8 CR
CRL its
8
1 CR
CRL lts
0 L• 1 0 1 0 0 S1IFFIFS 0 II SIlIlSIS hin
I
H
L T
1 864
H
1 863
H
1 864
1 863
=
H
t :1
1 662
H
t:
1 862
1 661
1
1 860
t
H
1 861
1 8 60
1 859
1858
1 858
t
1 857
t
1 857
1855
1 856
H
H
H
r:
1 856
H
I
1 855
I
1 863
;:T
1 862
1 860
H
1854
i
1 852
H
1
1 858
1
857
I
B56
1855
1 854
1 850
81
1850
1
0
t
1853
j851
10
182
0
1
i
t
H
1853
0g
1
i
1 861
CR r
1853
1 854
9
i
1 864
T
H
i
9
¶
1859
H
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3
71
!
1 651
1 852
1 850
CR
0
N16
1864
1 863
1 964
1 863
1 864
1 863
if;f\
1 862
1 86
1862
j862
1861
1861
f'.
1 860
859
1 860
1 860
f'.
1 858
1 858
1859
1 858
f:Tf
TK
1
7:2
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1 857
1 856
1855
f'.
1 854
1853
Tf
1852
1851
1850
1 857
1 856
1 855
1854
1 853
1 852
1851
1 650
1857
1856
1 855
IB54
1 853
1 852
I
CR'L
1 851
+
T::,,
1850
Page :39
TERM
LOCATION
J178
J835
J836
J841
J843
K074
6075
4041A
4041C
7P24
8NO2
6P31A
45
42
42
42
42
42
K075
6P31C
42
2
K076
6P32A
42
2
K077
6P32C
42
1(078
6P33A
K079
1(152
PAGE
QUAD.
3
DEFINITION
Rank 1 of: Scanner
TERM
LOCATION
PAGE
ARD
V174
4014C
42
0
V180
4031C
42
1
V181
4034
42
1
V190
4052A
17.1
0
V440
4N09
17. 0
0
V445
8P71C
17.1
1
2
V447
8061
17. 0
1
42
2
V474
4M53C
17.1
1
6P33C
42
2
V480
6L59
17.1
1
4L57A
17.0
3
V485
6083
17. 0
1
2
2
0
1
2
1
1
Read Lower
Read Upper
Write Lower
Write Upper
Aux. Reference Register (ARR)
J
]
K153
4L57C
17. 0
3
1(154
4L56A
17. 0
3
W162
7K50
25
0
K155
4L56C
17. 0
3
W163
7J49
25
0
K217
4D42B
16
0
f = 74. 1
K623
3J11B
54.0
2
Even Storage Busy
K663
4176B
54.1
2
Odd Storage Busy
K774
6P37B
45
1
K775
6P38B
45
1
K776
6P39B
45
1
K777
6P41B
45
1
K778
6P42B
45
1
K779
6P43B
45
1
K800
6P48B
45
2
1(801
6P50B
45
2
1(802
K803
6P49B
45
2
6P51B
45
2
K804
6049B
45
2
K805
6P52B
45
2 J
N559
6P40
42
0
N656
8N04A
42
1
N657
8N04C
42
1
N658
7P30A
42
1
N659
7P30C
42
1
FF's Used For S
-
'
DEFINITION
QUAD.
,
S
2
-
J
H. S
.
Storage Seq.
Aux. Seq.
L
-
H. S.
Storage Seq.
Aux. Seq.
j
J
ARD
74. 6 FF
External M. C..
J
1
Aux. Reference Designator (ARD)
J
1
Rank 1 Aux. Scanner
ARR
1
-
ARD
High Speed Storage Sequence
J
ittlitil, IS III . 0 000 0 0 0 0 II 0 S II Ii 1 •
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
v 447
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N 659
N 658
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7K62
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J 841
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w 842
N 70 0 7801
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7E07
N 702
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N 703
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N 704
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71 °
H
N 659
J 541
03
N 713 7G07
N 714 748
N 715 7972
N 712
7k
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v 446
v 447
CRL IS
N658
N657
84i
843
8M01
._-
N 656
1
N657
8L01
—
N736
8 E 08
N 737 8807
N
N726
N727
7174
N738
8H72
N739
8076
N 75° 8175
N 74° 81348 W85'
N 74 '
8iss
N 707 7F07
N 716 7114
N 719 7G08
N73°
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N 73 '
7109
N 742 8F08
N 743 8F07
N 709
7082
N 72° 7626
N 72 '
N 732
7J53
N 733 7J20
N 744 9682
N 745
N7
7K29C
-
W 842
W 844
7909
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K 776
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79
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N 728 7374C
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N 755 SF09
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N 767 8654
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N 769 8J81
W 853
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J
W856
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8J84C
W 856
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ARD=2
ARD=3
ARD4
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651094
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6M09C
66 1 28
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K 774
K 775
K 774
K 775
K 777
K 774
K 776
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K 775
K 776
K779
K 777
K 778
K 777
K 778
K 776
K 778
p855
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K 778
K 777
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K778
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K 775
IK776
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8M544
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8M600
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w 942
w 943
w 944
w 945
w 946
8M64C
8M71A
5M71C
8M800
8M80C
w 952
w 953
w 954
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w 955
w 956
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;
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7M61C
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8N454
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864
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w
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L
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r
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N656
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v 447 — K°'3
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8L02
8J64
v'74
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N 753 BK64A
N 752 88548
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v 18
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H 519
843
07
7J46
N 77 71758
N656
-
N 725
7J 5
v 447
CRu - Is
Q fMO1
N 724 7E09
7602
W 843
j74s
v 446
I6-CRu
N 716
7908
K 774
N 658
I8 CRL
N 705 7s3s W 843
7J47C
W 84
CRL I•s
J
K 803 K 802
AUXILIRY REFERENCE DESIGNATOR
78
1 1 1• J
K801 <800
Lr
o
k-
IJ
'
CONTROL DATA
______________________________
POEl5
CORPORATION
'''
TITIE
CONTROL REGISTER
CONTROL
XDP 214504
I 39
E
Prr
TERM
LOCATION
PAGE
QUAD.
W838
7M71A
42
1
W848
'7M7].0
42
1
W849
8053A
17.0
1
.
DEFINITION
1
]
J
8
18
CCRTT
1)
W858
7M72A
42
3
1 1
W859
8053C
17.0
1
CCR
W861
7M064\.
39
W862
7M06C
W863
-. 1
zifl
TERM
LOCATION
PAGE
W951
8M64A
39
3
W952
8M64C
39
3
W953
8M71A
39
3
W954
8M71C
39
3
W955
8M80A
39
3
2
W956
8M80C
39
3
39
2
W869
8054A
17
3
7MO7A
39
2
W864
IMO7C
39
2
W865
7MO8A
39
2
W866
7MO8C
39
2
W868
8P17C
42
3
W871
7M59A
39
2
W872
7M59C
39
2
W873
7M60A
39
2
W874
7M60C
39
2
W875
7M61A
39
2
W876
7M61C
39
2
W878
8P28A
42
3
W881
7M76A
39
2
W882
7M76C
39
2
W883
7M77A
39
2
W884
7M77C
39
2
W885
7M78A
39
2
W886
7M78C
39
2
W888
8P28C
42
3
W931
8M31A
39
3
W932
8M31C
39
3
W933
8N35A
39
3
W934
8N35C
39
3
W935
8M40A
39
3
W936
8M40C
39
3
W941
8M50A
39
3
W942
8M50C
39
3
W943
8M54A
39
3
W944
8M54C
39
3
W945
8M60A
39
3
W946
8M60C
39
3
CR
L
CR
L
-I
7
7
.1
18
-'I
7
1 51 6
18
CR
-I
U
U
18
-
1 51 6
CL
7
-.I
1 51 6
CR
I
-
DEFINITION
QUAD.
7
i1ius'i'ssssssssss•sissssssississuls
R 276
R 277
R274
R 275
1 764
I
R 272
R -
B0516
8051c
RV
R2
1763
1 762
R 226
•17
1 713
1 114
R
p826
W88
R
We
We86
R 376
R 628
w884
w88'
8L74
1 712
R 526
W
R6
w884
8L73
R 824
W 88
R 326
w88'
R 624
8L72
R47' 1
9s2 1
R 37 '
w95'
R 324
R622
w884
8L63
I
R 277 WON
w869 1 5w
1638
R275 WON
w869 1537
1637
R233 WM
w869 1536
1636
R 27 ' W
w869 1535
1 635
R 265
1
1
R 469 1
w952
w 955
R369
w 95'
R 669
w94
W9
R86
W
6 7~67
R 7R
W
9
R 667
R 367
w9
w94'
4ht ;t
1 7b 0
R 322
w88'
R 216
R 62°
R 320
w88'
R618
w874
8L61
8L62
F~
R 769 W
8
1
634
.869
RS6
R 463
W 2I
R 3
w'
w946
R 267 w 878
1 533
w9
1 633
R318
w87'
w875
R 316
w874
R46' 1
R 361
w 941
w871
w872
R 614
w874
R 265 w878
1 532
R 263 w878
W 859 1 531
R 257
R 254
R 255
R 759 1
w 945
R 659
W944
W877l0
R 314
w871
1 631
w872
R 612
R 312
w874
w87'
8L51
R Z.
678
1530
1 630
1 752
w8
R 610
R 310
w87'
w674
708
W8 408
6706
w865
w862
w865
W
.
R 608
8L42
R 259 w 878
R 257 w 868
1 629
1 628
w849 1528
R 308
w86
406
R 306
w8
w86'
8L41
R 255 W 868
1527
w849
1 627
34Q4
W80704
004
w865
R 604
7M01
1 700
1 701
1 702
w862
w8
W 866R 702
R 304
w86'
W2
W865
R 602
W87
W86 2
w864
8L34
8L33
R 333 W 868
W 849 1 526
R251 W868
7L35
7L13
849 525
1 626
R 449
W 2
RM9
w9 31
R 200
7M02
7M03
w2
R 606
R 202
R 204
1703
8L43
w859 1529
t 8030
W
7M04
7M05
W86
R 249
1 751
+
R 204
1704
W4I0
w875
RM
O3IA
803C
1
R 208
7M62
R251
R250
R 253
±3+
±I
85
R85*
Rt
R 65
/936
LjS33
1W933
w936
w936
W 936
1
1
R45 ' 1
R 749
R455
R 753
R453
R 75 '
R 457 1
R 755
w932
w 932
w935
w 932
w 935
w935
w 932
w 35
R35 '
R355
R 353
R65 '
R649
R 357
R 655
R 633
w9 34
w 934
w93'
W 934
w 93
w934
w93'
w93 '
W 936
R 757
R 459
w942
w 935
R 657
R 359
w
w 934
1 705
w875
R252
8032
80336
1
R 210
W7I2
w875
8L52
1 632
w9
.76
8L53
w859
R 85
1 706
R 74
w872
R 616
tI
7M63
W
R 256
753
R 212
1 707
834l6
R 259
8033C
w3
R 76 ' 1
w945
R 66 '
w4
R 214
1708
6
R 258
756
_5
tte
R 26 '
i ?S7
R 86
R 218
R 260
8040
W 803
w946
6
R 765
R465
R 763
W942
W945
W945
R663
R 665
R 5
w 44
w 94'
w 9'
1 709
w884
R 263
R262
8O4IC
1 758
0
R 822
R 522
W 886 733 W8 33
w88'
R 6
8042
R86
W956
R 769
R 220
1 711
R 524
W8
w 884
R86
1
7M81
7M82
R 267
1
p222
R224
7M83
R 266
80436
1 761
)
7M84
R 269
3C
R 87 I
R8
R 87
1 w95€
Iw'
w'
w986
w9
w'
w956
1
R 7
R475
R 3
R 433
R
W9521
w955
w956
w980
w952
W SSS1
w'
R 677
R675
R 375
R 373
R 377
R 673
R671
w
w'
w 954
w95 '
w9
w95 '
w964
R 228
R2&6
8050
1 625
R 02
w86'
o
W862
w 86
R
R 304
60
w'
w864
8L32
R249
B4g
524
i 624
I 5 I 6—I 8 AwD CCR 3-9I
T
7L64
w863
w856
w858
1 614
1 613
7J75
I
1
‚
1
5 4
7L65
1513
1512
1 612
7L58
w858
1
1 611
7L57
w858
1 50
1 60
7L56
w848
1 509
1 609
7L55
w648
1 508
1 608
7154
7L53
7L38
7L37
7L36
F
7L01
~
—
1 8 5O
w848
w848
w848
1 5 05
w838
w838
w838
w8
1501
1
1 607
1 606
1 605
1 604
1 603
1 602
1 601
1 600
1 507
I5I6I
1 506
10
1 503
1502
500
Page 41
TERM
LOCATION
R039
R059
41,42A
44
1
8P72C
44
1
4003A
42
V171
I
PAGE
QUAD.
DEFINITION
CCRu
CCRJJ
000016
=
00001-6
H.S. Storage Seq.
V181 4034
42
V444 4N24C
17.0
o
Aux. Seq.
W140 1 4K76A 1
25
0
Internal M. C.
II
TERM ILOCATIONI PAGE
IQUAD.
D E F IN lT ION
x 130
x 4°
x'' °
x 2°
x °°
x °°
1'
IGO9C
IHO9C
IHIOC
tHI2
x 050
x°70
X °8°
x 030
x °°
x °°
GO8C
IFLOC
FFO9C
1IFOBC
tFO7C
GOAA
IFIOA
IFO9A
IFO8A
!FO7A
IEO6C
tLO7C
IEO8C
IEO9C
x °°°
x °°
x 02°
I726I
F
HI
IHI2A
IHI3A
•
t
IHIOA
I GF09A
A
IEOGA
I EF07A
IEO8A
1714
i713
1712
1 711
1 710
1 109
1 708
1707
1 706
1 705
1 704
1 703
i702
1 701
1700
x 38°
x370
XAAO
x 5°
x 34°
x 33°
x 32°
x 3°
x 300
x 20
x 280
x270
x 26°
x 20
x 240
2J70A
2J70C
2L65A
2134C
2J43A
2J43C
2J44A
2JC
¶ 2tAIA
21 51C
2I34A
2I5A
M
1 2M 15C
2K15C
2KI5A
739
1 788
1787
1 299
1299
37-
0-
8L71A
1
783
R 276
J 782
z °
z 382
1 786
1 299
1 785
1 299
0 36
0
8J7IC
BJ7A
1
J 783
762
R 274 Z 370
z 372
J 783 J782
R 272 Z 30
z 362
1 784
1 299
BNAOC
J 783
R 270
1 783
1 298
1 782
1 298
0 33-
0 32
J 782
Z°
z 32
J783 j782
266 Z
°
z 342
j 780
jlSI
R 266 Z
z
31-
°
2
1779
1 298
29-
030_
8J60A
8J60C
SLAOA
8L60C
BN6OA
1780
1298
1781
1296
j?SI j780
j78I
R 264 7 320
z 322
R262 7310
z3
J780
J 7$I
LN5OC
j 780
R 260 Z °°
7 302
1 778
1 297
1 777
1 297
1 776
1 297
1297
1297
0 28 _
0 27
0 26
025_
0 24
6N50A
780
1 781 j
R 258 Z 290
z2
J 7?A jllS
R 256 Z 28°
282
8L50C
8L50A
BJAOC
1 779 j 776
R 254 Z 27°
z 272
j 7lA j 778
R252 2 260
z
2
8J50A
1779 1776
1 779 1 776
R 25° Z20
z 22
248 Z2'°
z 242
NOTE.
OUTPUTSOF
N
I GO TO
01,02 A D o.
0 12 _
0 13
0 14-.
8J30A
8J3OC
010-
QII
0 09
8L2IC
BN2IA
N2IC
08-
O 07
8L2(A
0 06
6J2IA
8J21C
8NI0C
R 228 Z 40
z 42
777
j 717
776
j
R 224 Z '20
z'22
776
R226 2130
z 32
j 777 j 77A
j 777
j 776
juN j 774
j 775
R 222 Z °
ZH2
R 220 Z 100
z 02
R 218 Z °0
z 092
R 216 7 080
z °82
j 774
j 775
8NIOA
775
j774
774
R 22 Z °60
z °2
R 24 Z 07°
z °72
8LIOC
000 -
8J10C
LLIOA
774
17T3
1 772
j 773 j 772
R 21° Z °50
z °2
R 208
z °4°
z °42
R 206 Z °30
z 032
j 775
0 01
QOO
BJI0A
1100
1102
1104
1107
m
776
777
003
0 04 _
0 05
773
j 772
773
R 204 Z °2°
z °22
772
R 202 Z °'0
z 02
1773
772
R 200 Z °°°
z °°2
z - 1'
I - XA
299
98
1297
8082A
2L65C
21,163C
2N63A
R °39
Ko
'81
w'4°
K017
49 1 3
8063A
8D83C
SK84A
8K84C
8834
R°59
640I7
8D82C
_
K0°
v
8851
J
89292
8P29C
8P65A
2.2A
REFE8ZNCE ORWINGS
ILAo
_______________________________________
8 _______________________________
CCRI'
CO8PONCNTS
i1
g
--
1193
11
I7—*x, Z
AND CCR—*1 1
CONTROL DATA
CORPORATION
1604-4
!AWINGWE
XDP 214507
B
41
Page 42
TERM
LOCATION
PAGE
QUAD.
DEFINITION
H035
41,03
4,5
2
Full Exit
H047
4M07
4,5
3
Half Exit
H478
4N66
17.1
1
Aux. Seq.
H638
7P71
17.0
0
I'
H639
7H84
17.0
0
Clear CCR
H986
4072
45.0
1
Rank 1 of Scanner
1251
4N60
33
3
1296
4059C
J064
3P69
33
4
3065
3P70
4
J259
J330
4H11A
3182B
J332
TERM
LOCATION
PAGE
QUAD.
DEFINITION
P059
41,30C
44
0
P' =000016
R059
8P72C
44
1
CCRu
U059
41,17C
44
0
U2
Adv. Ciock
V440
4N09
17.0
0
3
Adv. Ciock
V444
4N24C
17.0
0
0
Exit FF Clear
V446
8063
17.0
1
0
Exit FF Set
V447
8061
17.0
1
V474
4M53C
17.1
1
54. 0, 57
0
Aux. Seq. Wait Storage
Read Lower Address (Even)
V480
61,69
17.1
1
3184
54. 0, 57
0
Read Lower Address (Even)
V706
4052C
16
0
J350
4H13B
54. 1, 57
0
Read Lower Address (Odd)
V910
31111
57
0
J352
4111
54. 1, 57
0
Read Lower Address (Odd)
V912
4J83
57
2
J353
4H12C
54.1
0
Write Lower Address (Odd)
J355
4H12A
54.1
0
Write Upper Address (Odd)
W140
4K76A
25
0
J831
4J59A
51
3
Enable Partial Write Lower
W143
4J82
25
0
J833
4J59C
57
3
W162
7K50
25
01
J844
3N76C
17.0
2
Enable Partial Write Upper
I - 1 51 6
W163
7J49
25
0 j»
J846
4037A
17.0
2
I
W219
IA51B
W229
2A51B
W239
3A51C
W259
5A51B
Aux. Seq. Wait Storage
W269
6A51B
Aux. Req.
W279
7A5 M
•
17.0
K216
4P42C
16
01
1(217
4D42B
16
0)
1(253
4N17C
17.0
2
K254
4P28B
45
1
K256
4P41B
45
1
K622
3HO1B
54.0
2
K623
3J11B
54.0
2
K662
4176A
54.1
K663
4176C
54.1
K768
4074
N086
6076
f
-
-
=
000016
CCR
-
ARD
1 51 6
'74.1
-
000016
74.6 FF
Aux. Seq.
EXF Seq.
Initiate Storage
'l
t
M. C.
External M. C.
Write Lower Address (Odd)
}
Write Upper Address (Odd)
}
}
1
Storage Busy FF (Even)
Storage Busy FF (Odd)
45
22}
1
Inhibit Rank 1 of Scanner
16
0
j
-
-
ARD
ARR
• $ urrtrsi • • ‚iiTninrr, rrrsrrrrrrs •
go IF
0
2
3
4
5
1
1
1
1
1
7
8
1
1
0
9
v 90
1< 256
P 059
______________________________
1<256
256
u o59
i
v92
1< 256
PC59
ARR—ARD
253
v 9I2
IT
:::
4001
7o6 —9J
R°59
v 444
1
1< 016
54
P 059
P'A
A.R.R.
v 181
1<017
I4o
4p3
035
P 059
1296
4009
1<662
v480
40246
4021C
I7
J
CRLI 7
K°'3
837
O3A
Visa
N 656 8NA
N 657 8N04C
403
40311
7P3OA
N 659 7P30C
8 43)
18
V180
v igo
6543;
WRITE
LOWEIR
7P24
1< 217
WRITE
UPPER
8803
7M718
L
1°
1
7
H
143
°
517
w 143
0 ______
‚
______
83 1
j833
v' 72
v 172
CRL
18
CR2
H 514 7N53
8L0i
__9J
1 L_i
v 447
J 843
v 446
8P266
-
18
Ji
H515 7674
g
9
1e4'
j
8624
w163
u 059
519
L
v6
523
84
87L 3
M
520
7m3o
SET CRLPS
10
11 U025
f
0I
SET CR 2
90
0U0I400
IS
v 447
00
N 099
1
12
13
14
1
1
1
15
48428
N °97
v iel
4045
H 187 4047
1 H 166 4048 1
9HI694050
050
046A1<2I7
40380
w O19
w 229
w259
269
w 239
w 279
t x 8
J e36 4041C
Je33
wRITE UPPER
r6
X 6
4Hl2A
1<017
K605
j e46
I6
BUFFER
ACTIvE
V
4046C
4049C
1< 019
EAD UPPER
READ LOWER
457
H' °° 4051
v 86
WRITE
J e35 4
16
1<099
N099
N ©97
N 097
J e3'
L_______J
1
J 843
L
v 446
__
WR!TE LOWER
1< 012
1< 014
1<217
019
CRuI 7
11<8l9
K809_()
N 962
P72
V195
.
je42 60344
N969-
1
I
K805
RANK 1
N962
K792
1< 817
N946
od
H797
1< 814
1<818
1<816
N 964
TnU
T
AUXILIf.RY SCANNER
.I:.
CONTROL DATA
CORPORATION
1604—A
; -DP 214556
1
45
k
Page 46
TERM
A503
A997
LOCATON
1M43
3K54C
PAGE
48.0
52
DEFINITION
QUAD.
2
0
Section 1 Borrow Input-Accumulator Borrow Pyramid
TERM
LOCATION
K482
4K37C
K483
X = A
K484
4K40C
4K39A
PAGE
8.1
8.1
DEFINITION
QUAD.
2
1
46 FF
2
8.1
0
f = 52 + 53
8.1
0
f = 37
PAGE
DEFINITION
TERM
LOCATION
QUAD.
V613
3029
11
1
Iterative Seq. (Main)
V614
3028C
11
1
Iterative Seq. (Main)
V619
3L16C
14
0
Iterative Seq. (Round, Norm. ‚ Final Ass'y.
V621
3034
11
2
Iterative Seq. (Main)
F404
3M20B
19.3
0
04
K487
4P39
F410
3M26C
19.3
0
IFO
K501
3K11B
11
2
AQ Sign Record FF =
1"
V622
3036A
11
2
Iterative Seq. (Main)
3K12A
11
2
AQ Sign Record FF Slave
V633
3M38A
12
0
Iterative Seq. (Divide Step)
F443
4L69B
19.3
1
T3
K502
19.3
1
44
K507
3013C
14
0
Execute Round FF
V634
3M39
12
0
Iterative Seq. (Multiply Step)
21 ± 47
K511
3K14
13
1
U 2 Sign Record FF
V644
3M51
12
3
Iterative Seq. (Divide Step)
F444
4L70A
F515
3M81C
19.4
2
F517
3M80B
19.4
2
25 + 26 + 27
V646
3M53
12
3
Iterative Seq. (Divide Step)
F518
3M79B
19.4
2
26 + 32
N911
1P24C
Odd Ciock Slave
V648
3M52C
13
0
Iterative Seq. (Ex. Floating Point)
F519
4M25C
19.4
2
21
N923
2P24C
Odd Ciock Slave
V650
3054C
15
0
F520
3M78A
19.4
2
04
V651
3041
15
0
F522
4M11A
19.4
2
16 + 17 + 37
U133
5L50B
V652
3042
15
0
V653
3043A
15
0
V654
3043C
15
0
RNI Seq.
V655
3044A
15
3
Execute Instruction
V657
3045A
15
1
Internal M. C.
V661
3052C
13
F525
3M76A
19.4
0
24 + 27
F526
3M77C
19.4
0
25 + 27 + 33
F540
3N81B
19.4
2
30 + 31
F541
3N08B
19.4
2
30 - 33
U707
V004
V006
5063
4J04
4J05
18.1
53
5
5
2
U 13 =
3
Ui '
3
3
, ill
U i4 Unequal
Iterative Seq. (End Sign Correction)
F543
4N01B
19.4
2
43
V011
3L78C
25
1
F555
3082B
19.4
1
24 - 27
V201
3K58
7
0
V662
3053A
13
01
0 1
F560
3080B
19.4
3
21
V203
3K60
7
0
V671
3059C
13
0
F561
3079A
19.4
3
(24 + 25 + 27) (SR = 1)
V206
3K62
7
0
V672
3061
13
0
F562
4N06A
19.4
3
41 + 43 + 71
V211
3K68
7
1
V673
3062
13
2
F563
4N06C
19.4
3
72 + 73 + Adv. Ciock
V212
3K69A
7
3
V676
3071
14
0
ZA Seq.
F565
3079C
19.4
3
26 + 27
V213
3K70
7
3
V677
3072
14
0
F566
4NO7A
19. 4
3
40 4- 41
V304
4K22
8.0
0
V683
3031C
14
0
F567
4027A
19.4
3
37
V305
4K23
8.0
0
VG82
2P47.4.
14
1
3P53A
14
1
2
F587
3J55B
19.4
3
27 + 33
V306
4K24A
8.0
0
V690
F613
3M77A
19.5
0
24 - 27 + 30 - 33
V308
4K25A
8.0
0
V693
3P57
14
1
V695
3P62A
14
2
31`65C
14
2
F614
4K69A
19.5
0
37 + 43 - 46
V309
4K26
8.0
11
J
Iterative seq. (Round, Norm. ‚ Final As&y.)
F616
3K29C
19.5
0
32
V311
4K27C
8.0
1
V699
F618
3K28A
19.5
0
04 + 10
V340
4K41
8.0
1
V886
3K48
51
3'
4K42
8.1
0
V888
3J49
51
3
V951
3L05C
13
2
F619
4K69C
19.5
0
12 + 13 + 16 + 17 + 37 + 44 + 72 + 73 + Adv. Ciock
V341
F620
3K28C
19.5
0
24 + 26 + 32
V342
4K43
8.1
0
25
V345
4K47
8.1
0
F653
3K24C
19.5
1
F672
4K64A
19.5
3
12 + 13 + 16 + 17 + 37 1- 40 - 42
V346
41(48
8.1
0
F741
3P24B
19.6
2
30 - 33
V347
4K49B
8.1
0
F940
3P21B
19.6
3
30 + 31
V348
4K51C
8.1
1
V349
4K50A
8.1
1
V352
4K52
8.1
1
V353
4K53
8.1
1
V401
3M56A
9
0
H051
Jiii
6L64
3N11C
53
3
Overfiow Sensing
52
1
A 36
1
A 37
RO Seq.
J129
3N04A
52
3
Q Neg.
V404
3M58
9
2
J137
3N08C
21
3
V409
3M62
9
3
J140
2D03B
25
0
R > 36 10
Internai M. C.
V506
4M22C
10.0
0
5 & T Seq.
J173
3N05B
52
3
A Neg.
V591
3002C
13
2
Iterative Seq. (Ex. Floating Point)
V594
3006
13
3
Iterative Seq. (Ex. Fioating Point)
6K59C
14
3
Iterative Seq. (Round, Norm. ‚ Final Ass'y.)
Iterative Seq. (Round, Norm. • Final Ass'y.)
51
0
A Right Shift
V597
3L29B
51
2
A Left Shift
V599
6J70C
14
3
K405
3N38C
14
2
Inhibit Add
V603
3021A
11
0
K471
3K75
7
2
f = 04
V605
3022
ii
0
K473
3K77A
7
3
f = 04 + 10 + li FF
V609
3025
ii
1
K475
3K08C
11
0
A (dividend) Neg.
V611
3027
ii
1
K481
4K36
0
f = 16 + 17
V612
3028A
11
K310
K314
3L31A
8.1
WO Seq.
1
1
1 j
Iterative Seq. (Main)
Iterative Seq. (Ex. Floating Point)
.1
Shift Control
Iterative Seq. (Ex. Floating Point)
fill$$sssisusssssssssssssssssoisis
ST SEOUE
iUMP
3L21
50
3 NO 3C
F67'
b O,4
b
0,4
b
3.7
f
F 662
F66
25
= 5426
46622
X
A NEG
QLO
36542
F 389
>2
4986
t6661
GF2IC
1L46C
w 77°
6
2*0
528
F 516
f23
3911 2
3NIIC
61<62
A >
W
APcS
A £0
fb2,.
430 *35132
F 389
IL4SA
JUMP
772
POS
131
Ix=
4512
4632
A504
E28
X P05
f22
5 MEG
4512
4987
4 632 4994
jI7I
I72 2 POS
AS
4 373
4372
ANEG
J 73 1172
1 124
A,Q SIGN
UNLIKE
F916
A,Q, X ZERO, EQUALITY, AND INEQUALITY SENSING
-
4360 4363
4360 4361
ANEG
A47A46
AQ*O
4872
0 P05
1128
4463 4462
4985 Q984
0= -0
0= +0
A 752
4752
4872
ONEG
j 129
w 77
A70A36
OA 36
6L288
w 770
J 124
F916 4991
6L28C
4992 1`916
H685
2*0 6H09C
SM65C
H.076J
4996
J13O
71
4990
J ilo F590
J
3907
A-0
6H08A
A"0
II
J Ilo
F657 499!
j 172
3N04C
J ilo
4982
I
4 980
4981
0
0
F39'
3905
13N06
4470
A440
4450
4460
4470
A360
4370
4 380
4390
A400
4410
4 300
4240
4310
4250
4 120
4 130
4 180
4 190
4320
4260
4330
4340
4270
4 280
A200
4210
4220
4 350
4 290
4230
4060
4070
#h
4000
4421
4 431
4 441
4451
4140
4080
A010
4020
4150
4160
4090
4030
4170
4H0
h
4461
A040
4050
A47'
1669
1644
4 361
4 371
4 381
4301
4241
4181
4121
4 311
4 321
4 251
4 261
4 191
4 201
4391
4 401
4331
4271
4 341
4 281
4211
4221
4 131
4 141
4 151
4411
4351
4291
231
FP ry;
1640
A 16'
4061
4001
4 071
4011
4081
402!
4091
4101
4041
4
4171
16
111
ASIGN
x 470
Q 470
XSIGN
QSIGN
471
QSIGN
ARITIIMETIC SENSING
4 992
4 031
4051
L65C
AO PYRAMID
F91'
9I 1
139042
j 173
4 430
6L27C
4984
4985
4420
F 91 '
IJOSC
11052
a
00
21758
2174B
21118
21108
1175
911
j 125
126
4986
0=0
I-
6H12A
I
ji
iA
DIVIDE FAULT
232
2P262
2E09C
983
21<70
K45
988
264I
2MI
643
4 698
420
Q 360
4300
240
4430
Q 370
Q 310
Q230
440
340
4320
Q260
QSO
0190
200
450
390
330
340
350
270
Q 210
280
290
220
230
4460
470
Q 400
0410
0
982
9
0 638
lK4I
57
4120
4060
Q130
070
Q 080
140
150
160
I70
4860
4800
4740
4680
4870
4810
4750
4690
4940
4880
4820
4760
4700
4950
4890
4830
4770
4960
4900
4840
4780
4970
4910
4850
4790
122092
1F76C
14816
4920
4930
090
IQ0
I 10
1M16
Q000
Q010
020
030
040
050
Q 421
431
441
Q 451
0 461
471
QO PYRAMID
361
371
0381
391
0401
4411
III
4620
4560
4630
4573
4500
4510
4640
580
4520
4710
4650
4590
4530
4720
4660
4600
4 730
4540
4 670
4610
4550
980
4 = X PYRAMD
2K42
'2K71
liii
301
Q 311
0321
0331
341
Q 351
2
1671
4241
4181
4251
0
0
Q261
4271
Q281
Q291
1646
4121
1642
191
4 131
Q061
071
201
Q 141
Q 081
4211
Q 221
4151
161
Q 091
4231
4171
101
Q
0111
11
l=l°]
4001
811181821 08981865
4011
02I
4031
4 041
:1
.xI.
—
-
oo5l
-
H
h
TIOLE
LOGIC DIAGRAM
ARITHMETIC SENSNG
NETWORKS
CORPQRA1]ON
604-4
XDP 214580
1
52
Page 53
TERM
LOCATION
PAGE
DEFINITION
QUAD.
1
QUAD.
TERM
LOCATION
V209
3K64
7
3
ZA Seq.
PAGE
DEFINITION
A970
2079
48.3
2
A 47
F152
6N13A
19.1
0
F j 2X
V350
4K50C
8.1
1
RO Seq.
F300
6L01B
19.2
0
f = 01-07
V415
6L66C
9
2
WO Seq.
F325
6L10C
19.2
0
25 +27
V597
6K59C
14
3
V598
6J70A
14
X 4''
1
Iterative Seq. (Round, Norm. ‚ Final As s t y .)
0
f = 00 + 77
V650
3054C
15
3 j
0
33
1
Interrupt Lockout
V652
3042
15
1
33
2
V820
3K33A
46
0
Add X 2 to A 1
33
24.0
3
Interrupt
Interrupt Lockout
Internal Interrupt Req. Light
1604/1604A Switch in 1604-A Position
W152
6L60C
25
3
Internal M. C.
6M70B
EXF Code = XXX(OOx)X
W159
6L62
25
J505
6M71B
EXF Code = XXX(Olx)X
W167
6L75C
25
1
1
J506
6M72B
EXF Code = XXX(lOx)X
W184
6077
25
2
J507
6M73B
EXF Code = XXX(llx)X
6L27C
52
1
Q Neg.
J508
6M83A
30
3
EXF Code = XXXX(xxO)
W773
\\T979
1148113
52
2
Floating Point Divide Fault
J509
6M83C
30
3
EXF Code = XXXX(xxO)
J511
6M84
30
1
Select 001XX
J518
6K49C
30
3
Sense 0X1XX
J521
6J61C
30
3
Sense 001XX
J529
6L56C
30
1
Select OX070 (Clear Arithmetic Faults)
J579
6L52A
30
1
Select 0X070 (Clear Arithrnetic Faults)
J974
6M74B
EXF Code = XXX(xxü)X
J975
6M75B
EXF Code = XXX(xxl)X
J976
6M76A
EXF Code = XXX(xxO)X
J977
6M77B
EXF Code = XXX(xxl)X
K048
K520
6K64A
3L07A
N909
6L38B
Odd Ciock Slave
N928
6033C
Even Clock Slave
0030
8M09A
62
3
EXF Code = XXX(xxO)X
U424
6P20A
19
2
f = X(OXX)
U434
6P22A
19
2
f = X(XOX)
1241
4K54C
1286
6J05C
J068
J970
J151
J499 .
61183
6J47A
6078
6H04A
J504
8.1
30
46
2
2
Partial Add In A
1
I
Iterative Seq. (End Sign Correction)
Externa M. C.
Internal M. C.
I is I
1 NTERNAL
INTERRUPT
REQUEST
N 909
1 258
1 NTERNAL
SENSE (See Interrupt & Sense Diagram)
6666
259
61<56
w'84
1 1w' 52
j °68
J 521
Ls ENSE
'
(0015X)
j 506
J
J504 j975
(XXXIX)
286
s5—
N928
505
‚97
976
1505
<236
N
928
L 5°6974
j577
518
(XXX3X)
1 286
286
N928
N 928
(OXIXX)
6L39A
/" 242_
61-39A
6N48A
6N47C
j533
60818
OVERFL.OW
1 NDICATOR
(RED)
692
—
DIVIDE
FAULT
ARITHMETIC
INTERRUPT
r
6L50
6L55T
SHIFT
FA U LT
H
67
1EW16
977
60640
1 286
6L51
E~7
6L39C
lo~
K 339
OVERFLOWI
FAULT
583
6N48C
j
N928
53
6L53
6L54
6L40
EXPONENT
OVERFLOW
FAULT I..,
EXPONENT 1
UNDERFLOW 1
FAULT
67
167
w 979
v 652
1'
w' 59
V 209
J 508
1
j 504
61-49
1u 704
0030
U 434
(OXIOO)
52
CLEAR
ARITHMETIC
FAULTS
(0Xx7X)
u' 32
1
V 597
J5og
J504
J
9C
J 511
0 030
1< 238
v598
3
U i07
U i OS
6L64
(OX 101)
051
K52°
6OA
\J92O
5 O5 9A
n
50
A97°
U I03
6L66A
J 5 062
U 706
151
CLOCK
OVERFLOW
<33:
V 650 F 325 w 773 072062U092
TEST FOR Q
NEGATIVE AT
START OF END
CORRECT ION.
0
02 u
112
K 237
L 69
OVERFLOW INDICATOR (RED)
u 122 u' 32
U' 12 u' 22
TEST FOR BITS =1 IN
UOLUI4 BEFORE SHIFT.
TEST FOR INEQUALITY OF
U"—U'4 IN FLOATING POINT
FINAL ASSEMBLY SEQUENCE.
w'84
j'
8
!
'
1
I
-
(
;
.
IEFIRENCE 9MWIN
° 0 C
COMPON[WTS
!
CORPORATION
(ULVSS OTMLWPSE lPOCAT[D)
1604—A
li
TITLE
i
I
1
•Xr'
ARITHMETIC FAULTS
XDP 214527
53
1
F
Page 54.0
TERM
LOCATION
PAGE
QUAD.
DEFINITION
F717
4N39B
19.6
2
b= 1 - 6
H098
4K08A
5
3
RNI Seq.
H940
3175
57
0
Initiate Storage
H944
1770
1771
J007
J259
J844
J901
3176
4G77A
4174A
2P33A
4H11A
403'7A
1P35
57
17.0
17.0
28
17.0
17.0
34
0
1 i.
1J
0
2
2
2
Initate Storage
Auxiliary Sequence
Test Mode
Aux. Se a Wait Storage
10
i i •
Digit Display Gate
K017
4P13B
42
0
Storage Enable
K217
4042
16
0
F = 74. 1 - 6
K253
4N17C
17.0
2
Aux. Seq. WaitStorage
K254
4P28B
45
i
Aux. Request
K260
4037C
K613
3J16C
K615
3J17C
K663
TERM
LOCATION
PAGE
QUAD.
DEFINITION
Aux. Request
57
517
i.
4176C
54.1
2
K712
4006
45
1 l
K714
N560
4P65
8P61B
45
17.0
3
2
N562
8P62B
17.0
2J
N936
3J03A
Even Ciock Slave
N937
3J03C
Odd Ciock Slave
N938
3J04A
Even Ciock Slave
N939
V432
V430
V440
3J04C
3G76C
4174A
4N09
17.0
17.0
17,0
V462
4P42A
42
0 1
0 .
0 j
3
V487
4P43
42
0
V703
4012A
16
0
V910
31111
57
0
V912
4J83
57
2J
W157
3J09C
25
3
W158
3J02
25
3
initiate Storage Reference
Initiate Storage Reference
Storage Busy (Odd)
k
Aux. Request
CCRu
S'
Odd Ciock Slave
Aux. Seq.
H. S. Storage Seq.
EXF Seq.
1
J
Initiate Storage
Internal M. C.
•ssssssssssssssssssnssssssssoesis
is$$$ Is I
j 161
1I60
v 90° v °6 ' v°
1
0
v°
v°
3
4
2
jI 62
v°65 v°
v°
v°
6
7
8
5
15
16
11
10
13
I
14
v°63 v°
v06 ' v°
v°
9
j 165
1I64
j I63
v °6 ' v°62 v°63 v°64 v°65 v°66 v°
18
17
19
v°
20
v°
21
1I66
v067 v°
j 167
v°6 ' v062
V0 68
v°
v 04 v°
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
STOGE BJSY
-
DIVERTER DRIVE
READ D8VE
1
I( 0 I 7
1
1
1
READ
K613
LOWER
(4)
;AJTSA
w
w
1
1
1
1
1
WRITE ORIVE
-l--1
k
1
1
1
INHIBiT DRIVE
1
1
1
1
H
H_________
K6
1
WRrrEDRIVE
K633
(15)
K 628
(24)
62
________
READ
1
1
DRIVE
1406
(12)
K613
K'
1
1
SENSE
JADDRESS
E
1
SNSE DRIVE
jO34
1
WRITE DRIVE
(CHASSIS .23,4)
J82A
1104
36
35
WRITE ORIVE
(CHASSIS 5,6,7,8)
J820
w 58
(6)
FROM 000
STORAGE SEQ. CO
v °7 41B4
J 259
N
-
j 332
-
844
5
H'
(8)H
1
K 280
N9'
ii
SET Z
(CHASSIS ‚2,3,4)
J8OA
K634
1
(CHASSIS ‚2,3,4)
________
SET Z
3 181
(8)R H
N9'
(CHASSIS 5,6,7,8)
F 717
w'5
K710
v7°3
-0-
-1
STORAGE 8051'_4464C J 9° ' IGO7C
1
HOI
STORAGE (25)
NOT BUSY
LIGHT
(7)
_L993
[_055
v487
_____1 K634
:::: 1
V430
Jil
1 770
—
(30
(
w57
180
N
)25
K674
v 462
K 211
_____________
H_H2
i-
CLEAR Z
(CHASSIS 5,6.7,8)
______
UF
(12)
(II)
j 166
(I0)
(25)
_________
i771
H'
K714
Gol
608
v °68
j I68
________
__________
H 062
G02
V062
H
_________
K4
66
N 937
_J_
N °38
_________
_________
K'66
(170
104
003
K'65
105
K'67
1
1
K
K'69
N 939
K 73
__________
3
103
___
_____
- 161
_____________
_____________
__________
________________
(3O)8-4f—
H 064 80
_____________
_____________
E_
__________
_____________
_____________
__________
__________
(24)
(13)
_V°4
FO7C
)II)-8
J84A
_______
K 62 '
__________
110
K
K62o
III
179
__________
N938
J84C
w158
l
065
I
__________
I
In
1
('5)
(6)
065
FO7A
________
14H__038
1»
j165
J'63
V063
(7)
(8)
________
V
______
E09
H066
_
-
1______
v 066
F08
~
~
F09
J812
J032
626
06i
( 10)
E 6
______________________ _______________________________________________
K634
109
READ
DRIVE
H
__________
____
________
F06
K'76
—HS-8 K 177
_________
H
N939K178
L0LI1
J
K'72
j7
f
171
N 938
N939
JIBI
V 432
N 936
________
102
K' 63
I6i
ut
L
(CHASSIS 1,2,3,4)
90
3M74C
DUMMY LOAD
937
N936
K' 62
K 160
N 936
CLEAR Z
178
v°'
29
________
101
DIRTER DRIVE
(CHASSIS 5,6yß)
INHIBIT DRIVE
(CHASSIS 5,6,7,8)
N 937
DIVERTER DRIVE
ERTER DRIVE
v432
z
179
1
v92
cli
_((:)
UPPER
ADDRESS
RESUME
4H83
H 07 '
(4)
FROM ODD
ST0RCE SEQ. CONTROL
INHIBIT DRIVE
(CHASSIS 1,2,34)
READ
84
017
K 254
v 90
RESUME
334
K615
HOB
NTR
NON
ADDRESS
K613
K615
J8
RESIJME
16)
:
READ DRIVE
(CHASSIS ‚2,3,4)
J336
6 27
J 033
K 634
USIC
READ DR)VE
(CHASSIS 5,6,7,8)
w158
K64'
K645IIIIIIF
w
(_)
rH
2
175
N 40
_________
_______
_____
_________
- K644 L___
1)
a: CI)
0 z
1- 0
(1)
-
i-
0
<64O
________________
________________
_____________________ _____________________
Ui W
.1 0
FOIA
pl —is1
rH« 076 LU 2
N44
,SI
E04 1
K 645
E05
K647
K645IIIIIF
FO2A
K'
K644LIIII
V
LT DETECTOR
L69'
K6
FO3A
K64°
K644LIIIIl
F 4A
EVEN STORAGE
NOTE:
1. ALL JACKS ON CHAOS 1 3 3 UNLESS OTI-IERWISE SHOWN.
FAULT LIGHT
FAULT
0
____________________ _______________
_________
1-.
O2
642
KEO3j
643
K<647
NFC
FOIC
w157
K647
FO2C
W06
MC
K 643
JO0T
I4O
M986
20034
142
JO5A
50
JOB
JOgA
4
v°6 °
K 634
CONTROt
.
337 H
i
DATA
CORPORATION
:
K642
K646 M
-.
- 3c-
_____________________________
!
-
646
W 157
J337
K642
o:.:
- i - i
-
~
______________________________________
TM
(EVEN) STORAGE
SEQUENCE CONTROL
1604-A
.
XDP 214544
H
540
Page 54. 1
TERM LOCATION
PAGE
QUAD.
DEFINITION
F717 4N39B
19.6
1770
1771
4G77A
3K27A
17. 0
17.0
• 1 } Auxiliary Sequence
1
J007 2P33A
J259 4H11A
J846 3N76C
J901 •1P35
K017 :4P13B
K253 4N17C
1(217 4042
K254 4P28
K617 4J25C
K619 4J76C
K623 3J11B
K712 4006
28
17.0
17.0
34
•0
2
2
2
TesT Mode
Aux. Seu Wait Storage
10Ib I
Digit Display Gate
42
17.0
16
45
57
57
54.0
45
0
2
2
1
Storage Enable FF
Aux. Seq. WaitStorage
F = 74. 1 - 6
Äüx. Request
N554 8P63C
17. 00 }
N556 6034C
17.0
2
QUAD.
DEFINITION
b=1-6
31 Initiate Storage Reference
3
2
Storage Busy
•Aux. Request
.1
-.
0
N940 4M74A
Even Ciock Slave
N941 4M74C
Odd Ciock Slave
N942 41,73B
Even Ciock Slave
N943 41,74B
V430 4174A
V432 3G76C
V440 4N09
17.0
17.0
17.0
Odd Clock Slave
01
0J. Aux. Seq.
0
V462 4P42A
42
3
V487 4P43
42
0J
V703 4012A
16
0
V910 3H11
57
0
V912 4J83
57
2J
W143 4J82
250 } Internai. M. C.
25
1
W146 4K80
TERM LOCATION PAGE
1.
H. S. Storage Seq.
EXF Seq.
1
Initiate Storage
‚usub,s,..usss,,,.,.suuuuuuuu I
•ss•sisi•ö•ssssisssiössss•ssssssui
1184
j'83
902
O8I j
0
1
v 082 v 083 v 084 v 085 v 0661
2
3
5
4
v O87
6
v 088 vO8I vO82
7
8
9
v 083
10
1 V 084 V085
II
12
13
1
1
14
16
15
17
19
18
20
1
L
J
j 86
v 083 v °84
v °8 'V
STORAGE BUSY
DIVERTER DRIVE
HLV
DLIVE SENSE DRIVE
086 087 I 088
Jv v v
V 085
361 V 087
21
1
J3
v 083
V oss V OBI N0521
214
2L
1 V 084 V0851 V 086 1V 087 1v 088
21
7
26
28
29
30
312
31
3
314
35
40 41
42
1
INHJJ DiE JRITE RIVE
DLlMM't' 0FF
K017
j 35°
K67
LOWER
ADDRESS
j846
K67
w
W
L
RESUME
(6)
56
FRO M EVEN
(CHASSIS 5,6,7,8) STORAGE SEQ CONTROL
103C
w143
i:iiFiE'83i
WRITE DRIVE
045
NON
____________________________
IJ3H08
V °75 184
K 284
V 910
ADORESS
RESUME
411C
INI-HBIT DRIVE
69
je46
K619
'-
WRITE DRIVE
12,3,4)
K
K 668 e'j
-READ
K6
846
K
(15)
w146
K617
OL3
WRITE DRIVE
1
(12)H K 673
3
1
—w
tr
(4)
_______
(0N
uJ
SENSE DRIVE
READ
(13)
-READ 1
UPPER
ADDRESS
I
t07
----U129
KZ
INHBIT DRIVE
(CNASSIS 1,2,3,4)
56
(4) 111J__H°7' 883
FROMEVEN
p1 V°7'
____
STORAGE SEQ. CONTROL
RESUME
1
K
2
INHIBIT DRIVE
(CHASSIS 5,6,7,8)
3
3M74C
v92
0 9,
>- 05
0
00
SET Z
CHASSIS 1,2,3,4)
DUMMY LOAD
v43°
1 770
DIVERTER
DIVERTER DRIVE
CHASSIS 1,2,3,4)
RIVE'
DIVERTER
65
oIc
1214)
v 703
SRAGE BUSY 4K64C
276
1< 662
-
v487
K
H 942
Oz
(l33
Ui
.4 0
1
v °8
F77
008
-
09
N 46
1
H'H
L76
1<184
L 77
K'83
1< 185
N 942
1< 86
L78
1< 87
r-r1
N 843
1< 88
L79
N 942
N 943
N 942
192
1< ‚°
L 80
1< 191
L81
1 v 082
82
1<199
40
1
‚75
1< 661
_____________
_________
__________
___________
]
1059
[‚
105C
143
5U
>-Ui--
(32)
.4
(24)
(13)
183
)I2)'•jJI82
J
(4
1 161
178
f{
(42)
K 198
L 64
K'97
____________
0
(15)
(6)
(8)
:::
READ
DRIVE
II )
F7841 V °83
N94'
j1b
1
1
WRITE A0
III
III
I1
111
D'M1TE READ
000 000
WRITE
lxx
xI0•
x00"
T
T 2
1101
II K
WRITEOXX
T
+
D02tD0IO0I
0001
000
10
ADDITIONAL
DIVERTERS
OIXX
IIXX
READIXX
T'0
D oxx
T 08
XXIO
OOXX
l0XX
T 06
-T °
liii
1
XI0
AD OXX
T24
T0
_
T °_ _
T28
t
b
1101
D 22
(
f
D 2
QUADRANT SELECTION
3
¶W2 -3
E 07
E 06
0001
0OO
r-
E03
E3
E 02
E 42
E
25
E4'
E40
E 32
LI
E 30
_____
E23
J
XXIO
%XXOO'
Tl8
OOXX
'XX
_T_2I
(CHASSIS 1,23,4 J °32 )
READ DRIVE (CHASSIS 5,6,7,8 J 033 )
WRITE DRIVE (CHASSIS 1,2,3,4 J ° )
(CHASSIS 5,67,8 J °35 )
1
1
Ø1 E
j_E
E 22
E 24
_E001
2'
E
E'
E 20
L_ 1
E' 3
5
_ Ef
E'2
______
- !=o
'
' z .'
(1)
(1)
7,,
rIo
a,I
'
(0
(/)
(D
(fl
=
(
I
Iallo
Ic ( 2
1
9
I
Io
' LI
1
I
iu
1
-
L
o
0
‚
L
-
_____________
______
___________
E (CRASSIS ‚2,3,4 J ° )
VERTERDRIV
_______
_____
(CHASSIS 5,6,7,8 J°3 ')
__-DI
T
1
L
‚‚o
W 20
PEQUADGEN
"XXOI
22-
E 4
E 05
0
0000
_____
1
1
11
1
¶W 2 _ 1
2
¶W 2_2
g
10
AODITIONAL
DIVERTERS
"XXII
OIXX'
.r-2
X00' %
REID
'
XXOO
IU0
IIXX
j-1
[ - tj
T01j
1
‚
H033
b
Ibtb
IWRITE REOWTE FAD
000 000
5
ADDITIONAL
ORIVERS
WRITE lxx"
"WRITEOXX
X0I
XII
XXOI
I5I
I
wTEAD
1
111
0000
XXII
T07
IG-eI
f1
VERTICAL DIVERSION (16 LINES)
VERTICAL DRIVE (8 LINES)
1
w
o
_
LJ Ui
-
rUi W 0
-
0
I
wIo
I
-
I
I
1
1
IIo
I
1
lcli
- iio
I
i
°‚
j
0
OD
"
All
t ¶ ?
0
0
c
.
8r lt L
&12
..
0
i t
Pt t
t t
:Q-
ø_
1
_
TjTi
N 557
_ —N553
N 555
VERTICAL DIVERSION
-—k4 QUADRANT
1
I4JRIZONTAL
DRIVERS
QUADRM4T
1
1
1
• _1 _
.I
•I
II
j_ - -'r-i--•'- 1- L
--—ti QUADRANT
QUADRANT
-
r
VERTICAL DRIVERS
HORIZONTAL DIVERSION
NOTE:
THE BASE LEiTERS OF TUE SYMBOL OESIGNATIONS IOENTIFY TUE
CARD TYPES, AS FOLL0wS:
0. DIVERTER (CARD TYPE 52)
E INVERTER (CARD TYPE 21
0• DRIVE GENERATOR (CARO TYPE 5!);WMMY WAD(CARO TYPE 55)
J• INVERTER (CARO TYPE II OR 2))
T: SELECTOR (CARO TYPE 5)
Y CIfiRET SOURCE (CARD TYPE 54)
TUE O.E,G.JT AND Y TCRMS ARE OUPLICATEO 0W ALL EIGHT CHASS)S.
THE F)RST SUPERSCRIPT DIGIT OF TUE D,E,G,T AND Y TERMS AND TUE
LAST O)GIT 0!' TUE J TERMS, IS IDENTICAL TO TUE NUMBER OF TUE
CHASS)S IN WHICH TUE CARD IS LOCATEO.
3 IN ORDER TO BALANCE TUE LOADING OF TUE 5 RES)STER FLIPFLGPS, TUE E TERUS OF CHASSIS 1,2,3 AND 4 ARE CO*1ECTED TO THE
• O" OUTPUTS OF )HOSE FLIP-FLOPS AND TUE E TERMS OF CHASS!S 5,
THIS ORAWING SHOWS TUE CONUECT)ONS
6,7 AND B TO TUE 1 OQTPUTS
A:
E lADE TO THE I" OUTPUTS. THE CONNECT)ONS TO 'O
cjr'::TS . - :E I;,;,L AS )NDICATED FOR A TYPICAL STAGE BY THE DOTTEO
L)NES.
ALL JACKS ON CHASSIS 3
UNLESS OTHERWISE SHOWN
uzs'
P I - ..S i
CCRu _S
Page 56. 1
TERM
J040
J041
J042
J043
J044
J045
LOCATION
PAGE
4101A
54.1
2
4101C
4102A
4102C
4103A
54.1
54.1
54.1
54.1
4103C
54.1
2
1
1
0
0
17.0
17.0
17.0
0]
0
0
N651 4N48
N653 4N49
N655 4N50
DEFINITION
QUAD.
TERM
I LOCATION
PAGE
QUAD.
DEFINITION
Diverter Drive
1
J
Read Drive
1
Write Drive
J
Set S2 to all "l"s
I I I II t
-t
SLFITTI 1I4CIIS STIl III else $is 1$ 1-9-11
111111881188 is$$#$ of I I
CURRENT SOURCE
fJ29
1J
iTLDRIVE(8LINES)
HORIZONTAL DiVERSON (16 LINES)
VERTICAL DRIVE(B UNES)
1
‚.
t
1
ID2
1
tut,
\tvt
WRITE RED
WRITE REDWRITEREAD
III
III
001 001 000 000
ADDmONAL
DRIVERS
"
•'XOI"
"WRITE xx
1T 63 J
L1i;i1
EII1
•'xOO ••
"xI0"
t!D
III
t
WRITE oxx
"READ XX" [ " REAOOxx
T6°
58 1
T64J
1101
"iixx
1
()DID
oixx
0xx
•-T
ooxx
-54
_
b
WRITE READ WRITE READ
001 001 000 000
5
L
DRIVERS
0000
"xxii"
T5J
1 TJ
TJ
0001
WRITE READ
III
II
xxoi"
xii
1
~
T8J
xo
1
"WRITE lxx
TJ
xoi
T7J
xio
1
T'READ_lxx"
4-,JT 76 1
READ0XX
T 74 J
' :
1110
[
1101
"IIXX"
TJ
IOXX
.T72j
"
"OOXX"
4F1
ww
i Li
:
E52
H
!
E 83
E9'
E 8'
T
-°
C
EL
E 75
E_84
82
E 8°
=
2 9
0
.
5
E
°
E 7
00
E 64
0
[ TJ
XXl0"
XX00
-T 68 I
66
I
L
READ DRIVE
WRITEDVE
0
u
o
[~ ]
J 25
V
E
E
l
00
l
O
DIVRTER
5
00
0
0
o
D
HII
'
0
10
-
N655-
__i_
_i_
_i_
2
T
v
‚
-'
w w
E
E 72
:
o
1
E
ww
QUADGEN
0000
27
:-
1:54
XXOI"
XXII
T
TJ
':'
6
0001
10
ADtT0NAL
DIVERTERS
l:6l ':
':'
‚t.b
OOLO
L - f -
Xxl
';' '
b
'0IXX
[
1
t':2
'
b
Uhl
"WRITE_OXX"
T
[
'xoo
':
::°
t/'t3
trt A
io
ADOmONAL
DIVERTERS
1 TJ
::'
:!:i
lilo
t
-75
::
AP« SELECTION
VERTICAL OVERSION (16 LINES)
]
4I
':
b
" XII
Y-96
LiL
__
i_
-
PI_._S
±__
_
N653
VERTICAL DIVERSION
______
-
N651
6
NOTE
THE
16
1€
J€
16
6
1€
6
6
6
-1)X&BDRANT
1 0 ]
r
HZ0t'lTAL
FIVERS
_i- 1T
j
1-
T
6
QUADRANT
F
i-l-- -f
-
-i-
6
6
16
1
5
VERT)CL
)VERS
NoTE:
ALL JACKS ON CHASSS 4
uNL:ss OTHERWISE SHOWN
TYPE 21)
DAS CARD TYPESS)
INVERTER )CARD TYPE II0621)
SELECTOR )CARD TYPE 53)
THE DE,G,JT
ANS Y
TERMS ARE
THE FIRST SUPERSCRIPT DkST OF
LAST DIGIT OF T)-IE J
CHASSIS IN WHICII T€
0" OIJTPIJTS
AS THEV ARE
OUPLICA1ED ON ALL
CARO IS
THE LOADING OF
OF THOSE FLIP- FLOPS
OUTPUTS.
NASE TO TuE
i
THE NUMBER OF
TF4E
TIIE
AND THE
5
l
REGISTER FLIP-
ARE CONCTED TO
T6€
TYPICAL
if
10"
OUTPUTS . THE CGPffiECTIONS TO
R1J-I
'
'
___________________
_________________________________________
THE
E TENNIS OF CHASSIS 5
THIS DfiEE!SC. SHOA3
OUTPUTS ARE MADE AS INDICATEO FOR A
LINES.
TO
LOCATED.
TERM 5 OF CHASSIS 1 2 3 ANS 4
1
E)GHT CHASSIS.
THE DEG,T AND Y TERNIS AND TIIE
TEAMS, 15 IDENTICAL
IN ORDER TO BALANCE
FLOPS, THE E
67 ANS 6 10 THE
.
THE
Y : CURRENT SOURCE (CAND TYPE 54
-K----- HORIZONTAL DIVERSION
6
QUADRANT
j
J.
6
.
INVERTER (CARO
5. ORIVE GENERATOR 1 CNMO TYPE 51 )D1JUMY
16
QUADRANT
SYMBOL OESIGNATIOIS IDEN11FY
0: OrVERTER (CAND T(PE 52)
E:
4
BASE LETTERS OF THE
CARD TYPES, AS FOLLOWS.
0
STAGE 8V THE OOTTED
-
S
______________________________
1
1
1
ADDRESS SELECTION
(ODD STORAGE)
lm
e
CONTR. DMA
C0tPOATION
---
J
XDP 214542
A
I' 56.1
Page 57
TERM
LOCATION
PAGE
QUAD.
DEFINITION
TERM
LOCATION
PAGE
DEFINITION
QUAD.
F577
4J64A
19.4
1
20 + 21 + 47
V000
4J02
5
1
Execute Instruction
F578
3J32A
19.4
1
57 + 61
V090
4K05A
5
0
RNT Seq.
F579
4J32C
19.4
1
57 + 61
V404
3M5813
9
0
WO Seq.
F581
4K70C
19.4
1
62
F853
4J74A
19.6
1
56 + 57
W144
4K7813
25
W145
4K7913
25
JOfiG
4N54B
33
2
Interrupt
W150
3J0813
25
J138
4M43C
17.0
2
Aux. Seq. Wait Storage
W156
5K39
25
J844
4037A
17.0
2
J846
3N76C
17.0
2
K002
7P1313
17.0
2
I
K017
41`1313
42
0
H. S. Storage Seq. (Storage Enable FF)
K205
4K31B
8.1
3
RO Wait Storage 2
K207
3M68B
9
3
Write Operand Wait Storage
K211
4M41C
10.0
3
S & T Wait Storage
K217
4D42B
16
0
f = 74. 1 - 6 FF
K252
4N17A
17.0
2
Aux. Seq. Wait Storage
K254
4P28
45
1
Aux. Request
K260
4037C
K262
4N33A
45
1
Aux. Request
K605
4N41C
42
1
Write Lower FF
K607
4N42C
42
1
Write Upper FF
K622
3H01B
54.0
2
Storage Busy (Even)
K627
3H03C
54.0
1
Read Drive (Even)
K631
3H05C
54.0
0
Inhibit Drive (Even)
K632
31106A
54.0
0 ]
Sense Drive FF (Even)
K633
3H06C
54.0
K662
4176A
54.1
0
2
Storage Busy (Odd)
K667
4178C
54.1
1
Read Drive (Odd)
K671
4180C
54.1
0
Inhibit Drive (Odd)
K672
4181A
54.1
4181C
54.1
0 ]'
0
Sense Drive FF (Odd)
K673
K714
K713
4P65B
4007B
45
45
3
3
Aux. Request
Aux. Request
N935
3049C
N945
4J77C
o
5
56
1
-+
56
Aux. Request
J
J
»
Odd Ciock Slave
1
2
Internal M. C.
sisussssissssssisiiiiiisssssosisi
33772
3:828
42842
-
K7I3
j
__
H
______________
K627
J a68
404
K 622
N 397
P000
183C
3H 12
K6I2316
_____________________________
K°
K632
3J788
K6
3
WIR0
K714
ADDRESS
3J78C
K624
<260
-
W IR0
K614
K 63 t
3D 84
K'
F 853
c
v000
1<
J
O2
K6
4
5J65
K
07
u
K°17
616
475
K254
1
L
u2sI
J066
v404
K67'
F-1 081
r-
K°7
K 605
Ja46
w144
4HIIC
K 262
4111
1
K °' 7
W144
K 662
254
K664
48122
r
17
4FOR
8
8382WRITE
4634A
K205
J138
J
UPPER
846
43151
J 830
v9)2
u003
H077
K 254
N 46
WRITE
2 P2 ER
ADDRESS
ENARL E
FALL WRITE
4J83
H946
READ
3 PPER
ADDRESS
K°' 7
K 607
__
Je46
< 673
ENARLE PART)UL
WR)TE LOWER
—72
WRITE
NONADDRESS
TO DOS STORU3E
SEQUENCE CONTROL
(PAGE 54.1)
_____________________
:3
K254
w145
_
<672
4846
v
K 662
P 00
H483
4EK1
______ _______________________
LJ
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616
1
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K601
READ
OWER
ADDRESS
___________________________ ___________
N 397
w
844
_________
K 667
WRITE
UPPER
ADDR ESS
____ ______________
633
3811
K622
002
RERD
UPPER
ADDRESS
K 632
3J05C
3376
WRTE
NONADDRESS
JI7
___________
PLSI
4 P328
TO EVEN
SEQUENCE CONTROL
(PAGE 54
K632
677
1
WRITE
LOWER
ADDRESS
RE8D
__________
K622
V900
K610
V090 _____________ K 61 '
___________
READ
LO WER
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F 578
K 207
138
J
K 21 '
F 58 '
J138
Je34
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F 579
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CTION
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J
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51 511 511 51 Lo
52153152152152152152152
VERTICAL
DIVERTERS
DRIVERS
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9
8
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A
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6
5
4
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CIRCUITS LOCATED IN AREAS ENCLOSED BY
GOLD LINES ARE ENERGIZED 8V ADDRESS
X, WHERE X IS LOWEST OCTAL DIGIT
- - -
OF ADORESS AND APPEARS IN GOLD FACE
(000)
WITHIN THE AREAS
VERTICAL VERTICAL
DIVERSION ORIVE
SEI_EC1t(S SEEC1tJS
000
QUADRANT 2
SENSE
AMPLIFIERS
4
(YEN
FI54l54I5%I5
6 I 56 I 56 I 56 l 56 I 5tl 5l 50 s1 l 51 1 51 1 5152 1 52 1 52 1 53 1 52 1 53 1 52 1 52 1 52 1 52 1 52 1 52 1 52 1 52 1 52 1 521
QUADRANT 2
SENSE
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5
000
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6
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l
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J030
BO9A
j2OX
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_______
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4444
TXI 8
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8044
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849
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TX21
848
DX 33
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_____________________________________________ TX26
847
DX 32
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TX 25
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8014
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4434
TXI6
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7
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0
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1
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2
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NOTES
DXoI
014
4.
OXoo
GXXO
CO2C
EXO?
_______
1. EACH ARROW REPRESENTS 4 DIODE.
2 SUBSTITUTE APPROPRLATE CHASSIS NUMBER FOR X
( le. EXOX IS E '06 ON CHASSIS 1, E 206 0N CHASSIS 2.)
3 SU8STITUTE Y 1 CHASSIS 1, Y2 CHASSIS 2, Y3
CHASSIS 3 LOWER OCTAL DIGIT, YO CHASSIS 3 UPPER
OCTAL DIGIT, Y4 CHASSIS 4, Y=5 CHASSIS 5, Y6
CHASSIS 6, Y7 CHASSIS 7 LOWER OCTAL DIGIT, Y9
CHASSIS 7 UPPER OCTAL DIGIT, Y8 CHASSIS 8.
015
FIOA
TX$2
COIC
1
1-
D13
‚_
EXOI
F14
DXOX
-j
_
Gfl—
CO2A
EXOO_
Ui
FIOC
T X13
COlA
EXO4
_
Ui
ElZ
GXXZ
1 TX
1
EXOO
FIG
D o
E17
DX07
£13
GX63
TXI 5
______
H
F12
GX64
'
8104
COSC
118
F13
Gx65J
GIOC
C07A
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D
F15
DXOS
'_
0
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G6
4
015
DXI3
G12
G X66
9
0X
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TXO 3
G13
0*67
T'08
C07C
S ° —.. -----j EX43
017
E 230
1_
1_
DIOC
0 XIX
CO3A
______
A
READ
B35
D
CO3C
EXXI
B30
GX7O
•
T
B36
DX21
s090
818
831
GXhI
EIOC
B39
DX24
445C
TX2I
_____
832
0
cr
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GX€B
B40
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TX23
4464
TX22
>
>
_____
1 TX3O
______
0
Ui
833
4414
TXZB
0
z
853
GX75
TX 29
1
0
B41
0X26
1
44
TX3I
1
_____
___
854
_______
GX76J
852
GX?4
B07A
SO7O..H_EXZ3
_____
418
B55
GX77
A39A
T4
__
__
X31
1
SEE NOTE 3, P56.O CONCERNING INPUTS
TO E
TERMS.
EXCZDWXXZ
___________________________
TO
.
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cr
_____________________________
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.
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J 042
DUMMY
291
E ' 52
C77A
E XSO
IE'I
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C7 7C
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ASIC
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cr
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8
NOTES:
.
EACH ARROW REPRESENTS A DIODE
SSTITUTE APPROPRIATE CHASSIS NUMBER FORX
(
je. E 306 IS E'°6 ON CHASSIS 1, E 2° ON CHASSIS 2.)
SUBSTITUTE Y=
CHASSIS 1, Y82 CHASSIS 2, Y= 3
CHASSIS 3. LOWER OCTAL'DIGIT, Y=O CI-IASSIS 3 UPPER
OCTAL DIGIT, Y =4 CHASSIS 4=5 CHASSIS 5, Y6
CHASSIS 6, Y7 CHASSIS 7 LOWER OCTAL DIGIT, Y9
CHASSIS 7 UPPER OCTAL DIGIT
Y 8 CHASSIS 8
4 SEE NOTE 3, P. 56.1 CONCERNING INPUTS TO
TERMS.
E
4
WEI8PIC[DAI
2
F
a
g
2
TITIE
STORAGE
SELECTION
000
-
CONTROL DATA
CORPORATION
1 604-A
XDP 214573
'59.1
I
Page 60
TERM
1241
1385
1386
LOCATION
PAGE
4K54C
6M82
6N26
8.1
31
31
QUAD.
DEFINITION
f = 00 + 77
EXF Code
EXF Code
0
3
3
=
=
X1XXX
X2XXX
PAGE
TERM
LOCATION
QUAD.
W152
6L60C
25
3
W153
6L61A
25
3
6L61C
25
2
30
30
3
3
EXF Code
XXXXO
Select OX000, 1
W154
W155
6L60A
25
3
4P4113
45
1
Aux. Request
W159
61,62
25
1
K774
6P37
45
1
W163
7J49
25
0
K775
6P38
45
1
W170
6N4913
25
3
K776
6P39
45
1
K777
6P41
45
1
K778
6P42
45
1
K779
6P43
45
1
K796
6K83B
53
0
K809
6P54C
45
2
K811
6P55C
45
2
K813
6P56C
45
2
K815
6P57C
45
2
K817
6P58C
45
2
K819
6P59C
45
K883
4N81C
33
N962
6P65B
0091
81,20C
62
3
EXF Code
0101
8N20C
62
3
EXF Code
R907
6M63B
36
2
CCRL
CCRu
R908
6M64B
36
2
CCRL
CCRu
V120
6N71
29
1
V121
6N72
29
3
V122
6N73
29
1
1
V123
6N74
29
3
i
V350
4K50C
8.1
1
V351
4K51A
8.1
1
}
V455
6N66
17.1
0
1
V457
6N64B
17.1
0
J508
J513
6M83A
6080C
K256
1
Aux. Ref. Designator
J
1
1
Internal Interrupt Request
Rank 1 Aux. Scanner
1
2 J
Ciock Request Slave
Even Ciock Slave
V459
6N62B
17.1
0
V466
6048A
17.1
0
=
=
X(OOi)XXX
X(010)XXX
i
1
rJ
Resync Pulse
RO Seq.
Aux. Seq.
DEFINITION
]
t
Internal M. C.
1,
J
External M. C.
Internal M. C.
I offö
BUFFR ACTIVE -1
R908
v4
821
w
6N45A
L68'
700
K
6N50
701
INPUT
EADY
60456
6045C
READY
M 46
J 072
J073
K720
6050
BUFFER ACTIVE-5
v459
N46
L 685
K70
6N58
w825
6N524
191
R 907
v457
7LSIA
R90
CHANNEL 1
LIGHT
709
195
907
v457
6041
w821
v466
7LSIC
6P45A
6P45C
READY
INPUT
66405 _'
N 962
K765
w 625
C#ANNEL 1
ACTIVE
ACTION
RE:u::T 1 <809
K736
w 70
o8o
JoeI
vi2o;;;
K
J,
H793
wi2svI23:i5:i::sg
H791
INPUT
RESUME
RESUME
WT:DY
v455
CHANNEL 5
ACTIVE
ACTION
REQUEST
___________
AITR:ADY
v455
CHANNEL ONE
CHANNEL FIVE
6N45.
BUFFER ACTIVE-2
R908
CHANNEL 5
LIGHT
65604
L662
w 2a
6N51
R908
CHANNEL. 2
LIGH1
v459
W926
BUFFER ACTIVE -6
6N46C
L 666
K710
6N59
CHANNEL 6
LIGHT
6N60C
K703
457
6P2c
w822
w155
SPI9A
6046A
V121
RESUME
6046C
We26
2
ACTION
R EQUEST 2
ACTIVE
8P25A
1< 811
06JTPuT
RE5U8
42
6P464
6P46C
CHANNEL 6
ACTIVE
ACTION
REQIJEST 6 1<819
RESUME
OIJTPUT
RESUME
62
822
K795
v466
w 7°
K775
6N37
1< 77 6
W
6N398
OUTPUT
READY
1<776
v121
w'52
R908
v 459
w825
907
w153
BUFFER ACTIVE -3
6N45C
1< 704
LIOHT
6N54
1< 705
7L84
CHANNEL 3
ACTIVE
L_4
M 248
READY
8
AD
OUTPUT
RE 60 Y
CHANNEL SIX
v 457
IHPUT
743
W826
1<778
CHANNEL TWO
6J:7
H79'
wl7O
K7
2
K77 9
6 o76
476
N2
w626
;1;3
ACTION
REQUEST3
N962
6054
::;;
V 120
91
WI7O7LSD
2G09C
CHANNEL THREE
R908
v459
3.2 VAC
BUFFER ACTIVE -4
w24
6N55
K°
j:
XXXXO J
6N46A
L 684
004
XIXXX
CHANNEL 4
LIGI4T
xxxxO
J
JI94
x2xx0
1
v457
K 882
1
N56C
J53W163
OUTPUT
•P22A
6P44A
M249
J 078
P44C
' J079
3
RESUME
CHANNEL 4
ACTIVE
ACTION
REQIl:ST 4 K815
3 2 VAC
CLOCK WAIT
29096
2F06A
ADVANCE CLOCK RESYNC
K57
RESUME
6N40 N962
1<791
WAITRESUME
H79
CONTROL DATA
W 170
DUFFER
ACTIVE
8P23C
007 PUT
READY
W153
CHSINNEL FOUR
J 1 93
760
U?R
iVE
COWNEM
W76I
.-
J194
jI95
96
66162
4PI4A
---------
4P14C
- fl1t
—
READY RESUME CIRCUITRY
CORPORAMN
1604 — A
XDP 214529
60
B
Page 61
TERM
LOCATION
PAGE
QUAD.
F515
4N07C
19.4
1
V480
6L69
17.1
1
V481
6N76A
17.0
V527
4M34C
10.1
0 j
0
V529
4M35C
10.1
0
DEFINITION
TERM
LOCATION
PAGE
QUAD.
DEFINITION
62
]»
]
J
Aux. Seq.
T Seq.
S 1 00001000 00 0000 fill I
$is losses
48
II
STAGES
1000
THRU I04T
TYPICAL STAGES
twEl—
7006
—
1001
x°22
7P15
7N12A
7NI2C
7NI3A
1 002
1P22
—1'--
X 002
1000
XOI2
7P21
.
CHANNEL
7P2
M'
10
-
7P62
6036
II1—
7P57
—1J—
H1III
SCANNER
AT CH.
POSITION
•-I1EI1-7p9
X2
F575
527
4M42
•—
V 525
K 33 '
TPI
081
890
M°
7 PO
_________
7P58
7P52
V 480
7P33C
7p34C
7P35C
7P23
CH 7
70104
7011A
7012A
1
FM
CH 1
7007
7008
7P16
7P2
1}8-
700
7011
7012
-
CM. 3
7012C
[IEII1
7NIIC
7OIIC
iNh
I
A
7OIOC
[E-i
EIF
CHANNEL 3
7P28
M 2— j 0
.-1I'--
7P63
w 823
1 502
7P29
•-1I1J'--
L90°
C H5
6037
7P26
SCANNER
AT CH.3
POSITION
________
1
H
0
7P56
7P21
1P53
I
M3— jO
74
__lI18-
7p55
CHANNEL 5
514
—IIEI1
6038
SCANNER
POSITION
894
48
GPIN
93
7P54
v4.80
K 895
v 48 °
1
CONTROL DATA
CORPORATION
g
rnu
1
1604-A
XDP 214555
COMPUTER INPUT
61
FROM EXTERNAL
EQPMENT
E
Page 62
TERM
LOCATION
PAGE
QUAD.
DEFINITION
J913
6M66A
16
2
Seleet + Sense
K034
6M57A
16
3
EXF Counter
K716
6M52B
16
2
Select
K718
6M54B
16
2
Sense
TERM
LOCATION
PAGE
QUAD.
DEFINITION
•ssssosssssssssssssiisiisssssssisi
EXTERNAL
F U N C T 1 ON
R E A D Y
S 1 G N A L S
EX T E R N A L
N23C
N23
K22C
Pam
F U N C T 1 0P4
KZZA
K22
:i
L.
UT
TRANSFER TRMFER
NTERIAL
IENSE
1
i
SENSE $ELECT
SLLECT
CIt7
[
M?sC S7UA
0 620
0 620
O"°
0€40
0630
J 450
1
L 363
L392
L 263
L22
63
L'2
L' 2
J 510
J 451
0640
45I
C147
i
PI5A
PI5C
f
4!i,
CI-{3
P27
P24
01 41
0 130
0 121
0 121
0 131
0'
0e31
O 21
0 1
L 35
L 4
L265
L24
6
L
L'64
LO€3
5I7
51
1
04
-\ 1
Ei Ei
L;J
O4I
0621
j4
OUTPUT
SENSE
SENS
REA2Y
AOY
____________
-"-____________ ____________"_
L162
L"4
L 062
L 123
L4
L163
165
0 140
0 141
L21A
L29C
CH4
CI-{2
-‚
i0
P26A
____________‚
1
CH5
P2 A
P27A
CH3
i
P24A
CH 1
_•\ 1
i
CF46
i
P2IA
0 1 20
0 62 0
0 120
0 130
012 1
0 121
0 12 0
0 630
0 131
0 621
0 131
0 130
0 631
0 40
4
j 450
Q 64I
j 450
Q I4O
450
0 64
j 451
0 640
451
01
451
0 41
L262
L264
1 510
J 517
L 062
L 063
L 362
L 364
0
L 263
L265
J 510
517
06
L 262
L 264
L 2
L'63
L'65
L
L
L 363
L 5
L' 62
L' 64
L 263
L 265
01
0 131
06
0631
629C
K4A
K34C
3
0 641
3IC
A
CH4
fl
P27C
0 141
063
0130
450
OUTPUT
FlJCTici
*DY
RAD
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TERM
LOCATION
PAGE
DEFINITION
QUAD.
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--
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Bill I $is$ III I
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ALL JACKS ON CFIASSIS 7
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Page 66
TERM
LOCATION
PAGE
DEFINITION
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ALL JACKS ON CHASS 7
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TO SENSE & INTERRUPT CKTS
SEE PAGE 30
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450
CX. 2
SENSE READY
J 451
CH.2
SELECT READY
J451
101
11
10
F R 0 M
LIIJ8L23A
L8J23C
8J232
1III18J23B
8NI2C
6NI2B
8NI2A
0 091
0 081
0 071
0 061
0 051
0 041
0 031
9
8
7
6
5
4
3
E X T E R N 4 L
F U N C T 1 0 N
0 031
1 N V E R T E R S
1-
17
CONTROL DATA
__________________________
g
CORPORATION
co
1
-
1
1
- jTIMEXTERNAL FUNCTION
TRANSLA1OR
d
-
1604-4
XDP 214519
B
66
Page 67
TERM
LOCATION
PAGE
QUAD.
1
DEFINITION
K902
7L63A
66
1
K903
7L63C
66
K914
7L76
66
1
1
0
K968
7K61A
69
3
Chnl. 2 Resume
V256
7K76
69
1
P. T. Punch Control
V290
7J28
69
2
V291
7J27
69
2
V292
7J26
69
2
V293
7J25
69
2
V296
7J22
69
2
W161
7J39C
25
0
W 162
7K50
25
0
J
f
J
TERM
LOCATION
PAGE
QUAD.
DEFINITION
Select Keyboard FF
Assembly Mode
Resync Pulse
External M. C.
IIIIIIIIIIIIIIIIIIIIIIII----
I
111181188 $is$ is
READY
CH.I
BUFFER
ACT 1 VE
47_
ASSEMBLY REGISTER
48 STAGES
bAt
NOTE
1900/1901 THROIJGH
L'78
I $is I is I
STAGES NOT SIIOWN REM*IN CLEAREO
DORING KEYBOARD OPERATION.
5
1
0049
M'67
1t
L
NI6A
H
H
L2LJL
LL
t t
H
SEENOTES
IBI
J991
7_
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.
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KO7
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1
1
1
1
1
1
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1
1
1
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1
J36A
+K-C
+.Ill.
KISC
J
lebe
1 82
822
J3€8
J
1829
1 815
816
1 619
V 29
M09
4J3.
T,5
I
1
1
K °2
r
990
1
1
T
KEYBOARD
i:
960
SELE
111001861
K994
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T
CIS
lTd
_
1
1
k1Bl
K5
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mK
‚961
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TRANSLATOR
LECT
SELECT
937
j 947
j 96 O
XXX4X
X11R6
993
M 273
r-p-1lSPACEl
q..
O4ANNEL 2
RES&JME
257
v277
164
V 257
L1v2sJ
________
__________________
ADVANC
v 256
PUNCH
J83C
M274
J29
w'62
266
ii
INTERRUPT
ON
CARRIAGE
RETURN
1
1
1
<989
FUNCTION
CONTACTS
j 962
w'6'
SENSE
644
643
M69B
J 998
J83B
069
j946
1
~tK
8P19A
964
CONTACTS
996
XII4X
1
J24
KISC
INTEUPT
j9€2
1
1
J26
CKAR MW
291
v 29°
TAB
MICROSWITCH
Je50
v 296
J25
2C
J937
M
CHAR. 0
V 293
J 997
649
M27'
1
L43C
T,2
RO COOE
READY 0FF
j946 L
IJ!_
070
SELECT j5'4___
1
J35A
1 K
1
—
1
T,3
,296
K 986
1
T,4
REGISTER
968
1 632
M 275
1
J
1826
L41
L
SO
660
1
H269
K 962
DISASSEMBLY
lazo
V292
____
________
_
K984
140
KEYBOARD CONTROL
RIBBON
FEED
BA:-1 1
I
1
SHlFT 1
1 1
—II
1
758
1
ICR 1
MICROSWITCHJ
C. R.
M-JF j
-
FUNCTION
CONTACTS
5
—Y
K 965
CASE
KO2
1 624
1629
1 827
1826
031
-I5V
L45A
L
1817
SELECT
V293
KEYBO4F
K 903 _\.I
M2'
:
SPACE
.I2C
1830
-I5V
L193
+
6526
KO3
L44C
1
642C
-I5V
4
L44B
I1
1
1
TCC
K04
KOS
4
L44A
II
1
1
1
T
-I5V
y
4
5
5
:
____________ -I5V ____________ -I5V
SELECT
READER
K42A
5
;
EI
H4
5
_*
7
1 —I±
960
9 02
SELECT
KEYBOARD
1
5
_
92
7OC
j5 A
SELECT
<90l PRINT
TYPE. OUTPUT CONTROL
291I
J83A
READY
1. ALS JACKS 16 CHASSJS 7
UNLESS OOIERWISE 500*5.
2. ALL 010065 ARt TYPE T—PG
POOARIZEK
3. TRAJISLATOR MAGNETS LOCATEO
IN 7066*500ER DE000E#.
L:_i
±38
L197
649
K48A
I[' j985
______
CLEAR DISASSEMBLY COUNTER
0&JTPUT
BUFFER .__-AfIIII___A1IIII1
ACTIVE
7r T rs1rT
1
Ilj ______________________________
•2
— - _
________________________
fil IIlII________________________________
161
XDP 21,
kItItilmL
TYPEWRITER CONTROL
Oh 0
effigies
-
J20602
8
RIBBON
FEED
CONTACT
7
-
J20004
-- H -
-
H
-4 M272
PRINTER
W
W
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16
Z
-
Z
{°OFF
1
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J
_
0 6 02
TCC
flill:
TIB
1
8)
TO
21
KEYBOARD
22
15
CAM
20
TAB
MICROSWITCH
DC-31
1
1
(J35C)
TC6
0
__________________
1
:-°
1
TC5
CONTROL
23
BACKSPACE
CAM
1
1
25
RETURN
___
L
26
CARRIAGE
L
27
CAM
28
____
___
X
X
1
1
Ma?I
1
‚
1J351
29
SHI
CAM
_____
-
M27°
J78 8 1
-
CASE
CONTACT
1
32
¶1I::I
UPPER
-ØM 269
(J36C1
1
-
—
34
1
_____
0FF
_________________
TG2
TO
'
J20602
1
SENSE
1
CIRCUIT
1
UPPER
CASE
CONTACT
J20004
1
TCI
__.o
v
6
4
4
-
T
T
5
3
_______________________
________________
11
___
2
10
____________________
e
_________________
-
I
____
-
-
1
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—
9
36
'---,
1n
5- V
CANNON
DB-25
-
13
tOOO4
___________________________
-
~
6
:-
1.
-
-
j4
1
R
______
'0
J2o2
CAJINON
CROI
CR02
(TM2
4
N
M
M
M 23
10 INPUT
ASSEMBLY
REGISTER
(J3TA)
(J32C)
(J388)
(J3A)
—
B
(l.45B)
2
15V
:
C
1
—
L'92
(L4SA)
CANNON
- _____ -
1
1
__
R
N
NOTE
EROM
DISASSEMBLY
:i
M
(J372)
P
—
1(02
-
P
________
s
20330
___]
-
__
______________________
(L45C)
J20601
I
)
M 265
( J31C)
_
40
20II=
CR07
TO
KEYBOARD
CONTROL
-
o____
110 VAC
s
P
50
_
(J36ß
___
i
33
L_
„
4
1
M26e
.
4
______________________
M26T
(J36A)
-
v
32
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________
u
-
___ 3
-.-O
1
36
______
°
.
U
________________________
37
___________________
-°_____________ 2
TC3
1
1
31
LOWER
TC4
1
30-
-
MACHINES WITHOUT ECOs 67 & 87
ARE WIRED AS SHOWN INSIDE
BROKEN LINE AND DO NOT HAVE
DIODES CROI-CRO7. ECOs 67 & 87
MW OPTIONAL ON SERIALS
BELOW 50.
________________________
J20330
J 20004
28
____
24
J20602
CANNON
DO-50P
CAI4O$
1
8
iiiI:I 11111
J20601
1
-
M 275
17
TAB
CAM
[
CONTROL
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iiiI:IIIIIIIII
issi
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J78C)
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J20330
-
4
SPACE
CAM
I
1
2 ____
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0
1
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PORTIONS
TAKEN
-L'93
(L44C)
K04
____
ALL DIODES EXCEPT CROI-CRO7 ARE
TYPE T-IG POLARIZED
REGISTER
INC.
4
JACK
E
____
SWITCH
-L'94
THIS
DRAWING
SOROBAN
DRAWING Na.
NUMBERS IN
C-1556.
7
ARE
ENGINEERING
PARENTHESES
ASSIGNMENTS
CHASSIS
MARGIN
SAFETY
OF
FROM
INDICATE
LOCATED
ON
K07 IS NORMALLY ENERGIZED WHEN
TYPEWRITER IS IDLE.
( 1 448)
DIODES CROI-CRO7 ARE TYPE TG-12
C
OR IN677, CDC NO. 4204.
0
4
F
-
4
-L'35
(L444
CR05
5
5
LL~
E
-
______
2LI96'1
1
CR06
274
(L43C) 1
___________ __________
_°'t
:
____
___
_____
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-----
0
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(J83C) 1 CONTR
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K
-
TO
-
.
lJ83R)
l.
_
fiE______
- - f
___________________________________
L
DLRAM,
TYPEWRITER
INT ERCONNECTIONS
CONTROt DATA
CORPORAT1ON
1604 - A
XDP 214586
668
B
Pae (9
TERM
LOCATION
PAGE
DEFINITION
QUAD.
K913
7L75C
66
0
Select Punch
K914
7L76
66
0
Assembly Mode
K990
7K43A
67
3
K993
7K44
67
3
J998
7M69B
67
3
J999
7K60
67
1
t
TERM
LOCATION
PAGE
QUAD.
DEFINITION
Typewriter Control
Typewriter 00 Code
118188188111818
111
$see B e Be
IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
SYNC10
»M
[] 71(76-2
COIJPI.ING
COMMON
»N
17J84-14
J69A
SYNC UI
J 989
v 294
7778
1<990
K784
1<
J 76A
993
998
999
1<968
K 913
J 987
ED
EUI
1(72
K°52
1< 951
K95°
K 954
PUNCH
SELECTED
1(70
1
i-<‚.)-------------
1
1
H 255
J72
V292
171
7878-6
I
V255
±
REGISTER
256
H 257
CH
J63
RANKI - RANKfl
DISASSEMBLY COIJNTER
V256
V 273
::
J55
::
CHAR 0
ADVANCE
RANKI
DISASSEMBLY
0r
M75C
1 926
k
1
EIjIEIII-9.
M 163
M'49CHANNEL 2
RESUME
TAPE FEED
1<914
CHAR.
MODE
1< 950
a
K6
1<96
71(78- 1, 12
OIJTP
pI9A
J 984
OUTPIJT 21268
SELECT 966
READY
J792
ON
PUNCH
MOTOR SWITCH
886016
946
t
ri
OFF
j
CLEAR
DIS ASS EMBLY
COUNTER
OUTPUT
16
MOTOR
1(63
1
1601 CATOR
-
62
RESYNCHRONIZING PULSES
H29OK53
83
v 290
28
V 29 '
v 292
J26
V 293
v 294
J24
J22
2005
i
J 947
88848
v02
2004C
BUFFER
ACT IV E
LINE
V 297
84
ALL JACKS 06 CHASSIS 7
UNLESS OTHERWISE SHOWN.
2I
I99
END-OF-TAPE
MICROSWITCH
END-OAPE
$$$lose so$$ $ I s so of I $sell o
4J01 4J03 4J05
1
J20502
—A
B
c
OUTPUT
0
SASSEMBLY
REGISTER
E
F
8
LEVEL 8
J
TAPE FEED L'8°
6
SYNC._HI.
L
SYNC. LO.
M
COMMON
N
+20V
8
0UND
P
— 20V
5
LEVEL 1
LEVEL 2
LEVEL3
LEVEL 4
LEVEL 5
LEVEL6
115 VAC
60
PUNCH M
RELAVOTOR
J20318
TO COMPUTER
S€N5E CIRCUIT
20001
J20803
—— A
4
B
6
___ c
C
— 0
—D
—E
E
______
— F
F
_________________________________________
__________________________________________________________________________
8
H
J
J
- 6
6
___ L
L
—M
M
— N
N
_______
8
8
P
—
P ________________________________________________________________________________
A—
5
5
C.—
T
D
1
u
E
V _________________________________________
J20804
F—
H K—
K—
b*—
N
-
CONNECTED
GROUND RINGTO
J20805
b 0 Z P 8 5 T U V W 5
tHMHMM
T'
J20806
E F 8 J K
Httt
V U T S R
24 8
PUNCH CHASSIS
1
2 3
4 5 6
7 9
Y
X
__
4
l
5
PUNCH
2[Q)_]7 DELAY
RELAY
___
1
SHIELO
!
POWER DISTRIBUTION
BOARD FOR PUSCH
MAGNETIC
PICKUP
-..-4-14- — —
————
—
8J03 [Il 24 2 8
1 1
2 3
45 67
20 21
SWITCH
'
POWER
‚ T 7
ffl
9
JL2
CONNECTOR
TO PUN ]
08TO LAY
LAT
S 88
T
U
V
w
8
Y
Z
0
—
—
0
o
o
T
_____
•
—
8
w
6
5
2
0
—
E
—
0
0
o
o
OJTPUT
INPUT
&
02
L
05
—1
Q6
5 4JO3
0
0
O
0
o
0
____
9
__ 9}
IJ
00O
0
L
012
0
0
1
oJ
0 - -0-- E
—R Z
4JIO
°
°
°
—J
1 —
—'
—
TYP E 86 PULLER CAROS
R—
— -
S_ J
J2O8O4H
uF
1__VE
L250
8
1
R
20V
______
14JOI
—3
IIJ
74J05
—11
M4JIO
—.NJ
PUNCH
CONTROL
UNIT
1
14J11
—.—
—
R
P
N
6 —
J
HF
E
-28V (SEE PUB.60107300 FOP AULT
POWER SUPPLT CIRCUIT DETAILS)
L _ L
L1______
1691$
21 9 8 7 6 5 4 3 20 8J03
XIITING
4—.---. TELETYPE —8W
CONNECTOR
— — T
___________________
____
—
PUNCH MOTOR
88
6
~6FF8__4
2
-7t
______________________________________
L
SHIELDING
1
8
ri
1 1 1 1
—
/__
A
B
c
o
E
F
H
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6
L
M
N
R
R
P
N
I
j
14 15 16 1?
E
F
H
J
6
L
M
N
TYPICAL INVERTER SECTION TYPE 86 CARO
(TI4REE SECTIONS PER CARO)
4J10
J20806
J20804HNSJABcDEPHK
J2o2Ii
—
4
B
c
J20805
1
1
1
IJ5VAC
6O
1
:J-rIL1LJ
-
collromm
1a
‚Na -1II
____
P T. PUNCH CIRCUITS
(BRPE - tI)
CORPORATIOM
_
1604-A
XDP 214517
1- 70
E
Page 71
TERM
I
LOCATION
PAGE
QUAD.
DEFINITION
K086
71181
26
3
Auto Load Logic (Serials 24, 25, 31, 32, 37 & 44 only)
K086
7J84A
26
3
Auto Load Logic
K088
7J84A
26
3
Auto Load Logic (Serials 24, 25, 31, 32, 37 & 44 only)
K902
71,63A
66
1
Select Keyboard
K904
71,61A
66
1
End of Tape
K911
71,59C
66
0
Select Reader
K972
7J15A
64
2
K973
7J15C
64
2
K976
IJ14A
64
2
K977
IJ14C
64
2
K980
IJ12A
64
2
K981
7J12C
64
2
R907
3M63
36
2
CCRL = CCR•
V279
7M09
67
0
Typewriter Control
V459
6N62
17.1
0
Aux. Seq.
W161
7J39C
25
0
W162
7K50
25
0
W821
6036C
45
1
TERM
LOCATION
PAGE
QUAD.
DEFINITION
Rank II Input Assembly Counter
?
J
External M. C.
Aux. Ref. Designator = 001
- 8181iiii so$ I off$$ loss is I $is$$ Be
1118888811881111111 $is is $$$$somesi
K 928
v 279
KEYROARD
PULSE READY
READER MOTOR
J79C
1 NPIJT
78
v 284
READY LINE
INPUT
1(04*
K 926
1(14
UP
SELECT
READER
v 97
K 999
v 290
M
LOAD PT
H 265
K 924
(ASSEM8LY)
813
812
< 928
1806
V265
K925
H 26 '
w 162 (MC)
READER
MODE
SWITCH
END OF TAPE
L04
v 295
JOB
K929
1)1
INPUT
BUFEER ACTIVE PULSE
pj 167
READER
CLUTCH
V 267
(MC)
K922
v2
i!
1K7
w'62
V 295
L79
V 270
{DOWN
CLEAR ASSEMBLY
REGISTER
LI4A
Jo6C
J°
MOTOR
ET
INPUT
BUFFER
ACT IV E
I
V
w 162
R ESU ME
tCLUTCH FF
L78
UP
READER
SWITCH
LI?
jS2Z
V263
1(14 C
V294
V 297
DOwN
CHARACTER MODE
-1 K926
(CFIARAC1ER)
L
H 263
Klo
1(09
K950
J09
v263
K 927
NEUTRAL
L_*
FORCE DISTRIBUTOR
TO CHAR. 0
V 265
M'
1(27
CAR. 7
K925
1(26
K 900 K 977 -
K927
K 96°
6
1(25
-
Ct-$AR. 5
K976
K9
v26'
K972
K935
1 978
TAPE
FEED
-L;:n
Y 999
-.
L12
v 999 C
45
EXT.
1(47
52
LK
1(24
K'
-
K 976
-
CI4AR 4
H267
RANK 1
-
RANK
25)
64)
fl_[940
L199
IN ASSEMBLY
REGISTER
AD4NCE RANK 1
FEED PULSE
H25'
K 938
K 938
ms
1(50
V 290
v 291
ENTER O4AR
-
L08
1(06
K973
E~
:
C.L, AR
R
REGISTER
SET
J991
READER
REGISTER
1(25
K98'
K976
J—B.CHAR. 3
-
v 6
K 94 '
K950
K976
K 939
1(22
-
—B.CHAR. 2
v 290
K 980
K977
1(21
-
1
ENTER CHAR.
IN ASSEMBLY
REGISTER
ADVANCE RANK 1
-
1(20
RESYNCHRONIZING PULSES
v °2 '
V 250 J28
v 292 08
V 293
v 294 J24
V 295
V 296 J22
V 297
-lT. mi
g
NOTES:
1.
ALL JACKS ON CIIASSIS
7
J
_____________________________
UNLESS OTHERWISE S1IOWN
±
____
APER tORE READER
zu'
CONTROI DATA
CORPORATION
1604-A
XDP214516
71
sssssss•ossosssiosisssissssssssssi
-SOLAR
r
40 2-5
02
25V
003
+13000mf
=
C09
10 mf
25V
-20V
R06
Rl5
II5
POI-13
1
3
f
F
(7
~0 2 v
+
004
000f
25
1W
1KR14
RIO
IK,IW
/
58
LEVEL
Q6
D09
10
LEVEL 2
QIW
0
78_LEVEL
Qe
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1
402-7
402-8
A02-3
403-5
401-1
-
Ao
-
403-1
R
403-2
404-6
404-8
404-1
LEVEL
_____________
LEVEL 8
0
5V
907
6
402-6
402-2
FEED HOLE
Q
3ov
Qs
17V
28
402-1
LEVEL 3
E2IiIIj
P0112
LEVEL 1
1
TOl
FOl
20701
(Pol)
CELL BLOCK
401-5
404-9
403-3
403-4
R
220,IW
T
+
T
_________
-
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X272
N12-5
o
N994
D04-5
D
L547
084-11
0
L524
104-3
0
L425
103-7
D M526
102-9
0
M427
P14-1
E
A872
L45-9
E
X262
L12-4
E
0471
073-8
1
X282
912-5
E
M690
001-1
E
M725 002-9
E
L525
104-7
E
L426
103-11
E
P15-1
E
M428
P14-5
H527
F
8872
L45-8
F
3263
L13-4
F
0470
072-12
F
8292
012-5
F
M691
G0I-5
E
L991
305-3
F L526
104-11
F
L427
P16-3
F M528
PI5-5
F M429
PI4-9
II
J921
P33-7
H
4862
L43-II
H
9080
823-11
H
0241
J03-8
H
8302
J36-5
H N692
601-9
H
L990
H82-3
H L527
PI7-3
H
L428
P16-7
H M529
P15-9
H M430
106-1
J
8923 P54-2
J
A743
M43-I
J
9080
823-12
J
0240
J02-6
J
X312
836-5
J
M693
302-1
J
J
L528
P17-7
d
L429
PIG-Il
J U530
107-1
J
M431
106-5
I(
H913
P45-2
6
A743
N43-2
K
N180
921-5
6
6471
076-IC
6
X322
L36-5
6
M694
002-5
6
K L529
P17-11
K
L430
008-3
6
007-5-
6
M432
106-9
L
8903
P41-2
L
A743
M43-3
L
9180
921-6
L 4470
075-9
L
X332
N36-5
L M695
G02-9
L
L L530
109-3
L
L431
008-7
L M532
107-9
L M433
P20-1
M
4743
M43-4
M
9180
921-7
M
0471
073-9
M
X342
936-5
M M987
002-5
M
M L531
109-7
M
L432
108-11
M M533
P21-1
M M434
P20-5
N
6863
M44-1
N
9180
921-8
N
0470
072-11
N
X352
036-5
N 3257
173-
1
N
P20-9
P
4863
M44-2
P
X302
J36-4
P
6241
J06-8
P
X362
J57-5
p
002-
R
4863
M44-3
R
X303
J37-4
R 4240
J05-8
R
X372
(57-5
R M990
S
Joo
1
S
X312
836-4
S
0472
074-3
S
9382
L57-5
S
M992
00
T
6752
L44-8
T
X313
637-4
T
0473
060-3
T
3392
N57-5
T
M991
U
N280
945-12
U
X322
L36-4
IJ
A242
J07-4
11
X402
957-5
u
M980
P30-
1
U
F
u
N
P
H980
P39-2
R
s
L690
H83-5
T
u
j000
009-5
1
P34-
M986
N531
N L532
109-11
N
L433
P22-3
N M534
P21-5
N M435
P
M199
FO7-I
P
L533
P23-3
P
L434
P22-7
P
M535
P21 -9
P
M436
176-1
001- 1
R
L689
005-7
R L534
P23-7
R
L435
P22-Il
R M536
177-1
R M437
176-5
1
-9
3
J002
309-
1
S
L535
P23-Il
S
L436
378-3
S
M537
177-5
S
M438
176-9
001-5
T
J004
009-7
T
L536
370-3
T
L437
178-7
T
H538
177-9
T
M439
181-1
U
L537
179-7
U
L438
178-11
U
M539
182-1
U
M440 151-5
1
v
J004
1309-11
V
5362
J57-4
V
X323
L37-4
V
A243
J08-4
V
11412
057-5
v
M981
530-5
V
L696
H82-11
V
1538
179-11
V
L439
183-3
V
M540
082-5
V
M441
181-9
w
J006
105-12
W
5363
J58-4
W
9280
645-7
W
9380
163-12
W
X422
82-4
w
M982
P30-9
W
L690 483-7
W
L539
184-3
W
L440
183-7
W
M541
182-9
W
M442
G77-1
x
J007
P33-I
X
5372
857-4
X
N280 945-8
X
H943
P35-8
X
x
M983
P29-I
X
L680
H82-7
X
L540
084-7
X
L44
1
183-11
X
M542
078-
1
X
M443 077-5
y
Y
X373
858-4
Y
9280
945-9
Y
H943
P35-7
Y
y
M984
529-5
Y
L955
E77-12
Y
L54
1
184-11
1
L442
679-3
Y
M543
378-5
Y
M444 G77-9
z
z
5382
157-4
2
9280
845-10
Z
J007
P33-2
Z
z
M985
P29-9
Z
Z
L542
080-3
Z
L443
579-7
Z
M544
578-9
Z
M445 081-1
0
8
X383
L58-4
0
9280
945-11
0
6768
110-7
0
0
M448
528-1
0
1691
o L543
080-7
0
L444
079-11
0
64545
582-1
0
M446 G81-5
b
080
b
080
b
GRD
b
080
b
040
520309)
(CONSOLE
5203(3)
ICONSOLE 5203141
b
GRO
14921
11521
II KIl
(IK2I
b
sRD
b GRO
(CONSOLE
17031
H83-3
b
520310)
GR0
ICONSOLE 52031 II
r
NOTE.
CABLE DESTINATLONS ARE SHOWN BELOW THE TABLES 25041; eg., 135)1
THAI THE CABLE DESTINATION IS CI-IASSIS
0300, CONNECTOR GI.
b GRO
ICONSOLE
5203IZ)
b GRD
(CONSOLE
)!
1
1
IISDICATES
:=
!
1
-
1
TT1U
1
ts
••
CONTROL DATA
CORPORATION
1604-A
CABLE CONNECTOR
PIN ASSIGNMENTS
CHASSIS 1 0200
XDP214613
1
80.2
•SSS100SSOISSSSSSSSSSUSSSOSSSSSII
A2
Bt
PI_N
PIN TERM
B2
JACK
P114
CI
JACK
TEAM
PIN TERM
C2
J*Cfl
PIN
rERM
D2
DI
PIN
JsCn
TERM
JACK
PIN
TERM
EI
JACK
A
4 J 331 183-9
1* E351 677-7
4 1612 A53-12
A Soll 080-3
A 1512 A53-II
A
Solo D79-2
A
8 T0l-T04,pin 1
6 J334 J78-12
B E353 878-7
B 1610 A54-12
B Solo
6 I6!3 554-1 1
8
5020 081-12
6 5020 D81-1
c
c
C
C
1614 955-12
C 5021 582-3
C 1614 AS5-I
C
5030 063-12
0
D 1513 928-6
0 E363 680-7
D 1615 956-12
0 5020 581-3
D 161s 956-11
0
S040 E19-12
E
E 1616 457-11
E
9050 E81-12
1512 925-6
E361 679-7
579-3
TERM
JACK
PIN
TERM
PIN
TERM
JACK
PI'J
S021 082-10
8
5021 082-9
B
V205
661-6
B
V679
073-11
B H04 1 68 1-2
8 V403 M6 -9
C 5030 083-11
C
5030 093-9
C
S031 584-12
C
5031 564-10
C
S03
584-9
c
6555
082-11
C
V483
640-6
C 9033 680-2
C
D
5040 E7911
0 5040 E79-9
D
5041 E80-12
0 5041 EBO-Il
0
5041 EBO-lO
0 5041 E809
D
5666
L05-6
D
F541
N80-8
D
0 9680 074-9
E
5050 E81-Il
E
E
5051 E82-12
E
E sosi
V420 M73-9
F 1616 958-11
F S060 E63-12
F 5060 E83-II
H 5041 E80-3
H 9124 501-1
H 5070 679-12
H 5070 F79-11
J T0I-T04pin 3
J 1517 432-6
J E373 684-7
J 6040 078-11
J 5040 E79-3
J X134 001-7
J S080 F81-12
J 5080 681-11
E82-l0
E
SOSt E829
E
E
V661
052-11
E ooj
F 5060 E93-9
F S061 E84-II
F S061 E84-10
E
5061 E84-9
F 11974
J52-12
F
5650
055-10
F
174-12
F V222 676-5
H 5070 F79-9
H SOlI F80-12
H 9071 F90-11
H 5071 680-10
H S071 F80-9
H 9974
J52-ll
H
V861
642-12
H F433 M26-3
H V206 665-9
J S080 681-9
J 5061 662-12
J 5081 F82-11
J 5081 682-10
J 5081 662-9
J (1974
J52-l0
J
6472
L75-6
6 5091 F64-9
K
V6BI
P32-Il
K V697 M40-6
6 V407 6160-7
5051 E82-II
L H974
J52-R
L
V676
071-9
L w910 6165-1
L V409 6162-8
M Si 1 1 982-10
64 51 1 1 582-9
M 5211
666-9
M
VB8O 074-11
M 6407 6146-11
M V205 661-7
N 5121 964-11
N 5121 984-10
N 5121 884-9
N V207 663-6
N
VR5O 640-12
N 6403 6144-2
N V207 K63-5
P S131 482-11
P S131 982-10
P 5131 H82-9
P
P
V670
060-9
' 6411 672-2
P V214 651-12
6 S090 F83-9
K S091 F84-12
6 5091 F84-1 1
6 $091 F84-10
L SI00 G79-I1
L 5100 979-9
L SIOl 980-12
L SIOl 980-11
L
M S061 684-3
M 5164 503- 1
M SI 10 981-12
M 51 0 581-11
M SI 0 561 -9
61
M Si 1 1 582-11
N 5060 E63-3
N 8174 003-7
N 5120 583-12
N S120 583-11
N 5120 G83-9
N SISI 884-12
M 6140 678-11
N
N 1615 456-6
N 6391 C82-7
14 6140 E78-10
St 1 1 G82-12
' 6413 673-11
K H974
6 5090 683-1t
L 5100 579-12
M E385 C8 1 -7
4431 L74-I
L SIOl 580-9
K S090 F83-12
M 1614 855-6
CARD1
J52-9
L 6154 D02-7
M TOl-T04pin 2
E
5603 021-5
F 5061 E84-I2
5050 E81-9
K X 144 002- 1
681-3
A V670 060-6
5031 584-12
E 5030 089-3
soso
MCX
K80-4
C
F 1616 958-12
L
5077 M74-9
PIN TCRM
4 SOlI 560-10
H N040 578-12
6 S05 1 682-3
JACK
TEAM
B
H E373 683-7
L N140 678-12
PIN
5021 502- 1 1
F E371 882-7
K 6040 578-10
A
12
II
JACK
B
H 1516 931-6
L E383 C80-7
A VeRS 645-12
TERM
4 SOlI D8011
F 1515 430-6
K E381 C79-7
PIN
5021 082-12
H
L 1613 654-6
JACK
TERM
B
E 1616 557-12
D80-9
PIN
A SOlI 080-12
E 6365 681-7
K 1612 453-6
JACK
B 5020 081-9
079-11
E 1514 429-6
L
TERM
4 SOlO 579-9
Solo
E
$6
P94
JACK
rCRM
HZ
HI
G2
GI
F2
J*CX
4 SOI
F
S031 D84-3
FI
E2
PIN
PIN UHU JACK
siol
580-10
p
p 1616 857-6
P 6393 C83-7
P 6140 E78-9
P 5071 680-3
P
P
5130 881-12
P 5130 H8l-11
P S130 H81-9
P S131 882-12
R
R 1616 858-6
R E395 C84-7
R 6240 F78-12
R S070 F79-3
9 F433 6126-2
R 5140 883-12
R S140 983-11
R 5140 H83-9
R S141 1-184-1
R S141 H84-11
R 5141 884-10
R S141 984-9
R V621
034-5
R
VBB6
646-7
R
9 6612 J16-1
- (FUSE 'AXEL)
S 1512 827-9
S J253 674-1
S 6240 F76-I1
S 5081 F82-3
S
1-1886 J48-II
S $030 80-3
S J030 J80-4
S J030 J80-6
S
J031 J80-9
S J031 J60-10
5
S
5
V206
662-5
S
5668
649-7
S
S X6 14 J 17-1
T 1513 828-9
T J263 874-7
T N240 F78-10
T S080 F6l-3
T N888 J49-11
T J032 J81-3
T J032 J8I-4
T 1032 J81-6
T J033 JBI-9
T J033 181-10
T J033 J81-lI
T J033 J81-12
T 6530
L09-ll
T
5860
642-6
T
T
U J034 J82-3
5 J034 J82-4
11 3034 J62-6
U .J035 J82-9
Ii J035 J8210
Ii J035 J82-11
U 035 182-12
u
6530
L09-l0
11
V203
660-11
(.1
U
6530 L09-9
V
V611
027-8
V
V V102 L83-9
u
1514 429-9
U J273 675-1
U N240 676-9
U S091 F84-3
v
J644 676-7
V J283 468-1
V N340 578-12
V S090 F83-3
V 6930 J76-5
V J036 J83-3
V J036 J83-4
V J036 J83-6
V J037 J83-9
V J037 J83-10
V J037 J83-lI
V J037 J83-12
v
w
6141 6105-7
W J293 676-1
W 6940 578-11
W 5101 580-3
W A997 654-7
W J038 84-3
W J038 J84-4
W J036 J84-6
W J039 J84-9
W J039 J84-l0
W J039 J84-11
W 039 184-12
w
6311
L31-7
W
5673
062-lt
W
W
x
6313
L30-7
X
V862
645-6
X J137 608-7
X V064 607-9
5102 L83-10
6141 H05-12
X J363 852-1
X 6340 G78-10
X SI00 579-3
X
X J330 1182-10
X J330 082-6
X .J33l 183-12
X J332 184-5
X 332 184-6
X J332 584-7
X J331 183-11
Y 6141 6105-6
Y W209 651-1
Y 6040 078-9
Y SIll 682-3
Y
Y J333 J76-3
Y J939 J78-4
Y J334 J78-B
7 J335 J0-II
Y J335 J05-I0
5 J335 J05-l2
Y J394 J68-II
'6
6315
L28-4
'6
V678
073-5
Y
7 V066 608-7
z
z 6394 866-1
Z
Z Silo 581-3
Z
Z H990 178-7
Z 8990 178-6
Z 9990 276-9
Z H992 180-9
Z
8992 180-10
Z -1992 160-11
Z H992 180-12
z
63(7
L27-3
Z
V69B
644-11
Z H944 176-1
Z Y355 873-1
0
0 6395 859-1
0 N040 D78-7
5121 584-3
8
0 1991 179-7
0
0 4991 179-9
8 4993 181-9
0
6993 181-10
8 H993 181-11
6 9993 181-12
0
0 65(0
613-2
0
0 1-1810 J23-4
6 GRO
b 560
b 13R0
b
860
b GRD
b GRO
(762)
XIX
TERM 4*55
N040 078-8
b GAS
(4E21
J2
JI
JACK
J031 180-12
U 6930 176-6
x
XIX TERU
JOSI J80-11
6 GRD
b GRD
(482)
(GEZ)
KI
0
1(2
XIX TERM 4855
116
56861
K3
MCC
PIN
TEAM
L2
JflCK
XIX
TERM
b
GRD
1561 1
L3
ACK
P44
ACX
TERM
b GRD
6 595
(461)
PIN
MI
lEHM
(68 II
M2
Jack
PIN
P16
N2
NI
M3
JACK
lACK
TERM
PIN
TEAM
15821
(561)
JACK
PIN
TERM
(452)
Pl
02
01
PIN
JACK
b 96D
(55 1
JACK
TERM
P18
TERM
JACK
Pik
TERM
JACK
4 Z122 660-5
4 6503 612-12
A
4 6622 401-3
A VBIO K31-5
A F518 1.179-6
4 V810 631-6
A
6451 J19-5
6 6536 684-7
8
V820 633-4
8 Z132 661-5
9 6502 612-6
6 H898 L15-1
8
6 6315 L28-9
8
B V652 042-10
6
NO3-4
9 V413 183-6
6560 080-11
C
C F589 J54-7
C Z142 462-5
C
C
C 6910 1111-10
C V647 6154-8
C J173 605-1
C 6315 L28-10
C V630 6496-9
C 5679 073-9
V103 L84-3
5 vsio 611-12
0 F518 M79-8
0
120 N04-1
D V647 M54-10
0
72 607-6
D
V682 P34-11
6623 JI1-5
E
E
E
J142 J05-1
E V814 631-12
E 6521 LOB-Il
E
6507 M84-7
4 9971 690-5
4 F432 M25-7
4 8401 L56-3
6 9432 G76-12
B J360 4527
B
H050 678-9
6 F433 N26-1
B
c H660 J43-1
C
C
6(02 683-1
C
C
F537 N83-1
0 11860 J43-2
0 J064 P69-1
0
F505 L82-12
0 F454 L80-1
0 6560 080-9
D
F540 681-1
5
F590 641-7
5
Z152 469-5
0 V699 665-9
0
E 6476 M31-6
E
E
9077 U74-7
E
F455 M28-1
E
E
F541 680-1
E
6594 655-7
E
Z162 564-5
E
E
F 8891 J51-1
F 6461 6130-1
F
H402 L57-1
F
6456 6129-1
F V402 M56-10
F F546 6178-7
F V404 M58-7
H
H
H
V608 036-11
TERM
166 1 1
78 II
b GRO
A F586 J56-7
4 W239 851-7
6447 6127-1
PIN
]
(CD II
8
] bb CR0
CR0
4 F527 N84-1
4 6623 Jll-4
J176 603-5
Cl 8 1
LI
TERM MCX
b GRO
b 898
(IE II
1-1991 179-8(
6569 076-5
V420 6173-12
8910 HIl-11
v910 81 -8
8614 631-10
9971 630-12
A 6404 6158-6
jiis
F Z172 865-5
6 F940 P21-9
F 6581 L14-3
F V073 606-9
F 6313 L30-10
F 6315 L28-7
F V652 042-9
F
6 F663 L84-7
1030 L70-1
H 6457 6129-7
H 8404 6158-1
H 6549 6171-7
H 6596 616-7
1 501 1 080-4
H F404 M20-1
H 6581 L14-4
N N553 576- 1
H V637 M40-7
H 6315 L28-6
H 6313 L30-11
H
H 6405 N36-7
J 6408 142-4
J 6207 M68-1
J 5073 908-1
J 6460 M30-1
J V404 M58-9
J 6549 6171-8
J 6454 L80-4
J 502 1 D82-4
J F4 10 6126-7
J 6552 M76-1
J N553 E76- 1
J V820 633-5
J 6476 M32-3
J 9637 6140-10
.) V892 L 6-6
J J 1 30 M65-7
K V432 G76-7
K J176 603-6
K 6623 11-10
i( 6461 6130-7
6 5404 M58-8
K 6549 61719
K F620 628-7
6 S031 084-4
K F420 M22-1
6 VOlO L79-1
6 6557 576- 1
6 V644 6151-9
6 W910 M65-6
K V820 633-6 •
K 6408 L42-11
6 5652 042-6
L 6450 J12-4
L 6403 M44-4
L F512 6182-6
L 6475 6131-1
L H407 L62-3
L 6552 6176-7
L 6636 626-1
L S041 E80-4
L F421 6183-1
L v811 632-1
L H061 501-1
L 6317 L27-9
L 6514 N8l-5
L V644 6151-10
L V866 648-6
L J123 N13-1
M 8850 J42-4
M 6411 672-6
M S120 583-3
Y 6476 6131-7
M 6460 6169-1
M 6553 083-1
M
M S051 E62-4
M 6401 6156-3
M V814 631-7
M 6622 H0l-2
M V647 6154-7
M (171 N06-1
M 6317 L27-10
M VBIl 632-6
M F726 612-7
N 6461 6169-7
N 6410 671-4
N SISI 682-3
N F500 L62-1
N 6622 801-4
N 6555 082-1
N F650 6125-1
N S061 684-4
N 6424 6122-7
N V820 633-1
N 6624 902- 1
N V821 632-11
N 6406 L42-10
N V647 1.154-9
N F517 6180-1
N
V693 P57-8
p
P 9910 81 -9
P -1647 L53-2
P 6501 LBI-1
P 5063 F07-5
P 9420 M73-11
1' F425 6123-1
P SOlI 680-4
P
P 5821 632-7
P 661 1 1-113-3
P 6541 680-5
P V866 648-5
P V821 632-12
P F518 6179-10
P
V420 6173-5
R
R
R V888 649-9
9 6557 D81-6
6553 083-8
K207 M68-9
R 6520 L07-2
R 9102 L83-11
R S130 681-3
R F501 L81-2
R J064 669-5
9 6557 051-1
R F426 6123-7
R SOBI F82-4
R F664 619-7
6 5830 633-7
9 8910 91 1-7
R V830 633-11
s
S
J064 P69-1
S
H810 J23-5
S
F505 L82-7
S J065 P70-8
S
S 6140 678-8
S S091 684-4
5
S
S
5
T 1771 6271
T F670 L60-7
T
S141 184-3
T
F506 M84-1
1
T 6340 578-8
T 9632 636-7
T 6623 11-1 1
u
IJ
U
5140 463-3
U
F427 6124-1
U SO
U
U
U
6521 L082
6397 577-2
-1033 680-12
Solo
11
6561 079-1
D79-6
T 6565 079-7
T
6140 678-7
T 5101 580-4
580-6
U
U
6140 E78-6
5
F569 078- 1
SI 1 1
582-4
6580 L13-11
6340 578-7
V831 636-1
9834 638- 1
6622 801-5
u 1 98
N76- 1
V81 1 632-5
V660 052-4
S 6517 6180-9
S
S 6311 L31-10
S 6477 624-1
T 5831 636-5
T F518 M79-9
T V660 052-5
T V637 6140-9
T 6451 J(3- 11
U
6546 6178-6
U V868 649-6
U V83 1 636-6
U V834 638-6
U 1615 456-10
V V696 P62-10
V 631 1 L31-1 1
V V623 037-10
V 5686 P42-lO
V 1616 457-10
5830 633-12
v
v 9041 681-12
V 66(0 H12-11
V F512 6182-1
V 5020 081-6
V F571 078-7
V N140 E78-5
V S121 584-4
V H940 175-1
V V843 640-1
V 6622 901-8
w 6560 L133
W VOlO L79-1
W 9101 682-1
W F513 6162-7
W 5021 082-6
W '1650 056-11
W 6240 678-8
W 5131 962-4
W 6561 L12-11
W V861 642-7
W
W 6832 636-11
W 8637 6140-6
W v832 636-12
W 5844 641-6
W 1616 A58-10
x xseo L134
X 9030 L72-6
X F500 L82-6
X 6514 6181-1
X V862 645-1
X 5209 664-9
X 6240 F78-7
X S141 984-4
X 6475 6131-4
X
X
X V834 638-5
X JI 1 1 61 -7
X V407 6160-9
X
5 J74-5
X V405 6159-4
Y 6580 Ll35
Y 6791 612-3
Y 6506 484-6
Y 6517 M60- 1
y V410 6163-6
Y F585 J56-1
Y 14240 678-6
Y
Y J050 L21- 1
1 J332 184-3
Y
y 9838 638-12
Y JI 1 1 61 1 -6
Y 7357 173-1
Y
ft
'6 ji 75 903-4
Z V644 M51-8
Z
Z F568 J54- 1
z 8971 630-1
Z 11808 J22-12
Z
J74-4
RD J74-1
0 V682 634-10
0 6207 6166-11
0
b 860
b 560
b CRD
00
146(1
l4J1)
l4J2l
J74-11
Z 4405 L60-11
Z
Z F430 6124-7
Z 14240 F78-5
Z
Z J172 607-9
Z 6610 812-2
Z
Z V686 642-12
Z 6476 6132-2
8 V410 6163-3
8
8 6623 JI -9
0 6340 576-9
8
0 V403 6161-10
0 J330 182-3
0
0 6644 641-5
0 6635 607-12
6
0 6326 6(6-6
0 6663 L84-8
b CR0
b GRD
b SRD
b 565
b SRD
b GRD
b GRD
b SRD
b SRD
b GRO
b SRD
b GRD
b GRI
(642)
(4J31
(6H1)
(892)
BEIl
16111
(4M2)
14631
12821
12911
(1911
1182)
wI
1
NOTE
CGBLE DESTINATIONS 4RE SHOWN 8ELOW THE TABLES A8OVE; eg., (762) INDICATES
TIlGT THE CABLE GESTINATION 5 CHASSIS 0700 CONNECTOR 62.
1
•
CORPOR.ATION
1
1
rnu CABLE CONNECTOR
PIN ASSIGNMENTS
ID
:
CONTRO DATA
1
CHASSIS 0300
1604-A
XDP 214614
1
JG
80.3
fill$$SSSO1SIISSi$SSSSSSOiSSSS 1$
Aa
Bi
eIN
PIN
A
A
B2
TCRM
JACK
CI
P IN TERM
JACK
PIN
C2
TERM
JACK
PIN
DI
TERM
JACK
eiN
TEAM
D2
PIN
JACK
EI
TERM
JflC
PIN
JACK
P1»
TERM
JACK
D
S043
E02-9
D K093
N73-12
D K762
S053 E04-I(
E
$053 E04-9
F
S06
E06-II
F
S063
F02-12
H
S073 F02-II
H
S073 F02-I0
F0412
J
S083
F0411
J
S093
F04-I 0
F06-12
1<
S093
FOG-Il
K
S093
F06-I0
K S093
G02I2
L
5103
G02-II
L
S103
GOU-IO
L
S103
G02-9
M S113
304-12
M
5113
504-11
M
5113
G04-10
M
5113
504-9
M V000
02-I2
505-10
N 5123
506-12
N
S123
506-11
N
S123
G06-I0
N
S123
506-9
N
V87I
P38-5
N
S132
101-10
P
S133
H02-12
P
5133
1102-11
P
S133
H02-I0
P S133
H02-9
P
U125
J71-7
P 1520 A29-6
R
SI42
-103-10
R
5143
H04-I2
R
5143
H04-1I
R
S143
H04-lI
R
S143
1104-9
R
5461
N63-7
R
1521
S
J040 101-5
S
J041
101-9
S
J041
101-10
S J041
101-11
S J041
101-12
S H946
F09-I
S 1525
202-4
T
J042 102-5
T J043 102-9
T
J043 102-10
1
J043
102-11
T J043
102-12
T vooe J06-B
T 1523
U
J044 203-4
0
J044 203-5
U
J045
503-9
U
1045 103-10
U
J045
105-11
U
J045
103-12
U 6304 622-8
V
J046 204-4
V
J046 104-5
V
1047
104-9
V
J047 104-10
V J047
104-11
V
J047
104-12
V
C K041
1<12-11
C 1520
429-11
C
S032
D05-12
C
S032
005-11
C
S032
D
D E413
B04-7
0 U025
J4-U
0
0 F534
N16-5
D I52
430-H
D
S042
EOI-2
0
S042
EOI-II
E
E E415
B05-7
E
U034 J35-5
E 1522 A31-12
E
(016
017-lt
C 1 5 22 431-11
E S052 E0312
E
S052
E03-lI
F
F E42 1
606-7
F
U035
J35-II
F
1523 A32-12
F
J141
<75- 1
F
1523
A32-I
F
S062
E05-12
F
H
H E423 607-7
H
U044 J36-5
H
V033 M02-9
II
J027
J60-I
H
X184
E82-I
H
S072
EOI-12
J TOI-T04,pin 3
J E425
B08-7
d
U045 J36-II
J
0 o5j075
J
K016
OIIO
J
X194
E 6 27
J
S 0 82
F03-12
K
K E431
CO3-7
K
U054 J37-5
1<
J07-t 1
K
<016
017-9
K
X204 E83-I
K
S092
F05-12
L
L 1433 C04-7
L U055 J37-II
L
001-2
L F566 NO?-4
L
X214
E83-7
L
$102
UOI-12
M T0l-T04,pin 2
M E435 C05-7
M U064
M S022 003-2
M
M 5224 E84-I
M
SIlS
N
N E441
C06-7
N
U065
J38-II
N
S032 005-0
N
N
N
P
P E443 C07-7
P
0074 J39-5
P
S042 E0I-2
P
P
R E445 C08-7
R
0075
J39-II
R S052 E03-2
R
S J204
B09-I
S
U084
57-5
S 5062 E05-2
S
V024 L09-I
T J214
B09-7
T
U065
57-II
T
S072 F01-2
T
u J 224
810-1
U
U094 J65-5
U
5062 F03-2
IJ
v J234
UI?- 1
V
U095 J65-11
V S092 F05-2
C S033
DOG-12
C
S033
DO6-I
D
5042 EOI-IO
D $043
E02-12
0
E
S052 E03-O
E S053
E04-12
E
S062 E05- ri
F
s062
E 0 5- 0
F
S063
E06-12
H
S072
FUI -II
II
S072 FOl-lO
H
S073
d
S062
F 0 3II
J
S082
J
S083
K
S092
F05-II
K
S092 F05-I0
1<
S093
L
S102
UOI-II
L
S102
GOl -lO
L S103
UO3-12
M
5112
503-11
M
S112
503-10
SI22
U05-I2
N
U122
305-11
N
S122
P
S132
H0I-12
P
S132
Hol-Il
P
R
R
S142
H03-12
R
5142
Fl03-II
S
S
J040 101-3
S
J040
101-4
6025 LI0-I
T
T
J042 102-3
T J042
J900
J17-6
U
U
J044 103-3
V J062
J62-9
V
V J046 204-3
001-11
A
SO2
DOl-lO
F03-I 0
A
soi
A
S013
002-10
E06-I0
M6L-3
D V094
<06-8
D
(070
071-3
E
J900
1 7-2
E V153
08 4-I
E V006
J05-6
E K004 M04-2
J70-7
F
K33 1
M42-12
V483
N51-I0
F F652
M39-6
F V342 K43-I0
F
UI 5
H S073
F02-9
ii
U135
J72-7
H
K044 K14-2
H V096
KOS-Il
H K570
N78-3
11 V000 J026
J
F04-9
J
U145
J73-7
J
<042
J
039-1
J
LOI-2
J V346 K46-9
K
F717
N39- 1
K
(040
(12- 1
K V005
L V856
P32-6
L
V186
046-5
L
M 1518
A27-6
M K693
1519
A28-6
S083
06-9
W S102
601-2
W
W
W J048 105-3
W J048 205-4
W J048 005-5
W J049 105-9
W J049 105-10
W J049
105-11
W J049
105-12
W V455
ulos
168-11
X
S112
503-2
X
6 6942 M68-5
X
J350
H13-10
X
J350
X
J350 413-12
X
J352
111-5
X
J352
111-6
X
1352
111-7
X
J351
110-9
X
Y W248 438-1
Y
2114
J70-5
y
S122
605-2
'(
y
I7-I2
Y
U353
412-12
Y
J353
612-10
Y
J355
612-5
Y
J355
112-6
7
.J355 612-4
Y
J354
HII-9
Y
J900
z N490 619-1
Z Ui 5
J70-11
Z
5132
601-2
Z
07-4
Z
H994 106-8
Z
1994 106-9
H994 106-10
Z
H996
108-12
Z
1-1996 108-11
Z H996 208-9
Z
J900
b GRD
(3E2)
J2
J71-5
0
S142
b
URD
PIN
0
b CR5
b
12621
K2
KI
JACK
6
16F21
(3C2)
J3
PIN TERM
103-2
rERM
jacn
pIpd
GAS
JACK
A J354
HlI-12
A V788 058-0
A J139
M43-6
A 6097 609-8
8 J351
110-12
B V155
039-9
8
(485
640-5
B
c F657
N17-7
C ‚J067
029-1t
C K 050
L12-9
C
N75-11
PIN
b
1995 107-8
662
PLN
TURM
0
6995
b
GRD
11B21
LI
aCM
TERM
0
IIEUI
K3
TERM
6541
CARD1 J07-10
Z
H995
107-91
(282)
L2
J4cn
H12_III
J
b
54D
rERM
JAC«
eIN
TURM
0
6997
b
URD
1521
L3
PIN
101-10
P111
1997 109-11
b
GRD
JACK
eIN
TERM
A ZIBO
620-5
A K253
N17-12
15
F474
M72-I
4
VlSI
034-6
A F576
004-1
4
B
Z190
421-5
B
6701
010-10
8
F502 M09-1
B
5190
052-4
8
L16-3
B V701
C
Z200 622-5
C
<882
N41-I
C
F503 609-7
C
6479 <21- 1
N81-7
V474 M53-11
C F597 005-1
0
010-5
C
P111
0
6997
(B2)
060K
PIN
TERM
a
2105
b
GRD
(8B2)
NI
TERM
209-9
b GRD
b GRO
MO
JACK
108-10
6997 109-10
16132I
M2
TERM
<065
0
I5132I
Ml
JACK
109-12
Z 6996
PIN
TERM
1<13-2
488 0
H031
K K540
N74-4
K H444
N25-I0
L K541
N15-4
L v151
075-10
N6811
M K550
N762
M VlSI
0759
N V154
043-10
N
N77-2
N V097
K09-7
P
V841
P32-12
P P1570
N78 - I
P
A30-6
R
V096
<06-12
R
J831
J59-5
R V004 J04-9
431-6
S K016
017-6
S
J833
J59-II
S V341
432-6
T V527
M34-II
T
U 1618
653-6
U K016
017-7
U 4035 L03-3
U
V 1619
454-6
V 6788
058-8
V 4043
V
K02-I 1
K55I
H05-3
007-10
6713
W 6306 K246
W 6788 058-8
W
656-6
X
X 6071
483-2
X V311
J17-l0
Y 1622
457-6
7 6550
N76-II
7 H075
183-2
Y F566 N076
J17-9
Z 1622
658-6
Z 6570
N78-11
Z
Y457
173-1
Z H071
a
J135
636-9
c
KOUl
b
GRO
b
GRD
J68-7
W 2620 4556
X
0
4217
b
GAS
042-11
o
V071
b
240
(7F1)
N3
I
PIN
TERM
JACK
U014
PIN
02
TERM
JACK
PIN
TERM
TERM
TEAM
JACK
B 2250 N59-2
8 H179
030-11
C 2250 N593
C V440 N09HI
D V440 N098
A 6053
L13-I0
A
J3I- 1
A R039
L42-I
A P039
L30- 1
A V155
B
6171
001-1
B
F672
K64-1
6 6053
L13-9
8 0024 J34-1
B 6212
026-6
B 1-1185
036-12
C
6171
001-3
C
II
L07-I
C V705 013-10
C
H183
035H2
C
PIN
JACK
025-11
665-7
C 6744 M385
N714
A 6176
A F656
U034 J35-I
683111
Pl
03
PIN
JACK
K27-10
(3JI)
(322)
(511)
01
JACK
P38-6
4 6440 N09-I0
2
<42-6
T 1770 J69-3
1621
B73- 1
(5G2)
N2
JACK
F
F S063 E069
X
H13-11
TERM
E U039 L17- 1
W U104 J68-5
b GRD
JACK
D05-IO
Soiz
633-1
U124
0 V527 M34-I0
S043 E02-IO
E
C 1520 429-12
0
H725
C V503 M21-4
D
34-5
626-1
B (663
P304
S053 E 0 4-
C 1J024
N491
P303
C H856
S043 E02 - II
803-7
0
8 H856
C
c E411
J
KlI-8
(€90 L63-6
A V005 KO22
8 V099
D04-II
00
J69-6
HINIO
M55-I
002-11
S023
Z
A 1770
J354
tIO-IO
S013
B
J000
P271
A
O9O
4
004-12
J17-II
JACK
4 H841
N72-6
C
D02-12
B S023
J900
PIN TERM
JACK
B J351
c
x J344
JACK
PIN
JACK
TERM
PIN
dl
12
II
TERM
PIN
472-4
B S022 D03-lO
w J244 81 1- 1
H2
J*CK
C K090
6 S022 D03-tI
TEMU
TERM
B K090 N725
4
DO-IZ
PIN
PIN
006-9
001-12
SO2
(USE PANL)
JACK
0049
S012
8
R
TERM
so
4
428-11
E84-7
PIN
C
A27-U
B 1519
X234
JACK
S033 00610
4 1518
B K040 K12-2
38-5
TERM
0
<12-1
428-12
S012
PIPI
002-9
A K040
B 1519
CURD1
J*CK
1-11
G2
GI
TEAM
S023
A27-12
J31-II
3O-l2
PIN
8
4 1518
U015
1521
JACK
4 solo
J3I-
B
BOI-
TERM
S023 DO4Q
4 U014
E40L
eIN
4 K090
B E403 B02-7
TQI-T04,pin 1
B
F2
FI
E2
TERM
039-10
D <780 M27-2
0 J067
029-10
D V006
J05 - 8
0 3787 057-11
D
Z210
623-5
0
K883
0 F509 N16-7
0
D F437 L68- 2
D 6051
L06 -6
0 P059
L30-l0
D
-s039
D v000 J02 - 7
D U044 J36-1
D K767 M65-12
0
H478 N6612
D 1250 N594
E 6090
N72- 1
E J067
029-9
E 6077
L31-I0
E
6487
P39-9
E
Z220 224-5
E
2284 N58-7
E
F519
M25-7
E
E F619
K69-7
E K217
042-6
E
2059
L17-I0
E
6047 M07-2
E
E U054
E j094
E
J062
E V787
F p578
J32- 1
F 6064
1_15-2
F 6050
LI2-7
F
6071
571-11
F
Z230 425-5
F
F535
MI5-4
F
F522
MII- 1
F
F
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F 6308
625-4
F
6253
NIl - Il
F
W780 P14-I
F
F
F
F652 M39 - 1
F V787 057-10
F V442 N2I-II
II J832
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H J066
N54-8
H 6347 K49-9
H
6071
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H
S013
002-4
H
6175
020-11
H
F523
MII-7
H
H F639 672-2
H V340
641-7
<1
H761
N47-9
H
J067
029-6
H 6541
N75-II
H 3074
J39-I
H <766
M65-4
H
F652 M39-2
H
J061
002-1
II
J J834
15-8
P54-1
J
J
5023 204-4
J
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J
F524
M12-1
J
J
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J
F680
J64-7
J
6781
647-6
J
V705
013-12
J
F543
N0I-6
J
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J
M65-5
J
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052-6
J
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J
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541-6
K $033 D06-4
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673-1
K
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1< 6012
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K
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K
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K
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K
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K 6081
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K
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K
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K V174
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L
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L
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L 1-1811
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L
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L
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L
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L K08I
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L
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M F441
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M
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M W144 676-10
M S023
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M 5818
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M
6714
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M
6152
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M U015
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M <1090
K 5045 M06 - 5
J
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K 6069 P54-7
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K FUSS
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L V347 K49 - 7
L
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L F543
M V561
N J066
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M V000 J02-I0
M $053 604-4
N K712
006-11
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L
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M13 - 7
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L05-2
5 6134
72-5
N
N S063 606 - 4
N F443 L69-1
N
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5
5 3033 006-2
5 5820
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5
6260
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N
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N
P 6077
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P J259 511 - 3
P F567
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P 6487 P39 - 8
P $073 F02 - 4
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P 5043 E02 - 2
P
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P
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P
6154
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P V341
R «031
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R 4035 L03-4
R
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R E671
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R
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R
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R F547
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R V440 509-7
R S053 E04-2
R 1-1830
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R
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R
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S 4047 M07-3
S 6487
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S 6993
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S S093 F06-4
S
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S
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S 5063 E06-2
S 6833
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S
V487
P43-6
S
T F669
M78-12
T S012
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T 5144
J73-5
T H039 L05-3
T
3103
502-4
T
F453 L71-1
T
F653
J74-1
T V443 524-4
T S073 F02-2
T H666
P36-12
1
6636
004-7
T
6441
520-11
T
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U S013
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U 3145
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U F554
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U V444 524-9
U S083 F04-2
U 4634
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U
6253
517-9
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V 6070 071-10
V
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506-4
V
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F562
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V 5448 N27-3
V 3093 F06-2
V 5845
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V
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L72-1
W F563 506-7
W 6606 542-6
W S103
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W 6663
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N 5094
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P 6016
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P H099
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P V167
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R
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R V350
650-11
R 3177
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T
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T
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T V178
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W $023 004-7
W V002 J03-9
W 6070 071-9
W $133
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X 5552
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X V002
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X $143
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X F472 L72-7
Y 6508 M24-11
Y 6695
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Y V006
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Y
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084-4
Y
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031-12
Y 5123
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V J009 655-7
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V $022 003-7
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CU8LE DESTINUTIONS ARE SHOWS GEL0W THE TABLES AB0VE
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THAT THE CABLE DESTINATION IS CHU$SI$ 0300 C0NNECTOR UI.
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1
191
CONTROL DATA
CORPORATION
-
CABLE CONNECTOR
PIN ASSIGNMENTS
CHASSIS 0400
XDP 214615
G
80.4
1
fill
ei
A2
82
TERM
JACK
A
4 E500
801-1
A E
B TOI-T04, pn 1
B E502
B02- 1
c
c
E510
B03-I
PIN
P94
Ci
P IN TERM
JACK
B77-I
PIN
C2
TERM
JACK
PIN
JACK
PIN
JACK
TERM
A U240 J03-6
A U003
J04-II
A 1624 A53-II
5 5 0 B78- 1
B E552
B U250
B
J013
(04-1 1
B 1625
C E560 B79-I
C U260 L03-6
C U023 L04-I
C 1626 A55-U
(03-6
PIN
TERM
JACK
PIN
D 1627 A56-t
0
A63-5
E 1628 457-11
E Z282 A64-5
E
0 E562 e80-I
0 (J270 M03-6
D LJ033
B05-I
E E564 B8I-I
E U280 NO3-6
E U043 N04-II
F
F E520 806-1
F E570 882-1
F U290 003-6
F
U053
004-11
F 1629 A58I1
F
Z292 A65-5
F
H
J33-II
H X244 DCI- I
H 1524 427-9
H
J
J
J
H J115
081-11
H U063
J E524 808-1
J E574 B84-I
J
081-10
J
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K E580 C79-I
K J
L
L E532
C04-I
L E582 C80-1
L JI 15
081-8
MTOI-T04,pin 2
M E534 C051
N E584 CBtt
M J116
Pl
N E540 C06-I
N E590 C82-I
N JI6
P
p E542 C07-I
P E592 C83-I
P
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R
R E544 C08-I
R E594 C84-I
R
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(FUSE PANEL)
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1525 A289
429-9
1
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PT
L
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A J320
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8
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B U023
L04-5
B
N570 L62-IO
B
C U023 L04-6
C
U073 K33-4
C U033
M04-5
C
N570 L62-12
C J322
D U033 M04-8
0 U072 (34-4
E
E
J043 N04-8
E U053
004-5
E
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F U053 004-8
F U082 L34-4
F LJOG3
J33-5
F
JACK
P4 1
B H964 K7 -2
B 11952 N61
C 11965 L71-2
C
1952
N61-3
J66-
P36-I
0 H965 L7I-3
0
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oo
E U009
L84-6
E H977 M09-2
E
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K76-II
F
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034-8
F N070 L56-I
F H954 J66-3
H U132
K60-8
H NI7O
H H960 M66-
J U142
L60-8
J N270 N56-I
H U093 M33-4
H 1J073
<33-7
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J U073
J
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J U083 L33-5
J
K76-I0
K U083 L33-8
K W340 P55-12
K U093 M33-5
K
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K F7t8
p15-5
K 1972 075-9
( H960 M66-4
L
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L U093 M33-II
L X274 002-7
L 1527 A30-9
L 1524 A27-6
L U093 M33-8
06212
M U103 N3311
M X284 0031
M 1528 A31-9
M 1525 A28-6
M
1)102
N34-6
082-11
N U113
033-11
N X294 003-7
N 1529 A32-9
N 1526 A29-6
N N054
082-10
P 1J123
J59-II
P
J610
N39-2
P 1838 1(07-1
P 1527 A30-6
HIC
082-9
R U133
K59-II
R J620
N39-8
R 1839 K07-7
R 1528 431-6
R N054 K16-IO
S J116
082-8
S U143
L59-II
S J630 N38-2
1200 J22-5
N33-5
L
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L 1(602
J64-2
L N470 J62-1
L
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M61-2
M W340 P55-10
M 0113
033-5
N
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M <602
643
M 1970 071I
M H951
M61-3
(16-12
N W340 P55-9
N 0123
J59-5
N
N570 L62-8
N K453 079-7
N H970 07-2
N H955 K66-3
P N054 CIG- Il
P W340P55-8
P U133
(59-5
P
N570 L62-9
P U122
J60-8
P
P
1-1955 K66-2
R W340 P557
R U143
L59-5
R
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N66-8
R
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R
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N66-2
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J65-10
S
H961
S
K961
N66-3
L71 -4
T H061
N66-4
L
A32-6
S W341
P56-2
T 1841
T 1624 A53-6
T N054 K16-8
T W341
P56-I1
T U022 L05-8
T
T H965
u
J225
BIO-I
(J
B75-I
U
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U J650 N37-2
U 1842 KIO-I
U 1625 A54-6
U N054 KIC - ?
U W341 P56-10
U U032
U
U H965 L71-5
v
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A17-I
Y05-8
V '(285 468-1
V
V
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N37-8
V 1843 KlO-?
V 1626 455-6
V N054
(16-6
V W341
P56-9
V U042 N05-8
V
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W.245 BII-I
W J295
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W
W
W 1967 K65-I
W 1844 L07-I
W 1627 A56-6
W N054 616-5
W W341
P56-8
W 0052
005-8
W
W 2557
x
X J365
652-1
X
X
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X 1845 L07-7
X 1628 457-6
X
N154
L16-12
X W341
P56-7
X 6062
J34-8
X 6166
Y W258 438-1
Y W259 A51-I
y
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Y 1629 658-6
Y
6154
L16-II
y
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Y 6072
K34-7
Y
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2 N594 466-1
Z
Z
Z 1647
Z
Z
N154
L16-I0
Z
1213
677-4
7 6082 L34-0
1
N595 459-1
0
0
a
a
N154
L16-9
L77-4
0
U092 M34-8
0
1
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1b1
(4F1)
1
600
(ILI)
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P10 TEM
676-9
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2 N454 M39-2
1
0
N354 M38-2
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JACK
K05-II
P91
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(811)
K2
TERM
L08-7
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bGRD
(201)
KI
P40 TEAM
0
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L2
LI
TEAM
TERM
JACK
H0I-5
4 M030 H0I-9
A M845 FOl-
6 M816
102-5
6 M831
A U320 L32-3
4 U012
8
B F70I
B U330 M23-3
6 U022 L05-II
8
8 F704 P21-8
6 M801
602-9
C 3340 N32-3
0 6032 M05-II
C
C F704 P21 -5
C M802 603 - 1
C MGI? H03-5
C M832 603-9
U042 N05-II
011-5
H02-I
PiN
I b
(4N5)
PIN
TERM
J38-6
6603 J65-II
1
l 2
PN
TERM
woii
058-7
U H952 N6I-I
173-1
V W012
057-7
V H962 066-2
W N670 061-7
W 6962 066-3
X N670 061-8
X H963
d71-I
V J903
J84-I
Y N670 061-9
Y H963
J71-2
Z J904
K84-1
Z N670 06I-0
Z H963
J7N3
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N34-8
0
U102
IbJG
U143
PIN
0
bGRD
1
361)
(3H2)
Pl
02
01
JACK
L59-7
IbIGRD
1
0
(4H1)
NZ
JACK
N66-I
T WOlO 058-1
U
X
(311)
NI
JACK
A M815
A F704 P21-7
C F702 P25-7
TERM
A M800 HOI-!
PIN
j
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M2
MI
JACK
1
1
(212)
4
PIN
A 6950 L61-I
A 6133
Ib I GRD
659-5
PIN
Jack
1
1214
PIN
JACK
TERM
1 1 Ib IGRD
(XCI)
0
JACK
TERM
J H960 M66-3
U103
W34C P55-I1
S 1840 KOB-I
0
M56-I
66-2
H 0063 J33-8
T J640 N38-8
626-1
-a
0 J323
T
N591
JACK
A 11950 L61-4
(71-1
J76-3
K 1526
J145 076-7
TCRM
P40-I
J32 1
T
J345 433-1
PIN
A H964
T J265 674-7
J275
JACK
K76-4
K X264 002-1
C08-7
tERM
P45-I
B09-7
874-1
PIN
K76-5
3
0 U043 N04-5
U083 L33-4
H2
HI
TERM
B09-I
J205
12
LI0-7
PN
JACK
T J215
POl FERN
H950 L61-2
G2
TERM
S U012
II
c J691
PIN
S N054 1(16-9
(3F1)
JACK
K U083
X254 DOI-7
( J76-I
JACK
S 1529
ItG
TERN
i 15 081-9
U073 K3311
D Y555 573- 1
TEAM
S J255
0
PIN
J 1 15
Z272
PIN
A
8 uo 1 3
B04- 1
JACK
K04-5
(58-4
C U360 L58-4
TERM
A U013
8 U370
A625
PIPJ
A U063 333-4
-5
C Z262
E E54
H E572 883-1
JACK
GI
F2
F
TEPM
A U003 J04-8
0 E512
H E522 507-1
PIN
J5B-4
D
J TOI-T04,pin 3
JACK
A U360
E
M04-I
TERM
A Z242 A60-5
B Z252 46 1
A54-I 1
E2
EI
D2
DI
TERM
is is
TERM
JACK
PIN
3COM
JACK
PIN
360-3
TERM
JACK
A L704 176-7
4 M860 F0I-5
A M875 F0I-9
A L808 E78-3
4 L855
B M846F02-I
B M061
F02-5
8 M876 F02-9
B L809 E79-3
B L656 G81-3
B L705
C M847 F03- 1
C M862 F03-5
C M877 F03-9
C 1_6I0 E80-3
C L857 682-3
C L706 277-3
0 L707 277-7
1
176-11
D 0350 032-3
D
0
D F702 P25-8
0 N803 604-1
0 N818 604-5
0 M833 604-9
0 M848 F04-1
0 M863 F04-5
D MB7B F04-9
D LOl
E01-3
D L858 263-3
P70-1
6 3360 J58-3
E U052
005-11
E
E F702 P25-5
E M804 605-1
E M819
105-5
E M834 605-9
E M849 F05-
1
E 61864 F05-5
E
M679 F05-9
E 1_8 2
E82-3
E L859 G64-3
E L708
177-11
r 6603 J65-3
F H957 L66-9
F U370 658-3
F U062 J34-II
F
F E703 010-5
F M805
F M820 1106-5
F M835 606-9
F M850 F06-I
F M865 F06-5
F M880 F06-9
F L813
E83-3
F
1_868 678-7
F L709
178-3
1
H 8957 L66-8
H U380
H 6072 K34-1
H
H 11240 J03-4
H M806 807-1
H H821
807-5
N N836 H07-9
H M851 F07-1
H M866 F07-5
H M881
F07-9
H L814
E84-3
14 L869 279-7
J 8977 H09-9
J
J M822
808-5
J Y837 H08-9
J M852 F77-1
J M867
J
K H977 M09-8
1< U013
K M823 809-5
6 M838 H09-9
1< M853 F78- 1
K M868 F78-5
D F703 010-12
D H955 666-1
E
H 6957 L66J
1
6452 079-
8972 075-7
K 8962 066-4
E J312
L58-3
1)003 J04-7
804-7
U360 J58-5
U082 L34-II
J
U370 K58-5
J
K U092
M34-11
K
6380 L58-5
1< 6260 L03-4
J
1)250
603-4
606-1
J M807 H08-I
6 M808 H09-
1
'77-5
M882 F77-9
J L823 E78-7
'J
K M883 E78-9
K L824 E79-7
K L871
-1 L710 178-7
J
L870 280-7
68 1-7
L711
178-11
K L712
279-3
179-7
L
L
L 0023 L04-7
L 6102
034-11
L F701 011-1
L U270 M03-4
L M809 Hl0-I
L M824 810-5
L M839 -110-9
L M854
79-I
L M869 F79-5
L
M884 F79-9
L L825 E80-7
L L872 G82-7
L
N 8972 075-3
M
U U033 M04-7
M UI 2 034-11
M F702 P25-I
M
M M810
UI 1- 1
M M825 HII-5
M M840 81 -9
M M855 F80- 1
M M870 F80-5
M M085 F80-9
M L826 E81 -7
M 1_873 683-7
M L714 179-11
N 6965 1_71-I
N j315
P71-7
N U043 N04-7
N
U122
.J60-I1
N
N 6707 063-10
N M811
H12-I
N M826 612-5
N M841 812-9
N M856 F81- 1
N M871
F8I-5
N M886 F81-9
N L827 E82-7
N L874 G84-7
N M700
060-12
P U053 004-7
P 6132
860-11
P F704 P21- 1
P U300 J32-4
1' M812 882-1
P M827 882-5
P M842 982-9
P M857 F82- 1
P M872 F82-5
P M887 F82-9
P L820 683-7
P L883 978-11
P M701 101-5
L60-II
R
R M702 101-9
F703
010 - 1
L713
101-1
P H950 L61-3
P
R H977 M09-I
R U707 063-12
R U063 J33-7
R U142
632-4
R M813 H83-I
R M828 883-5
8 M843 883-9
R M858 F83- 1
R H873 F83-5
R
M888 F83-9
R L829 E84-7
R L884 579-11
s 1182 M08-7
S
S U073 633-5
S U004 J07-5
S F706 920-1
6 U320 L32-4
5 M814 684-1
S M829 884-5
S M844 H84-9
S M859 F84- 1
5 M874 F84-5
S M889 F84-9
S L838 E78-11
S L885 680-11
S M703 102-1
T 8970 071-4
T 8057 M2I - 12
T 0083
T 3004 J07-6
T
T U330 M32-4
T L800 E0I-3
T L815
601-7
T L830 E0I-II
T L845 G0I-3
T L860
T L875 501-11
T L839 679-11
T L886
581-11
T M704 102-5
( 176- 1
U L816
U M705 202-9
U701
L33-7
M08-I
U 8057 M21-II
U U093 1,133-7
0
v H972 075-1
V N057 M21-I0
V U103 833-7
V TIE
w H955 666-4
W N057 M21-9
W U113
W
u 1181
033-8
F705 009-1
R
U310
601-7
0
II 2340 N32-4
U L801
E02-7
U L831 E02-II
U L846 G02-3
U L861 502-7
U L876 502-11
U L840 E80-II
U L887 982-11
76-2
V
V U350 032-4
V L802 E03-3
V L817 E03-7
V L832 E03-II
V L847 G03-3
V L862 503-7
V L877 603-11
V L841
E81-II
V L888 983-11
V M706 103-1
L J76-3
W
W
w L803 E04-3
W L818 E04-7
W L833 E04-I1
W L848 G04-3
W L863 G04-7
W L878 G04-II
W L842 682-11
W L889 984-11
W M707 303-5
E02-3
X M708 103-9
x
x 0057 M21-8
X U123 J59-8
X
X
X 6955 K66-9
X L804 E05-3
X L819 E05-7
X L834 E05-I 1
X L849 905-3
5 L864 905-7
X L879 205-11
X L843 E83-II
X L700 175-3
Y J600 811-1
Y 8157 021 - 12
9
Y
Y
'Y 6955
K66-8
Y L805
E06-3
Y L820
606-7
Y L835 E06-11
Y L850 606-3
Y L865
Y 1_880 606-11
Y L844 E84-11
Y
175-7
Y M709 104-1
2 L702 175-11
Z M7IO 104-5
z J700 Nl0-1
J32-3
0 H962 066-1
632-3
L
UU,31
(41
1)
(612)
U133
659-6
Z 0143
906-7
L59-8
Z
Z
Z
676-6
7 L806 E07-3
Z L821
E07-7
Z L836 E07-II
Z L851 907-3
Z L866 507-7
Z L881
G07-I1
Z L853 578-3
0 6002 J05-II
0
0
0 1280
K76-12
0 L807 E77-3
0 L822 E77-7
0 L837 E77-II
0 L852 577-3
o L867 677-7
0 L882 577-11
0 L854 G79-3
b GAS
b
160
11
GAS
I6J21
b
6 GRD
GRD
16611
(682)
b
b GAG
GAS
(CONSOLE J20318
1
(CONSOLE J20319)
b
GAG
(CONSOLE J20320)
b GRD
ICONSOLE J20321
b
1
GAS
ICONSOLE 4203221
b
b GRD
GAS
(CONSOLE
J20323)
b
(CONSOLE 420324)
.
GRD
b GAS
(CONSOLE 120326)
IC0850LE 420325I
an
w
1
NOTE
1701
CONTROI. DATA
ki •
CABLE DESTINATIONS ARE SI-IOWN BELOW THE TABLEG ABOVE; e . g., (3G1) INSICATES
TAGT THE CABLE DESTINATION IS CHASSIS 10300, C0NNECTOR 31.
COPORATION
-
L flH
-
1
1
1604—A
0I _
ITAU
PIN
'
CQNNECTOR
ASSIGNMENTS
CABLE
CHASSIS
0500
1 XDP 2146 1 6
F___________________
1 80.5
I $if I III I
BI
A2
CI
Di
C2
EI
D2
F2
FI
E2
GI
III
G2
H2
H3
12
13
A
A E600 801-1
A E650 877-1
4 J194 N56-IO
A P000 J2O-II
A 1530 A27-t
A J054 J84I
TERM JACK
PIN TERM JACK
PIN TERM JACK
---—
—
A F382 03-I
A F912 H06-I
A W831 L09-5
9 TOI-T04pInl
B E602 B02-I
B E652 7B-I
B J196 N60-IO
8 POO J2211
8 1531 A28-II
6 P011
23II
B J020 H011
8 U130 M351
8 1J400 N223
B
U9O M421
6
U430 N293
8
F123 N1111
B F331 L1212
8 H051 L64C
B J097 K607
B F384 J03-7
8 F913 H06-7
B W832 L09-II
c
c
E610 B03-t
C E660 B79-I
C K735 056-lt
C P020 24-lI
C 1532 429-11
C P021
25-IL
C
C 1)140 M36-I
C U410 N24-3
C
U200 M43-1
C 0440 N30-3
C
F104 N05-5
C F331 L12-II
C F300 LOI-9
C oe K60-I
C
C F914 H07-I
C W833 M09-5
D
D E612 B04-I
0 E662 ABO-L
D K743 060-11
0 P030 J27-II
0 1533 A3O-I
0 P031 J28-II
0 JO2 1102-1
0 U150 M37-
0
J072 045-1
D
U2t0 M44-I
D U450 N2-3
0
F125 N12-12
0 F330 L13-12
0
'323 NIS-Il
0 L072 L31-3
0
1596 (57-1
D F915 HO7-7
0 W834 M09-IL
E
E E614 8051
E E664 B8I-I
E J078 P44-I
E P040 J2911
E 1534 A31-II
E P041 J30-II
E J023 H02-7
E U160 M38-t
E
<722 051-5
E
U220 M45-I
E
E
F125 N12-U
E
E
F332 1-14-II
E L076 L31-7
E
1253 J02-7
E U455 P28-8
E wA35 <12-5
F
F E620 B06-I
F ECTO 882-1
F J082 P46 - I
F P050 3I-II
F 5535 432-I1
F P051 J32-1I
F J024 H03-1
F U170 M39-I
F <891 P14-12
F 2230 M46-I
F 2470 N35-3
F 5125 N12-I0
F E324 LlO-4
F J068 H83-8
F L076 L31-I1
F F392 J08-I
F N357 120-1
F W836 K12-II
II
H E622 B07-I
H E672 B83-1
H
H P060 J34-II
H x304 501-1
H P061 J35-II
H J025 103-7
H P010 J22-7
H J191 N52-6
H H966 L32-I
H R907 M63-I
H F125 N12-9
H F103 N04-9
H F350 (06-5
H 1309 1(24-1
H EIOO NOl-?
H N457 L21-I
H 2328 79-I
J094
J <034 M57-5
J FlIC 1.114-6
J F105 N06-7
J F300 LOI-8
J 1399 K24-2
J Flol NO2-6
J N371 023-1
J 1334 J76-I
J09-IO
K K7I6 M54-8
K F116 M14-5
K F105 N06-6
K F324 LIO-5
K 1399 <24-3
K F102 NO3-5
t( N477 024-1
K 1338 d74-I
P91
TERM JACK
--
eIN TERM
82JACK
TERM JACK
---
PIN
PIN
-
TERM JACK
PtN
TERM JACK
eIN
j021 HOI-?
TERM JACK
Pl
TEAM JflCK
PIN TEAM JflCK
PIN TERM J*CK
—------A F310 L05-5
4 F303 L03-6
4 U420 N27-3
4 F23 NH-12
II
TEM JACK
Pik TERM
ACK
PIN
PIN TERM
04CR
TERM J4CK
PIN flRU JACK
-—
-----A u8O M41-t
4 U390 N20-3
A V026 M59-I
A W20 M34-I
4 POOl Jal-Il
PIN
PIN TERM JACK
PIN
U460 N33-3
F330 L13-II
PPj
J TOl-T04,pin3
J E624 5081
J E674 B84-I
J J510 M782
J P070 J36-II
J X314 501-7
J P071 J37-II
J V051 L66-3
J P020 J24-7
J J504 M70-I
J
K
K E630 203-1
1< E680 C79-1
K J974 M14-I
K P080 J38-II
K X324 002-1
K P081 J39-II
)( 4984 iO8-2
I( P030 J27-7
K W164 L76-1
K
L
L E632 C04-I
L E682 C8O-I
L
L P090 J41-II
L X334 002-7
L P091 J42-II
L 2985 HOB-8
L P040 J29-7
L J505 M71-1
L
P011 J23-8
L (716 M52-8
L FIO7 N08-6
L F320 L08-6
L F302 L02-12
L 1399 X24-4
L F102 NO3-II
L
L 1342 U72-I
M E634 C05-I
M E684 C8l-I
M J508 M83-1
M P100 J43-II
M X344 003-1
M P101 J44-II
M 0984 HII-2
M P050 J31-7
M
M P021 J25-8
M 1534 A31-9
M F107 N08-5
M F353 <07-11
M
M 1399 K24-5
M H928 L17-I
M
M 1393 048-2
N
N E640 C06-I
N E690 082-1
N Z300 820-5
N Pilo J45-II
N X354 003-7
N P111 J46-II
N 0985 HII-8
N P060 J34-7
N J506 M72-I
N P031 J28-8
N 1535 A32-9
N P300 LOI-I2
N F326 1-1 1-4
N F392 J08-6
N J143 L59-I
N F122 NI0-8
N 0426 P21-4
N J530 L83-I
P
P E642 C07-I
1' E693 C83-I
P W835 812-6
P P120 4B-II
P 0090 M30-I
P P121 J49-II
P W772 L29-I
P P070 J36-7
P 1(145 065-8
P
P 5657 173-1
1' F327 1-II-I2
P 1255 N83-7
P F122 NI0-II
P 1398 039-6
P
P U704 L49-3
P J530 L83-3
R
R £644 C08-I
4 £694 C84-I
R Z310 A2I-5
R P130 J50-II
R 2100 M31-1
R P131 J51-II
R W771 L28-9
R P060 J38-1
R J507 M73-I
R P051 32-8
R l074 046-1
R U415 PI7-4
R F327 LIl-Il
R F122 NI0-I0
R
R F310 L05-3
R 4238 L54-I
R J530 L83-5
s
S
S
S
u
TOI-T04,pin 2
(FUSE PANEL)
J256 874-1
S Z320 822-5
S P140 J52-1 l
S UIl0 M32-I
S P141 <53-11
5 W773 L27-I0
S P090 J41-7
S 6893 P15-12
S
F360 610-6
S F382 J03-5
S P041 .130-6
S 5367 M76-7
S
S
s
T J266 874-7
T 2330 223-5
T 4985 H08-II
T 2060 M27-I
T U000 M20-I
1 FI 10 605-9
T P100 J43-7
T K895 P36-12
T POOl J37-8
T W824 N38-9
T F381 609-6
T F323 615-12
T P051
32-6
T
T P131 J51-7
T U001 6120-12
T 1172 E02-I
u J226 810-1
U <276 B75-1
U Z340 424-5
U 8985 808-7
U 2070 6128-1
U uoio 6121-1
U FIlO 605-10
U P110 J45-7
U J531 L84-12
U P081 J39-8
U W626 N39-9
U F122 610-12
U F320 L08-5
U P061 J35-6
U
u P141 J53-7
U 0011 M21-12
U 1173 E03-1
v J236 817-1
V J286 868-1
V Z350 825-5
V 0984 811-1
V U080 M29-I
V 2020 M22 - I
V J 150 K62-I
V P120 J48-7
V J076 047-1
V P091 J42-8
V £727 052-10
V '326 LII-6
V F300 LOl - lO
V P071 <37 - 6
V
v p000 J20-8
V U021 M22-12
V 1174 E04-I
w J246 811- 1
W J298 876- 1
W 5530 427-9
W 0985 NIl- ?
W fl24 K21-7
W U030 M23- 1
W J150 K62-2
W P130 J50-7
W £730 055-5
W P101 J44-8
W J192 N52-12
W F324 LI0-6
W W773 L27-9
W P08! J39-6
W
w J770 L27-I
W 2031 M23-12
W 1175 E05-I
8 J346 433- 1
8 <366 252-1
8 1531 828-9
X F348 J62-12
X J124 621-8
X 1<040 M24- 1
X 6338 202- 1
8 P140 52-7
X J193 N56-4
X Pl 1 1 J46-8
X K034 M57-6
X F325 Ll0-l2
)( U704 L49-12
X P091 J42-6
x
x F675 H04-7
X U041 M24-l2
X 1176 E06-1
'8 W268 838-1
Y W269 451-1
Y 504 M70-8Y P349 808-12
Y 1198 L485
Y <050 M25-I
V 6508 009-1
Y P400 J04-5
Y J080 P45-I
Y 1329 J79-8
y J517 M78-7
y F323 N15-I0
y F301 L02-6
y P101 44-6
y
y F910 405-6
'( U051 M25-12
< 1177 E07-1
z N690 819-1
Z N694 866-1
Z 1532 829-9
Z 2987 J08-II
Z J028 L37-1
Z J812 J60-6
Z 6753 062-7
Z P401 J04-ll
Z K738 059-5
Z P131 J51-8
Z £136 M56-I
Z V415 L66-7
Z P123 Nil-lO
Z P111
46-6
Z
Z Will 128-7
Z 2061 M27-I2
Z 1178 E08-1
8 N691 826-1
0 N695 A59-1
0 2533 430-9
0 £232 L50-2
o J812 J60-5
[;2 .120-6
0 K752 062-1
0 P031 .128-6
0 J195 N60-4
0 P141 J53-8
8 .J510 6178-1
a 8953 L22-3
c 6775 P3B-4
o P121
49-6
176-1
0 U07l M28-12
0 1179 E09-1
b GRD
b 682
b 690
b 685
b GRD
b 682
b 880
b 690
b 680
b 282
b GRD
6 CR0
b GRD
b 682
b GRD
.1206 B09-I
J2
JI
A UO8l M29-12
B 2091 M30-12
P041 J30-8
T J216 609-7
(3F2)
PIK TERM 0*2k
oo.
CARDJ
PIN Tt11 JACK
A Pol i J23-2
B P021 25-2
(932)
(4F2)
J3
PItd TERM JACK
4 1369 33-1
A £564 .J59- 1
P34 TERM JACK
PIN
(2211
L2
LI
K3
K2
KI
P19 TERM JACK
(Id<
(262)
1011
TERM SACK
Source Exif Data:
File Type : PDF
File Type Extension : pdf
MIME Type : application/pdf
PDF Version : 1.4
Linearized : No
Author : KODAK Capture software
Create Date : 2018:03:22 19:44:59+01:00
Language : x-default
Tagged PDF : Yes
XMP Toolkit : SPDFLib 3.3
Producer : Eastman Kodak Company
Creator Tool : KODAK Capture
Creator : KODAK Capture software
Part : 1
Amd : 2005,E
Conformance : A
Page Count : 217
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