M 3058_The_Consolidated__Program_T 3432_Sep54 3058 The Consolidated Program T 3432 Sep54

M-3058_The_Consolidated__Program_T-3432_Sep54 M-3058_The_Consolidated__Program_T-3432_Sep54

User Manual: M-3058_The_Consolidated__Program_T-3432_Sep54

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Memorandum
M-3058
Division
6 - Lincoln Laborator,y
Massachusetts
Institute
of
Technology
Lexington 73, Massachusetts
SUBJECT:
THE
CONSOLIDATED
TEST
PROGRAM
--
T-3432
To:
E.
S. Rich
From:
D.
A.
Morrison
Date:
20
September 1954
Page 1
of
8
Abstract:
The
WWI
Consolidated
Test
Program, T-3432,
is
a
step
in
the
direction
of
shortening
the
time
required
by
the
daily
Marginal
Checking Routine.
Thirteen
different
test
programs
are
used
to
check
out
the
various
elements
of
the
computer. These
thirteen
programs have been combined with a
I1l
ea
der
u
read-in
program and
a
"trailer"
control
program
to
form a composite, semi-automatic
computer
testing
routine.
Certain
of
the
programs
require
manual
assistance
to
successfully
perform
the
desired
check.
Such
requests
are
printed
out
on
the
Flexowriter
printer
equip-
ment
and
the
computer
halts
operation
awaiting proper
action.
It
is
necessary
to
press
the
Start-Over
button
to
cause
the
routine
to
continue
after
filling
the
request.
In
the
ab-
sence
of
such
requests,
or
alarms,
the
computer proceeds
through
the
Consolidated Test Program,
automatically
checking
itself
with
one
program
after
another.
When
an alarm
occurs,
the
marginal checking equipment
::i.s
swi
tched
to
"manual
tt
and
the
computer
is
stoppedo·
1.0
Using
the
Consolidated
Test
Program, T-3432
1.1
ProgramSelection
The
Consolidated Test Program
is
a
very
flexible
device.
One
m~
choose which programs he
desires
to
use; he
may
change
his
selection
at
any
time,
and
he
may
start
eXamining over again
the
marginal checking
lines
of
any program
the
computer happens
to
be
using.
Program
selection
is
made
by
placing
the
proper
digits
of
flip-
Flop Storage
Register
(FFSR
#2)
on
a
1.
The
test
programs
are
arranged
in
the
order
in
which
read
in;
digits-l
through 14
of
FFSR
#2
control
the
decision
as
to
which programs
are
called
up
from
drum
storage.
The
test
programs
are
arranged
in
the
following
order:
Memorandum
M-3058
Page·
2
digit
1:
Alarm
Check
Program T-3219
digit
2: Arithmetic Element
Check
T-3218
digit
3:
Core
Memory
Test
T-3170
digit
4:
Diagonal Line Test T-3233
digit
5:
FETR
Check T-3232
digit
6:
Aux.
Drum
System
Test
T-2723
digit
7:
Aux.
Drum
Read
Check
T-3386
digit
8:
Aug.
Drum
Track
Check
T-2553
digit
9:
Timing
Register
Check
T-3488
digit
10:
Buffer
Drum
System Test T-3551
digit
11: Buffer
Drum
Read
Check T-3550
digit
12:
Buffer
Drum
Track Check T-3552
digit
13:
IOC
Check T-3562
digit
14:
No
Program (Spare)
At
the
present
time
there
is
no
program
for
digit
14
to
control.
Digit
0
of
FFSR
#2 must be
on
a 1
for
~C
operation
to
function.
If
digit
O
..
is
on
a 0
at
the
time
of
read-iii,
the
first
program
selected
is
read
in
to
the
computer,
but
marginal checking does
not
begin. Re-
turning
the
digit
"0" switch
to
0 during
FMC
operation
halts
the
marginal
checking
routine.
1.2
Use
of
Digit
15,
FFSR
#2
Complementing
digit
15
of
FFSR
#2
causes
the
line
selection
routine
of
the
test
program
in
use
to
start
over.
1.3
Use
of
Digit
0,
FFSRH3
Complementing
digit
0
of
FFSR
#3
causes
the
pver-al1
marginal
checking
routine
to
beg~n
over.
Thus,
if
a
different
combination
of
test
programs
is
desired
from
that
first
selected,
the
new
combination
should· be °
inserted
in
digits
1 through
14
of
FFSR
1/2;
when
digit
0
of
FFSR
13
is
complemented,
the
marginal checking
routine
begins over
again,
using
the
new
combination
of
test
programs.
Memorandum
M:"3058
Page
:3
1.4
Reading
the
Consolidated
Test
Program
into
the
Computer
The
Consolidated Test Program
is
on
a paper
tape
at
the
present
time.
The
following
precautions
should be observed
if
the
program
is
to
run
successfully:
a.
The
direct-printing
Flexowritershould
be
turned
on.
b.
All
maintenance switches should be
in
the
normal
position.
c.
If
the
in-out
control
program (T-3562)
is
to
be
selected,
the
magnetic
tape
equipment should be
turned
on.
d.
The
fli·p-flop
storage
registers
should be
in
the
normal
order.
:
e.
The
magnetic
drum
eqUipment should be
operating.
Place
the
tape
T~3432
in
PETR
and
press
the
READ
IN
button.
Any
further
instructions
necessar.y
for
running T-3432
are
printed
out
on
the
Flexowriter
printer.
1.5
The
"Line
Insertion"
Feature
Normally,
the
Consolidated
Test
Program
is
used
for
routine
examination
of
WWI
Computer
circuits.
\
Situations
can
exist
where
it
is
desirable
to
substitute
marginal checking
lines
for
those normally
used,
or
to
search
through
only a
portion
of
the
total
number
of
lines
available.
Fli~-Flop
Storage
Register
#4 allows programmed marginal
checking
to
start"
over
at
the
line
number
designated
by
the
right
ten
digits
of
FFSR#4,
instead
of
at
the
line
normally programmed. That
is,
digits-6,
7, 8, 9,
10,
11,
12,
13,
14,
and 15
represent
the
desired
line
number;
digit
5
contains
fast-slow
qycle information and must be
included.
Digit
0
is
sensed
to
determine whether
the
normally-programmed number
or
the
number
in
FFSR
#4
should be
selected.
Changing
the
contents
of
digit
o causes
the
number
in
FFSR
#4
to
be chosen.
The
marginal checking equipment employs
the
binary-coded decimal
form
of
notation
in
line
designation;
it
is
necessar,yto
convert
line
numbers from
the
strictly
decimal form before
insertion
in
FFSR
#4.
The
binar,y-coded decimal system
of
number
notation
allows
four
binar,y
bits
to
each decimal
digit.
As
9
is
the
highest
decimal
digit,
1001
is
the
highest
binar.y-coded decimal
number
usable.
The
marginal checking equipment
is
designed
to
accommodate
399
marginal cheCking
lines,
arranged
in
three
decimal
digits.
Memorandum
M-3058
Page
4,
Examples
of
binar,r-coded decimal numbers, With cycle-speed
information
are
as follows:
Binar,y-Coded Decimal
Cycle Speed Decimal Line
Number
Cycle Speed
100's
10's
Its
1)
fast
3 0
00
0000
OOll
2)
fast
215
0 10
0001
0101
3)
slow 330 1 11
011
0000
4) slow 399 1 11 1001 1001
If
on~
of
the
binar,r-coded decimal
digits
cont~ns
a number
greater
than
9,
the
Flexowriter
printe~
prints
out
ttillegal
number"
and
tn.e
compute~
stops.
Place
the
correct
number
in
FFSR
#4,
press
the
START
OVER·
button,
and
the
program proceeds
properly.
,)
Example
of
"illegal
number":
Cycle Speed Bina;r-Coded Decimal
·Decimal Line
Number
Cycle Speed
lOa's
lOts
lIs
fast
21,
o 10
0000
l1ll
1.6
The
"Repeat Line"
Feature
.
When
it
is
desired
to
repeatedly
marginal check
the
line
desig-
nated
in
FFSR
#4,
simply
place
the
digit
1 switch
of
FFSR
#4
on
a 1
before
completing.the ttline
insertion
tl
procedure-(complementing
digit
0).-
oJ.
Returning
digit
1 switch
to
0
the
"repeat
line"
cycle
terminates;
the
program proceeds
as
in-the
"line
insertion"
operation.
.
1.7
Priority
Digits
0 and
15
of
FFSR
#2
and
disit
0
of
FFSR
#3 hold
prciority
over
actions
of
FFSR
#4.
".
2.0
Program Logic
of
T-3432
2.1
Description
of
the
ItFlow
Diagram"
. Drawing SD-59309-1,
called
a "Flow Diagram,
It
presents
a
pictorial
description
of
Consolidated
Test
Program, T-3432.
Memorandum
M-3058
Page 5
202
Actions
of
the
Leader Program
The
"leader"
program, T-3492,
"clears"
the
active
registers
of
both
the
Auxiliar.y and
Buffer
Drums,
places
the
sum
check program and
the
test
program
location-determining
program onto Auxiliar.y
Drum
Group
9,
and
Sp'
s
to
the
Read-In program.
The
test
programs
are
read
in,
one
after
another,
and
placed
in
drum
storage
o
The
sum
check number and
location
of
each program
are
re-
corded elsewhere
on
the
drums.
The
Magnetic Core
Memor.y
is
erased
up
to
register
1111 between
the
read-in
of
each
test
program
to
assure
c9n-
siatent
read-in
conditions.
2.3
Actions
of
the
Trailer
Program
The
"trailer"
control
program, T-3606,
as
its
name
indicates,
is
the
last
program
of
T-3432.
It
is
placed
on
Auxiliar.y
Drum
Group
#9,
and proceeds
to
take
control
of
the
marginal
checking
routine.
The
control
program
first
makes
certain
that
test
programs were
included
in
the
read-in.
If
no
test
programs were
read
in,
the
computer
stops;
otherwise,
it
prints
out
nConsolidated
Test
Program" and
prepares
to
start
the
control
program
over.
On
subsequent
start-over
pulses,
the
control
program does
not
start
over
unless
digit
0,
FFSR
#3,
has
been
complemented.
The
control
program
observes
that
at
least
one
test
program
has
been
selected
in
FFSR
#2 and
then
determines
which program to do
first.
If
no programs had been
selected,
the
instruction
"Select
Program" .
is
printed
on
the
Flexowri
ter
•.
The
selected
test
program, complete'
with
PMC
lines
and
title
information,
is
brought
up from
the
drums and
the
title
printed
on
the
Flexowri
ter.
The
test
program
is
allowed
to
run
through once,
in
order
to
accomplish
any
resets
or
other
modifications
before
storing
in
Auxiliar,r
Drum
Group
#9.
The
preliminar.y
actions
of
the
control
program,
prior
to
the
actual
marginal checking
phase,
are
now
completeo
The
control
program
ascertains
whether'or
not
FMC
operation
has
been reque.sted. If,PMC
has
not
been
requested,
the
contents
of
magnetic core
memor.y
(MCM)
are
read
onto
Auxiliary
Drum
Group #9 and
the
computer
Sp's
back
to
the
test
program.
When
FMC
operation
is
selected
(b,y
placing
the
digit
°
switch
of
FFSR
#2
on
a
1),
after
storing
the
contents
of
MUM
in
Auxiliar.y
Drum
Group
#9,
the
control
program
prepares
to
start
FMC
over.
The
content
of
FFSR
64
is
stored
for
future
reference
and
the
"line
insertion
by-
passes
1,
2,
and
3"are
cleared
o
The
line
number-code
indexing
registers
are
reset
in
readiness
to
examine
the
Master
Code
Registero
Memorandum
M-
3058 Page 6
2.4
Conversion
of
Line-Nwnber
Infonnation
A
digression
is
relevant
at
this
time
to
explain
the
method
by
which
line
number
information
is
converted
into
usable
data.
The
control
program
allots
registers
3671
to
3723
inclusive,
called
IS-line
code
registers,
for
holding
infonnation
concerning
the
400
marginal
checking
lines
which
are
available
to
PMC.
Line
numbers
as
such
do
not
exist
at
this
time,
but
each
digit
of
the
"IS-line
code"
registers,
with
the
exception
of
digit
0,
represents
a
line
number.
That
is,
register
3671
represents
line
numbers
.1-15,
inclusive;
register
3672
represents
line
numbers
16-30,
inclusive;
and
so
on.
If
a
digit
is
on a
0,
the
represented
line
is
not
to
be
marginal
checked;
if
the
digit
is
on
a
1,
the
line
is
to
be
marginal
checked.
Octally
speaking,
if
register
3671
holds
0.30070;
lines
2,
3,
10,
11,
and
12
are
to
be
marginal
checked.
When
digit
5
holds
a
0,
fast
cycle
operation
is
selected;
when
digit
5
holds
a!,
slow
cycle
operation
is
selected.
Each
test
program
supplies
the
proper
numbers
in
registers
3671-3723,
inclusive,
to·
select
the
desired
marginal
checking
lines.
In
order
to
save
time,
when
searching
for
lines
to
be
marginal
checked,
in
FMC
operation,
"Master
Code"
registers
are
examined
before
the
IS-line
code
registers.
Each
digit
of
the
Master
Gode
register,
with
the
exception
of
digit
0,
represents
one
of
the
IS-line
code
registers.
If
no
lines
are
to
be
marginal-cheeked
in
a
IS-line
code
register,
a 0
is
placed
in
the
corresponding
location
in
the
Master
Code
register.
A
1
in
a
given
digit
of
the
Master
Code
register
indicate·s
that
the
repre-
sented
IS-line
code
register
has
at
least
one
line
to
be
marginal
checked.
Two
master
code
registers
are
required
to
accommodate
the
necessar.y
number
of
IS-line
code
registers.
The
code-register
examination
process
indexes
the
contents
of
reference
registers,
and
by
mathematical
manipulation
this
information
is
converted
into
the
desired
binar.y-coded
decimal
number.
2.S
Line
Selection
Before
actually
selecting
a
line,
the
control
program
checks
-
for
the
presence
of
a
"line
insertion"
request.
If
there
has
been
nane,
the
line
location
information
is
stored
on
the
drum
and
the
line
is
selected.
Selection
of
a
line
gives
a
start-over
pulse
and
initiates
a
cp
to
the
test
program.
Upon
conclusion
of
the
marginal
cheCking
cycle,
the
marginal.
checking
equipment
sends
out
a
switch-to-pushbutton
pulse,
drops
the
line
out
of
selection,
and
sends
out
a
start-over
pulse.
As
no
line
is
now
selected,
the
control
program
checks
the
status
of
FFSR
#3;
if'
Memorandum
M-305B
Page 7
unchanged checks
for
FMC.
With
PMC
still
requested,
the
status
of
digit
15
of
FFSR
#2
is
examined.
If
unchanged,
the
next
digit
of
the
15-line
code
register
is
examined, and so on.
When
the
last
program
has
been
checked,
operation
of
the
computer
is
stopped.
2.6
Line
Number
Insertion'Feature
When
the
sign
digit
of
FFSR
#4
is
changed,
instead
of
selecting
the
next
programmed
line,
the
control
program examines
the
contents
of
FFSR-1I4.
If
the
number
is
unacceptable
to
the
marginal
checking
equip-
ment,
the
Flexowriter
prints
"illegal
number" and
stops
the
computer. A
"legal"
number allows
the
control
program
to
examine
digit
1
of
FFSR
114
to
determine whether
the
"line
nUmber
insertion"
or
the
"repeat
line"
feature
has
been
requested.
A 0
in
digit
1
signifies
"line
number
in-
sertion."
The
control
program
sets
By-Passes
#1
and 2 and
clears
By-
Pass
#3,
The
contents
of
FFSR
#4
are
re-stored,
to
cancel
the
"line
number
insertion"
request,
and
the
FFSR
#4
line
is
selected.
Upon
conclusion
of
the
marginal
checking
process,
the
control
program proceeds
normally
until
By-Pass #2
is
reached.
As
it
is
now
in
the
"set"
condition,
PMC
is
started
over.
By-Pass #1
is
also
set,
and
the
first
FMC
line
number
is
compared
to
that
in
FFSR
#4.
The
object
is
to
find
a
FMC
line
number
equal
to
or
greater
than
the
line
number
in
FFSR
'4.
When
this
line
number
has
been found, By-Passes #1 and
#2
are
cleared,
line
location
information
is
stored
on
the
drum, and
the
line
is
selected.
Normal
FMC
operation
is
in
control
again.
2.
7 "Repeat Line"
Feature
When
digit
1
of
FFSR
#4
is
on a
1,
By-Pass
#3
is
nset,"
and
the
line
number
in
FFSR
#4
is
selected.
. By-Pass
#3
shunts
the
control
program
around
the
code-register
examination program
to
inspe.ct
digit.!
of
FFSR
-1/4.
As
long
as
digit
1 remains on a
1,
the
line
number
in
FFSR
#4
is
selected
for
each
marginal-checking
~cle7
When
digit
1
is
returned
to
0,
the
system
functions
as
in
the
"line
number
insertion"
situation.
However,
the
repeated
line
may
be
selected
two
more times
if
it
is
also
a programmed
line;
once
for
the
"line
number
insertion"
phase,
and once
as
It
programmed number.
In
fact,
if
the
digit
1
switch
is
thrown
to
0
just
prior
to
line
selection,
there
may
be a
third
appearance
of
the
line.
3.0
Swmnary
The
WWI
Consolidated
Test
Program
is
an
aid
to
routine
marginal
checking
•.
It
can
also
be
of
service
in
trouble-shooting
and equipment
performance
investigations.
The
over-all
design
objective
was
to
produce
a framework
for
WWI
test
programs.
Therefore,
component programs
may
be
Memorandum
M-3058
Page 8
altered,
exchanged, added,
or
deleted;
possibly
several
Consolidated Test
Programs
may-
be developed.
DAMitl
Drawing Attached:
SD-59309-l'
Distribution:
Systems Personnel
Group
64
Staff
Group
64
Technicians
Signed:_---.;;;f)'-,J.Mft
___
,
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