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Xerox 560 Reference Manual

Xerox 560
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TRANSLA
TE
AND
TEST
BYTE
STRING
(TTBS)
EDIT
BYTE
STRING
(EBS)
DECIMAL MULTIPLY (OM)
DECIMAL DIVIDE (DO)
MOVE TO MEMORY
CONTROL
(MMC)
The
control
and
immediate results
of
these
instructions
re-
side
in registers
and
memory; thus,
the
instruction
can
be
interrupted
between
the
completion
of
one
iteration
(oper-
and
execution
cycle)
and
that
time (during
the
next
itera-
tion)
when
a memory
location
or
register
is
modified.
If
an
interrupt
occurs
during this time,
the
current
iteration
is
aborted
and
the
instruction
address
portion
of
the
program
status
words (PSWs) remains
pointing
to
the
interrupted
in-
struction.
After
the
interrupt-servicing
routine
is
comple-
ted,
the
instruction
continues
from
the
point
at
which
it
was
interrupted
and
does not
begin
anew.
SINGLE-INSTRUCTION
INTERRUPTS
A
single-instruction
interrupt
occurs in this
situation:
an
interrupt
level
is
activated,
the
current
program
is
inter-
rupted,
the
single
instruction
in
the
interrupt
location
is
executed,
the
interrupt
level
is
automatically
cleared
and
armed,
and
the
interrupted
program
continues
without
being
disturbed
or
delayed
(except
for
the
time
required
to
exe-
cute
the
single
instruction).
If
any
of
the
following instructions
is
executed
in
any
in-
terrupt
location,
then
the
corresponding
interrupt
is
auto-
maticallya
single-instruction
interrupt:
MODIFY
AND
TEST
BYTE
(MTB)
MODIFY
AND
TEST
HALFWORD
(MTH)
MODIFY
AND
TEST
WORD
(MTW)
A modify
and
test
instruction modifies
the
effective
byte,
halfword,
or
word (as
described
in
Chapter
3,
"Fixed-Point
Arithmetic
Instructions") but the
current
condition
code
re-
mains
unchanged
(even
if
overflow
occurs).
The
effective
address
of
a modify
and
test instruction in
an
interrupt
lo-
cation
(except
counter
4)
is
always
treated
as
an
actual
ad-
dress,
regardless
of
whether
the
memory map
is
currently
being
used.
Counter
4 uses
the
mapped
location
if
mapping
is
currentiy
invoked (as
specified
in
the PSWs). I he
exe-
cution
of
a modify
and
test instruction in
an
interrupt
location,
including
mapped and unmapped
counter
4,
is
in-
dependent
of
the
virtual
memory
access-protection
code
and
the
real
memory
write
lock; thus, a memory
protection
violation
trap
cannot
occur
as
the
result
of
overflow caused
by
executing
MTH
or
MTW
in
an
interrupt
location.
36 Trap System
The
execution
of
a modify
and
test instruction in
an
interrupt
location
automatically
clears
and
arms
the
corresponding
in-
terrupt
level,
allowing
the
interrupted
program to
continue.
When a modify
and
test
instruction
is
executed
in a
count-
pulse
interrupt
location,
all
of
the
above
conditions
apply
as well as
the
following:
If
the
resultant
value
in
the
ef-
fective
location
is
zero,
the
corresponding
counter-equals-
zero
interrupt
is
triggered.
TRAP
SYSTEM
A
trap
is
similar
to
an
interrupt
in
that
when a trap
condi-
tion
occurs,
program
execution
automatically
branches
to
a
predesignated
location.
A
trap
differs from
an
interrupt
in
that
a
trap
location
must
contain
an
XPSD
or
PSS
instruc-
tion.
The time
of
trap
occurrence
can
vary: The
instruc-
tion
in
the
trap
location
can
be
executed
immediately
(i
.e.,
the
current
instruction in
the
program
being
executed
is
aborted),
or
when
the
current
instruction has
been
partially
executed
(i.e.,
in
the
case
of
a long
byte-string
operation),
or
upon
completion
of
the
current
instruction.
The
trap
in-
struction
is
not
held
in
abeyance
by
higher
priority traps,
whereas
interrupts possibly may not
be
processed
before
an
entire
sequence
of
instructions is
executed.
TRAP
ENTRY
SEQUENCE
A
trap
entry
sequence
begins when
the
basic
processor
de-
tects
the
trap
condition
and ends when
the
new program
sta-
tus words (PSWs)
have
successfully
replaced
the
old
PSWs.
Detection
of
any
condition
(function)
listed
in Table
3,
which
summarizes
the
trap
system, results in a
trap
to
a
unique
location
in memory. When a trap
condition
occurs,
the
basic
processor sets
the
trap
state.
The
operation
the
basic
processor
is
currently
performing
mayor
may
not
be
carried
to
compietion,
depending
on
the
type of
trap
and
the
operation
being
performed.
In
any
event,
the
program
instruction
is
terminated
with a
trap
sequence
(branch
to
the
appropriate
trap
location).
During this
sequence
the
pro-
gram
counter
is
not
advanced;
instead,
the
X
PSD
instruction
in
the
trap
location
is
executed.
If
any
interrupt
level
is
ready
to
move to
the
active
state
at
the
same time
an
X
PSD
trap
instruction
is
in process,
the
interrupt
acknowledgment
will
not
occur
until
the
XPSD trap
instruction
is
completed.
Should a trap
location
not
contain
an
XPSD
or
PSS
instruc-
tion,
a
second
trap
sequence
is
immediately invoked (see
"Instruction
Exception Trap"
later
in this
chapter).
TRAP
ADDRESSING
Trap addressing
is
described
under
"Interrupt
and Trap Entry
Addressing",

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Xerox 560 Specifications

General IconGeneral
BrandXerox
Model560
CategoryPrinter
LanguageEnglish

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