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IBM System/370 Guide

IBM System/370
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Page
of
GC20-1730-0
Added
11/20/70
By TNL GN20-2277
Phase-encoded
recording.
The
phase-encoded
(PE)
recording
technique
offers
superior
error
detection
and
reliability
as
compared
with
the
non-return--to-zero
(NRZI)
technique.
In
both
cases,
magnetic
recording
of
one
and
zero
bits
is
accomplished
by
means
of
flux
reversals
or
changes
in
polarity.
In
NRZI
recording,
only
one
bits
are
recorded
as
magnetized
spots,
and
a
flux
reversal
occurs
only
for
one
bits.
In
PE
recording
both
zero
and
one
bits
are
recorded
(the
zero
bit
and
one
bit
being
opposite
in
polarity),
and
a
flux
reversal
is
required
in
every
bit
position.
Thus,
the
PE
dual
flux
recording
technique
differentiates
between
no
recording
and
the
presence
of
a
zero
bit,
and
the
absence
of
any
signal
is
detected
as
an
error.
The
positive
recording
of
all
zero
and
one
bits
in
PE
eliminates
the
need
for
horizontal
parity
bits
(longitudinal
redundancy
check
used
in
NRZI
recording),
and
vertical
parity
bits
are
used
to
correct
single-bit
read
errors
in-flight.
During
reading,
if
a
single
track
fails
to
respond
with
a
suitable
pulse
in
any
bit
position,
reading
of
the
rest
of
that
track
is
immediately
disabled
for
the
remainder
of
the
data
block,
and
the
remaining
bits
for
that
track
are
automatically
generated
by
use
of
the
vertical
parity
bits.
In-flight
single-track
error
correction
eliminates
the
time
normally
lost
in
backspacing
and
rereading
NRZI
tape
for
correction
of
single-track
dropouts
or
defects.
Phase
encoding
offers
other
advantages.
If
a
string
of
zeros
is
recorded
on
tape,
successful
reading
in
NRZI
requires
close
synchronization
to
·count·
the
correct
number
of
zeros.
With
PE,
this
synchronization
is
provided
by
the
flux
reversal
in
every
bit
position;
hence,
PE
recording
(and
reading)
is
self-clocking.
In
addition,
each
block
written
on
a PE
tape
is
preceded
and
followed
by
a
coded
burst
of
bits
in
all
tracks
to
set
up
the
individual
track-clocking
rates.
The
read
circuitry
is
designed
to
recognize
these
bursts
and
thereby
minimize
the
effect
of
noise
in
the
gap.
The
critical
nature
of
vertical
skew
(alignment
of
bits
within
a
byte)
that
is
imposed
by
NRZI
recording
is
minimized
by
this
individual
track
clocking
scheme
(one
clock
per
track
versus
one
clock
for
the
entire
tape
subsystem),
and
by
the
use
of
one-byte
(nine-bit)
capacity
skew
buffers
that
can
be
in
the
process
of
collecting
up
to
four
data
bytes
at
the
same
time,
as
the
tape
passes
the
read
head.
Because
of
the
positive
recordi~g
of
all
bits,
once
a
skew
buffer
contains
nine
bits,
one
from
each
horizontal
data
track,
it
is
an
indication
that
a
byte
has
been
read.
Thus,
the
3420
can
handle
the
situation
in
which
the
tape
is
not
exactly
aligned,
and
bits
from
up
to
four
adjacent
bytes
can
be
read
concurrently.
Like
2400-series
tape
units,
the
3420
utilizes
a
two-gap
read/write
head
that
performs
readback
checking
during
write
operations.
The
3420
also
has
a
separate
erase
head
that
erases
the
entire
width
of
the
tape
during
any
write
operation
before
waiting
occurs.
Full-width
erasure
reduces
the
likelihood
of
leaving
extraneous
bits
in
interblock
gaps
or
skip
areas
and
minimizes
the
interchangeability
problems
that
can
occur
when
tape
is
written
on
one
tape
unit
and
read
on
another.
Advanced
engineering
design.
The
tape
path
in
the
3420
tape
unit
is
designed
for
·soft
handling·
of
tape
volumes
to
minimize
tape
wear
and
thus
improve
tape
reliability.
other
features,
such
as
the
single-
drive
capstan
and
optical
tachometers,
result
in
faster
data
access
and
rewind
times
than
those
of
the
2401
and
the
2420,
for
models
with
comparable
data
transfer
rates.
51.2

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IBM System/370 Specifications

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BrandIBM
ModelSystem/370
CategoryServer
LanguageEnglish

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