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Quantum Q280 User Manual

Quantum Q280
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At
the
start
of
a
write
operation,
the
ECC
syndrome
is
zeroed.
DICEY
computes
the
syndrome
as
each
byte
is
written.
After
the
last
byte
of
data,
DICEY
appends
the
syndrome
to
the
end
of
the
data
on
the
sector.
Later,
when
the
sector
is
read,
DICEY
calculates
another
syndrome
from
the
data
and
the
ECC
bytes
originally
written
on
the
sector.
If
the
syndrome
is
zero,
no
errors
have
occurred
in
writing
and
reading.
A
non-zero
syndrome
indicates
an
error,
and
the
user's
Error
Recovery
Parameters
(previously
selected
with
the
MODE
SELECT
command)
deter-
mine
the
action
to
be
taken.
See
the
Q200
Series
Programmers
Manual
for
full
details.
The
basic
strategy
coded
in
firmware
is
to
continue
retrying
a
read
operation
until
a
stable
syndrome
is
found
(i.e.,
the
same
syndrome
is
obtained
when
the
sector
is
read
twice
in
a
row).
This
strategy
avoids
invoking
correction
on
soft
errors
and
dramatically
reduces
the
probability
of
miscorrection.
When a
stable
syndrome
is
found,
the
drive
attempts
to
use
ECC
to
correct
the
data,
if
ECC
correction
is
enabled.
If
the
number
of
retries
reaches
the
maximum
specified
by
the
user,
the
drive
again
attempts
to
correct
the
error,
even
if
a
stable
syndrome
has
not
been
found
(again,
only
if
ECC
correction
is
enabled).
4.2.2
Allocating
Replacement
Sectors
Traditionally,
replacement
sectors
are
put
in
a
reserved
area
of
the
drive
far
from
the
inside
or
outside
diameter
of
the
disk.
Thus,
when
a
defective
sector
is
found,
a
long
seek
to
the
replacement
sector
is
required.
Q200
Series
drives
use
an
alternate
approach:
two
spare
sectors
are
reserved
at
the
end
of
every
cylinder
for
the
replacement
of
defective
sectors.
Long
seeks
to
the
replacement
sectors
are
eliminated.
When a
drive
is
formatted,
either
in
the
factory
or
later
in
the
field,
an
"in-line
sparing"
method
is
used:
defective
sectors
are
replaced
with
adjacent
sectors,
and
all
subsequent
sectors
are
shifted
up
(see
Figure
4-3).
In
the
rare
instance
where
more
than
two
defects
are
found
within
the
same
cylinder,
the
"In-Line
Sparing
Overflow"
method
is
used:
additional
defects
are
mapped
into
the
nearest
adja-
cent
cylinder
with
spare
sectors
available
(see
Figure
4-4).
With
this
approach,
cylinder
boundaries
are
well
defined,
with
a
sim-
pIe
relationship
between
each
cylinder's
physical
and
logical
block
addresses--thus
providing
the
host
a
method
to
ensure
that
file
records
are
stored
within
cylinder
boundaries.
When
Automatic
Read
Reallocation
is
enabled
(with
the
MODE
SELECT
command),
field-found
or
"grown"
defects
are
automatically
mapped
directly
into
spare
sectors
without
shifting
subsequent
logical
blocks,
as
shown
in
Figure
4-5.
4-6

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Quantum Q280 Specifications

General IconGeneral
BrandQuantum
ModelQ280
CategoryStorage
LanguageEnglish

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