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The status of magnetic bubble memories
Microelectronics and Reliability, Vol.18, pp. 191-192. Pergamon Press, 1978. Printed in Great Britain
THE STATUS OF MAGNETIC BUBBLE MEMORIES Dave Parratt Memories and Microprocessor Product Marketing Manager, Texas Instruments Ltd.
At one end of the spectrum of memory technology in digital computers semiconductor
currently used
and other data handling equipment,
random-access memories
are replacing ferrlte
core memories. 8oth provide fast data recovery at relatively high costs.
At the other end of the spectrum,
devices exploiting
magnetization,
as ferrite cores do, are virtually uncontested.
These devices,
drums,
discs,
and tapes provide inexpensive
storage at long recovery times by virtue of their mechanical nature. Magnetic bubbles - an emerging storage technique also offer storage by magnetization is non mechanical. used for bubbles industry.
and serial access.
The material
The access, however
and circuit processing
techniques
are similar to those in the semiconductor
Single crystal materials
that are easier to grow
than silicon, higher bit densities per unit area, levels without
data
alignment requirements
and fewer mask
in processing combine to
make the per bit memory cost very much lower than that typical for silicon integrated
memories
and indeed,
compare favourably with many mechanically devices.
Furthermore,
low enough to
accessed memory
bubbles have reliability that is high even
by solid-state device standards and offer economically access times that can substantially
a range of
close the current access gap
in the memory spectrum. Magnetic bubbles are mobile cylindrical domains that can be generated in a thin magnetic
layer and moved within the layer
by interaction with propagate paths processed directly onto the layer and magnetised by external fields.
The Storage
material can be either a magnetic garnet grown expitaxially on a non magnetic garnet substrate, magnetic
or an amorphous metallic
layer sputtered onto a subatrate such as glass.
Magnetic materials which support bubbles as small as 0.5 in diameters ace available promising storage densities of 10 8 bits /in 2.
~un
in excess
The arrival of the first commercially available magnetic bubble memory chip from Texas Instruments,
a 92,304-bit major-minor191
D. Parratt
192
loop d e v i c e h o u s e d in a d u a l - i n - l i n e p a c k a g e less than half a cubic inch in v o l u m e , easily
marks
a milestone
accessible nonvolatile
package,
it has e v e r y
magnetic
storage.
power,
and w i l l
d e n s i t y goes
in m e m o r y
memory
advantage
foreseen
It is s m a l l e r
Offering
for it o v e r m e c h n i c a l
and faster,
eventually become
up e n o u g h
evolution.
in a s e m i c o n d u c t o r - l i k e
cheaper,
consumes
as soon
and e n o u g h p r o d u c t i o n
less
as chip
experience
accumulates.
But
initial
storage
applications
for large
microcomputer are a l r e a d y
mass
s t o r a g e of at m o s t
systems,
storage
requires
Mor~-over, size
the
in small
or
advance
o[
92 - k i l o b i t in excess
lies
as the c e n t r a l
e]ectYonic:; ~;l:Ol-aqu and
of r e q u i r e m e n t s ,
and control
circuits,
storage undoubtedly
quite extensive
for microprocessor
its cost as low as possible, designed
unit
it is never n e c e s s a r y as can h a p p e n w i t h
which often account
makes
technology,
this circuitry
compatibility.
To keep
a family of large-scale-integrated
specifically
System cost will
for bubbles will be available
moved
further decrease
devices
into production,
a viable
solution
and further
in the future as larger support
cab]es
~'~]pat'Jt.y LI) I~P t a i l ~ l - ~ ' d
by the end of 1978.
bubble memory
in the
an{1 i n t + , r c ~ l H ~ e c i : i n q
for a large part of the entry cost of any storage magnetic-bubble
bubbles
processing
floppy discs.
As for interface
circuits
level,
s t o r a g e of both p r o g r a m s
But the real b e a u t y
increments,
in
For
over a s e p a r a t e m e c h a n i c a l
interface
but
At this
floppy discs.
the n o n - v o l a t i l e
b u h b l ~ " lU~lnol'y a l l o w : ;
purchase memory cassettes
small
r e s i d i n g on the same b o a r d
]otn
in mass
long been p r e d i c t e d ,
a few m e g a b i t s .
is a d e f i n a t e a d v a n t a g e .
unit - a s i g n i f i c a n t that
as has
cost-competitive with
microprocessor and data
of b u b b l e m e m o r i e s w i l l be not
computers,
components
such that the technology
are
will become
for more and more applications.
to
!<~
THE STATUS OF MAGNETIC BUBBLE MEMORIES Dave Parratt Memories and Microprocessor Product Marketing Manager, Texas Instruments Ltd.
At one end of the spectrum of memory technology in digital computers semiconductor
currently used
and other data handling equipment,
random-access memories
are replacing ferrlte
core memories. 8oth provide fast data recovery at relatively high costs.
At the other end of the spectrum,
devices exploiting
magnetization,
as ferrite cores do, are virtually uncontested.
These devices,
drums,
discs,
and tapes provide inexpensive
storage at long recovery times by virtue of their mechanical nature. Magnetic bubbles - an emerging storage technique also offer storage by magnetization is non mechanical. used for bubbles industry.
and serial access.
The material
The access, however
and circuit processing
techniques
are similar to those in the semiconductor
Single crystal materials
that are easier to grow
than silicon, higher bit densities per unit area, levels without
data
alignment requirements
and fewer mask
in processing combine to
make the per bit memory cost very much lower than that typical for silicon integrated
memories
and indeed,
compare favourably with many mechanically devices.
Furthermore,
low enough to
accessed memory
bubbles have reliability that is high even
by solid-state device standards and offer economically access times that can substantially
a range of
close the current access gap
in the memory spectrum. Magnetic bubbles are mobile cylindrical domains that can be generated in a thin magnetic
layer and moved within the layer
by interaction with propagate paths processed directly onto the layer and magnetised by external fields.
The Storage
material can be either a magnetic garnet grown expitaxially on a non magnetic garnet substrate, magnetic
or an amorphous metallic
layer sputtered onto a subatrate such as glass.
Magnetic materials which support bubbles as small as 0.5 in diameters ace available promising storage densities of 10 8 bits /in 2.
~un
in excess
The arrival of the first commercially available magnetic bubble memory chip from Texas Instruments,
a 92,304-bit major-minor191
D. Parratt
192
loop d e v i c e h o u s e d in a d u a l - i n - l i n e p a c k a g e less than half a cubic inch in v o l u m e , easily
marks
a milestone
accessible nonvolatile
package,
it has e v e r y
magnetic
storage.
power,
and w i l l
d e n s i t y goes
in m e m o r y
memory
advantage
foreseen
It is s m a l l e r
Offering
for it o v e r m e c h n i c a l
and faster,
eventually become
up e n o u g h
evolution.
in a s e m i c o n d u c t o r - l i k e
cheaper,
consumes
as soon
and e n o u g h p r o d u c t i o n
less
as chip
experience
accumulates.
But
initial
storage
applications
for large
microcomputer are a l r e a d y
mass
s t o r a g e of at m o s t
systems,
storage
requires
Mor~-over, size
the
in small
or
advance
o[
92 - k i l o b i t in excess
lies
as the c e n t r a l
e]ectYonic:; ~;l:Ol-aqu and
of r e q u i r e m e n t s ,
and control
circuits,
storage undoubtedly
quite extensive
for microprocessor
its cost as low as possible, designed
unit
it is never n e c e s s a r y as can h a p p e n w i t h
which often account
makes
technology,
this circuitry
compatibility.
To keep
a family of large-scale-integrated
specifically
System cost will
for bubbles will be available
moved
further decrease
devices
into production,
a viable
solution
and further
in the future as larger support
cab]es
~'~]pat'Jt.y LI) I~P t a i l ~ l - ~ ' d
by the end of 1978.
bubble memory
in the
an{1 i n t + , r c ~ l H ~ e c i : i n q
for a large part of the entry cost of any storage magnetic-bubble
bubbles
processing
floppy discs.
As for interface
circuits
level,
s t o r a g e of both p r o g r a m s
But the real b e a u t y
increments,
in
For
over a s e p a r a t e m e c h a n i c a l
interface
but
At this
floppy discs.
the n o n - v o l a t i l e
b u h b l ~ " lU~lnol'y a l l o w : ;
purchase memory cassettes
small
r e s i d i n g on the same b o a r d
]otn
in mass
long been p r e d i c t e d ,
a few m e g a b i t s .
is a d e f i n a t e a d v a n t a g e .
unit - a s i g n i f i c a n t that
as has
cost-competitive with
microprocessor and data
of b u b b l e m e m o r i e s w i l l be not
computers,
components
such that the technology
are
will become
for more and more applications.
to
!<~