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<HTML><HEAD><TITLE>Comtent Addr. Memory</TITLE>
<META http-equiv=3DContent-Type content=3D"text/html; =
charset=3Diso-8859-1">
<META content=3D"MSHTML 6.00.2900.2995" name=3DGENERATOR>
<META content=3D"Klaus Holtz" name=3DAUTHOR>
<META content=3D19991123;13300000 name=3DCREATED>
<META content=3D"Klaus Holtz" name=3DCHANGEDBY>
<META content=3D19991124;23550000 name=3DCHANGED>
<META content=3D"Eric Siegfried Holtz" name=3DAuthor>
<META=20
content=3D"Content Addressable Autosophy Memories A Content Addressable =
Read Only Memory (CAROM) is a mass memory that being solid-state does =
not require lasers or turntables. A CAROM module the size of a credit =
card could store numerous books, a full-length movie or hours of music. =
Terabit sized CAROM would provide instant access to huge multimedia =
databases. Dual Entry Content Addressable Memories (DECAM) ensure =
reliability with self-checking and self-repair capabilities. The CAROM =
is the native storage device for Autosophy applications. It has features =
far beyond conventional memory technology: Both Random Addressable and =
Content Addressable. Storage capacity scaleable to beyond Terabit =
size.Solid-state reading and writing without complex optics or =
turntables.  Access times of only a few microseconds even in very large =
memories.Pattern search time independent of memory size.  Non-volatile =
storage retains information at power down. Very low power consumption =
with minimal battery drain and cooling requirements. Very small and =
robust construction for use in mobile robots.     High resistance to =
vibration, shock, contamination, radiation and temperature. Self-repair =
and self-healing for high-reliability.     Constant ability to add new =
information.  Inexpensive manufacturing compatible with automated mass =
production.     No dangerous lasers, high voltages or currents. =
Non-toxic materials that could even be bio-degradable."=20
name=3DDescription>
<META=20
content=3D"Content Addressable Autosophy Memories A Content Addressable =
Read Only Memory (CAROM) is a mass memory that being solid-state does =
not require lasers or turntables. A CAROM module the size of a credit =
card could store numerous books, a full-length movie or hours of music. =
Terabit sized CAROM would provide instant access to huge multimedia =
databases. Dual Entry Content Addressable Memories (DECAM) ensure =
reliability with self-checking and self-repair capabilities. The CAROM =
is the native storage device for Autosophy applications. It has features =
far beyond conventional memory technology: Both Random Addressable and =
Content Addressable. Storage capacity scaleable to beyond Terabit =
size.Solid-state reading and writing without complex optics or =
turntables.  Access times of only a few microseconds even in very large =
memories.Pattern search time independent of memory size.  Non-volatile =
storage retains information at power down. Very low power consumption =
with minimal battery drain and cooling requirements. Very small and =
robust construction for use in mobile robots.     High resistance to =
vibration, shock, contamination, radiation and temperature. Self-repair =
and self-healing for high-reliability.     Constant ability to add new =
information.  Inexpensive manufacturing compatible with automated mass =
production.  No dangerous lasers, high voltages or currents. Non-toxic =
materials that could even be bio-degradable."=20
name=3DKeyWords>
<STYLE>@page  {size: 8.5in 11in; margin: 1in; }
</STYLE>
</HEAD>
<BODY>
<CENTER><B><FONT face=3D"Times New Roman,Times"><FONT size=3D+2>Content =
Addressable=20
Autosophy Memories</FONT></FONT></B></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT size=3D+0>A=20
Content Addressable Read Only Memory (CAROM) is a mass memory that being =

solid-state does not require lasers or turntables. A CAROM module the =
size of a=20
credit card could store numerous books, a full-length movie or hours of =
music.=20
Terabit sized CAROM would provide instant access to huge multimedia =
databases.=20
Dual Entry Content Addressable Memories (DECAM) ensure reliability with=20
self-checking and self-repair capabilities. The CAROM is the native =
storage=20
device for Autosophy applications.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>It has features far beyond conventional memory =
technology:</FONT></FONT>=20

<UL>
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Both Random Addressable and Content =
Addressable.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Storage capacity scalable to beyond Terabit =
size.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Solid-state reading and writing without complex optics or=20
  turntables.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Access times of only a few microseconds even in very large=20
  memories.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Pattern search time independent of memory =
size.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Non-volatile storage retains information at power =
down.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Very low power consumption with minimal battery drain and =
cooling=20
  requirements.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Very small and robust construction for use in mobile=20
  robots.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>High resistance to vibration, shock, contamination, =
radiation and=20
  temperature.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Self-repair and self-healing for =
high-reliability.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Constant ability to add new information.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Inexpensive manufacturing compatible with automated mass=20
  production.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>No dangerous lasers, high voltages or =
currents.</FONT></FONT>=20
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>Non-toxic materials that could even be =
bio-degradable.</FONT></FONT>=20
  </LI></UL>
<CENTER>
<P><BR><B><FONT face=3D"Times New Roman,Times"><FONT =
size=3D+1>Comparison:=20
Conventional RAM vs. Autosopher CAROM</FONT></FONT></B></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Autosophy-based CAROM memory differs significantly from =
conventional=20
computer memory.</FONT></FONT>=20
<CENTER>
<P><IMG height=3D204=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa1.gif"=20
width=3D401 align=3Dbottom border=3D0 name=3DGraphic1></CENTER>
<DIV style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Conventional computer memories store unrelated data bit =
patterns in=20
storage locations selected by an address. Data bit patterns consist of=20
input-output data or program instructions. Programming determines the =
memory=20
addresses for storing and reading data. An address decoder is included =
on the=20
chip. Every location may be used for storage so any defect makes the =
entire chip=20
unusable.</FONT></FONT></DIV>
<CENTER><IMG height=3D288=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa2.gif"=20
width=3D591 align=3Dbottom border=3D0 name=3DGraphic2></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>In an Autosopher memory the address and data are both =
programmed from=20
the outside and stored in a =93next empty=94 location according to the =
Autosophy=20
learning algorithms. Each memory location contains a stored address =
decoder=20
coupled with a stored data encoder. Each address decoder is programmed =
to=20
recognize a specific address input pattern and generate a data output =
word via=20
the data encoder. The Autosophy learning algorithms ensure that every =
address=20
decoder decodes a unique address pattern and that only one address =
decoder=20
recognizes an input address pattern. The data output word may consist of =
any bit=20
pattern. During self-repair or to forget old information, the address =
decoder=20
can be erased and relocated to other memory sections. In dynamically =
learning=20
databases, both the address decoder and data encoder are continuously =
programmed=20
by the Autosophy learning algorithms and the =93next empty=94 location =
specified by=20
an internal control chip. Starting from the bottom of the memory, new =
locations=20
are programmed with new decoder-encoder patterns until the module runs =
out of=20
storage space. A =93full=94 output line is connected to the =93select=94 =
input line of=20
the next memory module in which new learning will take place. Autosophy =
networks=20
of all types can be interleaved in a single memory device. As input data =

determines its own storage locations, the learning process requires no=20
conventional programming or outside supervision.</FONT></FONT>=20
<CENTER>
<P><B><FONT face=3D"Times New Roman,Times"><FONT size=3D+1>Basic CAROM=20
function</FONT></FONT></B></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Content Addressable Read Only Memory (CAROM) functions are =
defined in=20
Patent 5,576,985. It may be produced in normal silicon substrate or on a =
thin=20
foil of metal or plastic.</FONT></FONT>=20
<CENTER>
<P><IMG height=3D298=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa3.gif"=20
width=3D565 align=3Dbottom border=3D0 name=3DGraphic3></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT size=3D+0>A=20
basic CAROM consists of a power-consuming driver/receiver section, and a =
memory=20
array separated by a connector. The memory array contains no active =
circuits and=20
thus consumes very little power. An input address is applied to several =
drivers=20
which each apply a true and a false signal to each column. Each input =
address is=20
unique (as guaranteed by the Autosophy learning algorithms) so there can =
not be=20
any duplicate addresses in the decoder. The true or false signals from =
the=20
columns are applied via fuses to the bases of Field Effect Transistors =
(FET).=20
The fuses are cut in a pattern (supplied by the Autosophy algorithms) =
such that=20
either only the true or the false signal is applied to the FET gate. The =
FETs=20
can form long chains of up to 64 bits. Only one row of FETs can conduct =
at any=20
one time and only if all the FET bases in a row are at a true level. =
This in=20
effect forms a serial AND gate which decodes each unique input address. =
The=20
single conducting row of FETs generates the output data word via diodes =
and=20
fuses. If an output fuse is intact then that data bit will be true for =
the=20
receiver and generate a logical =93one=94 output bit. If the fuse is cut =
then the=20
output bit is a logical =93zero.=94 The output data word may be up to 64 =
bits wide=20
and contain any arbitrary bit pattern.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Information is stored by setting or blowing fuses in the array =
according=20
to the Autosophy algorithms. Each unique input address produces a =
pre-stored=20
output data word. New information is stored by setting or blowing new =
fuses in=20
the array.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>There are several options for implementing the =
fuses:</FONT></FONT>=20
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>The fuses may =
be=20
  pre-selected in a silicon chip layout. That would produce standard =
libraries=20
  for integrated compression and encryption chipsets. In large foil =
memories the=20
  fuses could be pre-cut similarly to pits in a CD-ROM. That would =
produce a=20
  Read-Only Memory (ROM) for recording fixed data such as movies or=20
  music.</FONT></FONT> </LI></BLOCKQUOTE></DIV>
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>The fuses may =
be set or=20
  blown from the outside for Write-Once data storage. That is comparable =
to the=20
  =93antifuses=94 in Field Programmable Gate Arrays (FPGAs). =
Applications include=20
  data recorders and non-volatile databases.</FONT></FONT>=20
</LI></BLOCKQUOTE></DIV>
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>The fuses may =
be=20
  programmed from the outside by introducing charge pools into the =
substrate so=20
  that each fuse becomes either conductive or non-conductive. =
Information can=20
  thus be re-written at any time. Such technologies are already found in =

  Electrically Erasable Programmable Read Only Memories (EEPROM) as well =
as=20
  FLASH memory.</FONT></FONT> </LI></BLOCKQUOTE></DIV>
<CENTER><B><FONT face=3D"Times New Roman,Times"><FONT=20
size=3D+1>Applications</FONT></FONT></B>=20
<P><IMG height=3D131=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa4.gif"=20
width=3D428 align=3Dbottom border=3D0 name=3DGraphic4></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Compressed and encrypted Autosophy communications require =
content=20
addressable hyperspace libraries. Both the encoding and the retrieval =
library=20
can be contained on a single chip. While the encoder library requires a =
Content=20
Addressable Memory (CAM), the decoder library requires only a normal =
Read Only=20
Memory (ROM). Complete communication chipsets could have libraries =
embedded in=20
the chip. For text communications the encoder CAM library should contain =
8k=20
locations with a 21 bit address input and a 13 bit output word. The =
decoder ROM=20
library should contain 8k locations with a 13 bit input address and a 21 =
bit=20
output word. Small integrated chips using normal silicon technology =
would=20
consume very low power and be ideal for mobile communication terminals.=20
Encrypted communications require a downloadable library.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>For live television or real time teleconferencing a much =
larger library=20
is required. A television transmitter would contain a CAM library in =
each camera=20
of 30k locations with a 22 bit input address and a 15 bit output word. A =

television receiver requires only a normal ROM chip with 30k locations, =
a 15 bit=20
input address and a 22 bit output word. Both chips could contain a =
standard=20
library pattern (generated for maximum efficiency using the Autosophy=20
algorithms) and thus be mass produced for a large consumer market. For =
encrypted=20
communications, however, a downloadable library chipset is needed, using =
a FLASH=20
memory for example.</FONT></FONT>=20
<CENTER>
<P><IMG height=3D213=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa5.gif"=20
width=3D427 align=3Dbottom border=3D0 name=3DGraphic5></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT size=3D+0>A=20
CAROM the size of a credit card could store a feature length movie or =
hours of=20
music. Unlike discs a CAROM is all solid state and requires no scanning =
lasers=20
or mechanical turntables. Extreme ruggedness, very low power =
consumption, and=20
high resistance to dirt contamination makes it an ideal memory for =
consumer=20
products. It may be implemented either as a Read-Only memory or a =
dynamic=20
read-write recording memory. And being content addressable a CAROM =
effectively=20
makes use of Autosophy data and image compression for greatly increased =
storage=20
capacities. The CAROM is thus inherently superior to CD-ROM and DVD and =
should=20
make them obsolete.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The internal memory medium is thin stainless steel or plastic =
foil with=20
tiny surface perforations similar to the pits in a CD-ROM. The pits are =
pressed=20
into the foil surface during manufacturing as with a CD-ROM. The foil is =
then=20
either folded into a credit card-sized module or wound into a flat coil =
like a=20
paper capacitor. For inexpensive consumer products the entire module =
could even=20
be made from bio-degradable plastic. Foil provides a much greater =
surface area=20
than silicon chips for printing memory cells.</FONT></FONT>=20
<CENTER>
<P><IMG height=3D253=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa6.gif"=20
width=3D408 align=3Dbottom border=3D0 name=3DGraphic6></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Autosopher databases or robots require huge memories which =
must also be=20
virtually infallible. When the loss or corruption of information can not =
be=20
tolerated, reliability becomes more important than cost. A Dual Entry =
Content=20
Addressable Memory (DECAM) thus uses two identical memory units to store =

complementary information. The method is similar to double entry =
accounting in=20
which transactions are recorded twice from different perspectives. Each =
memory=20
unit has separate built-in error detection facilities. During operation =
each=20
memory unit constantly checks the integrity of the other. If a memory =
error=20
occurs in one unit the complementary unit initiates on-the-spot repair =
of the=20
defective memory unit. Even if one unit is totally destroyed the other =
contains=20
all the information necessary to recreate the lost data in a replacement =
unit.=20
That feature can also be used for system back-up or replicating a=20
database.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The foil for each memory unit is inserted into a sealed =
protective=20
canister, perhaps the size of a roll of bathroom tissue for a =
Terabit-sized=20
memory. The unit consumes very low power and has minimal need for =
cooling. The=20
sealed container and memory spool inside are virtually indestructible =
under=20
normal conditions.</FONT></FONT>=20
<CENTER>
<P><B><FONT face=3D"Times New Roman,Times"><FONT size=3D+1>Printing a =
memory array=20
on a foil</FONT></FONT></B></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>In normal silicon chip technology a memory array is printed =
and etched=20
onto the hard surface of a silicon chip. For very large memory devices =
the chip=20
area can become very large. The larger the area the more likely there =
will be=20
defects in the silicon. Since a single defect makes a chip unusable and =
reduces=20
chip yield, the conventional approach is to reduce the individual memory =
cells=20
to smaller and smaller dimensions. Increasing the memory capacity of =
silicon=20
chips is thus a matter of overcoming physical barriers in the =
manufacturing=20
process. Very large memory arrays require many separate chips which must =
be=20
mounted onto printed circuit boards that increase system =
cost.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Printing memory arrays onto thin foil avoids many problems. =
The surface=20
area for printing memory cells on foil is arbitrarily large. Individual =
memory=20
cells can become much larger and ease production problems. Foil can be =
folded or=20
rolled into compact packaging resistant to dirt, heat, radiation, =
vibration, and=20
shock. However, amorphous Thin Film Transistors (TFT) printed on foil =
are about=20
10 times slower than transistors on crystalline silicon. In content =
addressable=20
memories this is not so much of a problem because all memory locations =
are=20
searched in parallel. The CAROM memory device also has facilities for =
correcting=20
defects in the memory array. Production yield can be increased =
dramatically=20
because defects in the foil can be corrected after manufacturing. If =
amorphous=20
silicon is used for the transistors the foil must withstand high =
temperatures=20
during manufacturing. That would require foils made from stainless =
steel. For=20
low cost consumer products the Thin Film Transistors could be organic=20
semiconductor materials applied at room temperatures to plastic foils, =
allowing=20
mass memory devices to be made even from bio-degradable =
plastics.</FONT></FONT>=20
<CENTER><IMG height=3D540=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa7.gif"=20
width=3D601 align=3Dbottom border=3D0 name=3DGraphic7></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The manufacturing process begins with a large roll of =
stainless steel or=20
plastic foil. Memory cells are printed onto the foil in a continuous =
roll to=20
roll process involving several steps. For stainless steel foils an =
insulator=20
layer is applied to the entire foil surface. A conductive metal Bottom =
Layer is=20
then applied through a mask. Amorphous silicon is likewise applied =
through a=20
mask to form the Thin Film Transistors (TFT). A second layer of =
complementary=20
silicon is applied for the Thin Film Diodes (TFD). The whole surface, =
with the=20
exception of the diodes, is covered by an insulating layer and finally a =
Top=20
Layer of conductive metal applied.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The fuses are then cut to a template generated by the =
Autosophy=20
algorithms according to the type of data to be stored. For mass =
production the=20
fuses can be cut as pits like those on a CD-ROM. A scanning laser can be =
used=20
for low volume production. Conductive ink spots can also be =
=93printed=94 onto the=20
fuse areas. The foil is then cut and folded or rolled into protective=20
packaging.</FONT></FONT>=20
<CENTER>
<P><B><FONT face=3D"Times New Roman,Times"><FONT size=3D+1>Programming =
the fuses=20
from the outside</FONT></FONT></B></CENTER>
<P><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>Programmable =
memory devices=20
can be mass produced but individually programmed. For read only =
applications=20
programming is to the whole memory. Database programming takes place one =
word at=20
a time during the Autosopher learning process. Each fuse can be =
programmed=20
separately to save power.</FONT></FONT>=20
<CENTER><IMG height=3D425=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa8.gif"=20
width=3D567 align=3Dbottom border=3D0 name=3DGraphic8></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT size=3D+0>A=20
=93next empty location address=94 is generated within the memory device =
by an=20
embedded control chip. The binary address is decoded into individual =
=93next empty=20
location select lines=94 by a fixed pattern of Thin Film Transistors on =
the foil.=20
The address decoder pattern is identical in each memory device and can =
be=20
selected during the original foil layout. No additional foil layer is =
required.=20
Each select line provides a path for programming all the fuses in a =
specific row=20
or word.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>In the programming process the =93next empty location=94 =
address from the=20
embedded control chip is decoded to provide an electric current to only =
one row=20
of fuses. The bit driver or receiver then selectively short circuits the =
current=20
through an individual fuse until that fuse is either set or blown out. =
Each fuse=20
may be set or blown out separately until a row or word is programmed. =
The system=20
then immediately checks the address encoder and the data encoder in that =
word=20
for proper functioning. If the check reveals improper operations due to =
a defect=20
in the foil or a fuse then that location is =93erased=94 and the same =
pattern stored=20
in the following =93next empty location=94 or row. Each address decoder =
- data=20
encoder word may be stored anywhere in the memory device.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>There are several basic options for implementing the=20
fuses:</FONT></FONT>=20
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>The fuses can =
consist of=20
  thinned regions in the foil that are likely to burn out first when the =

  programming current is applied. Such a method can only be used to =
program the=20
  entire memory for read only applications. Continuous programming =
during=20
  operation is not possible because un-programmed fuses cause short =
circuits in=20
  the column lines.</FONT></FONT> </LI></BLOCKQUOTE></DIV>
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>Antifuses can =
be used as=20
  in Field Programmable Gate Arrays (FPGAs). The antifuse has initially =
a high=20
  resistance which changes to low resistance when a programming current =
is=20
  applied. Such memory devices can be programmed only once. Used storage =
devices=20
  can not be erased or recycled in other applications. That is a useful =
security=20
  feature for data recorders because stored information can not be =
changed or=20
  falsified.</FONT></FONT> </LI></BLOCKQUOTE></DIV>
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>Memory =
transistors can be=20
  made conductive or non conductive by forcing a charge pool into the =
foil=20
  substrate. Such techniques are used in Electrically Erasable Read Only =

  memories (EEPROM) and FLASH memories. The charge pools are non =
volatile and=20
  may persist for years. An even more stable material is the =
electrically=20
  bi-stable ceramic PLZT (Lead Lanthanum Zinc Titanate). PLZT is =
exceedingly=20
  stable and re-programmable.</FONT></FONT> </LI></BLOCKQUOTE></DIV>
<CENTER><B><FONT face=3D"Times New Roman,Times"><FONT size=3D+1>Power =
consumption=20
and self-healing</FONT></FONT></B></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Low power consumption is particularly important for mobile =
robots to=20
reduce battery drain and the need for cooling. Robots running on battery =
or=20
solar power should also be able to tolerate significant voltage =
variations and=20
even brief power outages.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Self-repair and self-healing are important because it is =
virtually=20
impossible to build or maintain large storage devices without some =
hardware=20
defects. A large database can nevertheless be virtually infallible if it =
is able=20
to repair itself automatically when hardware errors occur. Error =
detection and=20
self-healing facilities must be included in the basic storage=20
design.</FONT></FONT>=20
<CENTER>
<P><IMG height=3D364=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaa9.gif"=20
width=3D588 align=3Dbottom border=3D0 name=3DGraphic9></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>In a CAROM memory only one row of Field Effect Transistors can =
conduct=20
current at any one time. Each address encoder is programmed to encode a =
unique=20
input address as guaranteed by the Autosophy learning algorithms. No =
matter how=20
large the memory, only one chain of FETs will conduct current. The =
current is=20
thus independent of memory capacity. Even giant databases conduct only =
milliamps=20
of current, the same as small ones. An idle memory conducts no current =
and=20
consumes no power.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The input bit driver must reverse the voltage polarity on a =
column every=20
time the input bit changes. In a foil memory device the load on the bit =
driver=20
is purely capacitive and only needs to charge and discharge the capacity =
of the=20
printed wiring and gates of the Field Effect Transistors. A larger foil =
memory=20
presents a larger capacitive load for each driver. Using an inductor (a =
small=20
iron core coil) in each driver the energy stored in the capacitive load =
can be=20
almost totally recycled. Allowing the capacitor to discharge through the =

inductor temporarily stores the energy in the inductor coil. When the =
capacitor=20
has fully discharged the inductor drives the current forward to recharge =
the=20
capacitive load in the opposite polarity. The operations resemble a =
mechanical=20
pendulum in which energy is constantly converted from elevation to speed =
and=20
back to elevation with very little energy loss. In a foil memory device =
some=20
power will be lost by the charging currents flowing in the printed =
wiring, but=20
most will be preserved and recycled in the system. Because the energy is =

recycled little input energy and virtually no cooling is required. The =
charging=20
voltages can have large tolerances that need not be tightly regulated. A =
memory=20
device could even run for a while without power input by using energy =
stored in=20
the foil capacitor.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Energy consumption depends on activity level. Heavy data input =
or=20
learning activities increase power consumption, while an idle system =
consumes=20
virtually no power even when switched on.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Hardware errors occur from time to time in any memory device =
but must=20
not permanently disable a database. Severe hardware errors cause =
temporary=20
=93forgetting=94 but the CAROM system recognizes a malfunction and takes =
corrective=20
action. One possible error would occur if both fuses in the address =
decoder=20
become conductive at the same time and cause a short circuit in the =
column bit=20
driver. The solution is to make the driver strong enough and fuses weak =
enough=20
that any short circuit can be blown out by the driver circuit. Another =
problem=20
would occur if two or more address decoders decode the same input =
address=20
pattern. Such multiple matches will be recognized by the system as =
incorrect=20
checksum codes. An =93erase=94 signal would then be applied to blow out =
fuses in all=20
the conducting address decoders. The same erase feature can be used to =
forget=20
old information or restore defective address decoder patterns by =
relocating them=20
in other memory regions.</FONT></FONT>=20
<CENTER>
<P><B><FONT face=3D"Times New Roman,Times"><FONT size=3D+1>Memory system =
operations=20
in large multimedia databases</FONT></FONT></B></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The computer revolution was largely driven by hardware =
evolution. When=20
new hardware devices became available engineers used them in the design =
of their=20
projects, leading to a plethora of incompatible hardware and software. =
System=20
design should instead be driven by system functions. Standard hardware =
modules=20
and interfaces should remain compatible in the long term.=20
Therefore:</FONT></FONT>=20
<BLOCKQUOTE>
  <LI style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
  size=3D+0>The new system should not contain any single failure node =
hardware=20
  (such as programmed data processors or bus systems) which with a =
single=20
  failure can bring down a whole system. Each module should perform an=20
  integrated function (such as text input or vision) and have all its =
own=20
  internal control circuits separate from other function =
modules.</FONT></FONT>=20
  </LI></BLOCKQUOTE>
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>Each function =
module or=20
  sense organ should perform its own internal hardware diagnostics and=20
  disconnect from the system in case of hardware failure. The module =
should=20
  indicate its error condition to the system which would then take =
corrective=20
  measures, up to and including a replacement of the module. All modules =
should=20
  be hot swappable to allow module replacement without disconnecting=20
  power.</FONT></FONT> </LI></BLOCKQUOTE></DIV>
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>Function =
modules should=20
  be based on the principle of dual redundancy in which a hardware =
failure can=20
  be corrected by using an alternate path. The alternate path can be =
used for=20
  re-configuration or repair of the system.</FONT></FONT> =
</LI></BLOCKQUOTE></DIV>
<DIV style=3D"MARGIN-BOTTOM: 0in">
<BLOCKQUOTE>
  <LI><FONT face=3D"Times New Roman,Times"><FONT size=3D+0>Each function =
module=20
  should have a complementary capability. For example, a text keyboard =
input=20
  should have a text display output, a vision camera input should have a =
video=20
  display output, and robot arm motors should have feed back transducers =
to=20
  sense their motions.</FONT></FONT> </LI></BLOCKQUOTE></DIV>
<CENTER><IMG height=3D286=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaaa.gif"=20
width=3D359 align=3Dbottom border=3D0 name=3DGraphic10></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The Autosopher robot of the future should consist of =
interchangeable=20
modules that communicate with a standard input / output interface =
protocol.=20
Modules would be connected to each other by standard jumper cables. A =
bus=20
interconnection scheme should be avoided except for the memory modules. =
The=20
large memory is the most important part of the system and must conform =
to the=20
overall system architecture.</FONT></FONT>=20
<CENTER>
<P><IMG height=3D195=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaab.gif"=20
width=3D574 align=3Dbottom border=3D0 name=3DGraphic11></CENTER>
<DIV style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>A CAROM memory module should be designed so that it can be =
combined with=20
other memory modules in scalable systems with virtually infinite memory=20
capacities. The modules would be daisy-chained with standard jumper =
cables.=20
Power may be distributed through separate cables to protect against burn =
out in=20
case of a short circuit. The cable must contain address lines (64 bit) =
and=20
output data lines (64 bit). The output data should have bus drivers =
enabled by a=20
=93found=94 signal. Numerous memory modules may search their internal =
data for a=20
matching input address but only one will find a match. This allows any =
number of=20
modules to be connected into a bus system in which only one module will =
output a=20
particular data word. An internal control chip determines the =93next =
empty=94=20
location and outputs a =93full=94 line when all memory locations are =
used up. The=20
=93select=94 input line enables the module to start storing new data. =
When the=20
memory is full the =93full=94 signal enables the =93select=94 input to =
the next module=20
in which new learning will take place. A =93store=94 signal stores the =
next word in=20
the =93next empty=94 memory location. An =93erase=94 signal allows the =
system to forget=20
old data or initiate self-repair.</FONT></FONT></DIV>
<CENTER><IMG height=3D238=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaac.gif"=20
width=3D534 align=3Dbottom border=3D0 name=3DGraphic12></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Two memory modules may be combined in a Dual Entry Content =
Addressable=20
Memory (DECAM) configuration for virtually infallible database systems. =
Address=20
and data words in each module are swapped. The method is similar to dual =
entry=20
accounting in which transactions are each recorded twice from different=20
perspectives. DECAM systems repair hardware errors on the spot to =
guarantee=20
reliable operations. In case of hardware failures in one memory module, =
the=20
other can repair it. Even if one module is totally destroyed the other =
contains=20
all the information necessary to restore a replacement. This feature is =
also=20
useful for system backup and database replication. Removing one memory =
module=20
and replacing it with an empty one can be used not only to regenerate =
the=20
original system but also a duplicate system based on the removed=20
module.</FONT></FONT>=20
<CENTER>
<P><IMG height=3D380=20
src=3D"file:///C:/Documents%20and%20Settings/Klaus%20Holtz/My%20Documents=
/My%20Web%20Sites/mysite3/CAM/caromaad.gif"=20
width=3D560 align=3Dbottom border=3D0 name=3DGraphic13></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>In a DECAM configuration one memory module is used primarily =
for=20
encoding input data, while the other is used to retrieve output data. =
Using the=20
serial networks a serial stream of data characters (such as text) is =
converted=20
into a single final address code for output to a higher level network. =
For data=20
retrieval the single address code generates the output data stream. =
Image and=20
video input-output uses the parallel networks in a similar=20
fashion.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>The address input may be divided to include a =93network=94 =
number which=20
defines the specific network type being used. That allows a system to =
share=20
memory between different networks, such as serial, parallel and =
associative=20
networks. All network nodes are interleaved in the same storage device =
but kept=20
separate by the NET number.</FONT></FONT>=20
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>For error correction and self-repair the output data word =
would contain=20
check-sum codes such as the Hamming codes. Memory errors can thus be =
detected=20
with virtually perfect reliability. An A-SUM check-sum code is generated =
for the=20
address input pattern, and a separate D-SUM check-sum code is generated =
for the=20
data output word.</FONT></FONT>=20
<CENTER>
<P><B><FONT face=3D"Times New Roman,Times"><FONT size=3D+1>Summary and=20
conclusions</FONT></FONT></B></CENTER>
<P style=3D"MARGIN-BOTTOM: 0in"><FONT face=3D"Times New =
Roman,Times"><FONT=20
size=3D+0>Content Addressable Memories are required for most Autosophy=20
applications. Simple CAM libraries optimize encoding of Autosophy data=20
communications. The Autosophy-native Content Addressable Read Only =
Memory=20
(CAROM) is scalable to Terabit-size. Implemented as a Dual Entry Content =

Addressable Memory (DECAM) it would be virtually infallible and ideally =
suited=20
for huge databases and mobile robots.</FONT></FONT> </P></BODY></HTML>

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