Intel 8008 Microprocessor began as a 'Computer Terminal Corporation 2200" - an Electronic Data Terminal

Bugbooks

This is a poplar post and I updated it and reposted it. David Larsen

The first 8 bit Intel microprocessor -the 8008 was the result of designing the Computer Terminal Corporation "CTC 2200" logic into a single chip.  The CTC2200 was a successful project to design an electronic version of the 'workhorse' Teletype data terminal  of the 60/70s  - the Teletype was an all mechanical  communications terminal with hundreds of gears and levers. .  CTC contracted  Intel to design a microprocessor however the process was slow and CTC did not  use the design.The result was Intel had its first 8 bit microprocessor (8008).  See short story about the interesting origin of the 8008 at the end of this post.

We are fortunate to have this CTC 2200 in our computer collection and on display in the museum.

See video of this computer "CLICK"


  CLICK photo to enlarge

CTC2200 data terminal 

CTC's TTL-based desktop personal computer, called the Datapoint 2200, was unveiled in 1970, with cassette tapes for 130KB of mass storage and 8K of internal memory.

The first end user sale was to a chicken farmer in the South who programmed the CTC2200 to write payroll checks. So I you could say a chicken farmer was the first  user of a programmable microcomputer.

CTC 2200 with case removed

The CTC 2200 is densely packed with Small Scale Integrated circuits and other parts. The mechanical design seems to be well done and the unit is solid and sturdy. ( also very heavy )

CTC2200 keyboard

The design includes about 100 small scale integrated circuits along with discrete components- transistors - resistors -diodes and capacitors. In this photo you can see 4 printed circuit boards under the display and in back of the keyboard.  Their are 4 printed circuit boards under the tape deck area and 4 memory boards next to the CRT display.

CTC2200 back panel heat sink 

The unit was designed to fit in the same area as an IBM Selectric Typewriter. This did not give much room and the unit is packed with cards and circuits.

Here you see the large heat sink on the back of the terminal. It is heavy and weighs about 40 lbs.

CTC2200 memory cards

The 4 memory cards each contain 4Kb of RAM for a total of 16 Kb. The CTC2200 machines with 16Kb sold for $16,000.

CTC2200 cassette tape decks

The unit had  2 read-write cassette decks for 130KB of mass storage.

CTC2200 CRT HV and driver circuits

A view of the high voltage for the CRT and Memory area.

CTC2200 serial # 498 on PC board 

The only serial number I have found so far is 498 on the corner of this card.






Here is some great research about the first microprocessor - Ken Shirriff's Blog 


Short story about the origin of the Intel 8008 microprocessor.

The Teletype was the communications terminal used from the late 50's until in the 80s - first as a data  terminal connected to the telephone system with a modem. It was used to send messages to users and mostly for sending and receiving telegrams. Later the Teletype was used for a minicomputer printer and paper tape punch to store the data.  Long distant voice calling  were so expensive and unreliable it was rarely used  in the 50's and 60s'.

The Teletype was a totally mechanical device that could decode 8 bit data strings - ASCII code - and print all capital letters on paper & also punch paper tape for permanent Storage of the data. The Teletype could also read the paper tape and convert the code into the 8 bit serial ASCII data for transmitting over a telephone line using a modem. The word Byte for 8 bits of data most likely came from this sending and receiving alphabetic characters as 8 bits of data.  
                                                                                                                                                                                                                                                                 CLICK photo to enlarge

Teletype 

The Teletype was a great invention however it was a mechanical monster with 100's of cams and levers that could and failed often. It was a mechanical device and very noisy & distracting in and office.

In the end of 1960's, 2 graduates at Case Western Reserve University in Ohio, Harry Pyle and Victor D. Poor, came up with the idea of a high density integrated circuit which would be programmable. Harry and Victors ideas were used to create the logic of the CTC2200 and this became the code for the 8008 microprocessor. When transistors and more importantly integrated circuits became available and all electronic version of the Teletype became possible.

The Computer  Terminal Corporation produced an electronic replacement for the Teletype the "CTC 2200". The CTC 2200 was actually programmable terminal using a custom designed 8 bit computer. The computer was made from discrete components and and small scale integrated  circuits. Microprocessors had not been  designed in the late 60's when the CTC2200 was developed.

The engineers at CTC did have the idea to put the computer logic they had designed into the CTC2200 on a single chip  - making a microprocessor.  A design team went to Intel to have them design and make a microprocessor  using the logic in the CTC2200. Robert Noyce of Intel when approached with this project did not like the idea as he thought a computer on a chip would hurt the memory chip market of Intel by competing with computer makers using the Intel memory chips.  However Robert Noyce did agree to make the chip for $50,000.

The CTC engineers also went to Texas Instruments and ask them to make the same chip to be sure they had a backup source.  The Texas Instrument chip did not function properly and was not used. The Intel chip was a long time in development. The CTC team decided to just build the 2200 terminal with there current design of about 100 small scale integrated circuits and give up the rights to the intellectual property rights for the   Intel microprocessor design --and did not pay the $50,000 to Intel.  Giving up the intellectual rights to the microprocessor is among the worst business decisions ever.

Intel went ahead with the full development of the microprocessor and called it the 8008. The microprocessor used the same digital logic and operational software codes as CTC2200 .

The computer logic in the CTC2200 then was an original 8 bit computer that used the 8008 software code and was  the beginning  of 8 bit computers (8008 microprocessor) for Intel.

Here are some links to more complete stories of the CTC2200 / Intel story. Some of the information I used came from these references.
Computer World 
History of Computers
San Antonio "Express-News"
Wikipedia

Their is a lot more to this very interesting story of how the first Intel 8 bit 8008 microprocessor came about - here is the REST of the STORY 

I  remember for many years I did not think I would find a CTC2200 and wanted to have one for it is one of the first programmable microcomputers. During the late 80's I was able to find not only this fine example and the source also had a  model the CTC1100. The CTC 2200 and 1100 now are part of the "Bugbook Historical Microcomputer Collection"

 ^{"by David Larsen"  KK4WW Computer Collector Historian}     Send Message    Like us on Facebook  My Blog about hometown Floyd VA

EPROM Antique Memory Chip -- Intel C-2708

info click

Help needed with Antique Memory Chip 

 A project to make presentation displays for 
 2708 EPROM memory chips and a little history.

Intel C-2708 EPROM
memory chips.

I have 359 of these really nice Intel 2708 EPROM chips purchased in 1987. This chips are all nice white ceramic with gold pins and gold tops. They are part of my 45 years of collecting microcomputer memorabilia. 

What I want to do is make a presentation case/display for use as example of this early microcomputer and memory technology.  

Curious about EPROM memories - take a look here at a my blog post about the very first EPROM -  the Intel 1702A - Get an idea of  how and why they were used. "CLICK"

Moore's Law - see bottom of blog.

Intel C-2708 EPROM 

A Smart display/presentation case is easily  possible.

A small pic microcomputer can be included to provide many photos/videos and text that could be picked up on a smart phone using Bluetooth/WiFi connection. The unit could be connected to the internet with WiFi and linked to selected information on line about the history of microcomputers.

The use of these EPROMs is nice because the quartz window allowing a view of the IC chip. You should know the window was not put there for you to look into the IC - the window allows the memory to be erased by exposing the chip to UV light.

Photo of the 2708 EPROM
silicon chip that is viewed through
the quartz window on the IC.

It would be very nice to include a way to see into the window on the 2708 and get some idea what the actual silicon chip looks like. This could be a magnifying glass or maybe a photo of the chip would be best. Of course with the smart part of the presentation case just a view of the proper web site may be best way to obtain  more information.

Bottom side of 2708 EPROM
showing date code of 1977 &
made in Malaysia.

All my IC chips have a 1977 date code of manufacture.

More information about EPROM memories - here is my video of the 1702 the very first EPROM chip. You will find this interesting. 

Summary of project:

To build and market a beautiful small  presentation case about microcomputer technology - most  likely out of wood that could be on the desk or appropriate space on the wall. The unit could be just a nice piece on the desk of those who have an interest in microcomputer history or are currently involved in the technology.  It would be a great conversation piece with the smart technology to bone up on the history of microelectronic technology and a real piece of history included - the Intel 2708 EPROM. 

Contact Information"CLICK"

                                                                   Moore's Law

1000 GB or 1 Terabyte
Flash Drive. It would take
125.000,000,000 C2708 chips
to have this much memory!!!!

Moore's law seems to be working after 56 years. Gordon Moore made the observation and prediction in 1965 that the density of components on a silicon chip would double every 2 years. 


The USB Flash drive to the left is a 1 Terabyte of memory.
That is 1000 Gigabytes.

It would take 125,000,000,000 of the Intel C-2708 Chips to equal this amount of memory.  A really big change in 56 years of technology.  This 1 Terabyte USB flash drive cost $39.00.

David Larsen
 Blog Author

"by David Larsen"  Chantilly Farm owner, Computer Historian, and amateur radio operator -KK4WW   & N4USA .  I work out of one of the Tiny Homes at Chantilly Farm. A great place to work if you like the to be out in nature. I am 81 and ready to sell Chantilly Farm - I have a few more  projects I would like to do - if you have an interest to know more give me a call. 540 392 2392

PDP-8 Minicomputer code Using Intercept Jr. with Intersil IM6100 microprocessor

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Intersil IM6100 microprocessor

The Intercept Jr tutorial system is an interesting microcomputer trainer that can execute the PDP-8 minicomputer code.  The design uses the  Intersil IM6100 CMOS 12 bit microprocessor. The idea of using the old PDP-8 code turned out to be a poor idea in 1976 and the computer and the IM6100 were never very popular. The PDP-8 was introduced 11 years earlier in March 1965 and used a 12 bit word.  The PDP-8 had a limited instruction set when you compare it to computers and microprocessors available in 1976. Most computer users moved beyond the PDP-8 minicomputer in the mid 70's.

The idea of a low power CMOS PDP-8 simulator just did not have any legs and died rather quickly. The 16 bit minicomputers & microprocessors were coming out with good computing power and of course 32 and 64 bit microprocessors in a few years.

The Intersil Intercept is colorful and nice looking - a beautiful display in our museum along with a full set of manuals. Like a most of the microcomputer companies of the 70's they went our of business when IBM came along with the Personal Computer (PC) in 1981.  A few companies did hang on and some new ones tried to get in the market but IBM was just to strong and Apple is the only USA company in business today- IBM also eventually gave up the small personal computer market. Apple has had it ups and downs however now it is the largest company in the world even bigger then General Motors.

"CLICK"on photo to enlarge

Intersil Intercept Jr.

The Intercept consist of a main board with CPU, octal displays and a keyboard for entering instructions & data.  The board ( backplane or mainframe) has three sockets for the CPU card, RAM card & ROM card.

The IM6100 CMOS 12 bit microprocessor is a static device and can operate with a clock frequency from DC to 2 Mhz.  Military versions can operate at higher clock speeds.

Intersil Intercept Jr.

The serial interface provides the user with RS232 and 20 mA current loop interfaces.

Intersil Intercept Jr.

The CMOS is very low power and the computer can be operated with on board batteries - 4 D cells.

Intersil Intercept Jr.

The keyboard is a membrane type and the keys can enter a full instruction with one keystroke.

Intersil Intercept Jr.

The RAM module uses (12) 1024 x 1 IM6518 chips for 1 Kilobyte of 12 bit words. Battery holders to power the module are on the upper right of  the board.

Intersil Intercept Jr.

the ROM/PROM contains 256 to 2048 words of program depending on which chips are used. The CMOS board uses only about .75 watts of power.








Click image to enlarge 

Intersil Intercept Jr.

This is readable when enlarged and summarizes the 6100 family of CMOS chips and the Intercept Jr.








Jon Titus gave me this update on PDP-8 clones a few days ago.
"Hi, Dave.

Fabri-Tek also manufactured a PDP-8 clone, the MP12.  You noted in an early blog that Fabri-Tek produced a lot of core-memory modules, so they must have decided to jump into the computer market, too.  You can find a copy of the Fabri-Tek manual here: http://bitsavers.trailing-edge.com/pdf/fabritek/402-1001-00_MP12refMan_1974.pdf. Even after many years, the MP12 op codes look very familiar."

David Larsen

This computer is really colorful and just a beautiful display. It is also functional however we don't have many operational computers in the museum. Just not time to do  this and volunteers are hard to find in our little Blue Ridge Mountain town of Floyd, Virginia. We do have several vintage gaming stations operational and they are very popular. 

           .^{"by David Larsen"  KK4WW Computer Collector Historian} 

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8008 &8080 - microprocessor -comments about the origin of Intel's first 8 bit micro chips

Bugbooks

I have had some interesting emails from Jack Frassanito. Jack was brought into Computer Terminal Corporation (later called Datapoint) along with Vic Poor, Jonathan Schmidt, Harry Pyle and a team of designers, engineers and programmers to create the Datapoint 2200. Footnote 1

All the photos below were sent to me by Jack Frassanito and are part of his intellectual property.

"CLICK" on photo's to enlarge

Datapoint 2200

CTC's TTL-based desktop personal 8 bit computer, called the Datapoint 2200, was unveiled in 1970, with cassette tapes for 130KB of mass storage and 8K of internal memory.

The first end user sale was to a chicken farmer in the South who programmed the Datapoint 2200 to write payroll checks. You could say a chicken farmer was the first  user of a programmable personal computer.

The Datapoint 2200 in our Museum is a Datapoint 2200 version II and Jack just furnished more information about the version II - Here are his comments.

"Also the instruction set for the 8080 was also a Datapoint II (less two instructions). So not only was the 8008 a Datapoint computer so was the 8080. The story is in the chapter about Datapoint and Intel. The Datapoint II was an order of magnitude faster than the Datapoint I.

Gus and I argued for owning the rights to the microprocessor but at the time it was easer to upgrade the TTL version and by the time the 8080 was available we were working on a much faster processor.

Chapter 12 (Lamont Wood's book) is a good first person account of how the 8080 came about based on the Datapoint II processor design. (Less two instructions). Dave (Dave Monroe at Datapoint) wrote a translator that would run Datapoint software on the 8080 but it never gained any traction with management. Another dumb mistake.

The 8080 was approximately 100 times faster than the 8008. 

This is significant step in function and solidified the microprocessors place in the history computing."

Footnote 4

Video by Datapoint about the 2200 "CLICK"

The 8 bit computer - Datapoint 1100 "CLICK"

"CLICK" on photo's to enlarge

Datapoint 2200 Patent

"As a named inventor (Jack Frassanito) of the 2200 I also negotiated the original agreement with Bob Noyce of Intel to develop the 8008. It was a fulsome debate at the time and we lost the argument within Datapoint." Footnote 2

Jack is referring to giving up the intellectual rights to the first microprocessor based on the 8 bit computer logic in the 2200. Datapoint  contracted with Intel to design the logic of the 2200 into one chip for $50,000.  However in the end Datapoint agreed to give the rights to Intel and did not pay the $50,000. This became the 8008 microprocessor and launched Intel into the very successful microprocessor business.  

Datapoint gives up right to the 8008 microprocessor - see part of story here "CLICK"

"CLICK" on photo's to enlarge

Datapoint 2200 Patent 

Datapoint 2200.
Patent 224,515 dated July 25,1972 - filed November 27th,1970.

Jack Frassanito, J.Phillip Ray  and Gus Roche

Jack Frassanito, J.Phillip Ray  and Gus Roche at Dr.McClure meeting. They produced the Datapoint 2200 computer and their names are on the U. S. Design patent 223,415 filed November 27,1970. Footnote 1

Gordon Peterson 

Gordon Peterson worked for Datapoint for 9 years and had a inside view of the of personalities, creation of products and the rise & fall of the company.

Gordon Peterson Jun 11, 2014 • Computer Terminal Corporation 2200 - Start of Intel 8008 Microprocessor Footnote 3

"The Datapoint 2200 was a revolutionary machine for a whole lot of reasons.  It was the first general-purpose computer designed for single-user, desktop use, and that looked more like a piece of office equipment than like a piece of exotic electronics.  I worked in Software Development / Advanced Product Development / R&D at Datapoint for more than 9 years, and it was a very rewarding time.   I designed and wrote the world's first commercially available LAN software there... the company sold over a billion dollars' worth of that product.  I also was the lead developer of the disk operating system there for several years.  A lot of us Datapoint folks are on the DatapointComputers Yahoogroup.  Also, there's a wonderful book about Datapoint's key role in the creation of personal computing... highly recommended." Footnote 3

More info from Gordon Peterson 10-29-15

 I found out about the Datapoint 2200 back about '71-'72, and among other things wrote (in assembler!) a 2200 emulator (which ran Datapoint's Cassette Tape Operating System, CTOS!) that ran on the University's IBM 360/75 mainframe.  ;-)   I showed some of my programs to Datapoint at their booth at the National Computer Conference in Chicago in spring 1974, and by they talked me into moving to San Antonio to work for the company in Software Development.

My first program I wrote there was the REFORMAT utility, and then took over the job of modifying their Disk Operating System to work on the new 25-Mb 2314-type disk drives, and the new 8" floppy diskette drives (and then reworked it for the new 5500 and 6600 series processors).  Wrote several other utilities (and heavily modified many more) and combined the DOS itself and many utilities (and their documentation) into a more cohesive product, which became DOS.B (2200/25Mb), DOS.A (2200/2.5Mb), DOS.C (2200/floppy), DOS.D (5500/25Mb), and DOS.E (5500/2.5Mb).  There was also a DOS.F (5500/floppy), which was never released as a product.

Worked on many other products and internal stuff, including the Partition Supervisor (which could run multiple copies of the DOS on one computer) and then proposed and wrote The ARC System, the world's first commercially available local area network.  That product changed the world of computing forever from monolithic mainframes to modular architectures and incremental expandability.Footnote 5.

"CLICK" on photo's to enlarge

Story by Lamont Wood

Easy to read text of this article "CLICK"

Story by Lamont Wood. Lamont later wrote the book "Datapoint- The lost Story of the Texans who invented the personal Computer Revolution"

Lamont's book is very interesting and I recommend you read it if you are interested in the first days of the microprocessor and microcomputer revolution.  More information here "CLICK" (Ed S thank you for this link.)

Amazon Best  Seller 

Lamont Wood's book "Datapoint- The lost Story of the Texans who invented the personal Computer Revolution" available on Amazon.

My comments about Lamont Woods book.





Information about the Datapoint 1100 "CLICK"


Works cited.
Footnote 1 - Lamont Wood's book "Datapoint- The lost Story of the Texans who invented the personal Computer Revolution" back cover & page 318.
Footnote 2 -This is from email to me from Jack Frassanito Fri, Aug 29, 2014 at 3:23 PM.
Footnote 3- This is from email to me from Gordon Peterson.
Footnote 4- Email sent to me Sat, Apr 25, 2015 at 3:19 AM.
Footnote 5- From Comment By Gordon Peterson on this blog a posted October 19,2015.

David Larsen

The email's from Jack Frassanito and Gordon Peterson gave me some great inside information about the Datapoint 8 bit computer story. I recommend reading Lamont Wood's book - lots of info about the development of the first microprocessor at Intel as well as the Datapoint story.

 ^{"by David Larsen"  KK4WW Computer Collector Historian}     Send Message    Like us on Facebook  My Blog about hometown Floyd VA

Vintage Computers - What is in a Name - How we named the "Bugbook Historical Microcomputer Museum"

Why we call our museum the "Bugbook Historical Microcomputer Museum"  - here is the short story.

To enlarge "CLICK" on photo

Museum bugs

Bugbook lll

I call our museum  "The Bugbook Historical Microcomputer Museum"  is because of the original  "Bugbooks" . About 1974 I was part of a team that produced these books. The first two Bugbooks were written and published by Professor Rony and I.  I named the books Bugbooks because the small digital integrated circuits looked like a bug with its legs.  Professor Rony typed the manuscripts and we self published the first few printings of the "Bugbooks" .  These books were the start of a book series called "The Blacksburg Continuing Education Series" .  The books covered various topics of digital electronics, computers and software. Dr. John Titus and Dr. Chris Titus joined the group and became important members of our team. 

Bugbooks 1 & 2 for sale
1975

During the period 1974 to 1984 about 75 books were published with a circulation of over 1 million copies.  Our team hired 31  authors to help write books in the series. In addition to the books our team designed several computers and other teaching / engineering aids that were sold world wide. John Titus was the computer designer and I designed the digital engineering  / teaching hardware aids. Most or the books were published and marketed by "Howard W Sams" and the hardware was marked by "E and L Instruments" in Derby Connecticut.  Many engineers, technicians and  electronic hobbyist of the late 70's and 80s used  these books and hardware.  All the books and hardware are on display in our museum. A reoccurring comment from  

Howard W Sams AdvertisingDisplay of 
"Blacksburg Series Books.

folks visiting the museum is - I  learned digital electronics from the "Bugbooks".  The experience with the Blacksburg Group started my interest in collecting microcomputer memorabilia for 40 years and has resulted in the thousands of items collected and the small display in the museum. The Bugbook story involves many relationships, interesting events and eclectic people.  It is my  intent to get the details of these adventures in writing -- soon I hope.
.






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Howard W Sams Catalog with

several Blacksburg Books on cover

Howard W Sams Book catalog with the "Blacksburg Continuing Education Series" Books for sale - about 1978








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E and L Catalog

E and L catalog 1977 with all the Blacksburg Group books and hardware for sale.












  "CLICK" on photo to enlarge 

Book Series on display at musem
"CLICK" for more information 

See Video's about Dave's Historical Computer Collection CLICK

David Larsen

We hope you will come visit our museum and enjoy this Blog.  Your comments and suggestions are welcome.  

.^{"by David Larsen"  KK4WW Computer Collector Historian}   
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