It's much, much more difficult to explain the complex simply than to complexify the already complex. When you see something complex explained simply and accurately, you know that very smart people were involved - because it takes Real Smarts to de-complexify.
Because there used to be a "barrier to entry" to making these, it was expensive with expensive equipment.. so only the best got through to make them.. unlike now.. "everyone's a DJ".
It is worth noting, the process described here used a contact mask, producing PMOS chips. The achilles heel of this process was of course, the net yield of working chips from a given die. This is mentioned in this video Even by the mid 1970s, this yield was approximately 20 to 30 percent. Process pioneers, like John Pavinen developed an N-channel process using non-contact masks at MOS technologies during 1974, and increased the net yield of masks to over 70%. Making the $25 6502 CPU possible.
The process described here is not MOS, but bipolar. MOS was around about this time, but it had some serious problems that caused the threshold voltage to change with the applied gate voltage. Fairchild finally solved this puzzle when Bruce Deal revealed the culprit: mobile sodium atoms in the oxide beneath the gate. Once that contaminant was removed, then stable MOS devices could be made, which begat the MOS revolution. I worked in PMOS at Fairchild in 1971, and then NMOS came along another year or two after that. Here we have another example of Fairchild's pioneering leadership.
@@petermitchell6348 for the record Apple had no hand in the "design" of the ARM proc, they were just finance, and a lot later in the game. (this is not from a google search)
With so many ic manufacturers, I didn't know how much we owe Fairchild for what we have today. This is one video deserves a lot being here. Thanks for sharing it.
just go through the lists of First until you start hearing the word planar...EVERY common chip and transistor made today is planar....as revolutionary a technique as using semi conducting matrials is a concept in all electronic equipment today.....there were 3 huge leaps in bringing our modern electronic life into dexistamce...first was semiconductors....second was the use of silicon instead of germanium, it's oxides and alloys...and third is planar manufacturing..
@@misterkota1252 If I didn't do electronics since 1970 as a kid, well, not aliens, I might have claimed as well: We could not go to the moon because of those primitive computers in Apollos! Nonsense! Modest yes, but efficient enought for the Moon ride!
Its impressive that even then how small the integrated circuit was. Its mind boggling how far we have come though and the level of miniaturization we have on our chips today.
Kids should watch this just to understand the monumental work that went in to what we have today. I feel like they think it was easy, or that it all just appeared out of thin air.
Great documentary. I don't think it is possible to find an older documentary about that technolgy, 1967. It was new. Created by Jack Kilby and Robert Noyce, founder of Intel. The original of 1958 only had one transistor. The integrated circuits were used in Apollo Guidance Computer, 1966.
The intro is way cool with eerie sounds. Love the 'commercials'! I had to watch the whole thing it's very informative. Great old school video nice upload!
Lollll Made my own circuit boards and soldered all my own parts on to it when l was 15 years old. Also did some study on micro computer architecture later in life. Technology and Engineering has always held a fascination. Loved my old texas instruments calculator 😉 😃😃😃😃😃😃😃
I love my TI84 Silver Plus! I can do integration and derivatives with ease! I can write my own programs on it, and so much more! I can even play Tetris without sound on it!
@ What you are seeing here are two IF strips manufactured by HH Scott during the mid to late 1960s. Scott worked with Fairchild on the development of integrated circuits for these IF (intermediate frequency) strips. The IF stage shown here is for a FM tuner, such as the late model Scott 312B, or the first generation 312C. The presenter is not entirely honest with the audience: The IF stage that he demonstrates as pre- IC has one integrated circuit, the very one that Fairchild developed for Scott. Also, the "new" IF strip that he is holding was never used in a production unit made by HH Scott, although it doubtless came from Scott. It was most likely used in a specialized device (such as a broadcast monitor) made by Scott's instruments division. By 1967, all Scott IF stages, in FM tuners, FM receivers, and AM-FM receivers used IC's exclusively.
During this video from 7:20 to 12:45 this guy describes my modern day job in the simplest form. But today’s process in the fab is obviously much more advanced.
From 1965 to 1975, Fairchild Semiconductor employed Navajo people from my tribe to build Fairchild 9040 chips in Shiprock, NM, on the tribe. It somehow feels a bit like lost history and is one I will be telling in my talks as a quantum chip engineer. Also, thanks for this video. - Onri
Bob Noyce, who was one of the original traiterous 8, who left Shockley's company and started Fairchild Semiconductor, paved the way with his patents for manufacturing silicon transistors. At around the same time the first silicon transistors were being produced he realised that whole integrated circuits could be done similarly. probably not long after this video was produced he left Fairchild, and started Intel with Gordon Moore (of Moore's law fame) where they went onto to pioneer the first microprocessor. He also mentored Steve Jobs in late 70s.. Not much talk about Noyce these days. Incidentally he was known as the Mayor of Silicone valley. what a man...
Don't forget the other key founder of Intel: Andy Grove. Grove wrote the book on transistor fabrication. Noyce was an absolutely brilliant guy. Without question he is the founder of Silicon Valley. There will never be another like him, a true leader of men. (Sorry ladies, but that's the truth....)
Why do our British friends call these 'DIL' ? I know what it stands for, but the US, where this package was invented, called them DIPs. How did EU start calling them "DILs" ?
thanks! i've seen a bunch of these vids on this subject, and this one is the only one that i really been able to understand. Plus its datedness is entertaining. Great vid!
I was reading about the dawn of IC Technology in Popular Electronics as it was unfolding! I remember a technically minded friend of mine talking with me saying "There's one.. that's an IC"! Seems like a lifetime ago! \
The silicon gate technology was actually developed by Federico while working at Fairchild. He followed Noyce and Moore to their company, intel, but eventually left to found Zilog... I love reading anything written by Federico Faggin - quite an interesting fellow
Yes, this is a GReAT video ! I notice that how they speak hasn't changed much in newer IC company technical-ish videos... I mean, their speech is somewhat robotic and they are obviously not public speakers in real life. So must be real engineers I guess !
Nobody ever mentioned who started everything the granddaddy AT&T Bell Labs invented the transistor I believe it was 1947? I work for AT&T for 36 years and proud of it great company
WOW! CNC wire wrapping... That's like "yesterday's tomorrow today"!!! Bet that pack of technical/advertising literature would fetch a pretty penny on E. Bay now. *** VINTAGE ****
Steve Jobs, Bill Gates, and Steve Wozniak were given so many props and attention. However, these guys would've ended up your average person just like you and me if it weren't for Jack Kilby. Now this man I've never heard of in my 44 years on this earth. Until recently. Look him up.
It's a good thing their reliability claims turned out to be very true, even on circuits containing millions of individual transistors. Can you imagine how disreputable this video could have become if integrated circuits turned out to be monumental lemons?
If they had, you 'd probably not even be aware of its existence - it would be sat in a dusty cupboard, unseen for decades. Ironic that its predictions of their potential has enabled it to be shown to a new generation. And jolly interesting too!
My dad worked on the probe machines for Fairchild, those machines that tested the circuits before they cut the wafers up. When the guys that started Fairchild left to start Intel, my dad left Fairchild and started a company manufacturing probe cards and probe machines. Intel was their biggest customer, I'm guessing because my dad and his partners knew the Intel founders personally.
Looking at this video it appears ICs haven't actually done anything but become smaller and more refined and are essentially still pretty much the same.
There is a video where Peter Gabriel uses a Fairlight Sampler in 1982, I believe. It's quite interesting and shows the early days of sampling technology. One of those machines cost a whopping 10.000 pounds which is a lot even now, but back then it must have been astronomical.
You realise some of the men of the era are still alive right? Gordon Moore who worked for fairchild semiconductors and went on to cofound intel is still alive today, he's 90 years old and still familiar with the space. He's seen the birth of ICs and their development into what they are today. Also it's worth noting that whilst I'm sure they'd be extremely impressed and amazed at how far we've come, they wouldn't be surprised as even back then you could see the trajectory of the technology.
There are several technologies that have been used to build fast mainframes of that era (see emitter-coupled logic (ECL)). Better for a personal computer? Historically, none were suitable to be reduced into a single-chip microprocessor. Power consumption and cooling are HUGE factors. The NSA has no problem using enough power for a small town to power its systems; most of us can't afford that, much less the supporting infrastructure to support it. As to IBM's 4.77 MHz speed, even that was below the 8088's 5 MHz spec. Why? It had to do with deriving all clock sources from a single 14.31818 MHz clock, allowing it to be divided by 3 for the CPU, and by 4 for the 3.58 MHz colorburst signal for the composite color video monitor. They got cheap. The clone wars didn't make that mistake. Not for the trivial cost of a 2nd (or 3rd) clock source. Now, to be fair, in typical IBM fashion, they really had no idea what revolution they were about to unleash, so they kept the design conservative. This is also the same company that lost its market share for a product it invented. Twice.
therealnightwriter I've been trying to track down any citation I can find for these claims of early computers in the high hundred of mhz range that were not made public. Do you know what book that was?
IBM also made the big mistake (with hindsight) of using commercial, off-the-shelf components to build the PC. This made copying it quite easy. IBM then spent a lot of years trying to hold off the clone makers, but ultimately the flood gates opened, and they had to leave the PC business that they started.
General Electrical Engineering with IC design descriptions and much much more www.rollanet.org/~n0klu/Ham_Radio/(eBook)%20Electronics%20-%20The%20Electrical%20Engineering%20Handbook.pdf IC Basics Primer learn.sparkfun.com/tutorials/integrated-circuits/all.pdf The Legendary 555 timer www.jameco.com/Jameco/Products/ProdDS/2243840KitInstructions.pdf The first (of an excellent series) video PBS made about computer science basics ua-cam.com/video/O5nskjZ_GoI/v-deo.html
Hmm... They made the Channel F, right? It's a bit older than the Atari 2600. It was the 1st home video game console with interchangeable game cartridges! I'm sure they're more famous for this IC tech now.
Fairchild had a lot of subsidiary companies in lots of industries (Look up vintage Fairchild audio compressors highly sought after in the recording industry, used by The Beatles etc) . Their lasting legacy today is probably as the indirect grandfather company of Intel and AMD (through big engineer departures)
Yeah Fairchild made a few mistakes like Channel F, bipolar over CMOS, the F8 microprocessor but they had the fastest chips in the 100K ECL, FAST TTL and spawned Intel, AMD etc. Its sad that people these days don't know why its called Silicone Valley when everything now is a software startup.
59 seconds into video: "But first, let's have a commercial."
These brilliant geniuses anticipated our modern UA-cam 54 years ahead of its time!
it was called Broadcast TV back then
Dr. Jim Angell died in 2006, and Dr. Harry Sello in 2017.
Thanks, Jim & Harry. A nice legacy, RIP.
Old videos like this seem to be so more understandable.
Simple language,
good analogies,
not too much high res fluff,
Good incentive to teach
It's much, much more difficult to explain the complex simply than to complexify the already complex. When you see something complex explained simply and accurately, you know that very smart people were involved - because it takes Real Smarts to de-complexify.
and no background music!!!!!!
Because there used to be a "barrier to entry" to making these, it was expensive with expensive equipment.. so only the best got through to make them.. unlike now.. "everyone's a DJ".
@@gregdee9085Jethro Bodine would be trying to be an influencer today instead of a movie producer
I just signed up for the Fairchild TV Briefing brochures in the video. I can't wait to get them!
They never received it because you didn't use a ZIP code in the address!
I wish more educational films were made in this style, they're great.
Nah make them 5 minutes long skipping all the details.
@@Cypeq why?
@@joejia1410 sarcasm
Back then men were gentlemen and drank rob roys and manhattans
This is some old stuff. I started in Fairchild's material division in 1971, then off to CMOS in 1974. Fun times, but serious work.
Amazing stuff
@@ramencurry6672 Back then, I built our own Diffusion furnaces from scratch. Those were the days!
what an experience!!!!
That's really cool. U must have witnessed the birth of so many things people of generation couldn't imagine life without.
It is worth noting, the process described here used a contact mask, producing PMOS chips. The achilles heel of this process was of course, the net yield of working chips from a given die. This is mentioned in this video Even by the mid 1970s, this yield was approximately 20 to 30 percent. Process pioneers, like John Pavinen developed an N-channel process using non-contact masks at MOS technologies during 1974, and increased the net yield of masks to over 70%. Making the $25 6502 CPU possible.
AH yes, the 6502. As used by Apple and Acorn Computers, who went on to design the very first ARM processor.
The process described here is not MOS, but bipolar. MOS was around about this time, but it had some serious problems that caused the threshold voltage to change with the applied gate voltage. Fairchild finally solved this puzzle when Bruce Deal revealed the culprit: mobile sodium atoms in the oxide beneath the gate. Once that contaminant was removed, then stable MOS devices could be made, which begat the MOS revolution. I worked in PMOS at Fairchild in 1971, and then NMOS came along another year or two after that. Here we have another example of Fairchild's pioneering leadership.
@@petermitchell6348 for the record Apple had no hand in the "design" of the ARM proc, they were just finance, and a lot later in the game. (this is not from a google search)
Do you think they would have put someone in a psych ward for making 2nm?
With so many ic manufacturers, I didn't know how much we owe Fairchild for what we have today. This is one video deserves a lot being here. Thanks for sharing it.
just go through the lists of First until you start hearing the word planar...EVERY common chip and transistor made today is planar....as revolutionary a technique as using semi conducting matrials is a concept in all electronic equipment today.....there were 3 huge leaps in bringing our modern electronic life into dexistamce...first was semiconductors....second was the use of silicon instead of germanium, it's oxides and alloys...and third is planar manufacturing..
Old school videos are a lot clearer/more detailed than contemporary videos. Much better for educational purposes
I never thought I could sit through a half our documentary on integrated circuits and remain fascinated throughout.
And it's still so relevant !
When your company has a “commercial” for the the product it’s selling, within the film that’s demonstrating said product... Savage..
Companies like this have all my respect. This groundbreaking work made possible the future where we actually live.
The Syosset based company did not give the engineers the respect and latitude they deserved so they left and formed intel
and now comes sky net.... yay
All I can say is wow! I wish I saw this video in college. Explains the fundamentals extremely well. Back to basics, excellent. Thanks for posting!
This is amazing what they accomplished in 1966... things like this made our modern life possible!
Skidd2 because... aliens
@@misterkota1252 If I didn't do electronics since 1970 as a kid, well, not aliens, I might have claimed as well: We could not go to the moon because of those primitive computers in Apollos! Nonsense! Modest yes, but efficient enought for the Moon ride!
If they started with 2nm we'd be further ahead now
Its impressive that even then how small the integrated circuit was. Its mind boggling how far we have come though and the level of miniaturization we have on our chips today.
This is a real classic! Great historical information, and very well presented!
Thank you so much for this! We'll be watching it on October 11, just like folks around the country 55 years ago...
Kids should watch this just to understand the monumental work that went in to what we have today. I feel like they think it was easy, or that it all just appeared out of thin air.
these old videos are the best...
Old comments are the best.
True 2019 here
Bump. 2020 is on the horizon....
@@ksln Watch out for coronavirus
What about old adult movies
Great video ,and today smartphones have over 4 billion transistors! Amazing ,we have come a long way since 1967.
Great documentary. I don't think it is possible to find an older documentary about that technolgy, 1967. It was new. Created by Jack Kilby and Robert Noyce, founder of Intel. The original of 1958 only had one transistor. The integrated circuits were used in Apollo Guidance Computer, 1966.
Noyce came from Fairchild. Apollo used RTL
@@paulgriffith9570planar tech was Hoerne's baby...greatest improvement to semiconductor tech besides actually using semi conductors
First heard of Fairchild when our "Channel F" video game system arrived by mail order one snowy day in 1981. :)
yeah back then you could still understand and follow each circuit wire with the finger...
The intro is way cool with eerie sounds. Love the 'commercials'! I had to watch the whole thing it's very informative. Great old school video nice upload!
I've written in to Fairchild for my catalog and applications notes 19:15.
Lollll
Made my own circuit boards and soldered all my own parts on to it when l was 15 years old.
Also did some study on micro computer architecture later in life.
Technology and Engineering has always held a fascination.
Loved my old texas instruments calculator 😉
😃😃😃😃😃😃😃
I love my TI84 Silver Plus! I can do integration and derivatives with ease! I can write my own programs on it, and so much more! I can even play Tetris without sound on it!
Same here. I was a Ham Radio Operator.
@ What you are seeing here are two IF strips manufactured by HH Scott during the mid to late 1960s. Scott worked with Fairchild on the development of integrated circuits for these IF (intermediate frequency) strips. The IF stage shown here is for a FM tuner, such as the late model Scott 312B, or the first generation 312C. The presenter is not entirely honest with the audience: The IF stage that he demonstrates as pre- IC has one integrated circuit, the very one that Fairchild developed for Scott. Also, the "new" IF strip that he is holding was never used in a production unit made by HH Scott, although it doubtless came from Scott. It was most likely used in a specialized device (such as a broadcast monitor) made by Scott's instruments division.
By 1967, all Scott IF stages, in FM tuners, FM receivers, and AM-FM receivers used IC's exclusively.
This is literally the best thing you could give someone who wants to go into computers/computer science.
During this video from 7:20 to 12:45 this guy describes my modern day job in the simplest form. But today’s process in the fab is obviously much more advanced.
Obviously it was William Schallert who narrated the commercials. His voice is very distinctive.
I have watched many videos about how to create an IC chip, and this is the easiest one to understand. Thank you.
From 1965 to 1975, Fairchild Semiconductor employed Navajo people from my tribe to build Fairchild 9040 chips in Shiprock, NM, on the tribe. It somehow feels a bit like lost history and is one I will be telling in my talks as a quantum chip engineer. Also, thanks for this video. - Onri
Absolutely beautiful, also now 8 dec. 2020.
Bob Noyce, who was one of the original traiterous 8, who left Shockley's company and started Fairchild Semiconductor, paved the way with his patents for manufacturing silicon transistors. At around the same time the first silicon transistors were being produced he realised that whole integrated circuits could be done similarly. probably not long after this video was produced he left Fairchild, and started Intel with Gordon Moore (of Moore's law fame) where they went onto to pioneer the first microprocessor. He also mentored Steve Jobs in late 70s.. Not much talk about Noyce these days. Incidentally he was known as the Mayor of Silicone valley. what a man...
Don't forget the other key founder of Intel: Andy Grove. Grove wrote the book on transistor fabrication. Noyce was an absolutely brilliant guy. Without question he is the founder of Silicon Valley. There will never be another like him, a true leader of men. (Sorry ladies, but that's the truth....)
i really like the graphic design on that advertisement IC info packet / spec sheet booklet.
This changed our lives...
Good to know. I just ate several transistors and this makes me feel good about it.
Wow how things have change, wonderful to have these videos showing the progress we have made
52y after, DIP are still shipped in the same tubes.
Why do our British friends call these 'DIL' ? I know what it stands for, but the US, where this package was invented, called them DIPs. How did EU start calling them "DILs" ?
@@cheponis We call them DIP in Germany
@@dreamyrhodes Proving once again the Superior Technical Choices of our German Friends! Thanks for fixing my overgeneralization.
@@cheponis : DIL is the name of the format...DIP means DIL using (cheaper) Plastic material.
@@peplegal8253 So, DIL,P ? ;-) As compared with DIL,Ceramic...
Just four years after this video came out, Intel introduced the world's first microprocessor. Crazy.
Very nice. I own some Fairchild transistors in my audio electronics like guitar pedals and home recording stuff. Excellent stuff
This is so retro, I love it.
Really good video, thanks you for putting this on youtube
thanks! i've seen a bunch of these vids on this subject, and this one is the only one that i really been able to understand. Plus its datedness is entertaining. Great vid!
I was reading about the dawn of IC Technology in Popular Electronics as it was unfolding! I remember a technically minded friend of mine talking with me saying "There's one.. that's an IC"! Seems like a lifetime ago!
\
This is how I spend my Saturday nights babbyy :P !
STUNNING DOCUMENT
Techniques used until now
Fairchild: "Metal over oxide... you can't make an integrated circuit without it!"
Polysilicon: "Hold my beer."
The silicon gate technology was actually developed by Federico while working at Fairchild. He followed Noyce and Moore to their company, intel, but eventually left to found Zilog... I love reading anything written by Federico Faggin - quite an interesting fellow
Is Metal-over-oxide same as metal oxide? As in MOSFET
@@foxtrot312 : Yes.
I want those books! I wonder If I still send a return envelope to Fairchild if I'll get a reply! :p
Music is always cool in these old clips. :)
This is an awesome awesome video. Thanks for the Upload
50 years pass away and we can't still do this process in home damn ;)
jajajajajajaj
Give it some time; and we might soon be able to 3D print our own programmable ICs! 3D printing is still in its infancy!
a few folk have gotten rather close.
You can try. :)
See the work of Sam Zeloof.
ua-cam.com/play/PLUEEHWqof4O0ygguwmay_-X40EKWX0jPU.html
@@NerdyNEET PCBs yes, but integrated circuits involve far more miniaturization and a separate clean room for each step in IC fabrication.
Outstanding and historic film.
That was awesome! Thanks for sharing this video
I’m sure Edward F Harris is thrilled that his social security number, birthdate and salary are shown at 23:15. 1967 was certainly a different time.
Might've been a fictional record for the film maker
Yes, this is a GReAT video ! I notice that how they speak hasn't changed much in newer IC company technical-ish videos... I mean, their speech is somewhat robotic and they are obviously not public speakers in real life. So must be real engineers I guess !
that is what i looked for.....thx very much for that
cant believe these kind of programmes were broadcasted on public tv!
It really took me by surprise when he compared the price of silicon ingot to diamond. Yikes, we've gotten better at that, too.
The mandatory white shirt. IBM would be proud.
The base for every other technologies we are enjoying in 2023.
I'm wondering if these books are still available for reading.
Nobody ever mentioned who started everything the granddaddy AT&T Bell Labs invented the transistor I believe it was 1947? I work for AT&T for 36 years and proud of it great company
another thing that is impressive is the tooling to make these ic's, the same goes for auto manufacturers their tooling is impressive
WOW! CNC wire wrapping... That's like "yesterday's tomorrow today"!!!
Bet that pack of technical/advertising literature would fetch a pretty penny on E. Bay now. *** VINTAGE ****
Amazing. Simply amazing.
Steve Jobs, Bill Gates, and Steve Wozniak were given so many props and attention. However, these guys would've ended up your average person just like you and me if it weren't for Jack Kilby. Now this man I've never heard of in my 44 years on this earth. Until recently. Look him up.
It's a good thing their reliability claims turned out to be very true, even on circuits containing millions of individual transistors. Can you imagine how disreputable this video could have become if integrated circuits turned out to be monumental lemons?
If they had, you 'd probably not even be aware of its existence - it would be sat in a dusty cupboard, unseen for decades. Ironic that its predictions of their potential has enabled it to be shown to a new generation. And jolly interesting too!
somewhere I have an old Fairchild catalog from when I was @ State Tech.
I forget what did Fairchild merge into/ become?
Fairchild Camera and Instrument was bought by Schlumberger and eventually spun back off and still exists today..
Thank you so much for posting this video i found it very interesting and really informative.. regards Richard
My dad worked on the probe machines for Fairchild, those machines that tested the circuits before they cut the wafers up. When the guys that started Fairchild left to start Intel, my dad left Fairchild and started a company manufacturing probe cards and probe machines. Intel was their biggest customer, I'm guessing because my dad and his partners knew the Intel founders personally.
amazing to think of how far we have advanced since then
It would be awesome, if they make a movie out this invention.
Looking at this video it appears ICs haven't actually done anything but become smaller and more refined and are essentially still pretty much the same.
Wafers were small back then!
What an interesting vidio.
Thanks for posting..
Wow I love this and I'm satisfied.. Thanks
There is a video where Peter Gabriel uses a Fairlight Sampler in 1982, I believe. It's quite interesting and shows the early days of sampling technology. One of those machines cost a whopping 10.000 pounds which is a lot even now, but back then it must have been astronomical.
this is so interesting, really cool. Is this the Hall of Justice of the superfriends at 22:22 ? hahaha
I think the narrarator of the commercials was actor william schallert
i would wish i had some of those old books to look at, it would be soo cool xD
I envision Woz having watched this in his early years.
Nice knowledge video
blast from the past
Integrated circuits: the future. How we can build these into our daily lifestyle, coming up next. But first, a commercial!
Great history lesson.
I'd love one of those 1967 circuit boards filled with flat packs.
thx for oploading
Thanks CHM!
Harry Sello looks so much like Tony Goldwyn (played Carl Bruner in Ghost (1990)) !!
I love it! Thanks for the upload.
wish i could show those men a circuit board from a smart phone lol
imagine you time travelling back to those, days and showing them today´s technology!
Hundreds of transistors on a chip, that's cute.
Send them a modern production 74 logic series chip
You realise some of the men of the era are still alive right? Gordon Moore who worked for fairchild semiconductors and went on to cofound intel is still alive today, he's 90 years old and still familiar with the space. He's seen the birth of ICs and their development into what they are today.
Also it's worth noting that whilst I'm sure they'd be extremely impressed and amazed at how far we've come, they wouldn't be surprised as even back then you could see the trajectory of the technology.
Who owned Harris semiconductor? And why did Motorola stop producing discrete semiconductors? I like there rugged FETs.
13:52 "...the idea that you're going to build a tasty but inedible sandwich." HAHA fucking helarious
15:01 actually. Would you mind editing your comment?
*_Can the US still design the circuits and manufacture design, processes, personal/robotic processes?_*
son's mother and mother's son are educated enough to follow this video
Does the address for the book and pamphlet still exist?
Holy shit,they were really really ahead of it's time in 1967,i can't believe that many do say's that the 1st miccroprocessor was invented in 1971.
There are several technologies that have been used to build fast mainframes of that era (see emitter-coupled logic (ECL)). Better for a personal computer? Historically, none were suitable to be reduced into a single-chip microprocessor. Power consumption and cooling are HUGE factors. The NSA has no problem using enough power for a small town to power its systems; most of us can't afford that, much less the supporting infrastructure to support it.
As to IBM's 4.77 MHz speed, even that was below the 8088's 5 MHz spec. Why? It had to do with deriving all clock sources from a single 14.31818 MHz clock, allowing it to be divided by 3 for the CPU, and by 4 for the 3.58 MHz colorburst signal for the composite color video monitor. They got cheap. The clone wars didn't make that mistake. Not for the trivial cost of a 2nd (or 3rd) clock source.
Now, to be fair, in typical IBM fashion, they really had no idea what revolution they were about to unleash, so they kept the design conservative. This is also the same company that lost its market share for a product it invented. Twice.
therealnightwriter I've been trying to track down any citation I can find for these claims of early computers in the high hundred of mhz range that were not made public. Do you know what book that was?
MPU != IC
IBM also made the big mistake (with hindsight) of using commercial, off-the-shelf components to build the PC. This made copying it quite easy. IBM then spent a lot of years trying to hold off the clone makers, but ultimately the flood gates opened, and they had to leave the PC business that they started.
I celebrate VO artist William Schallert's ability to rattle off all those different transistor names in that first commercial without a hiccup. 😵
I want that pamphlet or book at 18:00, but can't find it anywhere on the Internet. Does anyone have an idea of where I might find it?
+ungratefulmetalpansy tried. UIUC had a version of one but not for purchase
General Electrical Engineering with IC design descriptions and much much more
www.rollanet.org/~n0klu/Ham_Radio/(eBook)%20Electronics%20-%20The%20Electrical%20Engineering%20Handbook.pdf
IC Basics Primer
learn.sparkfun.com/tutorials/integrated-circuits/all.pdf
The Legendary 555 timer
www.jameco.com/Jameco/Products/ProdDS/2243840KitInstructions.pdf
The first (of an excellent series) video PBS made about computer science basics
ua-cam.com/video/O5nskjZ_GoI/v-deo.html
Hmm... They made the Channel F, right? It's a bit older than the Atari 2600. It was the 1st home video game console with interchangeable game cartridges! I'm sure they're more famous for this IC tech now.
Fairchild had a lot of subsidiary companies in lots of industries (Look up vintage Fairchild audio compressors highly sought after in the recording industry, used by The Beatles etc) . Their lasting legacy today is probably as the indirect grandfather company of Intel and AMD (through big engineer departures)
Yeah Fairchild made a few mistakes like Channel F, bipolar over CMOS, the F8 microprocessor but they had the fastest chips in the 100K ECL, FAST TTL and spawned Intel, AMD etc. Its sad that people these days don't know why its called Silicone Valley when everything now is a software startup.