Microchip Breakthrough: The Future is Glass

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  • Опубликовано: 5 ноя 2024

Комментарии • 784

  • @AnastasiInTech
    @AnastasiInTech  Месяц назад +52

    I’m a huge fan of Planet Wild. Check them out planetwild.com/r/anastasiintech/m19/29

    • @GualaDRAKE
      @GualaDRAKE Месяц назад +2

      Are of Glass, the animals? :D

    • @spadeespada9432
      @spadeespada9432 Месяц назад +2

      Question from the peanut gallery, isn't glass made from silicon?

    • @LAKEVILLEKONICA
      @LAKEVILLEKONICA Месяц назад +1

      Transparent comedy. Very Punny. 👍

    • @LAKEVILLEKONICA
      @LAKEVILLEKONICA Месяц назад +3

      Wouldn't some rigid strong porcelain function similar?

    • @RampagingCoder
      @RampagingCoder Месяц назад +1

      just hope our expectations aren't shattered. would be a better line.

  • @abbcc555
    @abbcc555 Месяц назад +7

    I like this channel because how you're genuinely excited about all these advances.

  • @pucmahone3893
    @pucmahone3893 Месяц назад +185

    And we haven’t even “scratched “the surface. LOL

    • @_september_4799
      @_september_4799 Месяц назад +24

      Scratches at level 6, deeper grooves at level 7 😋

    • @abelincoln3261
      @abelincoln3261 Месяц назад +5

      The new sub straight is scratch less ! LOL !

    • @daveamies5031
      @daveamies5031 Месяц назад +8

      so many glass puns in this episode ❤

    • @simongross3122
      @simongross3122 Месяц назад +10

      How long did you polish that joke?

    • @MrLuigge
      @MrLuigge Месяц назад

      glass is still glass and glass breaks 😂​@@_september_4799

  • @jonathonschott
    @jonathonschott Месяц назад +166

    I wanted to clarify one part of this. I recently worked at that research fab in arizona for intel as a contingent worker, and have held in my hands those glass substrates, very cool stuff. But i wanted to clarify, their organic substrate wafers are also rectangular. They only use circular wafers for logic. I would hope thats common knowledge at this point (thats not a jab at you, thats a fingers crossed for any nda i might be under)

    • @Itskunalumare
      @Itskunalumare Месяц назад +17

      you do very cool stuff man! I as a pilot I appreciate people like you a lot; without you RnD lads planes would be less tech more Manual!
      Namaste from Bharat 🇮🇳🙏🏼

    • @mAny_oThERSs
      @mAny_oThERSs Месяц назад +32

      Hello, this is the intel ceo. You will be hearing from our lawyers jonathon.

    • @ariisaac5111
      @ariisaac5111 Месяц назад +7

      Why is logic still on circular wafers? I thought I had something to do with the way they make the silicone Crystal ignots as a cylinder and then cut them. I think they probably do some kind of spinning operation which favors circular dimensions. So why can't logic go to however they're doing the square wafer substrates if efficiently? TIA.

    • @joshua43214
      @joshua43214 Месяц назад

      @@ariisaac5111 Even if using round wafers is entirely last-gen, there is well established supply chains, lots of infrastructure that is paid for and profitable. There is a huge market for legacy chips, they go in lots of cheap IoT devices and are probably the bread and butter of most of these companies profit wise.

    • @jtjames79
      @jtjames79 Месяц назад +3

      ​​@@ItskunalumareThere's an electric flying taxi startup that has a fully agnostic autopilot.
      It was possible more than two decades ago, so it's only a matter of time.

  • @dahlia695
    @dahlia695 Месяц назад +81

    I saw through that clear cut transparancy joke

  • @jaccurtis5789
    @jaccurtis5789 Месяц назад +105

    So many glass puns I lost count haha love it thanks Anastasi! Very entertaining and informative :)

    • @cosmicraysshotsintothelight
      @cosmicraysshotsintothelight Месяц назад +3

      "Questions, questions, so many questions... You want a shard? Here!" -- Aughra, The Dark Crystal

    • @gronkymug2590
      @gronkymug2590 Месяц назад +3

      🤦‍♂ she is hilarious

    • @brodriguez11000
      @brodriguez11000 Месяц назад +6

      This development will shatter the market.

    • @fetB
      @fetB Месяц назад +1

      "this technology hasa huge promise and i hope glass wont break it"

    • @cosmicraysshotsintothelight
      @cosmicraysshotsintothelight Месяц назад +1

      @@fetB You just got yourself seven years of bad jokes with that one...

  • @opcn18
    @opcn18 Месяц назад +46

    When I saw the thumbnail I thought it was a makeup pallet and I was wondering how I ended up subscribed to a chanel doing makeup videos!

    • @istiakahamed4804
      @istiakahamed4804 Месяц назад +1

      😂😂😂😂😂😂😂😂😂😂😂😂😂😂

  • @MolenXs
    @MolenXs Месяц назад +19

    Actually, let's hope it DOES shatter our expectations.

  • @Crimson_201
    @Crimson_201 Месяц назад +29

    love when she mispronounces alot of words..
    but still nails it with the puns.
    she "cracks" me up 😂

  • @springwoodcottage4248
    @springwoodcottage4248 Месяц назад +7

    Super interesting to be kept up to date with these developments & to learn how glass that humans first made over 4000 years ago is finding new applications. Lovely also how you understand & support wildlife. Our planet needs people like you who push forward technology & who use some of their rewards for this work to support the health & well being of our planet & its flora & fauna. Thank you for sharing & inspiring us all to make the future better.

  • @rayrocher6887
    @rayrocher6887 16 дней назад +1

    Thanks for helping people, and helping the future

  • @martin22336
    @martin22336 24 дня назад +1

    Love how you talk about it. Its rare to find people like you good on you

  • @gary.richardson
    @gary.richardson Месяц назад +2

    I'm glad I clicked on this video. The content was filled with such great information I stayed glued to the video.
    Re-watch in process after this post!

  • @markfischer3626
    @markfischer3626 Месяц назад +2

    Glass could be bonded to something more rigid like diamond. There was one physicist in Germany who figured out how to grow flawless diamond crystals in a microwave oven. He needed them for his Q bit experiments. He actually grew some for a necklace for his fiance. The diamond cutters scoffed at him because raw they looked black. However when cut and polished they were stunned.
    Glass is a supercooled liquid with a very low elastic limit. However there are some types of glass that are much stronger to resist shattering.

  • @okman9684
    @okman9684 Месяц назад +13

    The only transparency we can get from the chip industry 😁

  • @chriscole2243
    @chriscole2243 Месяц назад +2

    You are so informed in so many ways.
    Thank you for sharing your intellect .

  • @randytaylor1406
    @randytaylor1406 Месяц назад +1

    I still remember in the olden times, they grew SiO2 (glass) to insulate the layers. During that time they spoke of better substrates, like Silicon on Sapphire which was resistant to radiation, but those were expensive. Now, we have gone so far that we have diamond as a heat sink for thermal management, just mind blowing. Great video, once again.

  • @vi6ddarkking
    @vi6ddarkking Месяц назад +172

    So Glass Substrate. Now I am just waiting for the Diamond heat sinks.

    • @wolfgangpreier9160
      @wolfgangpreier9160 Месяц назад +15

      IBM used that decades ago

    • @cosmicraysshotsintothelight
      @cosmicraysshotsintothelight Месяц назад +12

      Diamond dust in a dielectric fluid flowing across copper fins. Cool down as low as 150F below zero. No water incursions. Spool that clock up!

    • @SlimDaddy9
      @SlimDaddy9 Месяц назад +1

      Hey, why not?

    • @Jayf1981
      @Jayf1981 Месяц назад +4

      I remember hearing something about manipulating the properties of lab-grown diamonds; I think it was for use in memory!? IDK

    • @MagruderSpoots
      @MagruderSpoots Месяц назад +2

      9:05 ?

  • @fermigas
    @fermigas Месяц назад +22

    I wonder if the semi industry will follow the same path telescope making did going from glass to pyrex to cervit to zerodur and even more exotic variants to get improved thermal and dielectric properties both in manufacturing and use.

    • @mememaster147
      @mememaster147 Месяц назад +2

      Not necessarily. The optimum glass for a substrate would have the same thermal expansion as the chiplets so zerodur might cause a problem by expanding less than silicon.

    • @monad_tcp
      @monad_tcp Месяц назад

      @@mememaster147 make CMOS out of zerodur

  • @tuirin
    @tuirin Месяц назад +2

    Your content is top notch!!!!

  • @jhschmidMD4
    @jhschmidMD4 Месяц назад +12

    So many puns breaking through that glass ceiling in this one!

  • @brettlemoine1002
    @brettlemoine1002 Месяц назад +9

    I get so much information from your videos... but your puns always crack me up. Never stop! :D

  • @nikluz3807
    @nikluz3807 Месяц назад +3

    The glass puns are so clear

  • @jplkid14
    @jplkid14 Месяц назад +1

    I have been saying optical computing, including use of glass, will be the future for quite some time. In fact, I think some form of amorphous programmable glass will be best. You can basically "tune" a neural network on the glass substrate, then lock in the metamaterial surface patterns, then use light input as the signal and the output is the computed result. If you need to change the function of the chip, change the internal amorphous glass structure and you instantly have a new network that can process on different tasks.

  • @metalhalokj7vzy164
    @metalhalokj7vzy164 Месяц назад +1

    Many MOSFET devices have internally connected Zener diodes on the gates to reduce the chance of static damage to the gate. the most useful characteristic of a Zener diode is a constant voltage drop under conditions of varying current. The field-effect transistor (FET) is a type of transistor that uses an electric field to control the flow of current in a semiconductor. It comes in two types: junction FET (JFET) and metal-oxide-semiconductor FET (MOSFET). FETs have three terminals: source, gate, and drain. FETs control the flow of current by the application of a voltage to the gate, which in turn alters the conductivity between the drain and source.
    FETs are also known as unipolar transistors since they involve single-carrier-type operation. That is, FETs use either electrons (n-channel) or holes (p-channel) as charge carriers in their operation, but not both. Many different types of field effect transistors exist. Field effect transistors generally display very high input impedance at low frequencies. The most widely used field-effect transistor is the MOSFET (metal-oxide-semiconductor field-effect transistor).
    Using glass as an insulator is good until it gets a crack in it because a static charge will find the path of least resistance through the cracks rendering 99.9% of the rest of the Non cracked glass insulator useless.
    This is not a new technology Anastasi, this is widely available information in the world of us FCC Amateur Extra licensed radio operators and commercial radio and radar endorsed operators as well.
    I like your enthusiasm on the tech subjects though.

    • @jaymethodus3421
      @jaymethodus3421 Месяц назад

      Thanks for the in depth info. Your general feeling on this glass chip technology is that it's not the best way to progress?

  • @advarkmerrygoround1425
    @advarkmerrygoround1425 Месяц назад

    Wow, thank you for the info' . The way to deal with shock stability is to laminate! look at bullet proof glass and shrink the dimensions. Float glass is a super cooled fluid which has a grain in line with its production process. Take two sheets of glass, transpose one at 45 degrees and put a thin film of polymer between the two, you now have a shock resistant glass. The coefficient of expansion is the same if the buffer polymer between the sheets is the same. Thanks again for you podcast

  • @PeterBergstrom-vv2sl
    @PeterBergstrom-vv2sl Месяц назад

    I'm glad you're so transparent on this subject. Thanks for the puns as well!

  • @SureNuf
    @SureNuf Месяц назад +2

    Love your puns :) Sharp sense of humor! Thanks for another EE level 500 video.

  • @rcamidis
    @rcamidis Месяц назад +13

    Thank you for simplifying things for us. I really appreciate it and I have to say you are one of a few analysts I like to watch

  • @MikeKranidis
    @MikeKranidis Месяц назад +1

    Very informative and explanatory video. Thanks Anastasi you keep us (old engineers) sync with forthcoming high tech trends ❤

  • @asafhaviv1
    @asafhaviv1 Месяц назад +2

    Thank you for this insightful video. The shift to glass substrates is largely driven by the need for much tighter design rules, enabling denser redistribution layers and reducing parasitic effects-key factors in achieving better 3D IC integration at high frequencies

  • @ikust007
    @ikust007 Месяц назад

    I have been a material RD researcher for many years in the field of Ceramics/glass. And a dedicated stained glass restorer / builder . Glass is at the Beginning of its come back .

  • @ritheshp1170
    @ritheshp1170 Месяц назад +1

    Great video explaining about the glass subtrate and you really nail with the puns!!!

  • @416dl
    @416dl Месяц назад

    Should add that when we refer to glass there is a lot of chemistry and physical nature involved when it comes to its properties...I know this having studied a lot of glass engineering in pursuit of some projects a few decades ago and of course the material science of it has really expanded in understanding. Looking forward to more...and more. Cheers.

  • @delkroupa
    @delkroupa Месяц назад +1

    I have followed your advice, and subscribed to Planet Wild. I will also support them.

    • @delkroupa
      @delkroupa Месяц назад

      When we "discovered" America, it was full of bison, deer, elk and fish filled the lakes and rivers, that needed no veterinary care,, and which provided ample food. Then we decided that we had to "fix" it, by cutting down the forests, and plowing the land to feed livestock. What were we thinking?

  • @JoeyBlogs007
    @JoeyBlogs007 Месяц назад +25

    Using glass as an integrated circuit (IC) substrate could offer better heat dissipation compared to traditional silicon or organic substrates.

    • @dchdch8290
      @dchdch8290 Месяц назад +9

      And also better for transparency :)

    • @teekanne15
      @teekanne15 Месяц назад +2

      @@tkermi people just read the title of a video and straight up start writing comments before they finished the first minute of the video.

  • @meteor2012able
    @meteor2012able Месяц назад +2

    Great! I just love glass, it is literally magical. The ancients were spiritually awed at how something made from sand could end up in glorious works of cathedral art.... P.S. As an hobby, I used to do stained glass windows for my home... Spiritual, yeah, for me and mine❤

  • @AugustineAriola
    @AugustineAriola Месяц назад +1

    Anastasi, I love your videos.
    Please make video on how to make a simple chip at home that contains just one transistor, two resistors, one diode, one or two capacitors. Start from design to finish. I will be glad to learn something new.

  • @markvietti
    @markvietti Месяц назад +52

    warranty void if you hear a crack while installing the heat sink

    • @dominus6695
      @dominus6695 Месяц назад +1

      lmao

    • @veda9151
      @veda9151 Месяц назад +4

      You reminds me when AMD CPUs comes with no ihs. You actually feel a crack when making an expensive mistake.

    • @tiagof857
      @tiagof857 Месяц назад +2

      @@veda9151 I burnt my first AMD Athlon Firebird, powered on the pc without the heatsink on by mistake, only took a couple seconds to smell it..

    • @monad_tcp
      @monad_tcp Месяц назад +1

      @@tiagof857 those chips where horrible anyway

  • @markhammer9975
    @markhammer9975 Месяц назад

    I work at Intel in a fab and I was working on their glass substrate wafers. It's really cool to hear you talking about something that I've been working with. It happened that way with catalyst heaters for the polishing as well

  • @TonyRodriguez-Trod312
    @TonyRodriguez-Trod312 Месяц назад

    Hi Anastasi you know as an electronic engineer I thought about it , using the glass as a substrate when we start using fiber optic instead of cooper wire, and now it's a reality, Wow!

  • @pazitor
    @pazitor Месяц назад +2

    Love the enthusiasm. Thanks!

  • @tjairicciardi9747
    @tjairicciardi9747 Месяц назад

    I really appreciate the non-technical explanations of the extreme technologies covered by this channel

  • @moosethompson
    @moosethompson Месяц назад +4

    You shattered the glass pun ceiling in this video.

  • @fishingdude67
    @fishingdude67 Месяц назад +2

    Such an interesting presentation.
    Thanks.

  • @ThePCExpertAmateur
    @ThePCExpertAmateur Месяц назад +2

    Hi Anastasi, I wanted to let you know I recommended your video to Bleeping Computer as a resource for their news. Great job!

  • @l1CappYl1
    @l1CappYl1 Месяц назад

    Interesting video, thanks for sharing. We have been using silicon substrate in chips for so long, it's almost surprising to learn that it is finally about to be replaced.

  • @Lardzor
    @Lardzor Месяц назад

    @0:50 I believe the substrate is conventionally made of a composite material made from a glass fiber mesh and epoxy resin binder.

  • @DAH-ss1nu
    @DAH-ss1nu Месяц назад

    If the substrate is glass microfluidic heat pipes can be etched/embedded in it to provide unmatched heat transfer away from the die.

  • @conradohernanvillagil2764
    @conradohernanvillagil2764 Месяц назад

    Thank you Anastasi. Great video. May be the glass would be our answer to CPU, GPU and RAM, ROM memories developing ( and light computing).

  • @AriBenDavid
    @AriBenDavid Месяц назад

    Years ago hard disk manufacturers switched from aluminum to glass for the platters. The surface was smoother and without the micro-pits in aluminum. As far as shattering, Sediver in their glass insulators and Corning in Gorilla glass make "toughened" glass that does not shatter easily.

  • @ThePCExpertAmateur
    @ThePCExpertAmateur Месяц назад +1

    Keep sprinkling your commentary with puns! I love it! Which company do you work at?
    I love the environment, too!

  • @eyesonly4451
    @eyesonly4451 Месяц назад

    Amazing! And she gets better and better looking by the year.

  • @vrendus522
    @vrendus522 Месяц назад +1

    Valuble info. Thanks for the fill-in. Dan Blatecky USA

  • @ITSupport-q1y
    @ITSupport-q1y Месяц назад +1

    Brilliant, thanks for the learning.

  • @ST-xc3qw
    @ST-xc3qw Месяц назад +4

    Great video
    Could you do a video on the equipment manufacturer for advanced packaging for glass substrate
    Thanks

  • @jorgebarrero5299
    @jorgebarrero5299 Месяц назад +2

    Now we will have a very "clear" path to the future, a very transparent process

  • @ve6pte
    @ve6pte Месяц назад +1

    Thanks for the clarity! (love the puns)

  • @reuvengruber7139
    @reuvengruber7139 Месяц назад

    Very exciting and informative
    Please do another on glass as soon as possible

  • @WilliamTaylor-h4r
    @WilliamTaylor-h4r Месяц назад

    As a photon moves through space, normally space is the ground; black points transitioning with plank astral surface area points, two grounds exchanging imaginary transform axis. But the photon is many times slower, so in a snapshot of time, the two grounds latch onto it and barrel shift in the 4096 dimensions range, thus it doesn't have an absolute chiral radix, but churns the space with most of its energy. The implied vector means unradixed points are infront and post radixed points are behind. A very juvenile iacobian cramer rule can be observed in its power over frequency spectrum.

  • @PrincieD
    @PrincieD Месяц назад

    Anastasi's voice is so soothing

  • @caseymead9399
    @caseymead9399 Месяц назад

    I love silica microchips, photonic computation, diamond heat sinks, AND little owls! :D

  • @lmmortalZodd
    @lmmortalZodd Месяц назад +2

    You got my upvote for the constant puns

  • @walterlyzohub8112
    @walterlyzohub8112 Месяц назад +1

    Reminds me of the logic blocks for HAL in the movie “2001, A Space Odyssey”.

  • @El.Duder-ino
    @El.Duder-ino 13 дней назад

    As the CEO of Intel put it - they as well as the whole industry will be exploring periodic table and use all kinds of materials to deliver innovation in the semiconductor space. Experimenting in labs is going on with TFETs, GFETs and others we don't even know about. Human ingenuity is endless as long as it is stimulated and supported👍Thank u for this vid!

  • @bhuvaneshs.k638
    @bhuvaneshs.k638 Месяц назад +2

    Babe wake up.... Anastasi In Tech dropped a new video ❤

  • @grogyan
    @grogyan Месяц назад

    There has been a lot of discussions about photonic transistors in years past, almost entirely using light.
    So this glass wafer tech is a stepping stone towards that goal

  • @PACotnoir1
    @PACotnoir1 Месяц назад +18

    The will technical revolution will arise with photonic chips

    • @Cipotalp
      @Cipotalp Месяц назад

      Exactly!!!!

    • @wolfgangpreier9160
      @wolfgangpreier9160 Месяц назад +1

      I thought that was the positronic?

    • @dchdch8290
      @dchdch8290 Месяц назад

      most likely

    • @PACotnoir1
      @PACotnoir1 Месяц назад +2

      @@antonystringfellow5152 And what about the Taichi-II Chip ?

    • @OrbitalSP2
      @OrbitalSP2 Месяц назад

      Intel was doing some good research with silicon photonics but now that the company is restructuring, idk about that anymore.

  • @thedubdude
    @thedubdude Месяц назад +1

    Great video as always. However it would have been very informative if you explained why only now is glass technology possible. Also a nod to the semiconductor electronics of actually forming transistors on a glass substrate would be appreciated. Thanks.

  • @mikeafter5
    @mikeafter5 Месяц назад

    Thanks for covering this.

  • @charlesrovira5707
    @charlesrovira5707 Месяц назад

    @11:22 I can see *Corning* getting into the substrate business and partnering with the planned *TSMC* chip factory which is being built in the *US.*
    Now that would be one heck of a *Chip **_Fab._*

  • @randletaylor3987
    @randletaylor3987 Месяц назад

    Great video, you really cracked the topic.

  • @toddmonka275
    @toddmonka275 Месяц назад +38

    They are both sand, just different forms, right?

    • @rapamune
      @rapamune Месяц назад +7

      well, purified silica as raw material for sure (sand is a mixture of minerals)

    • @mickbadgero5457
      @mickbadgero5457 Месяц назад +11

      Similar but not the same. Silicon is an element, and is used for making semiconductor chips. Sand is an oxide of silicon, similar to the way rust is an oxide of iron. Glass is usually a combination of several metal oxides. The advantage of glass is that its thermal expansion can be designed to be the same as silicon. The disadvantage is that glass is by definition amorphous; that is, not a crystal. Silicon used for semiconductors is made from crystals. This can be a disadvantage because crystals do not expand thermally the same in all directions, whereas glass (in theory) does. So perfect thermal expansion matching is not really possible.

    • @c94d44027
      @c94d44027 Месяц назад +8

      Glass has a tendency to flow even under gravity, at a room temperature. Clearly visible when you look at the old windows. I understand that is a different type of glass, but still it would be interesting to see, how this problem is going to be solved.

    • @billalumni9142
      @billalumni9142 Месяц назад

      @@c94d44027 That is false. The old windows were created as disks spun around and were thicker at the ends. When they were cut the original window framers always put the thick end down. Look it up.

    • @HolarMusic
      @HolarMusic Месяц назад +7

      ​@@c94d44027 not quite true, here's a quote because I'm too lazy to type it all out:
      "It's not totally bullshit, per se. Glass is an amorphous solid. The viscosity of glass is really high, but the bonds between the molecules are not as strong as the covalent bonds in crystalline solids (like diamond and quartz).
      But the "proof" in old window panes is total bullshit. The bottoms don't gradually get thicker than the top because the glass "flows" downward due to gravity, but instead, the panes were made in a non-uniform thickness back in those days, and the thicker part was oriented downwards for stability.
      Also, just because it's an amorphous solid doesn't mean it flows. I mean, glass has a greater viscosity than even some metals like lead.
      In summation, this is a classic case of science textbooks not knowing what they're teaching."
      Veritasium has a pretty good video on this if you're curious

  • @yagoa
    @yagoa Месяц назад +37

    5.5D is a silly naming convention right?

  • @BlackHattie
    @BlackHattie Месяц назад

    Hope you achieve your goals anastasia...

  • @hdushshs3263
    @hdushshs3263 Месяц назад

    Love how informative your videos are can you start to cover general technology news as well,I really like the direct research based way you present the changes in the chip industry
    I don’t know it’s just an idea I guess

  • @chrisw1462
    @chrisw1462 29 дней назад

    Can't believe I didn't think of this.. After all, glass has been used for hard drive discs for years for the same reasons - it's thermal and physical stability over time.

  • @apedanticpeasant1447
    @apedanticpeasant1447 Месяц назад

    Small holes with water connections running through the chips would be amazing

  • @sandyleask92
    @sandyleask92 Месяц назад

    Very transparent technology! I like it.

  • @kashyapchonekar5437
    @kashyapchonekar5437 Месяц назад +6

    We can tell you enjoyed making this video with all the puns

  • @dchdch8290
    @dchdch8290 Месяц назад +1

    Wow, really insightful. Definitely will push next gen of chiplets

  • @blijebij
    @blijebij Месяц назад +1

    Iam totally Glassified *goose bumps* :D What a fantastic news!

  • @hakarthemage
    @hakarthemage Месяц назад +9

    Linus from LTT better not drop his glass CPUs

    • @masterinico
      @masterinico Месяц назад

      You know he will. He has to.

  • @247TechYT
    @247TechYT Месяц назад +2

    Hey Anastasia 👋
    I'm hearing about various companies including Intel, IBM, and others getting success in making 1nm Chips since 2018. But when these are actually coming to our devices?
    Thank You 👍

  • @davidcarlson2481
    @davidcarlson2481 Месяц назад

    Thanks for making this more clear for us! 😅

  • @saultube44
    @saultube44 Месяц назад +1

    Diamond, industrial probably, is a great idea; more of them should be made for all Chips so the Industrial Diamond for Chips gets really low, and don't make Chips expensive and 30% cooler

  • @rotarymazda8225
    @rotarymazda8225 12 дней назад +1

    thank you , great news

  • @carloslemare6060
    @carloslemare6060 Месяц назад

    Excellent article. Thanks

  • @bestelectronicmusicfromnew5189
    @bestelectronicmusicfromnew5189 Месяц назад +1

    Is there metal conductors in the glass? The dilation of the glass vs the metal systems is probably a completely new field which needs lots of special metals and coatings.

  • @_september_4799
    @_september_4799 Месяц назад +1

    Loving the transition to 4K ❤

  • @robertboudreau8935
    @robertboudreau8935 Месяц назад

    Corning produces pristine glass surfaces for photolithographicly formed circuits in displays, where yield has to be very high. If you use glass for denser circuits for AI, where heat is generated, I know there is a challenge in dissappating heat. Thermal vias of metal can be introduced but that adds complexity.

  • @NegatorUK
    @NegatorUK Месяц назад +2

    Those glass jokes really cracked me up .....

  • @jaymethodus3421
    @jaymethodus3421 Месяц назад

    This is gonna shatter the world's expectations

  • @tjeanneret
    @tjeanneret Месяц назад

    In the late 1980's we used ceramic casing as THE solution bringing the desired thermal and mechanical properties. We ruled out glass for fear of the migration of light ions, which could contaminate the silicon. By that time, a wafer was some 4" (10cm) in diameter and a "normal" size for a microprocessor was about 1 square centimeter ! ;-D

  • @michaelhess4825
    @michaelhess4825 Месяц назад

    Glass is glass. And glass breaks - Zack, JerryRigEverything
    Hope they fix that little issue :)
    And The Expanse image was great!

  • @hypothalamusjellolap8177
    @hypothalamusjellolap8177 Месяц назад

    They are already manufacturing on diamond wafers too, which has several other properties. What about using an IBM photonic interconnect through that glass wafer too.... hello gorgeous potential!

  • @alu_computer_arts
    @alu_computer_arts Месяц назад

    Very interesting and educational video. Thank you! If you do not mind, would you dive into more details of multi-layer substrate technique with all glass substrates? I got a lot of questions such as how make conductor pattern (vertically and horizontally) which is currently done by plating? Do glass substrates use ABF as layer-to-layer insulator? if it uses ABF, how does CTF gap absorbed?

  • @АльбертС-ф8и
    @АльбертС-ф8и Месяц назад

    Из физики мы знаем, что есть проводники электрического тока и диэлектрики. Но это деление условное. Дело в том, что это деление предусматривает некоторые условия, при которых возможна такая классификация. Это означает, что через стекло электрический ток идет, но величина его настолько мала, что ее можно не учитывать. Но при нагревании стекла через него может идти достаточно большой ток.

  • @jds1275
    @jds1275 Месяц назад

    When I saw the rectangular sheets, I imagined a visual of new machines that print the chips the same way a laser printer does but on the scale of newspaper printers. That would be a boon if they could pull it off. It would definitely drive chip prices down.

  • @Topgunchannel
    @Topgunchannel Месяц назад +4

    This is interesting.
    I’m ceramic engineer, so I can involve this project maybe