The Magic of Transistors: TSMC's Path to A16!

Finally a commercial I'm excited about

Blimey, how on earth did you manage to get sponsorship from TSMC?

Hey Dr Cuttess, if you want to improve your chroma keying, the key (heh) is to use more lights. The more/bigger the better. If you are filming with a camera that let's you film in raw or raw-like, or something like Sony's S-Log with high dynamic range, you can in post tone down the lighting so it looks natural. However, by having that much lighting, the camera picks up the color differences much better and the surfaces are lit in a more homogenous way, so the cutoff of your silhouette gets much sharper and not jittery.
In general, the more you can lower the ISO, the better, since a lower ISO means the camera does less guessing and colors are closer to real life. High ISO also introduces jitter and noise (bad for keying).

Gawd damn. TSMC sponsorship is wild

This is the sponsored readout.
I am hoping for an Ian video to answer some questions and comparisons that come up: Is it possible to compare some of the technologies Intel talks about directly to those mentioned by TSMC?
For example power rail sounds like power via for backside power delivery?

Huh... You know, I didn't expect for TSMC to be talking about angstrom chips already but here we are. I guess that something in the market spooked them to do that, as much as I would like to think that it is IFS... I am not sure it is.

It’s a huge amount of innovation.. but only a 20% density increase going from N3 to A16….

TSMC’s advanced packaging fab is in our childhood hometown…

This is such an interesting / odd video. What is the target audience of this kind of video? Does TSMC have difficulty of finding customers? Does TSMC need to inform end consumers about their services / products?
I love this video, I really do! This video is just so... cool! Well done for getting another TSMC sponsorship! But I genuinely am interested in the questions I asked above. :)

more yummy silicon!

Wow after knowing Intel would separate power and signal delivery between the back side and front side of the silicon wafer, TSMC is also revealing their plans to do it too! Also it's interesting that TSMC is using nano sheets for their A16 while Intel plans to use nano Ribbon for A18. It's all coming together like crabs.

The whole video sounds like TechTechPotato has become the Marketing Intern at TSMC

Educational videos on the various terms would be helpful

Wow! SoW is pretty interesting. I had joked back when Apple introduced the M1 Ultra that they might go data center stitching four M2 Max dies together to scale it out. LOL! Great stuff, Ian! Thanks for keeping us all informed.

Dr. Ian is back with that big chip energy 😏

Well summarized what we can expect in the future with chip manufacturing overall besides what to expect from the industry leader TSMC. A16, more advanced MCM packaging and of course silicon photonics make all sense to be essential in the future.

I thought Brits called them crisps 🤔

Selectively Optimizing transistors for power trade offs seems like a good fit with wafer scale products … heat dissipation has got to be a big issue. I always considered the heat build up issue would push wafer scale designs into long narrow wafer slices. This allows the heat buildup to dissipate more effectively than from a square wafer chunk.

Dr. Cultress, u need to grab one of those "Guai Guai" (乖乖) coconut-flavored edible chips from TSMC! That will be so funny eating them on air! Since TSMC engineers aren't allowed to eat nor film them inside the fab. :D

Sounds exciting 😀 😮 seeing 👀 what comes after 2nm🍟 chip designs especially photonics & 3D stacked transistors.

Kind of beats the point of checking your channel if you are going to repeat their press release.

Tall and short standard cell libraries are pretty common at larger scales in my experience. Was it less common at these deep scales due to patterning requirements forcing very regular structures?

Initially thought tsmc made an improved a16 bionic. Then came to know it was Angstrom. Been a long time, I heard angstrom unit in my physics lecture. 😂

Hi, I’m not technical, but this one side for signalling and other side for power delivery, is it broadly similar to what Intel cals as backside power delivery that they are probably going to implement with PowerVia?

So TSMC is following Intel with the angstrom designation and Intel and TSMC both have pretty cool tech coming in the latter half of the decade... What's Samsung doing?

they can do this without the new machine that Intel bought from ASML?

Oh no.. someone overclocked the outro music 😂

I'm all about that backside power. Aka Badonkadonk. Intel calls it PowerVia. I don't know why they don't work with motherboard managers to allow for backside cooling. Put all the VRMs on the back close to the chip to keep voltage as stable as possible and put all the memory on the frontside as close to the chip to keep latency down and have coolers on both sides of the board.

System-on-wafer in production? Does it be Dojo for Tesla? They diagram looks even similar.

TSMC also said that high NA litho isnt important right now and will keep using just EUV and not use high NA EUV for awhile...while Intel is jumping to high NA EUV ASAP. thats a wrong move by TSMC as thats what Intel said before too, and thats how Intel fail behind from TSMC and Samsung.

wonder when we can expect the first video cards using A16 and how much extra cost we can expect on these chips production

Is the SoW offering in any way related to Cerebras’ wafer scale engine technology?

So leaving AnandTech was the best decision you made. Anand never got sponsorship from TSMC even after TWENTY years. That _is_ HUGE.

Is "System On Wafer" , for AI Supercomputers a whole new business segment? What do you think about the economical impact of this?

One important detail: will this be achieved with the present state of the art EUV lithography, or is there an announcement by ASML also in the cards?

Good presentation,tsmc aiming 3D solution by stack up nano sheet aka cfet while Intel is trying High NA EUV to max the density in 2D way,will see who wins the battle

I like fat chunky chips not thin ones and gin is best for tonics!

TSMC on their back foot playing catchup with Intel. You have to give real credit to Pat Gelsinger with what he’s done since taking over.

is length of a wave for transmitting a bit of 1 or 0 not dimension

But will it blend?

Meanwhile me designing IP on N28 ;_;

So 3nm > 16A no mention of 2nm or 18A 🤔

TSMC 도 Ayar labs 같은 방식을 도입하는군

3:20 How do you think Intel produced Core gen 12/13/14 CPUs with P-cores and E-cores?

SPR is not what intel just announced as thru silicon vias?

If 1.6 nm doesnt mean the gate length then what does it actually mean how was the name taken ?

I cannot concentrate to the content. I always got blown away with the inference of the background and your new haircut.

WOW! Big corporation announces [things are fine news]! Did they just announced [thing that reassures shareholders]? Omg, they totally did! Wow.

The financing Intel (and others} is receiving from the federal government - is it non recourse - a grant - what might be the basic terms involved? Wondering }

3:50 uhhh... didnt intel say, several times, they can do this with their ribbonfet? Im pretty sure they did!

this is a prime example of why you dont wear a thinly striped shirt when recording digital video.

It appears to me that Intel, for the first time in many years, is ahead of TSMC! For decades TSMC was the fast follower, then TSMC leaped ahead of Intel due to Intel's strategic mistake of not embracing EUV early enough. Now that Intel has EUV, they have quickly caught up and it appears they have even surpassed TSMC. Intel 20A node, which is essentially out now, already has gate all around transistors (nanosheet, ribbonFET, whatever you wanna call it). 20A also already is using backside power delivery. So Intel already has two new key technologies built into ththeir 20A node! Intel 18A will be out just a bit after 20A in late 2024, and will put Intel even further ahead. It appears, Intel will also stay ahead thru the remainder of the decade. Here's why. Intel is the only foundry to have purchased, installed, and begun using an ASML high NA EUV stepper. These can create features 1.66x smaller than the standard NA EUV stepper. TSMC has arrogantly said they don't need hight NA until 2030. Sound familar? This sounds just like Intel did circa 2017, when they said they didn;t need EUV. Can TMSC eek out something competitive without it? Probably, but they will have to rely on mulitpatterning and lower yields. Intel 14A will be out in 2026, likely one year ahead of TSMC's A16. Not only will 14A be out a year earlier, it is almost guaranteed to be better since it uses high NA. Intel is back. WIll their foundry be as big, no. Will it immediately win over Apple and Nvidia? No, but it will eventually. I think many companies that demand to be on leading edge, will make the switch in 2026 with Intel 14A

300mm chip? How could you be supposed to cool that chip?

Shouldn't there be a big "SPONSORED" text somewhere in the title or in the video?

Not impressed. TSMC hit speed bumps with N3 and is slowing down. On the other hand now that Intel has turned their ship around they are going as fast as possible to surpass or match TSMC. Apple is dealing with the effects of TSMC hitting a wall, as their M silicon continues to grow in area gen after gen after gen as density gains are getting anemic.

How is it called "angstrom"! when it's 1.6nm or in the case of Intel, 1.8nm or 1.4nm!? shouldn't it be in the sub-nano realm, in order to be called angstrom (100 picometers)!?

TSMC just keeps on winning. I love it.

Why such a robot?? Are you an AI?

If you know so much then why you can't work in those companies?

Xi will want this new tech bad.

TSMC's announcements are coming fast and furious... meanwhile, at Intel... keep pushing those tech from years past will go into production... soon

Get to the point, mate! You could have said this in 30 seconds!