Wafers may look simple, but their unique properties are key to making microchips work. Ever wondered about the substrate that forms the foundation of the technology in your hands? Take a closer look at where it all begins.
You are definitely the Heartbeat of seminconductor industry!🫡
This kinda information is really useful
Thanks for that fascinating dive into the wafer’s world ASML… reminds that the magic of Moore’s Law starts with this seemingly simple slice of silicon 😁 We’re pushing AI frontiers that demand ever-smaller nodes, and your role in that is foundational.
Good announcement und delighted educational info .
Hey ASML can you make next post on mask and its alignment?
Is it true that wafer production is such a delicate process that it naturally leads to variations in chip performance? I’ve once heard that Intel’s chips (like the i3, i5 and i7) are all produced the same way but are classified afterwards based on their performance. Does ASML do something similar, or is ASML only responsible for the machines and not the actual chip fabrication itself? anyway, love the content of your post :)
It's great seeing educational posts that break down the fundamentals. 😀
ASML ——> speed, battery life, and durability of every modern device — from phones to EVs and AI chips — all depend on the quality of the wafer at the very base.
I like my wafer crispy with vanilla or coconut flavor 😁
Business Development Manager - Strategic Sales | Automotive | Datacom / Telecom |
1wGreat reminder that what looks simple on the surface often hides extraordinary complexity. The wafer substrate is more than just a foundation, it’s the silent enabler of every breakthrough in microchips and modern technology.