ASML

How do you build the world’s tiniest skyscraper? 🏗️ http://ms.spr.ly/6047UVW4b In the finale episode of ASML Nanoland Season 1, ASMLers Sabil and Joep walk you through how microchips are made, from a silicon wafer to the chips powering your favorite devices. Watch now!

🚨 BREAKING: we just reported our Q4 and full-year 2024 financial results! 👇 📈 ASML achieved another record year, ending with total net sales for 2024 of €28.3 billion, and a gross margin of 51.3%. 🔎 Our fourth-quarter was a record in terms of revenue, with total net sales coming in at €9.3 billion, and a gross margin of 51.7%, both above our guidance. This was primarily driven by additional upgrades. We also recognized revenue on two High NA EUV systems. We shipped a third High NA EUV system to a customer in the fourth quarter. 📊 ASML expects 2025 total net sales to be between €30 billion and €35 billion, with a gross margin between 51% and 53%. 🔎 Consistent with our view from the last quarter, the growth in artificial intelligence is the key driver for growth in our industry. It has created a shift in the market dynamics that is not benefiting all of our customers equally, which creates both opportunities and risks as reflected in our 2025 revenue range. http://ms.spr.ly/6041Up38L

Big ideas need more than just inspiration – they demand determination, commitment, focus and the right support to see them through. Decades ago, we had help getting started in the semiconductor industry. Now, we're paying it forward. 💪 Here's how we're empowering tech startups and scaleups to grow and succeed. 🚀

Today's vehicles don't just get you from A to B - they're actually advanced computers on wheels, and there's an entire world of microchips making it all happen. From powering central computing cores with high processing capacity to handling intensive real-time actions, semiconductors are shaping the future of mobility and redefining what cars can do. 🚘

Do you know what makes your devices think and remember? 💡 http://ms.spr.ly/6042U8zvi In this episode of ASML Nanoland, ASMLer Sabil explores the two major chip families – Logic and Memory – that power everything from smart homes to gaming consoles. Discover how these chips keep your tech running at its best.

🤓 Time to geek out! Here are 3 mind-blowing analogies about High NA EUV – the next generation of EUV lithography: 📖 With an 8-nanometer imaging resolution, the High NA EUV system is so precise it could print the entire Lord of the Rings trilogy 7,000 times on the side of an A4 sheet of paper. 🏎️ The system’s reticle stage accelerates at 32 g, the equivalent of an F1 race car going from 0 to 100 km/h in just 0.09 seconds. 🌍 The special mirrors inside a High NA EUV system are so meticulously engineered that, if you scaled it to the size of the Earth, their largest imperfection would be no larger than the thickness of a playing card. Big shoutout to ZEISS Semiconductor Manufacturing Technology for making this next-level precision possible! What real-world analogy would you use to describe High NA EUV? 💡

What's the secret to faster, more powerful microchips? It's all about shrink. Printing smaller chip features means chipmakers can squeeze more transistors onto a chip – and that improves performance, functionality and energy efficiency. CD, or critical dimension, measures a lithography system's ability to deliver shrink. Learn about how we use physics to engineer our lithography systems and push the limits of CD. 🔎👇

A chip is a tiny skyscraper. And as these skyscrapers grow increasingly complex and their features continue to shrink, crafting each one accurately becomes more challenging – and more crucial. One way we tackle this challenge is with computational lithography: models and algorithms instilled with our fundamental understanding of lithography that predict how a chip pattern will appear on a wafer. Chipmakers use the insights from our computational lithography tools to shape the light passing through their lithography systems – at the mask, the source and the pupil – so it produces the best possible image on the wafer. It’s all part of our holistic strategy to keep powering technology forward with you.

How do billions of transistors work together to create a chip? 🤯 http://ms.spr.ly/6001osqcF Microchips are the powerhouses behind modern technologies, from our smartphones to AI. In the latest episode of ASML Nanoland, ASMLer Sabil explains how these tiny ‘brains’ perform everything from basic logic functions to advanced computations. Watch now!

5G isn't just about faster internet. From life-saving remote surgeries to precision agriculture, it's transforming industries and lives as we speak. 🚀 Here are ways 5G is making the once impossible, possible...