EUV lithography is a chipmaking process that uses extremely short light waves, just 13.5 nanometers, to print the smallest circuit patterns onto silicon wafers. It makes today's most advanced AI chips possible.
ASML is the only company in the world that builds and sells EUV machines, which makes it a critical gatekeeper in the AI chip cycle.
Every chip starts as a pattern of light. Lithography machines project circuit designs onto silicon wafers coated with light-sensitive material, layer by layer, until billions of transistors take shape. The rule that governs this process is simple: the shorter the wavelength of light, the smaller the features you can print.
Feature | DUV | EUV |
Light wavelength | 193 nanometers | 13.5 nanometers |
Used for | Mature nodes and less critical layers | The most advanced critical layers |
Patterning | Needs many repeated exposure steps for small features | Prints tiny features in fewer steps |
Suppliers | ASML, Nikon, Canon | ASML alone |
The last row of that table carries the most weight for investors. DUV is a competitive market. EUV is not. After decades of research and billions in development cost, ASML emerged as the only company able to build these machines at all, and each one sells for well over $150 million.
AI accelerators are the hungriest chips ever built. Training large models requires enormous parallel computing power, which means designers want three things at once: more transistors on each chip, higher density so those transistors fit in limited space, and better power efficiency so data centers can afford to run them.
EUV delivers all three. Smaller printed features mean foundries can pack more logic into every square millimeter of silicon, and each new manufacturing node cuts the energy used per calculation. Before EUV arrived, foundries squeezed out smaller features by exposing the same layer many times with DUV light, a slow and defect-prone workaround. EUV replaces many of those repeated steps with a single exposure, which simplifies production and helps yields on very large chips.
This is why the entire AI hardware ecosystem depends on EUV even though most of its members never touch an ASML machine. Nvidia, AMD, Apple, Broadcom, and the custom chip teams at Microsoft, Amazon, Google, and Meta all design processors that only the most advanced nodes can manufacture. Those nodes exist because of EUV.
ASML does not design AI chips, and it does not manufacture wafers. It occupies a quieter position: it builds the machines that foundries such as TSMC, Samsung, and Intel use to make advanced chips for everyone else.
That position sits one step upstream of the entire supply chain. Chip designers send their blueprints to foundries. Foundries print those designs using lithography systems from ASML alongside equipment from Applied Materials, Lam Research, and KLA. Finished logic dies are then packaged with high-bandwidth memory from SK Hynix, Samsung, and Micron, assembled into servers by companies such as Supermicro and Dell, and deployed by cloud providers running AI workloads.
Because ASML is the sole supplier of EUV systems, its production capacity effectively sets the ceiling on how fast the world can add advanced chipmaking capacity. A foundry cannot build a leading-edge fab without ASML's machines, no matter how much money it commits. That is a rare kind of market position, closer to critical infrastructure than to a normal equipment vendor.
ASML's order book is one of the most forward-looking signals in the whole AI trade, because equipment is ordered years before chips ship. When cloud companies raise their AI spending plans, chip designers order more accelerators, foundries plan new capacity, and those plans arrive at ASML as bookings long before the resulting chips reach the market.
Metric | 2025 snapshot |
Total net sales | €32.7 billion |
Fourth-quarter net bookings | €13.2 billion, of which €7.4 billion was EUV |
Order backlog at year end | €38.8 billion |
Gross margin | 52.8% |
A backlog of that size gave ASML well over a year of revenue visibility, and analysts read the record EUV bookings as evidence that foundries were still expanding advanced capacity for AI demand. The next upgrade cycle, called High-NA EUV, extends the same story: these larger machines print even finer features for future nodes, and their adoption pace is watched as a signal of how far chipmakers believe the AI buildout will run.
One warning applies. ASML sells a small number of very expensive machines, so a single quarter's bookings can swing sharply without meaning much. A weak quarter followed by a record one is normal for this business model, which is why experienced observers track backlog and full-year trends rather than one headline number, the same discipline explained in this guide to
why stock prices can fall even when earnings beat expectations. Traders following the equipment layer of the AI trade can track major semiconductor names through
stock futures on MEXC.
ASML's monopoly is real, but it does not remove risk. It changes where the risk sits.
Export controls come first. Advanced lithography sits at the center of technology restrictions on China, ASML's largest single market by revenue share in parts of 2025 according to analyst reviews of its quarterly results, such as this one from
Futurum Group. EUV systems have never shipped to China, and tighter rules on DUV sales could cut into a meaningful revenue stream.
Customer concentration is second. A handful of foundries drives most demand, so a capital spending cut at TSMC, Samsung, or Intel lands on ASML quickly. Cycle risk follows the same logic: if AI infrastructure spending slows, equipment orders are among the first things trimmed, since fabs can delay expansion without stopping production.
Finally, there is valuation. Investors know ASML is a monopoly, and that quality tends to be reflected in the price of the stock. Paying a high multiple for a great business still requires the growth to arrive, a tradeoff explored further in this guide to
combining PE, PB, PS, and PEG valuation indicators. Live pricing for ASML and other semiconductor names is available on the
MEXC stock markets page.
EUV lithography is a way of printing chip circuits using extremely short light waves of 13.5 nanometers, which allows manufacturers to create much smaller and denser transistors. It is required to make the most advanced chips, including AI accelerators.
Building an EUV machine took decades of research, billions of euros, and a global network of specialized suppliers that no competitor replicated. Nikon and Canon compete in older DUV tools, but ASML is the sole producer of EUV systems.
No, ASML makes the lithography machines that chip manufacturers use. Foundries such as TSMC, Samsung, and Intel buy ASML's systems and use them to produce chips for designers like Nvidia, AMD, and Apple.
High-NA EUV is the next generation of ASML's technology, using a larger optical aperture to print even smaller features for future chip nodes. Its adoption pace is watched as a signal of how aggressively chipmakers are investing in the leading edge.