EUV Demand is Up: EUV Device Manufacturer ASML Beats Sales Estimates
by Anton Shilov on October 16, 2019 6:15 PM ESTBetween the smartphone revolution, cloud computing, and the Internet of Things, the demand for cutting-edge chips has never been higher. And if you have any doubts about that, then one only needs to look at the record-breaking sales of the equipment used to fab those chips. ASML, the leader in the field for photolithography, announced this week its financial results for the third quarter, revealing that its sales, profits, and net bookings all topped expectations, as the company received orders for 23 extreme ultraviolet lithography (EUVL) tools.
ASML’s revenues in Q3 2019 totaled €2.987 billion ($3.3 billion), with a net income of €627 million ($692.7 million). During the quarter, ASML sold 45 DUV and seven EUV lithography systems, as well as five used lithography systems. In total, the company sold 136 step-and-scan tools this year so far, of which 18 were EUV tools. In Q4, the company intends to ship eight EUV step-and-scan systems, bringing the total for 2019 to 30 EUV systems.
ASML’s biggest bump in the third quarter came from a total of 23 orders for Twinscan NXE EUV systems from various customers. Combined with other bookings, ASML’s net bookings totaled €5.111 billion in Q3, the company’s highest ever for a single quarter. It is particularly noteworthy that ASML reaffirmed that it expects its EUV tools to be adopted by both logic makers (i.e., CPUs, GPUs, etc.) and memory manufacturers.
As of July 2018, there were 31 EUV scanners installed at various fabs across the world, including several machines in various semiconductor research organizations. With 10 systems sold in H2 2018 and 18 EUV scanners installed this year, the number of EUV lithography tools used in the world is approaching 60 units. Of course, the number is considerably behind the number of DUV step-and-scan systems used nowadays, but it is clear that extreme ultraviolet lithography is gradually getting more widespread, and that demand is continuing to increase.
Officially, only TSMC and Samsung Foundry use ASML’s Twinscan NXE scanners to make chips using their N7+ and 7LPP manufacturing technologies. Both contract makers of semiconductors will expand their usage of EUV tools as they adopt new fabrication processes. Furthermore, Intel will use EUVL for its 7 nm technology that will be deployed across multiple fabs through 2021. Furthermore, companies like Samsung and SK Hynix are mulling the use of EUVL for DRAM production.
Here is what Peter Wennink, CEO of ASML, had to say:
“For the remainder of the year, we expect Logic to continue to be strong, driven by the leading-edge nodes supporting end-market technology and applications such as 5G and artificial intelligence. The timing of Memory recovery remains uncertain. We continue to make solid progress in EUV. Customers have introduced their first EUV manufactured devices and we have seen EUV mentioned in product announcements. In the third quarter, we shipped seven EUV systems, three of which were NXE:3400C, our higher productivity model. We received 23 EUV orders in the third quarter which contributes to our highest ever value of bookings in one quarter. This strong order flow confirms the adoption of EUV in high volume manufacturing for Logic and Memory. Our overall view for 2019 is essentially unchanged as we continue to see 2019 as a growth year.”
Related Reading:
- ASML to Ship 30 EUV Scanners in 2019: Faster EUV Tools Coming
- Samsung’s Aggressive EUV Plans: 6nm Production in H2, 5nm & 4nm On Track
- TSMC: 3nm EUV Development Progress Going Well, Early Customers Engaged
- Micron’s DRAM Update: More Capacity, Four More 10nm-Class Nodes, EUV, 64 GB DIMMs
- Samsung Completes Development of 5nm EUV Process Technology
Source: ASML
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Duncan Macdonald - Wednesday, October 16, 2019 - link
How does the 18 EUV tools sold so far this year plus 8 in Q4 equal 30 ?ToTTenTranz - Wednesday, October 16, 2019 - link
18 for Q3 2019 plus 8 in Q4. I'm guessing they sold another 4 in H1 2019.boeush - Wednesday, October 16, 2019 - link
"In total, the company sold 136 step-and-scan tools ****this year so far****, of which 18 were EUV tools."I guess reading comprehension is hard for some people...
Anton Shilov - Thursday, October 17, 2019 - link
30 machines was the plan the company outlined early this year.andychow - Wednesday, October 23, 2019 - link
30 shipped, not sold. They sold 18 this year, but of those shipped this year, some were sold in the previous year.skavi - Wednesday, October 16, 2019 - link
Can anyone explain why ASML has been allowed to remain pretty much a monopoly in the high end for these machines? I'd have expected major fab players to try for some vertical integration.abufrejoval - Wednesday, October 16, 2019 - link
Take a care, scroll up to the site search box, enter "EUV" and start reading: Anandtech has done such an outstanding job at explaining the insane effort required to produce silicon structures at that small size. It takes slightly more than an erector kit, matches and Scotch tape to build an EUV scanner.And I am glad no one has as of yet even attempted to replicate that effort, because that would make Europe a chip technology wasteland. Without ASML, no continent or nation can claim silicon supremacy and that is quite a good thing IMHO.
Cooe - Wednesday, October 16, 2019 - link
You seriously are saying that with ARM in your backyard???? (Arguably the most important & influential semiconductor design company in the entire world). Go home Abu, you're drunk. Europe's doing just fine.s.yu - Thursday, October 17, 2019 - link
ARM is now Japanese :)skavi - Wednesday, October 16, 2019 - link
I understand EUV is difficult. But it's possible, as ASML itself has demonstrated. Other companies like Intel surely have the R+D money to put into this area, potentially more than ASML. I'm wondering why they haven't? Even if we don't consider EUV, all the major fabs use ASML for DUV tech as well.Also, I can't really say I agree with the second part of your comment. Competition is only ever a good thing. Another company somehow building tech superior to ASML's doesn't immediately make ASML worthless. And, as another commenter pointed out, ARM still exists.