this is a desperate move by intel.
I bet the windows 8 news drive it crazy. it commands maybe 1% tablet market now, and imagine
2-3 year later 50% desktop will be intel nonrelated, with it's cost structure it's doomed.
the proliferation of 28-40nm at foundrys is making all these possible.
intel is trying to command some advantage as it used to have by doing this, oh well, this time it might not work, it just smells like kodak.
This equity plus research funding is an interesting strategy. When your customer list is so short and development costs are so high, it makes a lot sense for both ASML and Intel. Should Samsung and TSMC join the party? That's a tougher call, now that Intel is in with both feet.
I have mixed feelings about this strategy. In most respects I guess it was somewhat inevitable that even ASML would want/need help with 450 mm and EUV litho, but is it one step too many down the road of industry consolidation? Are Intel, Samsung, and to a lesser extent TSMC going to be "too big to fail" at some point if they they start taking equity positions in equipment companies? Are AMAT, TEL, and other equipment companies going to follow ASMLs lead? Where does it all end?
Ask Intel to publish their 450 mm economic analysis.
From SEMIcon show floor Intel has no reason to taper into ASML; they are already a Tier #1 customer. So what are Intel's reasons in this 450 mm development investment? Access, design input, custom configuration, leap frog, allocation, first dibs? Even ASML is still trying to figure out the real Intel reasons.
Intel's costs are rising because their current 300 mm fabrication is inefficient where 1/3 of production volume is priced below cost. Every Intel production generation regardless of process and equipoment generation demonstrates this continuous fact.
450 mm fabrication is not going to change this because Intel's monopoly business model requires this inefficiency to pay for a) the exponential capital requirment of Rocks Law to pay for Moores Axiom, b)to continue a business strategy which gives processors for all types of clients away in order to drive Xeon at a monopoly profit deeper into data center.
450 mm fabrication aim continues Intel myth masking aim; to command, control and consolidate whatever remains in the end. Obviously Intel will end up owning ASML. A healthy industy is a broad and diversified industry. An industry driven by natural time on organic demand drivers not Intel time and extra economic costs.
It seems to me that there is little doubt that ASML went public with this deal because a) it's a big boost for both 450 and EUV (not to mention a vote of confidence for EUV) and b) to put the heat on TSMC and Saumsun. As you say, it would be no big deal for ASML to keep at least part of this plan a secret. But ASML wants the world to know that Samsung and TSMC have a shot to get involved too.
Could this be a boost for Nikon? I think if Nikon has the ability to match ASML in either of this technologies, now is its golden opportunity to turn the tides and level the playing feel. But I don't think Nikon can do that at this point.
Interesting that ASML went public on Intel while telling analysts that Samsung and TSMC have 45 days to get in on the deal at the same price.
The argument runs that ASML was obliged to go public once it had signed the deal with Intel.
But I have known public companies keep secrets while they dot the tees and cross the eyes.
Could ASML be trying a touch of high-pressure salespersonship?
Will it rebound the benefit of Nikon?
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.