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MEMs integration into CMOS will be the next big opportunity. Stand-alone MEMS in MCM or other exotic packaging may be cost prohibitive unless there are no options for such integration for performance or complexity reasons. MEMs oscillators especially could be a dying business since CMOS based XTAL osc replacement is possible (e.g. IDT or Silicon Labs). The performance gap has narrowed significantly for such oscillators compared to XTAL.
The semiconductor industry is 50+ years old and is driven by theoretical knowledge and open sharing of it. The industry is still rising but that is happening in Taiwan, So. Korea. Both manufacturing and R&D expertise have now dispersed quite widely to enable much potential for profit in the developed West. They attract capital not just from their own but also from investors in the mature economies. Thus the inversion in investment - payout ratio mentioned by Peter re: silicon blue.
I thought that the migration to multicore CPUs already showed us that we were getting to the point of diminishing returns with Moore's Law, no? Clock speeds have been hovering around 3 GHz for quite some time now. At least 10 years, I'd say.
Another not-new trend is the ever increasing presence of uPs in all manner of consumer products. But even that trend started way back, with the initial introduction of single-chip computers. The uPs just get more and more pervasive.
But I don't see how this translates to the semiconductor industry rising again? I guess I'm saying, where is the discontinuity? Presumably, the few fabs which can produce the large scale integration chips economically will continue to see brisk demand, as their chips find their way into more products. Which has been happening for quite some time now. New ideas will certainly emerge, for even more clever ways of making better use of uPs, but it would take something more "disruptive" to reverse the trend in fabs?
I think "How the semiconductor industry will rise again" is a more fitting title for this article. Another path is to the dramatic increase the pervasiveness of ICs. For example EETimes has reported "The internet of things" earlier. By embedding a microprocessor and communication capability into everything from coffee makers to mattresses, the demand for semiconductor products will increase.
The industry is monopolized with a few giants waddling down a single path. None of them need any innovation.
On ther other hand, they present juicy targets for patent trolls. That is the only kind of start up that may do OK.
If I remember correctly, Silicon Blue's secret sauce was the optimization of its processor for low power (in HW, not SW), more than the lowest-node advantage. Still, Lattice did mention that the acquisition gave them (Lattice) a way down to 22nm that was missing with their own product line.
The industry has essentially experienced a split into two segments: more Moore and more than Moore...more Moore still exists, IC designs still move to 22nm, Intel, Arm, Broadcom etc but there are fewer and fewer players around as it gets more expensive to design...more than Moore requires putting some smarts into play, MEMs is only one example, there are many others, 0.35um process might be quite sufficient here, there is still some room for VC funding but the good, old days of late 90-ties will NOT return...Kris
I could have guessed that you might like my opinion on this. But it is more complex than digital bad; analog plus MEMS good.
We will still need digital, and big digital at that. But the economics have changed.
If we get on to beyond-CMOS, or 3-D processing, or quantum computing; the economics will change again.
But it always comes down to innovation and its cost, the functional value created and protectability.
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. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.