@joshxdr: what you bring up as difficulties for Japanese professionals to move overseas are the same ones that other Asian ethnicity went thru when migrating to US/EU destinations. The gist of my message above is that in today's globalized economy, the opportunities will not always be in one's home turf! It would seem that the Japanese have more reluctance to accept this -could be reluctance, anxiety of assimilating/adapting to culture that is foreign to them, etc.
It is never too late to start a 'Little Tokyo' in upstate NY!
It is not technically true that there is no Japanese diaspora in the US. I think what you mean is "there is no established Japanese community" in most US cities.
"The Japanese diaspora has been unique in the absence of new emigration flows in the second half of the 20th century"
I think it would be tough for a Japanese engineer to relocate to a GF fab in upstate New York. There is no established Japanese communinity in that area. Non-English speaking spouses would be socially isolated and unemployable. There are no Japanese schools. Due to the reliance of Japanese education on high-stakes testing, a Japanese kid who goes to an American school will be behind when returning to Japan. It is possible but difficult to live on a Japanese diet in the US, and it would be more difficult in upstate NY. As much as the Japanese economy has deteriorated, I think Japan still has a higher standard of living than Taiwan or South Korea. I would guess that the fraction of Japanese engineers with sufficient English proficiency to work in the US to be 50% or less. I think it is very unlikely that there will be a flood of engineers from Japan even as grim as things are.
And that lasts how long, given costs of living in Japan?
It's not bad if you have decent prospects of finding another job. With the semi industry shrinking in Japan, finding another job may require relocating. But relocating where?
Will places like Taiwan and Korea have openings for displaced Japanese engineers (especially since they have their own pool of engineering talent, and will give preference to a local)?
I think a lot of these folks just won't *get* new jobs.
@Junko & @iniewski: I have mixed feelings about this outcome of a country losing its well-experienced and competent workforce to globalization.
If Renesas were to be a pure digital play chip company, I would have said may be it is for the good since the number of fabs / IDM's at advanced technology nodes are rapidly shrinking to a handful (soon we will be counting with one hand the fabs /IDM's for 14nm and beyond!). But this wasn't the case -Renesas has / had many analog and mixed signal products, products that don't need the latest nm node. There is plenty of innovation left in these. It also boggles me that Renesas never made serious attempts to play in MEMS market where much of the talented workforce could have been re-purposed.
From the perspective of globalized economy, repercussions from workforce exodus is not exactly a zero sum game, though GloFlo stands to gain but that is not linear. Moreover, there are ample examples of macroeconomic ecosystems stemming from expats' money flow that spurs different industries and opportunities. In this regard, Japan has a lot to learn from countries like India where workers of migrated overseas in all cadres yet stimulate a vibrant economy back home.
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.