Just follow the money. Stagnant wages tells the story. To CEOs, engineers are equal replaceable units, just need to find the cheapest ones.
As I was being processed in a downsizing from a company known for High Priced equipment, I found an H1-B visa justification form someone had inadvertely left in a copy machine for the same job I had been doing. They catagoirized the job in a way where they could justify lower prevailaing wage, something like 30% lower if I remember correctly, but the job description was the same. This was about a year after our manager told our group that we had to summarize how we designed and debugged designs and transfer that knowlegde to our "co-workers" in India. Uh, yeah, I'll get right on that ....
Your experience provides a good argument for why we should not be exhorting more students to persue STEM careers in those cases for which they have no great passion for science and engineering. Many students are already choosing careers with a more stable employment outlook and less stagnant wage appreciation (such as pharmacy, physical therapy, law, medicine etc).
That U.S. schools may have too much of a theoretical bent in the education of American CS students may derive from computer science being inappropriately identified with those engineering disciplines which are more related to the physical sciences. A more vocational track for CS students might be more productive than the system which we have.
And yet, the observation that there is no STEM worker shortage remains valid given the labor statistics. The fact that individuals who are trained for other professions than those in which they are eventually employed is not peculiar to engineering professions nor does it mean that they are either employed or satisfied that they couldn't find a job in their chosen profession.
That facts are conclusive that there is no STEM worker shortage and the reason is not a dearth of STEM graduates.
Randy Bullock received his degree in Petroleum Engineering from Texas A&M and is now the kicker for the Houston Texans. So he counts as part of that 50% of STEM graduates who did not take a "STEM job". Should we feel bad for him? Ryan Tannehill received his BS in Biology from Texas A&M and is the quarterback for the Miami Dolphins. We have got to do something about all these STEM graduates going to the NFL!
The primary reason half of STEM graduates take non-STEM jobs is because companies want to hire STEM graduates for all sorts of jobs, including non-STEM jobs, because they are smart, can think analytically, etc. Engineering graduates who aren't great placekickers tend to take engineering jobs, but many science and math students take jobs outside science and math. I've met many such former students who are doing very well.
As was alluded to, another thing to consider is the distribution of graduates and their skills. The bottom 10% may not be the best choice for a STEM job, but may do just great in another job. Since this is EE Times, and Texas now offers a Professional Engineer license in Software Engineering, perhaps an interesting discussion would be the PE license as a way to better identify competency. It is standard in fields such as Civil Engineering.
No, you prove my point. You remind me of the Silicon Valley tech firm that offered me only 55K during the tech boom in Silicon Valley (1997). Even though cost of living was off the charts, this company said, "Our wage scales are fair and reasonable." Two years on I found a more realistic wage (65K).
I made 75K as a perm (not temp) at Cisco, in 2000, for crying out loud.
"Be realistic" means "Pay what you need to to attract talent".
Realistically, it proves my point all the more, wages in the industry are generally higher than other industries requiring same level of education, because of lack of supply. Some estimate of equilibrium wage levels are what the Dept of labor stipulates for "prevailing wage" minimums
2)Temping in every industry commands a higher premium to compensate for lack of permanency, (whatever that means). I have temped too at those levels in the late 90's when the tech economy was booming, You did not mention if 70/hr was for a one needing a H1 sponsor or US citzen/perm resident.
Also certain niche skills/industries also command a premium. We are not talking outliers here, but averages.
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.