I look at it a bit differently.
Without hardware, software is useless and without software, hardware is pretty lame.
It is the cooperation of both the hardware and software that makes a well designed system; which is our goal ultimately for software and hardware.
Yes, sometimes it is both. But we mustnot start pointing fingers before exploring the problem and what the cause is. I recently spent two days troubleshooting a problem and have worked with the HW engineer to try and determine the cause. So far, we have elimiated SW as being a possible cause to the issue.
The software guy looses respect, because he caused the product to be late in the first place.
It doesn't matter if it was a HARDWARE problem, we get the short end of the stick; because we fixed the problem after everyone said the product was ready to ship.
In the groups I manage, when there is a bug both hardware and software are considered guilty until proven innocent. Hardware and software engineers are expected to work as a team. As mentioned above software often fixes hardware problems. Also hardware debugging techniques are sometimes helpful in tracking down a software bug. Management should not allow the different disciplines to blame each other.
Why should the software guys lose respect?
Make sure that it does not get framed that way. Make sure that the software guys get the credit for turning around a multi-million dollar loss.
If you want recognition in a company then the best way to do that is to make an association between what you do and the performance of the company. Demonstrate **value**.
In your performance review, point out the value of what you did.
Mr. Fyock, welcome to the monkey house. Your best strategy would have been to quit, although for sure that is not always a feasible solution. Since idiotic management and moronic sales types have a tendency to butt into engineering (software and hardware) you might want to consider this advice that I was once offered: "the time to start looking for a job is the day you land your new one." Sounds cynical? Wait until you've been in the field for, let's see, 11 minus 74, ah, 37 years, and consider it again. Well, in any event, we've all been there...
The trouble is, when you find a software WORKAROUND (emphasis important) to a hardware PROBLEM, and all that people remember is "we had to rev the software to fix it", the software side loses respect - including at review time.
There are two reasons for that:
1) It is relatively easy to see how hardware works and much harder to see how software works. That means people will always tend to believe the problem is where they can't see it (ie. in the software).
2) It is also a matter of hope. Software errors can be fixed on short deadlines, but not hardware errors. Thus management/sales people always hope it is a software problem. When a product is on stop ship they will readily believe anything that gives them hope that a solution is at hand.
Even if it is not really a software problem, there is often a software solution. Whenever this happens it becomes a software problem.
I once had to fix a lubrication problem in software. Without that, many idetms would have had to be recalled and scrapped costing the company a few hundred thousand dollars.
On another occasion a mechanical stop was repositioned. This could have cost approx $100k and 4 months to fix mechanically meaning the company would have lost a few million in sales. I fiddled for a day and found a software solution.
At the end of the day, all that matters is that a solution is found. The customer doesn't care what is broken or who's fault it is.
Just work together to find a solution. Everyone is trying to earn money for the same company.
Nobody has an exclusive right to make the mistakes, that is for certain. The problems arise when either the product definition is fuzzy, or the designer makes a mistake, or the builders don't follow the drawings. The funniest one that I experienced was a fairly simple circuit that I had designed and then built. I carefully selected the resistors to all be in the middle of where they needed to be. But when the production model was built, it was miles out of specifications. The problem eventually was traced to the arrogant detailers who did the circuit drawing. They corrected the "Mistake" made by "That dumb engineer", and added the "K" that I had neglected to put on several low value resistors. So instead of 22 ohms and 470 ohms there was 22,000 ohms and 470,000 ohms. The shortcoming of my designs are that they don't work as intended unless they are built as designed. This was reported to my manager at my next performance review, when the problem with that product was brought up. The response was "OH".
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.