Your last sentence is well taken, but the rest leaves me a bit puzzled about what you meant.
Your run of the mill laptop is a wonderful machine capable of amazing things. But that laptop is not rated to withstand extreme vibration and shock and huge temperature ranges. Nor does it have the external interfaces to deal with large numbers of custom, high speed digital data buses, nor does it contain the signal conditioning hardware to deal with a huge array of transducers working with differing physical phenomena, each with its own unique power and signal processing requirements. The system I support has to deal with all of these things, plus more constraints than are relevant to the conversation here.
Much (but not all!) of this doesn't even require a general purpose computer. It can be done with state machines implemented in FPGAs.
Sometimes you need something different than a run of the mill laptop.
Like I said, you do have a very good point. I am often frustrated by the realization that my laptop is much more powerful than this specialized data collection equipment. But we have a very large fixed base of equipment, with no plans to upgrade anytime soon.
Your run of the mill laptop is a wonderful machine capable of amazing things. But that laptop is not rated to withstand extreme vibration and shock and huge temperature ranges. Nor does it have the external interfaces to deal with large numbers of custom, high speed digital data buses, nor does it contain the signal conditioning hardware to deal with a huge array of transducers working with differing physical phenomena, each with its own unique power and signal processing requirements. The system I support has to deal with all of these things, plus more constraints than are relevant to the conversation here.
Much (but not all!) of this doesn't even require a general purpose computer. It can be done with state machines implemented in FPGAs.
Sometimes you need something different than a run of the mill laptop.