Wim Kok ? I liked that one. He did a decent work and did not cling to the seat when the buggers would annoy him for stg he had no responsibility in. I aint dutch but I enjoyed the years I lived there, and loved the straightforwardness of the usual citizens. The unusual ones being in my mind those who made a profession of spinning and fleecing, not those pointed out by the one whose name can not be said.
I liked Wim Kok too. He was one of the old school guys who got to be the PM because he earned it and deserved it, not because he was the "least of all evils". I'm really a fan of Neelie Kroes, though. She should stop wasting her time in Europe and run for PM this time around so the Dutch get a real leader in "het torentje" at least once in a generation.
Just have a read of Richards' post again, have a look at Moore's law, and micro-electronics drivers (like the ITRS roadmap summaries). No doubt the coin will drop if it is explained by someone less messy
I have some idea of this. Around 2005 there was a movement afoot within the ITRS to scale and diversify the hardware architecture in order to meet changing market demands and make it easier for chip manufacturers to keep up with manufactures of smart integrated devices like smart phones but also microwaves that automatically detect how much power to pump into a given item in order to cook it optimally, perhaps even taking this information directly from the cloud.
I think what they foresaw happening has started to happen and will continue on for some time, but the issue that the ITRS almost immediately encountered was that with this kind of ... what they called "More than Moore" approach, the roadmapping process itself became exponentially complex, let alone the manufacture of fault free devices.
I don't know if you've ever designed or built a CPU but I have and I can guarantee you that just because it's on a chip there is no guarantee that the logic is solid. It's still human logic. Binary logic is somewhat easier to test (and to automate testing) against a finite state machine than a computer program, but it's still subject to the variable of human fallibility. It's not because it's on a slice of silicone that it's bound to work. It would be nice if the world worked like that but it doesn't.
The point being that my previous point about KISS applies every bit as much to building IC's as it does to building software. Putting more and more functionality into an IC will make the process of development and testing exponentially more difficult (as the ITRS discovered in its roadmapping efforts) and the reliability will not be improved in the process. The *last* step, printing it on silicone, doesn't change in any significant way but that's not the step where the risk is and that's not the step where chip manufacturers make major logic/design decisions.
They've done this before and came back to RISC after the process became unwieldy. I know they're still pursuing it to some extent but I don't think things like building dormant wireless capability into a chip designed for a microwave is really the same order of functionality you envision for AI in dive computers. Can it be done? Of course it can.
What I *do* foresee is integration of smartphones or computers with dive computers (via the cloud) so that important dive information like profiles and deco schedules can be up/downloaded seamlessly without cables and all that "nerdy" work we have to do today. Would it be worth building (latent) wifi capability into new IC's for dive computers to enable manufactures to develop integration strategies. Sure. But even the ITRS roadmap won't include building pointless functionality into a device because it's possible. Somehow there still needs to be a possible need.
That said, recreational divers are far more likely to want AI than technical divers. If you imagine (which I think you do) a single diversified processor that forms the foundation of all dive computers in the future then, sure, building the ability for it to talk to a transmitter is definitely something you would want it to be able to do. I'm not sure that's where this thread started but this conclusion (however we got to it) would be logical.
So, yes. I would agree with you that *IF* we were to build one architecture for all dive computers that it should be able to talk to a transmitter.
Where we differ is that I believe that building one architecture to cover all the bases isn't usually the most productive direction. I can see it from a chip manufacture's perspective. They don't want to have to manufacture 600,000 different chips. From the perspective of a dive computer manufacturer or a diver, however, it's really an esoteric discussion that doesn't make any sense.
R..
.... with one exception, of course, who we can't mention on the internet
