Hey Dylan. You started out great, and then you felt you had to get back to the "post PC era" mantra.
The original point was that people (including myself btw) are buying mid-level PCs and laptops/notebooks, rather than top end systems (e.g. Intel Core i5 vs i7). And you gave good reasons for this. Fast, quad core performance that can handily run the new apps, codecs, and up to date virus shields. Where the older single-core systems became an irritating experience.
But as far as I can tell, the last paragraph is a non sequitur. Nothing discussed previously said anything about "post-PC" diddly, as far as I can tell. And I did re-read the article! My take continues to be that the PC and notebook market is essentially saturated, and what you're seeing is mostly replacement purchases. The tablet and smartphone markets aren't there yet. End of story.
I agree with all points made above. The soft economy is undoubtedly a factor making it hard to move premium products in any industry. But, yes, where is the killer app? I am thinking about buying a new PC and think I will probably spend around $500. For the rather mundane tasks that my family and I will use it for, I have no idea why I would be compelled to spend more.
Yes, this be may be another signal for the end of the desktop PC. Thinking about notebooks: most people I know love the netbooks.
Small, light-weight, have all they need and they are cheap! But they seem to disappear while the industry is pushing for ultrabooks which are quite more expensive. Is it the win margin that the industry pushes for ultrabooks?
I agree that this is not so surprising given the current economic climate, but I also think that we are missing "killer apps" to use some of that surplus computing power. As has been expressed on this forum before, there is not as much innovation coming out of the PC industry these days. Consumers typically don't "need" higher powered computers because there are few compelling applications that require them.
Blog Doing Math in FPGAs Tom Burke 1 comments For a recent project, I explored doing "real" (that is, non-integer) math on a Spartan 3 FPGA. FPGAs, by their nature, do integer math. That is, there's no floating-point ...