great feedback; i shall check out Beej and see what's up. it was many years ago that i learned my basic UNIX work.
networking algorithmics is a classic, and there's nothing else quite like it. i stand by that one for sure. he also has a lot of the great networking algorithms in there that you can't get collected anywhere else.
haven't looked at strang, either--axler did well by me!
appreciate the informed and quality comments. --nick
also dan kaminsky's and to a lesser degree dan knapp's. i was put on the spot as a sixteen year old Georgia Tech freshman acquiring his college of computing account, and between a love of good weed and childish stupidity, i chose "dank@". twenty-five years later, i'm not about to change it. no insults are meant to any of the aforementioned hax0rs.
you might want to use different algorithms for automatic control than those exposed through the motherboard firmware, which are pretty much limited to either constant, manual setpoints (usually with extrapolation), and a linear temp-to-rpm curve (ideally with different possible sources).
if you look at my linked Counterforce project, i believe there to be value beyond these simplest management schemes. we'll see.
huh, i didn't know they could be connected like that! i only knew of the -12V as a source for RS-232. thank you for the tip; i'll investigate this (i assume you're correct, just want to understand it for myself) and update the page. thank you very much!
yeah, if you look at the equations at the bottom, power goes up with the third power in relation to rpm. whippin' and drivin' that much air takes some oomph. connect that fan to any normal motherboard, and you're going to burn out your fan header pretty much immediately (especially since inrush current is probably even higher than the steady state).