sk* said:
i will explain hampster
first of all parallel chips wont cause a synergetic effect lol, i think he just put it in there cause he likes the word synergy
and fonz is confused when he says crack a 128bit encryption, because it is not the password that is encrypted rather the email itself so sniffing over local networks, isp, and things like that would be impossible
the password has nothing to do with a 128 bit encryption therefore the whole thing can be avoided, and even if it did, believe me when i say
noone is going to use multiple computer to do a simple brute force LOL
and 128bit encryption, i believe and dont quote me on this, is microsoft's own and has nothing to do with ziplip
oh and if ziplip actually uses 128 bit encryption, i will crack it by tomorrow and paste the whole encryption, because my friend, java is totally decryptable and therefore i would see the whole coding behind it
anyway, what he said is nonsence
128 or 256, it wont make much of a difference when u break it down, trust me on this
Interesting.....but motherboards in parallel do increase
the operational speed of a comp. network because
they do not cause voltage drops like motherboards
set up in series which do.
In parallel, electronic networks have the same volatge but
different amps being used by each motherboard
(assumming the motherboards opertate at different speeds).
In essence, as long as the voltage stays the same
you could create a massive paralell computer with
a low-enough current(I) that the chips wouldn't
fry or not work because of insufficient current or
due to fluctuations in the power level of each
unit causing energy losses..
i.e
Get 50 motherboards with the same operational speed,
say 1000Mhz.
With a sophisticated enough cooling/super-conductive
system, errors due to over-heating can be avoided
and the system is essentially increased exponentially
in its operational speed.
i.e. resistance in a parallel circuit is 1/R= 1/R1+.........1/R(@)
Now, since R=VI,
1/VI= 1/V(1)I(1)+ 1/V(2)I(2)+...........1/V(@)I(@)
and V=constant because the boards are in parallel
and super-cocuctors don't show any resistivity at all.
Also, I = constant as the total current is the same
in all motherborads.
The total operational speed becomes the addition of
all the motherboards minus the energy lost due to
heat(heat losses due to the heating cused by
the current) i.e Power loss. this is more
thermodynamics than anything else.
Op. speed is really only opposed by the heating effect of
the small current on each of the chips and the energy used
for cooling them.
Fonz
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