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SNDS
- Thread starter TAKKLE
- Start date
Soulkeeper
Diamond Member
well it all depends what cpu you are using and what process it is made with (the transistor gate size ie: .18u .13u or .09u)
Most people in these forums seem to agree that if you go over 1.7v (a little less maybe 1.68) with a P4 (northwood core .13u) you will damage it
the athlon (barton and t-bred cores .13u) seem to take a little bit more voltage before they die on you at around 1.74 to 1.76v in my experience, although many seem to enjoy running them higher
the P3 (tualatin .13u) should be somwhere around these limits as well
the jury is still out on how much voltage the new .09u processors from both amd and intel will be able to handle but i'm will to bet it will be atleast .1v less
as far as older .18u processors are concerned there are many and each is a bit different
athlon thunderbird seemed to run fine up to 1.8v and even higher (some people ran them over 2v, although this never seemed safe to me or the athlons i destroyed)
the P3 (.18u) i'm not too sure what voltages would kill it but probably around the same ballpark as the athlon
the P4 (willamette .18u) would prob take as much as 1.8v but i'm not too sure cause i never owned one
remember tho a lot of this is all debatable and no two processor are exactely the same and the death of a processor could take minutes weeks or even years when overvolted
i know i left out a lot of other processors but i hope this helps
btw i've destroyed atleast 5 athlons by now from overvolting
nomatter what kind of cooling you use voltage can still kill them
believe me i was using subzero watercooling and still managed to destroy many
what do you plan to overclock anyways ??
i guess someone else can correct any errors or fill in the gaps
they could prob explain the whole electron migration thing better too
Most people in these forums seem to agree that if you go over 1.7v (a little less maybe 1.68) with a P4 (northwood core .13u) you will damage it
the athlon (barton and t-bred cores .13u) seem to take a little bit more voltage before they die on you at around 1.74 to 1.76v in my experience, although many seem to enjoy running them higher
the P3 (tualatin .13u) should be somwhere around these limits as well
the jury is still out on how much voltage the new .09u processors from both amd and intel will be able to handle but i'm will to bet it will be atleast .1v less
as far as older .18u processors are concerned there are many and each is a bit different
athlon thunderbird seemed to run fine up to 1.8v and even higher (some people ran them over 2v, although this never seemed safe to me or the athlons i destroyed)
the P3 (.18u) i'm not too sure what voltages would kill it but probably around the same ballpark as the athlon
the P4 (willamette .18u) would prob take as much as 1.8v but i'm not too sure cause i never owned one
remember tho a lot of this is all debatable and no two processor are exactely the same and the death of a processor could take minutes weeks or even years when overvolted
i know i left out a lot of other processors but i hope this helps
btw i've destroyed atleast 5 athlons by now from overvolting
nomatter what kind of cooling you use voltage can still kill them
believe me i was using subzero watercooling and still managed to destroy many
what do you plan to overclock anyways ??
i guess someone else can correct any errors or fill in the gaps
they could prob explain the whole electron migration thing better too
Soulkeeper
Diamond Member
one way i like to think about it is by comparing a cpu to a lightbulb
you can only run so much voltage/amps through it
the thinner the wire in the lightbulb the less current you can run through it before the bulb wears out on you
and just like a light bulb the cpu will eventually wear out even at it's standard voltage (several years tho), but the lifespan is inversly proportional to the voltage being used (perhaps at a calculatable exponential factor)
also one thing i've often thought about was that the time the cpu is stressed the most is when the computer is turned off and on,
also like a light bulb cause that is usually when they burn out
you can only run so much voltage/amps through it
the thinner the wire in the lightbulb the less current you can run through it before the bulb wears out on you
and just like a light bulb the cpu will eventually wear out even at it's standard voltage (several years tho), but the lifespan is inversly proportional to the voltage being used (perhaps at a calculatable exponential factor)
also one thing i've often thought about was that the time the cpu is stressed the most is when the computer is turned off and on,
also like a light bulb cause that is usually when they burn out
Shimmishim
Elite Member
1:1 is going to be tough... then again i was trying to run 2-2-2-6 timings at 250 mhz 🙂
enjoy the cpu when it comes... it's an awesome chip! sad to see it part but i have a new project coming up... 🙂
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