← Back to context Comment by kristjansson 10 hours ago 1kW TDP chips need LESS cooling? 3 comments kristjansson Reply fooker 9 hours ago Yes, Rubin reportedly can deal with running significantly hotter.That makes radiating a much more practical approach to cooling it. kristjansson 7 hours ago I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate. youarentrightjr 5 hours ago > I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate.Yes, running hotter will cause more energy to be radiated.butThese parts are not at all designed to radiate heat - just look at the surface area of the package with respect to the amount of power they consume.
fooker 9 hours ago Yes, Rubin reportedly can deal with running significantly hotter.That makes radiating a much more practical approach to cooling it. kristjansson 7 hours ago I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate. youarentrightjr 5 hours ago > I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate.Yes, running hotter will cause more energy to be radiated.butThese parts are not at all designed to radiate heat - just look at the surface area of the package with respect to the amount of power they consume.
kristjansson 7 hours ago I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate. youarentrightjr 5 hours ago > I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate.Yes, running hotter will cause more energy to be radiated.butThese parts are not at all designed to radiate heat - just look at the surface area of the package with respect to the amount of power they consume.
youarentrightjr 5 hours ago > I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate.Yes, running hotter will cause more energy to be radiated.butThese parts are not at all designed to radiate heat - just look at the surface area of the package with respect to the amount of power they consume.
Yes, Rubin reportedly can deal with running significantly hotter.
That makes radiating a much more practical approach to cooling it.
I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate.
> I see what you’re saying - higher design temp radiates better despite more energy overall to dissipate.
Yes, running hotter will cause more energy to be radiated.
but
These parts are not at all designed to radiate heat - just look at the surface area of the package with respect to the amount of power they consume.