I have had the least problem in BK puppies.
Me, too, which is why I suggest you advise BK - he obviously knows something the rest of us don't^2 !
As for
occasional use of diphthongs and umlauts, etc. in words that must have them, even in another language, it is always possible to stick them in Google, select an entry which shows them fully clothed and copy them over.
I guess it's a sign of great age (and lack of adequate research by youth!) when the issue of cpu temperature comes around for the tenth(?) time. Way before this millennium, AMD introduced an extra diode into their cores which had the ability to be used to measure the, errr, core temperature. At first, few knew how to correctly use this and, predictably, the bigI guys dismissed it: they started fitting it somewhat later - predictably. As you correctly assert, CLAMie, core cpu temps can be alarmingly high, especially during maximum use excursions - this is normal*. As for the diode(s), sometimes they were used in BIOS, but some board makers were still using an on-board resistive sensor under the cpu. This reports the, errr, under-cpu-temp. The latter has been loosely associated with the outer cpu surface temp - not always the same value, of course. Then there came the SW utilities which report the "cpu temperature". This continues to create considerable confusion because few coders specify which method/sensor they are using to determine which value. Adding to the confusion, mixed in from even earlier utilities were attempts to provide a SW calculation of probable cpu temp - these were worse than useless.
Enter the laptop - one of the most successful marketing efforts the field has encountered, but technically, and, for the punter, financially, a disaster waiting to happen. Early devices had no cooling channels; present designs do, but folks without a decade of dexterous skills will fail to clean these regularly without causing damage to the monstrous construction. Add to that, some cheapo machines did not use the 'M' version of mobile cpu in the interests of even greater profiteering, and leading, inexorably to melted plastic.
And I haven't even got around to mentioning short-lived, expensive to replace batteries, short-lived virtually impossible to replace cold-cathode lamps, not to mention 'routine replacements of eg cracked screens, cracked lids at the stiff hinge(s), and legions of other failures that are difficult-to-impossible to fix without the manufacturers' manual and jig which they decline to supply.
Check this and the many other Forums to which I have contributed over the decades. The advice has always been the same -
do not buy laptops, it is a marketing exercise, purely and simply. Mobile functionality has just become available with smart phones. Important people need neither, they have a secretary to take care of the minutia. Besides which, at least in the UK, every municipal library will provide free InterWeb access for citizens who are caught short. Notwithstanding, there's a brick behind virtually every office and domestic door. Friends visiting here know that I can offer access to a choice of several dozen boxes with simultaneous Net connection via 12 ports. Few of my visitors feel the need to contact their mother-in-law, w.h.y., as we share a glass of cheer, however.
Even old technogits enjoy 'smelling the roses' as we muse on the ridiculous antics of the capitalist ignorami + camp followers.
*the MPt of Si is 1683C, but the eutectic melting temperatures of the junctions will be considerably lower. For example, an In junction will melt below 429C. Even so, that's considerably above the BPt of water @100C, so the margins for thermal runaway are quite reasonable, even at the =<45nm level. Ga devices present problems, however, in this regard as well as costs of ore, extraction and processing!