Once upon a time, Warren Young warren@etr-usa.com said:
a. It’s transmitting from a fixed location in a time zone you probably aren’t in — US Mountain — being the least populous of the lower 48’s four time zones. You therefore have to configure time zone offset and DST rules, which means additional software if you want it to track changes to these things. There were 10 batches of such changes last year!
This really has no bearing on time source; none of the commonly-used time sources (satellite, terrestrial radio, or network) carry time zone information (although WWVB does carry a bit to indicate if US DST rules are in effect). They each use a single global time scale (although unfortunately, not the _same_ time scale).
GPS time is a much better solution, but it’s power-hungry, as you probably know from running GPS on your smartphone. This rules it out for laptops.
Not exactly; laptop batteries' capacity is an order of magnitude larger than phone batteries.
The GPS transmitters probably have a higher received signal strength than WWVB, but cinderblock walls and grids of 42U equipment racks block the GPS signal quite well. This is why data centers with such clocks generally have to run an antenna to the outside for their clock. That makes it far more expensive than just connecting to an upstream NTP server.
No, GPS is lower signal strength than WWVB, at least for most of the continental US (although WWVB signal strength varies significantly based on the time of day, because it is a low frequency signal).