@TelKitty There are number of ways. One is a particular class of variable stars, which have a well-known relationship between the frequency of variation and the mass. So you can measure the frequency of variation, and from that compute the mass.
@Mikhail A pointer converted to an integer of sufficient size (if any such exists on the implementation) and back to the same pointer type will have its original value; mappings between pointers and integers are otherwise implementation-defined.
@TelKitty I'm not sure what you're asking. They certainly use it on a regular basis.
@TelKitty Mostly inside the milky way--outside the milky way, you mostly can't see individual stars. You can see a few giants in a few of the nearest galaxies like M31, and supernovas much farther way, but observation of individual stars is mostly inside our galaxy.
@JerryCoffin but to a different pointer type? I mean argument is that if you view something as a char * or an int* they will be different addresses. At least on the Cray T90 :-/
The primary obstacle is a conflict over the GS segment base address (GS.base) maintained by the CPU under the control of the OS.
On 64-bit Windows, GS.base is used to hold the address of the Thread Environment Block (TEB) structure for each thread. Windows apps expect to access the TEB using %gs...
I guess it is getting a bit ridiculus running traces across the mainboard to carry the DDR5 bandwidth across, that signal is clocked at between 4.8GHz - 8.4GHz
on the other hand concentrating even more stuff to cool into the SoC package is not helping cooling
it won't but the per cycle efficiency will be insane with that much memory bandwidth. People don't realize that DDR is still only 64bits wide, so 128bits per clock cycle
that's... just not really that much
whereas the HBM2 is 1024bits wide, and they have it allegedly running dual channel
so if they widen the pipe on sapphire rapids to handle that width, increase the decoder depth to match. They could potentially have an absolute beast on their hands
once you realize that shadow registers are a thing in CISC land it's just w/e. x86 has more registers than you're aware of and uses them more than you know.