Solder doesn’t increase performance, but shorter physical distances mean lower latency and less power to transmit the same data. LPDDR4/5X are designed to take advantage of this additional efficiency.
It would seem to be rational that the less mass of metal in a connection, the faster that connection will charge or discharge voltage. Physical sockets require a lot more mass just to ensure solid contact.
Shorter physical distance means less latency and lower power. Some memory types like LPDDR4X are built with assumptions that only apply to soldered RAM.
douglasg14b@lemmy.world 11 months ago
Yeah, and solder it onto the board while you’re at it! Who ever needs to upgrade or perform maintenance anyways?
bamboo@lemm.ee 11 months ago
They do make the most of it though. Soldered RAM can be much faster than socketed RAM, which is why GPUs do it too.
locuester@lemmy.zip 11 months ago
My knowledge of electrical engineering has not shown that solder increases performance. Do you have some more information on this?
bamboo@lemm.ee 11 months ago
Solder doesn’t increase performance, but shorter physical distances mean lower latency and less power to transmit the same data. LPDDR4/5X are designed to take advantage of this additional efficiency.
Tinidril@midwest.social 11 months ago
It would seem to be rational that the less mass of metal in a connection, the faster that connection will charge or discharge voltage. Physical sockets require a lot more mass just to ensure solid contact.
emptiestplace@lemmy.ml 11 months ago
I think you mean unified (on-die) RAM can be faster.
bamboo@lemm.ee 11 months ago
Well, that too, but that’s not particularly common on laptops or GPUs. Even in Apple silicon it’s not the same die, but it is the same package.
uranibaba@lemmy.world 11 months ago
Why is that?
bamboo@lemm.ee 11 months ago
Shorter physical distance means less latency and lower power. Some memory types like LPDDR4X are built with assumptions that only apply to soldered RAM.