There doesn't seem to be much detail anywhere else either. All I was able to gather was that the memory dies are stacked (not new) but that the vias connecting the stack are angled instead of straight up and down and this is better because ... reasons?
«[T]he primary standout feature of this memory solution is the integration of a staggered interconnect topology that routes connections diagonally within the die stack rather than drilling straight down. According to Intel, the biggest benefit lies in ZAM's thermal capabilities.»
The connectors on the side indeed look like the letter Z. Maybe it disperses the stronger currents across the stack of the crystals, instead of concentrating.
I'd guess that it'd allow for thinner layers which is ultimately why you can pack in more memory.
And why it's not currently done is likely because it's hard enough to stack when everything is uniform. A small deformity in the first layer will spoil the entire chip.
Not that crazy. It's about the most basic structure you can make. Hard to make a better wheel.
The closest thing I can think of that's come close to maybe challenging DRAM is HP's memresistors but those really didn't pan out (probably too much power consumption).
I thought this was going to mean each stack was able to directly talk to the controller, since all stacks are resting on an interposer thing. But actually there is still a logic controller slice at the bottom of the stack, not at a right angle to the stack.
Instead of HBM microbumps between layers there is a more compact/dense TSV ("fusion bonded via-in-one") system. Intel once more showing their strong chiplet packing prowess! The claim is that thermals are still much better somehow, in spite of volumetric cell density increasing (from thinner layers). The demo has 8+1 dram+controller layers.
https://wccftech.com/intel-showcases-its-zam-memory-prototyp...
The connectors on the side indeed look like the letter Z. Maybe it disperses the stronger currents across the stack of the crystals, instead of concentrating.
And why it's not currently done is likely because it's hard enough to stack when everything is uniform. A small deformity in the first layer will spoil the entire chip.
The closest thing I can think of that's come close to maybe challenging DRAM is HP's memresistors but those really didn't pan out (probably too much power consumption).
I thought this was going to mean each stack was able to directly talk to the controller, since all stacks are resting on an interposer thing. But actually there is still a logic controller slice at the bottom of the stack, not at a right angle to the stack.
Instead of HBM microbumps between layers there is a more compact/dense TSV ("fusion bonded via-in-one") system. Intel once more showing their strong chiplet packing prowess! The claim is that thermals are still much better somehow, in spite of volumetric cell density increasing (from thinner layers). The demo has 8+1 dram+controller layers.