top | item 14705472 (no title) Eerie | 8 years ago Most biological components function in 3D space, though, not on a surface. discuss order hn newest sbierwagen|8 years ago https://en.wikipedia.org/wiki/Multigate_device#Tri-gate_.283...But you're right, actual stacked chips ("3D" ICs) aren't used much, largely for thermal management reasons. JPLeRouzic|8 years ago I understand and agree, but most biological components at a sub-cell scale are membranes and pores in membranes, or even linear or circular structures like RNA/DNA. njarboe|8 years ago IANAB but wouldn't most biological components in a cell be proteins (DNA codes for tens of thousands of proteins)? load replies (1)
sbierwagen|8 years ago https://en.wikipedia.org/wiki/Multigate_device#Tri-gate_.283...But you're right, actual stacked chips ("3D" ICs) aren't used much, largely for thermal management reasons.
JPLeRouzic|8 years ago I understand and agree, but most biological components at a sub-cell scale are membranes and pores in membranes, or even linear or circular structures like RNA/DNA. njarboe|8 years ago IANAB but wouldn't most biological components in a cell be proteins (DNA codes for tens of thousands of proteins)? load replies (1)
njarboe|8 years ago IANAB but wouldn't most biological components in a cell be proteins (DNA codes for tens of thousands of proteins)? load replies (1)
sbierwagen|8 years ago
But you're right, actual stacked chips ("3D" ICs) aren't used much, largely for thermal management reasons.
JPLeRouzic|8 years ago
njarboe|8 years ago