F5F Stay Refreshed Hardware Desktop Why are CPUs flat

Why are CPUs flat

Why are CPUs flat

E
EmoPotatoes
Junior Member
Find
31
02-15-2016, 03:32 AM
#1
Reply
Reply
E
EmoPotatoes
02-15-2016, 03:32 AM #1

Reply
Reply
S
SAW1210
Junior Member
Find
34
03-08-2016, 03:12 AM
#2
It's quite challenging... the design should stay near the cooler, not just a few inches from the tip of the pyramid. Making it would also be tougher, requiring more material.
Reply
Reply
S
SAW1210
03-08-2016, 03:12 AM #2

It's quite challenging... the design should stay near the cooler, not just a few inches from the tip of the pyramid. Making it would also be tougher, requiring more material.

Reply
Reply
G
Greeperakos
Member
Find
174
03-13-2016, 05:22 AM
#3
1. The longer the route, the slower it moves, and the descent from the top of a pyramid is significantly more complex than a simple flat square.
2. Pyramids demand many layers that introduce extra difficulty.
3. Silicon is delicate and a pyramid setup makes it prone to breaking (since glass often uses silicon and quartz).
4. What cooling methods would work for such a structure? Specialized heatsinks might be required.
5. Reduced output – larger wafers increase defect risk, particularly with silicon in a pyramid form.
Reply
Reply
G
Greeperakos
03-13-2016, 05:22 AM #3

1. The longer the route, the slower it moves, and the descent from the top of a pyramid is significantly more complex than a simple flat square.
2. Pyramids demand many layers that introduce extra difficulty.
3. Silicon is delicate and a pyramid setup makes it prone to breaking (since glass often uses silicon and quartz).
4. What cooling methods would work for such a structure? Specialized heatsinks might be required.
5. Reduced output – larger wafers increase defect risk, particularly with silicon in a pyramid form.

Reply
Reply
G
GermanPrank
Junior Member
Find
32
03-13-2016, 08:17 AM
#4
We might see a prism-like CPU cluster with a mesh design in the future, as we struggled to build enough connections using stacking or faced space constraints. Perhaps a central biological hub surrounded by regular or quantum CPUs could emerge—though this remains largely science fiction today.
Reply
Reply
G
GermanPrank
03-13-2016, 08:17 AM #4

We might see a prism-like CPU cluster with a mesh design in the future, as we struggled to build enough connections using stacking or faced space constraints. Perhaps a central biological hub surrounded by regular or quantum CPUs could emerge—though this remains largely science fiction today.

Reply
Reply
A
AJandNate
Member
Find
50
03-13-2016, 09:13 AM
#5
presently the design is flat so all cooling can be applied uniformly across the entire die, not just in sections. This approach also simplifies production and reduces costs. In the future this could shift, but I believe it would be driven more by consumer affordability than technological needs. For a sci-fi scenario: a quantum-linked die that operates effectively without physical proximity or location constraints.
Reply
Reply
A
AJandNate
03-13-2016, 09:13 AM #5

presently the design is flat so all cooling can be applied uniformly across the entire die, not just in sections. This approach also simplifies production and reduces costs. In the future this could shift, but I believe it would be driven more by consumer affordability than technological needs. For a sci-fi scenario: a quantum-linked die that operates effectively without physical proximity or location constraints.

Reply
Reply