- Joined
- May 3, 2019
- Messages
- 1,514 (0.82/day)
System Name | BigRed |
---|---|
Processor | I7 12700k |
Motherboard | Asus Rog Strix z690-A WiFi D4 |
Cooling | Noctua D15s/MX6 |
Memory | TEAM GROUP 32GB DDR4 4000C16 B die |
Video Card(s) | MSI RTX 3080 Gaming Trio X 10GB |
Storage | M.2 drives-Crucial P5 500GB 4x4/WD SN850X 4TB 4x4/WD SN850X 2TB 4x4 |
Display(s) | Dell s3422dwg 34" 3440x1440p 144hz ultrawide |
Case | Corsair 7000D |
Audio Device(s) | Topping D10s DAC/PCamp TC 1680 AMP/MS M10 Speakers/Bowers and Wilkins P7 Headphones |
Power Supply | Corsair RM850x 80% gold |
Mouse | Logitech G604 wireless |
Keyboard | Logitech G413 carbon |
Software | Windows 10 Pro |
Benchmark Scores | Who cares |
Just saw a article about Backside Power Delivery, basically, digging channels in the silicon and ebedding the power supply channels below the transitor and data layers. Pretty interesting, and won't be long till every CPU is built like this. I wonder if TSMC is already working on this.
https://spectrum.ieee.org/next-gen-chips-will-be-powered-from-below
https://spectrum.ieee.org/backside-power-delivery
Seems to make perfect sense.
https://spectrum.ieee.org/next-gen-chips-will-be-powered-from-below
https://spectrum.ieee.org/backside-power-delivery
Seems to make perfect sense.