- Joined
- Jul 5, 2013
- Messages
- 28,101 (6.72/day)
This only took what, 19 years after conception? Congrats AMD for being first in the X86/X64 market, but also a big damned BOO to both AMD and Intel for being so damn late to the stacked IC party.
-
Welcome to TechPowerUp Forums, Guest! Please check out our forum guidelines for info related to our community.
AMD's Future Ryzen SoCs May Feature New Chip-Stacking Technology
- Thread starter Nomad76
- Start date
- Joined
- Dec 25, 2020
- Messages
- 6,934 (4.79/day)
- Location
- São Paulo, Brazil
| System Name | "Icy Resurrection" |
|---|---|
| Processor | 13th Gen Intel Core i9-13900KS Special Edition |
| Motherboard | ASUS ROG MAXIMUS Z790 APEX ENCORE |
| Cooling | Noctua NH-D15S upgraded with 2x NF-F12 iPPC-3000 fans and Honeywell PTM7950 TIM |
| Memory | 32 GB G.SKILL Trident Z5 RGB F5-6800J3445G16GX2-TZ5RK @ 7600 MT/s 36-44-44-52-96 1.4V |
| Video Card(s) | ASUS ROG Strix GeForce RTX™ 4080 16GB GDDR6X White OC Edition |
| Storage | 500 GB WD Black SN750 SE NVMe SSD + 4 TB WD Red Plus WD40EFPX HDD |
| Display(s) | 55-inch LG G3 OLED |
| Case | Pichau Mancer CV500 White Edition |
| Power Supply | EVGA 1300 G2 1.3kW 80+ Gold |
| Mouse | Microsoft Classic Intellimouse |
| Keyboard | Generic PS/2 |
| Software | Windows 11 IoT Enterprise LTSC 24H2 |
| Benchmark Scores | I pulled a Qiqi~ |
Wasn't that a simple POP for the simple purpose of having a smaller package? It didn't do much other than keep the size of the thing really really small
I believe that is kind of the point, small package > lower physical distances > massively improved latencies, that comes with its own drawbacks though. Interesting read, perhaps from a what if scenario if 20A hadn't been shelved
Going through TSVs can make IF use less power and have improved latency. The gains might be minimal for desktop chips but could be more substantial for Threadripper/EPYC.
- Joined
- Feb 3, 2017
- Messages
- 3,780 (1.32/day)
| Processor | Ryzen 7800X3D |
|---|---|
| Motherboard | ROG STRIX B650E-F GAMING WIFI |
| Memory | 2x16GB G.Skill Flare X5 DDR5-6000 CL36 (F5-6000J3636F16GX2-FX5) |
| Video Card(s) | INNO3D GeForce RTX™ 4070 Ti SUPER TWIN X2 |
| Storage | 2TB Samsung 980 PRO, 4TB WD Black SN850X |
| Display(s) | 42" LG C2 OLED, 27" ASUS PG279Q |
| Case | Thermaltake Core P5 |
| Power Supply | Fractal Design Ion+ Platinum 760W |
| Mouse | Corsair Dark Core RGB Pro SE |
| Keyboard | Corsair K100 RGB |
| VR HMD | HTC Vive Cosmos |
Less power - absolutely. But would going through TSVs improve latency by itself (other than the distance reduction)?
- Joined
- Oct 24, 2022
- Messages
- 225 (0.29/day)
There is a simple and old technology that inverts the hot side and the cold side of a piece of metal. I am searching for it on Google here, but I can't find it. I remember that they made some coolers for AMD's old Athlon and Duron socket A with this technology.
Does anyone know what this technique is? Post the link here if you find it please.
AMD could use it to transfer heat from the bottom side of the dies to the coolers' heatsink.
Does anyone know what this technique is? Post the link here if you find it please.
AMD could use it to transfer heat from the bottom side of the dies to the coolers' heatsink.
Last edited:
- Joined
- Sep 1, 2020
- Messages
- 2,376 (1.52/day)
- Location
- Bulgaria
Thermoelectric effect, Peltier(other scientists also has works on this target) element.
- Joined
- Dec 26, 2006
- Messages
- 3,858 (0.59/day)
- Location
- Northern Ontario Canada
| Processor | Ryzen 5700x |
|---|---|
| Motherboard | Gigabyte X570S Aero G R1.1 BiosF5g |
| Cooling | Noctua NH-C12P SE14 w/ NF-A15 HS-PWM Fan 1500rpm |
| Memory | Micron DDR4-3200 2x32GB D.S. D.R. (CT2K32G4DFD832A) |
| Video Card(s) | AMD RX 6800 - Asus Tuf |
| Storage | Kingston KC3000 1TB & 2TB & 4TB Corsair MP600 Pro LPX |
| Display(s) | LG 27UL550-W (27" 4k) |
| Case | Be Quiet Pure Base 600 (no window) |
| Audio Device(s) | Realtek ALC1220-VB |
| Power Supply | SuperFlower Leadex V Gold Pro 850W ATX Ver2.52 |
| Mouse | Mionix Naos Pro |
| Keyboard | Corsair Strafe with browns |
| Software | W10 22H2 Pro x64 |
Stacked Chips......................old tech
The distance reduction alone should improve latency considerably. It is one of the reasons why core to core latency in Ryzen is measurably higher between cores in different chiplets.
And even if it doesn't improve latency directly, it can do it indirectly: less distance means less power, less power means higher clocks, and higher clocks can also reduce latency.
- Joined
- Feb 3, 2017
- Messages
- 3,780 (1.32/day)
| Processor | Ryzen 7800X3D |
|---|---|
| Motherboard | ROG STRIX B650E-F GAMING WIFI |
| Memory | 2x16GB G.Skill Flare X5 DDR5-6000 CL36 (F5-6000J3636F16GX2-FX5) |
| Video Card(s) | INNO3D GeForce RTX™ 4070 Ti SUPER TWIN X2 |
| Storage | 2TB Samsung 980 PRO, 4TB WD Black SN850X |
| Display(s) | 42" LG C2 OLED, 27" ASUS PG279Q |
| Case | Thermaltake Core P5 |
| Power Supply | Fractal Design Ion+ Platinum 760W |
| Mouse | Corsair Dark Core RGB Pro SE |
| Keyboard | Corsair K100 RGB |
| VR HMD | HTC Vive Cosmos |
AM5 CPU PCB size is 40x40mm. Lets assume the signal needs to go across the entire distance of package twice and a bit more - let say 100mm. Should be not really realistic and beyond a worst case scenario. For a signal to travel 100mm takes roughly 0.35nm. I doubt that distance reduction improves latency considerably.
Would IF be able to sustain higher clocks from either moving to silicon or from power reduction? I don't truly know - I think the GPU/HPC implementations have gone primarily wider for more bandwidth.
- Joined
- Oct 24, 2022
- Messages
- 225 (0.29/day)
AMD and Intel should develop a standard to put this cooling technique into practice, to be common and controlled by the motherboard.
The cooler could be connected to the motherboard via a USB cable, for example.
- Joined
- Sep 1, 2020
- Messages
- 2,376 (1.52/day)
- Location
- Bulgaria
If it was viable, it would have already been implemented in such a way.
- Joined
- Oct 24, 2022
- Messages
- 225 (0.29/day)
I think it would be viable for home CPUs that get very hot and for server CPUs that have many cores and therefore also get very hot.
- Joined
- Feb 3, 2017
- Messages
- 3,780 (1.32/day)
| Processor | Ryzen 7800X3D |
|---|---|
| Motherboard | ROG STRIX B650E-F GAMING WIFI |
| Memory | 2x16GB G.Skill Flare X5 DDR5-6000 CL36 (F5-6000J3636F16GX2-FX5) |
| Video Card(s) | INNO3D GeForce RTX™ 4070 Ti SUPER TWIN X2 |
| Storage | 2TB Samsung 980 PRO, 4TB WD Black SN850X |
| Display(s) | 42" LG C2 OLED, 27" ASUS PG279Q |
| Case | Thermaltake Core P5 |
| Power Supply | Fractal Design Ion+ Platinum 760W |
| Mouse | Corsair Dark Core RGB Pro SE |
| Keyboard | Corsair K100 RGB |
| VR HMD | HTC Vive Cosmos |
You have a very naive notion of how a Peltier element works.
Enthusiasts have tried cooling CPUs with Peltiers since time immemorial, CPU cooler manufacturers have given it a go and from ones you mentioned at least Intel has dabbled into doing something with it. It has not broken into mainstream and there are good reasons for it. There are application to Peltiers and that includes chip cooling at times but these are very specific very niche use cases.
- First, it consumes considerable amount of power to function in the first place.
- Second, also related to the first one - while its cold side does get cold the hot side also gets much more hot. Not only hot because of the heat it moves from cold side but because of the wattage it pulls to function.
- Third, there is a limit to the amount of heat a specific unit is able to remove. IIRC a CPU sized piece (say, 50x50mm) usually can handle like 100W or so.
From practical aspects, you still need a way to cool off that hot side. And on the cold side condensation tends to be a thing which electronics dislikes.
Btw, TEC is usually the keyword for Peltier in CPU coolers if you want to search and read up on it.