FordGT90Concept
"I go fast!1!11!1!"
- Joined
- Oct 13, 2008
- Messages
- 26,259 (4.46/day)
- Location
- IA, USA
System Name | BY-2021 |
---|---|
Processor | AMD Ryzen 7 5800X (65w eco profile) |
Motherboard | MSI B550 Gaming Plus |
Cooling | Scythe Mugen (rev 5) |
Memory | 2 x Kingston HyperX DDR4-3200 32 GiB |
Video Card(s) | AMD Radeon RX 7900 XT |
Storage | Samsung 980 Pro, Seagate Exos X20 TB 7200 RPM |
Display(s) | Nixeus NX-EDG274K (3840x2160@144 DP) + Samsung SyncMaster 906BW (1440x900@60 HDMI-DVI) |
Case | Coolermaster HAF 932 w/ USB 3.0 5.25" bay + USB 3.2 (A+C) 3.5" bay |
Audio Device(s) | Realtek ALC1150, Micca OriGen+ |
Power Supply | Enermax Platimax 850w |
Mouse | Nixeus REVEL-X |
Keyboard | Tesoro Excalibur |
Software | Windows 10 Home 64-bit |
Benchmark Scores | Faster than the tortoise; slower than the hare. |
"Pipelines" diverge and converge. Look at the diagrams to compare. Core, Phenom II, and Bulldozer all start as one pipeline.
AMD says adding the extra "integer cluster" adds 12% to the die space. Intel has said that adding Hyper-Threading Technology adds 5% to its die space. The former begets more performance (in theory) because there's more dedicated transistors. How does 12% constitute a complete core when it is lacking the capability to prefetch and decode x86 instructions? It is a component of the core (AMD calls "module") and not a core unto itself.
AMD says adding the extra "integer cluster" adds 12% to the die space. Intel has said that adding Hyper-Threading Technology adds 5% to its die space. The former begets more performance (in theory) because there's more dedicated transistors. How does 12% constitute a complete core when it is lacking the capability to prefetch and decode x86 instructions? It is a component of the core (AMD calls "module") and not a core unto itself.
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