In The Last of Us Part II, the Xeon E5-2650 v2 is slightly faster than the Core i7-14700F and it's also a much better value for money, as it's $173 cheaper!
Xeon E5-2650 v2
- Up to 14% faster in The Last of Us Part II – 192 vs 169 FPS
- Up to 14% faster in The Last of Us Part II
- Up to 57% cheaper – $129.94 vs $302.97
- Up to 57% cheaper
- Up to 63% better value in The Last of Us Part II – $0.67 vs $1.79/FPS
- Up to 63% better value in The Last of Us Part II
Core i7-14700F
- Is 10 years and 4 months newer – Jan 08, 2024 vs Sep 01, 2013
- Is 10 years and 4 months newer
- Consumes up to 32% less energy – 65 vs 95 Watts
- Consumes up to 32% less energy
The Last of Us Part II FPS Calculator
Xeon E5-2650 v2 vs Core i7-14700F: Comparison of performance and price
Xeon E5-2650 v2
Sep 1st, 2013
Average FPS
192 FPS
100%
Min 1% FPS
144 FPS
100%
Price, $
$129.94
100%
Value, $/FPS
$0.67/FPS
100%
Core i7-14700F
Jan 8th, 2024
Average FPS
169 FPS
88%
Min 1% FPS
127 FPS
88%
Price, $
$302.97
42%
Value, $/FPS
$1.79/FPS
37%
Synthetic Benchmarks
The Xeon E5-2650 v2 vs Core i7-14700F in synthetic CPU benchmarks
Performance Specifications
The Xeon E5-2650 v2 vs Core i7-14700F in core CPU performance specifications
Xeon E5-2650 v2
Sep 1st, 2013
Cores
8-core
40%
L3 Cache
20 MB
61%
Base Frequency
2.6 GHz
100%
Turbo Frequency
3.4 GHz
63%
Max. DDR3 RAM Speed
MHz
Core i7-14700F
Jan 8th, 2024
Cores
20-core
100%
L3 Cache
33 MB
100%
Base Frequency
2.1 GHz
81%
Turbo Frequency
5.4 GHz
100%
Max. DDR5 RAM Speed
5600 MHz
100%
Specifications
Comparison of core specifications
Xeon E5-2650 v2 Sep 1st, 2013 | SpecificationsComparison of core specifications | Core i7-14700F Jan 8th, 2024 |
|---|---|---|
| General | ||
| Sep 1st, 2013 | Released | Jan 8th, 2024 |
| – | MSRP | $359.00 |
Server | Segment | Desktop |
| LGA2011 | Socket | LGA1700 |
| 95 W | Power Consumption | 65 W |
| Other Features | ||
| DDR3 | RAM | 3200 MHz (DDR4), 5600 MHz (DDR5) |
| No Integrated Graphics | Integrated GPU | No Integrated Graphics |
| Not Overclockable | Overclock Support | Not Overclockable |
