PC Status | Overall this PC is performing above expectations (69th percentile). This means that out of 100 PCs with exactly the same components, 31 performed better. The overall PC percentile is the average of each of its individual components. |
Processor | With a good single core score, this CPU can easily handle the majority of general computing tasks. Additionally this processor can handle moderate workstation, and even light server workloads. Finally, with a gaming score of 81.1%, this CPU's suitability for 3D gaming is very good. |
Graphics | 113% is an outstanding 3D score, it's the bee's knees. This GPU can handle almost all 3D games at very high resolutions and ultra detail levels. |
Memory | 32GB is enough RAM to run any version of Windows and it's far more than any current game requires. 32GB will also allow for large file and system caches, virtual machine hosting, software development, video editing and batch multimedia processing. |
OS Version | Windows 11 is the most recent version of Windows. |
Actual performance vs. expectations. The graphs show user score (x) vs user score frequency (y).
Processor | Bench | Normal | Heavy | Server |
---|---|---|---|---|
Intel Xeon E5-2666 v3
SOCKET 0, 1 CPU, 10 cores, 20 threads
Base clock 2.9 GHz, turbo 3.2 GHz (avg)
|
81.1%
Excellent
|
|||
Graphics Card | Bench | 3D DX9 | 3D DX10 | 3D DX11 |
---|---|---|---|---|
AMD RX 6700-XT-$480
Asus(1043 05CB) ≥ 4GB
Ram: 12GB, Driver: 23.4.3
Performing below potential (8th percentile) - GPU OC Guide |
113%
Outstanding
|
|||
Drives | Bench | Sequential | Random 4k | Deep queue 4k |
---|---|---|---|---|
Adata XPG SX8200 Pro NVMe PCIe M.2 1TB-$88
342GB free (System drive)
Firmware: 42G1TBKA Max speed: PCIe 16,000 MB/s
|
||||
Kingston DataTraveler 3.0 124GB
11GB free, PID 1666
Operating at USB 3.2 Speed
|
||||
Memory Kit | Bench | Multi core | Single core | Latency |
---|---|---|---|---|
Samsung M393B2K70CM0-CF8 2x16GB
2 of 4 slots used
32GB DIMM DDR3 1067 MHz clocked @ 1866 MHz
|
63.9%
Good
|
|||
L1/L2/L3 CPU cache and main memory (DIMM) access latencies in nano seconds