PC Status | Overall this PC is performing way below expectations (18th percentile). This means that out of 100 PCs with exactly the same components, 82 performed better. The overall PC percentile is the average of each of its individual components. Use the charts in the benchmark sections of this report to identify problem areas. |
Processor | With an extremely low single core score, this CPU can barely handle email and light web browsing. Finally, with a gaming score of 14.5%, this CPU's suitability for 3D gaming is terrible. |
Boot Drive | The boot partition is located on a mechanical or hybrid drive. Moving the system to an SSD will yield far faster boot times, better system responsiveness and faster application load times. |
Memory | 3GB is enough RAM to run any version of Windows and although it's sufficient for most games, some will benefit from up to 8GB of RAM. 3GB is also enough for modest file and system caches which allow for a responsive system. |
OS Version | Although Windows 10 is not the most recent version of Windows, it remains a great option. |
System | Phoenix/sis M720SR (all builds) |
Motherboard | SiS M720SR |
Memory | 1.2 GB free of 3 GB @ 0 GHz |
Display | 1024 x 768 - 32 Bit cores |
OS | Windows 10 |
BIOS Date | 20080829 |
Uptime | 0 Days |
Run Date | Apr 10 '20 at 15:22 |
Run Duration | 119 Seconds |
Run User | ROU-User |
Background CPU | 32% |
Actual performance vs. expectations. The graphs show user score (x) vs user score frequency (y).
Processor | Bench | Normal | Heavy | Server |
---|---|---|---|---|
Intel Pentium Dual T2410
uPGA 479M, 1 CPU, 2 cores, 2 threads
Base clock 2 GHz, turbo 2 GHz (avg)
|
14.5%
Very poor
|
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Drive | Bench | Sequential | Random 4k | Deep queue 4k |
---|---|---|---|---|
Toshiba MK3252GSX 320GB-$70
266GB free (System drive)
Firmware: LV010A
SusWrite @10s intervals: 39 39 41 42 41 40 MB/s
|
24.3%
Poor
|
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Memory Kit | Bench | Multi core | Single core | Latency |
---|---|---|---|---|
Unknown 3GB
null MHz
1024, 2048 MB
|
7.71%
Terrible
|
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L1/L2/L3 CPU cache and main memory (DIMM) access latencies in nano seconds