Page 8 - Benchmark: PassMark PerformanceTest 9.0
About PassMark PerformanceTest 9.0
This Advanced Disk Test, which is part of PerformanceTest, measures the data transfer speed when reading or writing data to one or more disks. The speed that data can be transferred between memory and a hard disk drive is one of a system's most important performance aspects. There are quite a few factors which have a bearing on this speed and the Advanced Disk Drive Test allows the user to vary most of these factors and compare the results.
The test supports any drive that can be mounted under Windows. Including IDE drives, SCSI, RAID, USB key drives, SATA, networked shared drives and external drives.
Users have the ability to test multiple drives at the same time using multiple threads, and specify:
- The size of the test file used. Larger files mean that the system cache has less of an effect on the test types, which use caching (see below).
- The size of the data block used for each read or write request. Larger blocks mean less requests and can lead to an improvement in performance.
- The choice of four access methods - C/C++ API, Win32 API cached / uncached and raw disk access.
- Sequential or random access (seeking plus reading and writing)
- Synchronous and Asynchronous access
- The split between reading and writing
The results of all completed tests may be graphed using our custom graphing components.
From: Developer's Page
PassMark PerformanceTest 9.0's Advanced Disk Test, unlike HD Tune Pro 5.70, generates some awesome graphs right out of the box. It also provides valuable insight in simulating real world performance applications. To make things clear to you, the first graph simulates a database server, followed by a file server, web server, and workstation. Obviously, PassMark PerformanceTest 9.0 uses highly compressible data in most tests some controllers can really take advantage of. However, it also requires high IOPS capabilities for the best score. In the past, Marvell and Indilinx based drives perform pretty well in this test. One thing clear is the ADATA XPG SX8200 Pro 512GB provided very flat graphs, which is excellent if you are looking for consistent performance.
Overall, this NVMe solid state drive's performance was again excellent. With results of 255.05MB/s, 963.61MB/s, 1771MB/s, and 199.13MB/s, respectively, the ADATA XPG SX8200 Pro 512GB is truly impressive for the price. When compared against performance NVMe drives, the Toshiba OCZ RD400A 512GB's numbers were 368.90MB/s, 1170MB/s, 1121MB/s, and 149.06MB/s. The Western Digital Black SN750 NVMe SSD 1TB posted results of 262.43MB/s, 1924MB/s, 2014MB/s, and 185.29MB/s, in the same corresponding order. The XPG SX8200 Pro was able to beat the Black SN750 in the workstation test, and its performance was, in many ways, very competitive with the now discontinued Toshiba OCZ RD400A.
1. Introduction, Packaging, Specifications
2. A Closer Look, Test System
3. Benchmark: AIDA64 Disk Benchmark
4. Benchmark: ATTO Disk Benchmark
5. Benchmark: Crystal Disk Mark 6.0
6. Benchmark: HD Tach 188.8.131.52
7. Benchmark: HD Tune Pro 5.70
8. Benchmark: PassMark PerformanceTest 9.0
9. Benchmark: PCMark Vantage
10. Benchmark: PCMark 8