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TSSDR INTEL XEON ASUS PRO WS W790E-SAGE SE TEST BENCH
This Test Bench is PCIe 5.0 and runs on a script originally authored by Allyn Malventano and graciously provided for our use by Jon Coulter of Tweaktown. It analyses every aspect of enterprise SSD performance. It runs on the Ubuntu Linux Distribution and tests include 128K read and write throughput with latencies, 4K and 8K read and write IOPS with latency, and 4K Mixed loads 70/30 and 50/50 IOPS with latency. All testing is steady state and there are twenty charts in total for our final report.
In setting up this test bench, the motherboards BIOS was updated to the latest release and the ONLY modification to the BIOS is that we turned hyperthreading off. We do this specifically for single core CPU-intensive applications where the OS scheduler may incorrectly manage the threads, resulting in sub-standard performance.
The components of this Test Bench are detailed in the title link below. All hardware is linked for purchase and product sales may be reached by a simple click on the individual item. Click on the Title below to and be taken to our entire Workstation Build Report.
INTEL XEON 2595X ASUS PRO W790E-SAGE SE COMPONENTS
| PC CHASSIS: | PrimoChill Praxis Open Air Test Bench |
| MOTHERBOARD: | ASUS Pro WS W790E-Sage SE Workstation |
| CPU: | Intel Xeon w7-2595X 26-Core 2.8 GHz |
| CPU COOLER: | Silverstone XE360-4677 Liquid Cooler |
| POWER SUPPLY: | Corsair HX1200i (2025) Modular ATX |
| GRAPHICS: | Asus NVIDIA GeForce RTX 3050 6GB OC Edition |
| MEMORY: | Corsair WS DDR5-6000 ECC 64GB CL40 |
| KEYBOARD: | Corsair K100 Air Wireless RGB Mechanical |
| MOUSE: | Corsair Dark Core RGB Pro Wireless |
| MONITOR: | Samsung 34 Inch 1440p WQHD Ultrawide Gaming |
Building a workstation such as this isn’t possible without some great sponsorship. We would lke to thank Intel for sending along their Xeon W7-2595X 26-Core Workstation Processor, ASUS for their Pro WS W790E-SAGE SE Gen5 Workstation motherboard, Corsair for providing their W5 DDR5 ECC RDIM 64GB DDR5 DRAM 6000MT/s CL40 Memory Kit, along with their HX1200i High Performance Platinum ATX Power Supply, and Silverstone for sponsoring our build with their XE360-4677 HP Triple 120mm All-In-One Cooler for IIntel LGA4677.
TSSDR TEST REGIMEN
Testing at The SSD Review strictly adheres to industry accepted enterprise solid state storage testing procedures. All testing conducted follows and repeats the following pattern:
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- Secure Erase SSD
- Write the full SSD twice with 128K sequential data
- Precondition the SSD by filling its volume with 4/8K random writes twice.
- Run each workload with a 30-second ramp for five minutes at each Queue Depth.
BENCHMARKS SEQUENTIAL
128K SEQUENTIAL WRITE/READ
We precondition our enterprise SSDs using 100% sequential 128K writes at QD256 using one thread for two drive fills. Performance data is recorded every second. We track this data to monitor the enterprise SSDs transition to steady-state and to verify that steady-state conditions are achieved before initiating queue depth testing. Steady-state is established after a full drive fill. At this point, the average steady-state 128K sequential write performance is approximately 7.3GB/s.
Listed specifications for the Micron 7600 MAX Gen5 6.4TB U2 SSD are 7GB/s write throughput and our performance improves upon that slightly with a high of 7.3GB/s.
Our test resulted in an average 11.7GB/s read throughput, whereas the listed specification was 12GB/s. Full performance is achieved at QD32 where the performance results in a perfectly flat line until the test was complete. This is very nice to see with 11,786MB/s being pretty much the dead on speed through QDs 32, 64, 128, 256, 512 and 1024.