Test Methodology
Network Storage Configurations |
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|---|---|---|---|---|---|---|
WD Sentinel DS6100 |
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| CPU | 3.30GHz Intel Xeon E3-1230 v3 (quad-core, 8MB cache) |
1.30GHz Marvell Armada CP (dual-core) |
2.13GHz Intel Atom D2700 (dual-core, 1MB cache) |
1.86GHz Intel Atom D2550 (dual-core, 1MB cache) |
2.50GHz Intel Xeon E3-1265L v2 (quad-core, 8MB cache) |
1.80GHz Intel Atom D525 (dual-core, 1MB cache) |
| Memory | 16GB DDR3 ECC |
512MB DDR3 |
1GB DDR3 |
2GB DDR3 |
16GB DDR3 ECC |
2GB DDR3 |
| Disk drives | 8 x 3TB Seagate Constellation ST3000NC002 (included) |
4x 1TB Seagate Barracuda ST1000DM003 (included) |
4x 1TB Samsung HD103SJ (optional) |
5x 1TB Samsung HD103SJ (optional) |
4x 4TB WD4000F9MZ (included) |
4x 4TB Hitachi HDS5C4040ALE630 (included) |
| RAID mode | RAID 5 |
RAID 5 |
RAID 5 |
RAID 5 |
RAID 5 |
RAID 5 |
| Network connection | Gigabit Ethernet |
Gigabit Ethernet |
Gigabit Ethernet |
Gigabit Ethernet |
Gigabit Ethernet |
Gigabit Ethernet |
| Firmware | Open-E DSS V6 Single Node (6.0up98.8801.7337) |
3.3.4.29856 |
3.6.0 Build 0220T |
2.03.08 |
2.1.8.30 |
01.05.08.31 |
| Approx. price as reviewed | ||||||
Benchmarks |
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| Iometer v2008.06.18-RC2 File Copy Test (8.83GB) Intel NAS Performance Toolkit v1.7.1 Power Consumption |
Notes
All of our comparison NAS servers are tested using a single Gigabit Ethernet link with Jumbo frames disabled, and are connected to our Intel client machine and network via a Netgear GS108 switch.
Iometer, a familiar benchmark in our test suite, is an I/O subsystem measurement tool. For the purpose of NAS stress testing, we set a queue depth of 16 (outstanding I/Os) and run the following tests:
- 64KB transfer, 100% sequential, 100% read
- 64KB transfer, 100% sequential, 100% write
Taking a look at a basic usage scenario, our file copy test involves moving a mixed assortment of files totalling 8.83GB in size from our client to the NAS. The result is recorded in MB/s.
Our third benchmark - the NAS Performance Toolkit, developed by Intel - is a file-system exerciser specifically designed to provide performance comparisons between NAS devices. Intel's utility focuses on user-level performance using real-world workload traces gathered from typical digital home applications such as HD video playback and record. Intel NASPT reproduces the file-system traffic observed in these traces onto a chosen storage solution and records performance in MB/s.
Last but not least, we measure NAS power draw during three states; under load, idle and standby mode if applicable.