Asustor AS6204T Braswell NAS Reviewby Ganesh T S on November 5, 2015 8:00 AM EST
Asustor is one of the recent entrants in the NAS market. Over the last couple of years, they have tried to play in the same space as QNAP and Synology, targeting power users and SMBs. They have a wide variety of hardware platforms to choose from, ranging from ARM-based 2-bay systems to Xeon-based rackmounts. Asustor became the first COTS NAS (commercial off-the-shelf network-attached storage) vendor to introduce models based on Intel's 14nm Braswell SoCs back in September 2015. In this review, we take a look at the performance of the AS6204T, a 4-bay model.
Introduction and Testbed Setup
Asustor recently introduced ARM-based NAS models as well as an update to their Bay Trail models in order to serve both home consumers and SOHO / SMBs with better hardware platforms. Their Braswell lineup consists of four models, with each model name following the pattern AS6X0YT, where X (1 or 2) refers to the number of cores in the Braswell SoC in the model and Y (2 or 4) refers to the number of bays. The dual-core SoC used by Asustor is the Intel Celeron N3050, while the quad-core SoC is the Intel Celeron N3150. One of the more important updates in moving up from Bay Trail-based SoC such as the Celeron J1900 to the Braswell-based SoCs is the availability of AES-NI for accelerated encryption capabilities.
Asustor sampled us with the highest end model in the AS6xxx series, the AS6204T. The specifications of the Asustor AS6204T are provided in the table below. The corresponding specifications of some of the other contemporary NAS units are also included.
|Comparative NAS Configurations|
|Processor||Intel Celeron N3150 (Braswell 4C/4T Airmont x86 @ 1.6 GHz)||Intel Celeron N3150 (Braswell 4C/4T Airmont x86 @ 1.6 GHz)|
|RAM||4 GB||4 GB|
|Drive Bays||4x 3.5"/2.5" SATA II / III HDD (Hot-Swappable)||4x 3.5"/2.5" SATA II / III HDD (Hot-Swappable)|
|Network Links||2x 1 GbE RJ-45||2x 1 GbE RJ-45|
|External I/O Peripherals||3x USB 3.0, 2x USB 2.0, 2x eSATA||3x USB 3.0, 2x USB 2.0, 2x eSATA|
|Display Out||HDMI 1.4b||HDMI 1.4b|
|Power Supply||90W (12V @ 7.5A) External Power Adapter||90W (12V @ 7.5A) External Power Adapter|
|Full Specifications Link||Asustor AS6204T Specifications||Asustor AS6204T Specifications|
|Price (when reviewed)||USD 670||USD 670|
The various specifications of the NAS are backed up by the data gleaned via SSH access to the unit. The most interesting aspect here is the use of the Broadcom BCM57781 Ethernet controllers.
The industrial design of the Asustor units give us nothing to complain about. The LCD screen provides a quick way to look at and control the essential NAS configuration. The drive bays are solid and can take both 3.5" as well as 2.5" drives. The caddies also come with a basic locking mechanism to protect against accidental disk removal.
The setup process is quite straightforward. Upon connection to the network, the Asustor AS6204T receives a DHCP address even in a diskless state. The IP address can be determined either from the DHCP provider in the system or via the Asustor Control Center Windows / OS X utility. Starting off in a diskless state results in a prompt from the web UI to insert at least one disk in order to continue. The single disk can be configured in a JBOD volume and the login credentials can also be set up. The unit had no trouble in handling our standard RAID migration, expansion and rebuild operations using the 4TB WD Re drives.
In the rest of this piece, we will take a look at how the Asustor AS6204T takes advantage of the Braswell platform. We will be solely concentrating on objective metrics in this review. A discussion of the mobile apps, we UI and other subjective aspects will be covered in a future article. Benchmark numbers for both single and multi-client scenarios across a number of different client platforms as well as access protocols will be presented. We also have a separate section devoted to the performance of the NAS with encryption enabled. Prior to all that, we will take a look at our testbed setup and testing methodology.
Testbed Setup and Testing Methodology
The Asustor AS6204T can take up to 4 drives. Users can opt for either JBOD, RAID 0, RAID 1, RAID 5, RAID 6 or RAID 10 configurations. We expect typical usage to be with a RAID-5 volume. In order to keep things consistent across different NAS units, we benchmarked a RAID-5 volume with four Western Digital WD4000FYYZ RE drives were used as the test disks. Our testbed configuration is outlined below.
|AnandTech NAS Testbed Configuration|
|Motherboard||Asus Z9PE-D8 WS Dual LGA2011 SSI-EEB|
|CPU||2 x Intel Xeon E5-2630L|
|Coolers||2 x Dynatron R17|
|Memory||G.Skill RipjawsZ F3-12800CL10Q2-64GBZL (8x8GB) CAS 10-10-10-30|
|OS Drive||OCZ Technology Vertex 4 128GB|
|Secondary Drive||OCZ Technology Vertex 4 128GB|
|Tertiary Drive||OCZ Z-Drive R4 CM88 (1.6TB PCIe SSD)|
|Other Drives||12 x OCZ Technology Vertex 4 64GB (Offline in the Host OS)|
|Network Cards||6 x Intel ESA I-340 Quad-GbE Port Network Adapter|
|Chassis||SilverStoneTek Raven RV03|
|PSU||SilverStoneTek Strider Plus Gold Evolution 850W|
|OS||Windows Server 2008 R2|
|Network Switch||Netgear ProSafe GSM7352S-200|
The above testbed can run up to 25 Windows 7 or CentOS VMs simultaneously, each with a dedicated 1 Gbps network interface. This simulates a real-life workload of up to 25 clients for the NAS being evaluated. All the VMs connect to the network switch to which the NAS is also connected (with link aggregation, as applicable). The VMs generate the NAS traffic for performance evaluation. However, keeping in mind the nature of this unit, we restricted ourselves to a maximum of 10 simultaneous clients.
We thank the following companies for helping us out with our NAS testbed:
- Thanks to Intel for the Xeon E5-2630L CPUs and the ESA I-340 quad port network adapters
- Thanks to Asus for the Z9PE-D8 WS dual LGA 2011 workstation motherboard
- Thanks to Dynatron for the R17 coolers
- Thanks to G.Skill for the RipjawsZ 64GB DDR3 DRAM kit
- Thanks to OCZ Technology for the two 128GB Vertex 4 SSDs, twelve 64GB Vertex 4 SSDs and the OCZ Z-Drive R4 CM88
- Thanks to SilverStone for the Raven RV03 chassis and the 850W Strider Gold Evolution PSU
- Thanks to Netgear for the ProSafe GSM7352S-200 L3 48-port Gigabit Switch with 10 GbE capabilities.
- Thanks to Western Digital for the eight WD RE hard drives (WD4000FYYZ) to use in the NAS under test.
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RdVi - Thursday, November 5, 2015 - linkIt's hard to compare the graphs on page 4 when the values on the axis vary (sometimes wildly) between the two. Flicking back and forth it is very hard to easily compare on face value. Would it not be possible to have the scale locked to whichever graph approaches the highest value?
ganeshts - Thursday, November 5, 2015 - linkThe issue here is that these graphs are generated on a per-review basis - i.e, the graph that you see for the QNAP TS-451+ was generated at the time of writing the QNAP TS-451+ review. At that time, the Asustor AS6204T hadn't been evaluated, so it is not possible to know ahead of time what the highest value is going to be.
I think we have the best possible solution here in the timeframe that can be devoted to the review - the other solution is to simply not have any graphs for the competing units (similar to what we did for the QNAP TS-451+ review which was the first 4-bay one done with the new methodology).
DanNeely - Friday, November 6, 2015 - linkAre the graphs coming from the bench software itself? If there is a CSV export option generating combined comparison graphs (or rescaled stand alone ones) shouldn't be hard to do after the fact.
ganeshts - Friday, November 6, 2015 - linkThe bench software is written by me :) (except for the core trace replay component which is compiled from NASPT source). And, yes, the graphs are generated at the end of each benchmark run by my code.
I don't have a CSV export option in the software yet, as I only export the HTML tables that are linked above each graph. So, yes, the data is there, but not in a format suitable for reprocessing with each new NAS run.
It is possible to implement CSV export and graph regeneration, but it is a matter of how much time I can spend to get the new code up and running. At this moment, I think the time cost far outweighs the benefits provided. I am currently working on optimizing our SPEC SFS testbed and benchmarking - I think that will provide more benefits to readers in the long run.
Oyster - Friday, November 6, 2015 - linkGanesh, I mentioned this in some of your other NAS reviews. You need to review the software side of these vendors now. Would be awesome to see the biggies go head to head... Synology, QNAP, ASUS, and Lenovo. Please try to cover app offerings to other items like backdooring via SSH, etc.
As usual, keep up the good work.
ganeshts - Friday, November 6, 2015 - linkYes, it is in the works. The problem is that these are 'subjective' aspects and require more effort to use and record observations compared to objective benchmarking.
MrElectrifyer - Saturday, November 7, 2015 - linkCurious how this compares to a QNAP TS-470 Pro...
MrElectrifyer - Saturday, November 7, 2015 - linkSo far, I know the TS-470 Pro can support more than 8GB of RAM...I upgraded mine to 10GB.
WatcherCK - Monday, November 9, 2015 - linkLooks like disks get formatted internally to Ext4... The full specifications link seems to point back to the articles initial page was this by design? The full spec pdf for this NAS can be found here: http://www.asustor.com/service/resource?type=3&... (for a laugh check out what the display on the NAS is saying on its Asustor page, what do you know Asus? :) )
Anyone considering a DIY NAS should checkout the new Asrock Rack C236 WSI that combined with a Silverstone DS380 would make for a powerful little storage box/virtualization server... They dont seem to be available anywhere yet unfortunately and Supermicro only have MATX C236 motherboards.