Latest SPECsfs2008 results, over 1 million NFS ops/sec – chart-of-the-month

Column chart showing the top 10 NFS througput operations per second for SPECsfs2008
(SCISFS111221-001) (c) 2011 Silverton Consulting, All Rights Reserved

[We are still catching up on our charts for the past quarter but this one brings us up to date through last month]

There’s just something about a million SPECsfs2008(r) NFS throughput operations per second that kind of excites me (weird, I know).  Yes it takes over 44-nodes of Avere FXT 3500 with over 6TB of DRAM cache, 140-nodes of EMC Isilon S200 with almost 7TB of DRAM cache and 25TB of SSDs or at least 16-nodes of NetApp FAS6240 in Data ONTAP 8.1 cluster mode with 8TB of FlashCache to get to that level.

Nevertheless, a million NFS throughput operations is something worth celebrating.  It’s not often one achieves a 2X improvement in performance over a previous record.  Something significant has changed here.

The age of scale-out

We have reached a point where scaling systems out can provide linear performance improvements, at least up to a point.  For example, the EMC Isilon and NetApp FAS6240 had a close to linear speed up in performance as they added nodes indicating (to me at least) there may be more there if they just throw more storage nodes at the problem.  Although maybe they saw some drop off and didn’t wish to show the world or potentially the costs became prohibitive and they had to stop someplace.   On the other hand, Avere only benchmarked their 44-node system with their current hardware (FXT 3500), they must have figured winning the crown was enough.

However, I would like to point out that throwing just any hardware at these systems doesn’t necessary increase performance.  Previously (see my CIFS vs NFS corrected post), we had shown the linear regression for NFS throughput against spindle count and although the regression coefficient was good (~R**2 of 0.82), it wasn’t perfect. And of course we eliminated any SSDs from that prior analysis. (Probably should consider eliminating any system with more than a TB of DRAM as well – but this was before the 44-node Avere result was out).

Speaking of disk drives, the FAS6240 system nodes had 72-450GB 15Krpm disks, the Isilon nodes had 24-300GB 10Krpm disks and each Avere node had 15-600GB 7.2Krpm SAS disks.  However the Avere system also had a 4-Solaris ZFS file storage systems behind it each of which had another 22-3TB (7.2Krpm, I think) disks.  Given all that, the 16-node NetApp system, 140-node Isilon and the 44-node Avere systems had a total of 1152, 3360 and 748 disk drives respectively.   Of course, this doesn’t count the system disks for the Isilon and Avere systems nor any of the SSDs or FlashCache in the various configurations.

I would say with this round of SPECsfs2008 benchmarks scale-out NAS systems have come out.  It’s too bad that both NetApp and Avere didn’t release comparable CIFS benchmark results which would have helped in my perennial discussion on CIFS vs. NFS.

But there’s always next time.


The full SPECsfs2008 performance report went out to our newsletter subscriber’s last December.  A copy of the full report will be up on the dispatches page of our site sometime later this month (if all goes well). However, you can see our full SPECsfs2008 performance analysis now and subscribe to our free monthly newsletter to receive future reports directly by just sending us an email or using the signup form above right.

For a more extensive discussion of file and NAS storage performance covering top 30 SPECsfs2008 results and NAS storage system features and functionality, please consider purchasing our NAS Buying Guide available from SCI’s website.

As always, we welcome any suggestions on how to improve our analysis of SPECsfs2008 results or any of our other storage system performance discussions.