Bulldozer for Servers: Testing AMD's "Interlagos" Opteron 6200 Series
by Johan De Gelas on November 15, 2011 5:09 PM ESTBenchmark Configuration
Since AMD sent us a 1U Supermicro server, we had to resort to testing our 1U servers again. That is why we went back to the ASUS RS700 for the Xeon. It is a bit unfortunate as on average 1U servers have a relatively worse performance/watt ratio than other form factors such as 2U and blades. Of course, 1U still makes sense in low cost, high density HPC environments.
Supermicro A+ server 1022G-URG (1U Chassis)
CPU |
Two AMD Opteron "Bulldozer" 6276 at 2.3GHz Two AMD Opteron "Magny-Cours" 6174 at 2.2GHz |
RAM | 64GB (8x8GB) DDR3-1600 Samsung M393B1K70DH0-CK0 |
Motherboard | SuperMicro H8DGU-F |
Internal Disks |
2 x Intel SLC X25-E 32GB or 1 x Intel MLC SSD510 120GB |
Chipset | AMD Chipset SR5670 + SP5100 |
BIOS version | v2.81 (10/28/2011) |
PSU | SuperMicro PWS-704P-1R 750Watt |
The AMD CPUS have four memory channels per CPU. The new Interlagos Bulldozer CPU supports DDR3-1600, and thus our dual CPU configuration gets eight DIMMs for maximum bandwidth.
Asus RS700-E6/RS4 1U Server
CPU |
Two Intel Xeon X5670 at 2.93GHz - 6 cores Two Intel Xeon X5650 at 2.66GHz - 6 cores |
RAM | 48GB (12x4GB) Kingston DDR3-1333 FB372D3D4P13C9ED1 |
Motherboard | Asus Z8PS-D12-1U |
Chipset | Intel 5520 |
BIOS version | 1102 (08/25/2011) |
PSU | 770W Delta Electronics DPS-770AB |
To speed up testing, we tested with the Intel Xeon and AMD Opteron system in parallel. As we didn't have more than eight 8GB DIMMs, we used our 4GB DDR3-1333 DIMMs. The Xeon system only gets 48GB, but this is no disadvantage as our benchmark with the highest memory footprint (vApus FOS, 5 tiles) uses no more than 36GB of RAM.
We measured the difference between 12x4GB and 8x8GB of RAM and recalculated the power consumption for our power measurements (note that the differences were very small). There is no alternative as our Xeon has three memory channels and cannot be outfitted with the same amount of RAM as our Opteron system (four channels).
We chose the Xeons based on AMD's positioning. The Xeon X5649 is priced at the same level as the Opteron 6276 but we didn't have the X5649 in the labs. As we suggested earlier, the Opteron 6276 should reach the performance of the X5650 to be attractive, so we tested with the X5670 and X5650. We only tested with the X5670 in some of the tests because of time constraints.
Common Storage System
For the virtualization tests, each server gets an adaptec 5085 PCIe x8 (driver aacraid v1.1-5.1[2459] b 469512) connected to six Cheetah 300GB 15000 RPM SAS disks (RAID-0) inside a Promise JBOD J300s. The virtualization testing requires more storage IOPs than our standard Promise JBOD with six SAS drives can provide. To counter this, we added internal SSDs:
- We installed the Oracle Swingbench VMs (vApus Mark II) on two internal X25-E SSDs (no RAID). The Oracle database is only 6GB large. We test with two tiles. On each SSD, each OLTP VM accesses its own database data. All other VMs (web, SQL Server OLAP) are stored on the Promise JBOD (see above).
- With vApus FOS, Zimbra is the I/O intensive VM. We spread the Zimbra data over the two Intel X25-E SSDs (no RAID). All other VMs (web, MySQL OLAP) get their data from the Promise JBOD (see above).
We monitored disk activity and phyiscal disk adapter latency (as reported by VMware vSphere) was between 0.5 and 2.5 ms.
Software configuration
All vApus testing was done one ESXi vSphere 5--VMware ESXi 5.0.0 (b 469512 - VMkernel SMP build-348481 Jan-12-2011 x86_64) to be more specific. All vmdks use thick provisioning, independent, and persistent. The power policy is "Balanced Power" unless indicated otherwise. All other testing was done on Windows 2008 R2 SP1.
Other notes
Both servers were fed by a standard European 230V (16 Amps max.) powerline. The room temperature was monitored and kept at 23°C by our Airwell CRACs.
We used the Racktivity ES1008 Energy Switch PDU to measure power. Using a PDU for accurate power measurements might same pretty insane, but this is not your average PDU. Measurement circuits of most PDUs assume that the incoming AC is a perfect sine wave, but it never is. However, the Rackitivity PDU measures true RMS current and voltage at a very high sample rate: up to 20,000 measurements per second for the complete PDU.
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Kevin G - Tuesday, November 15, 2011 - link
I'm curious if CPU-Z polls the hardware for this information or if it queries a database to fetch this information. If it is getting the core and thread count from hardware, it maybe configurable. So while the chip itself does not use Hyperthreading, it maybe reporting to the OS that does it by default. This would have an impact in performance scaling as well as power consumption as load increases.MrSpadge - Tuesday, November 15, 2011 - link
They are integer cores, which share few ressources besides the FPU. On the Intel side there are two threads running concurrently (always, @Stuka87) which share a few less ressources.Arguing which one deserves the name "core" and which one doesn't is almost a moot point. However, both designs are nto that different regarding integer workloads. They're just using a different amount of shared ressources.
People should also keep in mind that a core does not neccessaril equal a core. Each Bulldozer core (or half module) is actually weaker than in Athlon 64 designs. It got some improvements but lost in some other areas. On the other hand Intels current integer cores are quite strong and fat - and it's much easier to share ressources (between 2 hyperthreaded treads) if you've got a lot of them.
MrS
leexgx - Wednesday, November 16, 2011 - link
but on Intel side there are only 4 real cores with HT off or on (on an i7 920 seems to give an benefit, but on results for the second gen 2600k HT seems less important)where as on amd there are 4 cores with each core having 2 FP in them (desktop cpu) issue is the FPs are 10-30% slower then an Phenom cpu clocked at the same speed
anglesmith - Tuesday, November 15, 2011 - link
which version of windows 2008 R2 SP1 x64 was used enterprise/datacenter/standard?Lord 666 - Tuesday, November 15, 2011 - link
People who are purchasing SB-E will be doing similar stuff on workstations. Where are those numbers?Kevin G - Tuesday, November 15, 2011 - link
Probably waiting in the pipeline for SB-E base Xeons. Socket LGA-2011 based Xeon's are still several months away.Sabresiberian - Tuesday, November 15, 2011 - link
I'm not so sure I'd fault AMD too much because 95% of the people that their product users, in this case, won't go through the effort of upgrading their software to get a significant performance increase, at least at first. Sometimes, you have to "force" people to get out of their rut and use something that's actually better for them.I freely admit that I don't know much about running business apps; I build gaming computers for personal use. I can't help but think of my Father though, complaining about Vista and Win 7 and how they won't run his old, freeware apps properly. Hey, Dad, get the people that wrote those apps to upgrade them, won't you? It's not Microsoft's fault that they won't bring them up to date.
Backwards compatibility can be a stone around the neck of progress.
I've tended to be disappointed in AMD's recent CPU releases as well, but maybe they really do have an eye focused on the future that will bring better things for us all. If that's the case, though, they need to prove it now, and stop releasing biased press reports that don't hold up when these things are benched outside of their labs.
;)
JohanAnandtech - Tuesday, November 15, 2011 - link
The problem is that a lot of server folks buy new servers to run the current or older software faster. It is a matter of TCO: they have invested a lot of work into getting webapplication x.xx to work optimally with interface y.yy and database zz.z. The vendor wants to offer a service, not a the latest technology. Only if the service gets added value from the newest technology they might consider upgrading.And you should tell your dad to run his old software in virtual box :-).
Sabresiberian - Wednesday, November 16, 2011 - link
Ah I hadn't thought of it in terms of services, which is obvious now that you say it. Thanks for educating me!;)
IlllI - Tuesday, November 15, 2011 - link
amd was shooting to capture 25% of the market? (this was like when the first amd64 chips came out)