AMD's 12-core "Magny-Cours" Opteron 6174 vs. Intel's 6-core Xeon
by Johan De Gelas on March 29, 2010 12:00 AM EST- Posted in
- IT Computing
SAP S&D 2-Tier
| SAP S&D 2-Tier | |
| Operating System | Windows 2008 Enterprise Edition |
| Software | SAP ERP 6.0 Enhancement package 4 |
| Benchmark software | Industry Standard benchmark version 2009 |
| Typical error margin | Very low |
The SAP SD (sales and distribution, 2-tier internet configuration) benchmark is an interesting benchmark as it is a real world client-server application. We decided to take a look at SAP's benchmark database. The results below all run on Windows 2003 Enterprise Edition and MS SQL Server 2005 database (both 64-bit). Every 2-tier Sales & Distribution benchmark was performed with SAP's latest ERP 6 enhancement package 4. These results are NOT comparable with any benchmark performed before 2009. The new 2009 version of the benchmark produces scores that are 25% lower. We analyzed the SAP Benchmark in-depth in one of our earlier articles. The profile of the benchmark has remained the same:
- Very parallel resulting in excellent scaling
- Low to medium IPC, mostly due to "branchy" code
- Somewhat limited by memory bandwidth
- Likes large caches (memory latency!)
- Very sensitive to sync ("cache coherency") latency
(*) Estimate
The last time we discussed the SAP S&D 2-tier benchmark, we had to estimate the Xeon X5670 results. Since then HP has benchmarked its latest G6 servers, giving us results for the X5670. The performance is nothing short of astonishing. The dual Xeon X5670 outperforms a quad Opteron 8345 at 2.6 GHz. The Magny-Cours Opteron can only compete based on its somewhat lower price. We doubt that the SAP buyers care about a few hundred dollars though. A quad Opteron 6174 might have a chance against the Nehalem EX performance wise, but the SAP market will probably prefer the extensive RAS list of the Xeon Nehalem EX. The ERP market is most likely going to be dominated by Intel based servers.
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wolfman3k5 - Monday, March 29, 2010 - link
Great review! Thanks for the review, when will you guys be reviewing the AMD Phenom II X6 for us mere mortals? I wonder how the Phenom II X6 will stack up against the Core i7 920/930.Keep up the good work!
ash9 - Tuesday, March 30, 2010 - link
Since SSE4.1,SSE4.2 are not in AMD's , its Andand's way of getting an easy benchmark win, seeing some of these benchmark test probably use them-http://blogs.zdnet.com/Ou/?p=719
August 31st, 2007
SSE extension wars heat up between Intel and AMD
"Microprocessors take approximately five years to go from concept to product and there is no way Intel can add SSE5 to their Nehalem product and AMD can’t add SSE4 to their first-generation 45nm CPU “Shanghai” or their second-generation 45nm “Bulldozer” CPU even if they wanted to. AMD has stated that they will implement SSE4 following the introduction of SSE5 but declined to give a timeline for when this will happen."
asH
mariush - Tuesday, March 30, 2010 - link
One of the best optimized and multi threaded applications out there is the open source video encoder x264.Would it be possible to test how well 2 x 8 and 2x12 amd configurations work at encoding 1080p video at some very high quality settings?
A workstation with 24 cores from AMD would cost almost as much as a single socket 6 cores system from Intel so it would be interesting to see if the increase in frequency and the additional SSE instructions would be more advantage than the number of cores.
Aclough - Tuesday, March 30, 2010 - link
I wonder if the difference between the Windows and Linux test results is related to the recentish changes in the scheduler? From what I understand the introduction of the CFS in 2.6.23 was supposed to be really good for large numbers of cores, and I'm given to understand that before that the Linux scheduler worked similarly to the recent Windows one. It would be interesting to try running that benchmark with a 2.6.22 kernel or one with the old O(1) patched in.Or it could just be that Linux tends to be more tuned for throughput whereas Windows tends to be more tuned for low latency. Or both.
Aclough - Tuesday, March 30, 2010 - link
In any event, the place I work for is a Linux shop and our workload is probably most similar to Blender, so we're probably going to continue to buy AMD.ash9 - Tuesday, March 30, 2010 - link
http://www.egenera.com/pdf/oracle_benchmarks.pdf"Performance testing on the Egenera BladeFrame system has demonstrated that the platform
is capable of delivering high throughput from multiple servers using Oracle Real Application
Clusters (RAC) database software. Analysis using Oracle’s Swingbench demonstration tool
and the Calling Circle schema has shown very high transactions-per-minute performance
from single-node implementations with dual-core, 4-socket SMP servers based on Intel and
AMD architectures running a 64-bit-extension Linux operating system. Furthermore, results
demonstrated 92 percent scalability on either server type up to at least 10 servers.
The BladeFrame’s architecture naturally provides a host of benefits over other platforms
in terms of manageability, server consolidation and high availability for Oracle RAC."
nexox - Tuesday, March 30, 2010 - link
It could also be that Linux has a NUMA-aware scheduler, so it'd try to keep data stored in ram which is connected to the core that's running the thread which needs to access the data. I probably didn't explain that too well, but it'd cut down on memory latency because it would minimize going out over the HT links to fetch data. I doubt that Windows does this, given that Intel hasn't had NUMA systems for very long yet.I sort of like to see more Linux benchmarks, since that's really all I'd ever consider running on data center-class hardware like this, and since apparently Linux performance has very little to do with Windows performance, based on that one test.
yasbane - Wednesday, May 19, 2010 - link
Agreed. I do find it disappointing that they put so few benchmarks for Linux for servers, and so many for windows.-C
jbsturgeon - Tuesday, March 30, 2010 - link
I like the review and enjoyed reading it. I can't help but feel the benchmarks are less a comparison of CPU's and more a study on how well the apps can be threaded as well as the implementation of that threading -- higher clocked cpus will be better for serial code and more cores will win for apps that are well threaded. In scientific number crunching (the code I write ), more cores always wins (AMD). We do use Fluent too, so thanks for including those benchamarks!!jbsturgeon - Tuesday, March 30, 2010 - link
Obviously that rule can be altered by a killer memory bus :-).