Overall System Performance with Winstone 2004

Business Winstone 2004

Business Winstone 2004 tests the following applications in various usage scenarios:
. Microsoft Access 2002
. Microsoft Excel 2002
. Microsoft FrontPage 2002
. Microsoft Outlook 2002
. Microsoft PowerPoint 2002
. Microsoft Project 2002
. Microsoft Word 2002
. Norton AntiVirus Professional Edition 2003
. WinZip 8.1

Business Winstone 2004

With Business Winstone, as we saw in the first article, the Pentium M's 10-cycle L2 cache is able to give it the top position in this test.  With the Core Duo, Intel has increased the L2 cache latency by 40%, and thus it is outperformed by the older, single core Pentium M processor despite the fact that they run at the same clock speed. 

The FP/SSE enhancements to Core Duo have no chance to shine in your everyday run-of-the-mill business applications like Word and Outlook, not to mention that the workload is not heavily multithreaded, so there's no benefit from a dual core processor.  So from a performance standpoint, all we see from the Core Duo is a similarly clocked processor to the Pentium M 760, but with a higher latency L2 cache, which explains the performance deficit. 

The Athlon 64 X2 running at 2.0GHz with a 1MB L2 per core manages to slightly outperform the Core duo T2500, however the performance margin is negligible.


Multimedia Content Creation Winstone 2004

Multimedia Content Creation Winstone 2004 tests the following applications in various usage scenarios:
. Adobe® Photoshop® 7.0.1
. Adobe® Premiere® 6.50
. Macromedia® Director MX 9.0
. Macromedia® Dreamweaver MX 6.1
. Microsoft® Windows MediaTM Encoder 9 Version 9.00.00.2980
. NewTek's LightWave® 3D 7.5b
. SteinbergTM WaveLabTM 4.0f
All chips were tested with Lightwave set to spawn 4 threads.

Multimedia Content Creation Winstone 2004

Once again, as we saw in the first article, thanks to the inclusion of 3D rendering as a benchmark task in the Multimedia Content Creation Winstone 2004 workload, there is a clear benefit to having a dual core processor. 

Not all of the Core Duo's advantage over the Pentium M is due to its dual core nature, but it does account for some of it. 

But as we saw in our original article, at 2.0GHz, the Core Duo T2500 just isn't able to offer performance comparable to the Athlon 64 X2 at the same speed.  It is worth noting that L2 cache size doesn't really make a difference here to the X2 at all, just clock speed.  Thanks to the Athlon 64's on-die memory controller, the architecture is inherently less sensitive to cache size than more conventional designs that rely on an external memory controller. 

The Test Overall System Performance using SYSMark 2004
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  • Spoonbender - Monday, December 19, 2005 - link

    Am I the only one recalling the old Athlon days?
    AMD smashes ahead with a great CPU, until around what, 2600+ or so, where they run out of steam, letting Intel overtake them.

    Looks like the same might happen again...

    Not sure if it's just AMD screwing up, or if it's really a question of resources.

    For AMD, Athlon 64 was really a last-ditch gamble. They had to do something big, or they wouldn't exist 5 years from now.
    Well, they did, and enjoyed a lot of success, but they might just not have the resources to follow up on it. Instead, their only option might be to milk the A64 for all it's worth, and then take a beating for a year or two, until they're ready with a next-gen architecture
  • LuxFestinus - Tuesday, December 20, 2005 - link

    A question of availability needs to be raised. Are these new duo Intel processors available now? Can anyone say paper launch. How long has the dual Athlon64 been out? I thought so.
  • Griswold - Monday, December 19, 2005 - link

    I dont see where you're coming from. The A64 is a K7 on steroids. The P-M is a P3 on steroids and Conroe will also just be a P-M on steroids. Both companies didnt come up with flashy, brandnew architectures over the last few years, they only added flashy things to existing designs. Here and now, it's still Intel playing the catchup game until we see Conroe in stores. And then you always have to keep in mind that AMD is yet to move to 65nm. It will certainly give them some more clockspeed headroom.

    I agree with the conclusion of the article, we'll see a neck to neck race in a year from now where the better price will make the difference. AMD really doesnt have to flex its muscles now, they can milk the crowd with a superior product - and people will pay whatever to get it, or so it seems.
  • Calin - Tuesday, December 20, 2005 - link

    Several of the flashy brand new architectures of the last few years had any kind of success. Itanium/EPIC, Transmeta, Netburst... As long as Transmeta was supported by a company with very little financial power (so their loss was somewhat expected), Itanium is crawling ahead on life support, and Netburst (while being king of the hill for a good time) will be discontinued.
  • Griswold - Tuesday, December 20, 2005 - link

    The point is: Netburst is certainly a design that could be considered newer or more radical compared to the P3->P-M->Yonah/Conroe/Merom route. In the end netburst was still a technical failure, but certainly not a financial mistake.

    Well and Epic, thats much older than you think. But yes, it never ended up where Intel wanted it to be: on the desktop.
  • allies - Monday, December 19, 2005 - link

    It seems like with Intel's new chips, we're going to be back to a point where neither company has a true lead on the other. AMD is in great position at the moment, but they need to get their Turion X2 out to combat Intel's Centrino Duo. Otherwise, they'll find themselves losing laptop sales, an area which they've come a ways in.

    Right now, although clockspeed isn't increasing as fast as it once was, is a very exciting time for computer technologies. Parallelism, die shrinking, heat reduction, among other strides are paving the way to the future.
  • ncage - Monday, December 19, 2005 - link

    Are you sure the improvements in games are due to the different Memory Controller technoliges? Are you sure its not the FPU?
  • tfranzese - Monday, December 19, 2005 - link

    I was thinking the same, considering his thoughts are pure speculation on his part. So, until Anand can provide data to back that up, he should stick to commending AMD's architecture rather than trying to credit all their success to the on-die memory controller (which surely helps, but it's only one part in the formula).

    I would doubt AMD is sitting idle though, and as they work on their next architecture will keep their lips sealed in order to maintain an element of surprise. Surprise like when they added SSE support to the Palomino and SSE3 support to Venice - both unexpected additions.
  • Furen - Monday, December 19, 2005 - link

    The K8s execution core is pretty much the same as the K7s. If you compare performance (in games) between the two you'll notice that the K8 performs much better. This is due to the fact that it removes the FSB bottleneck (by integrating the memory controller), increases the width of the L2 cache (and the size) and dramatically drops the memory access latency. Sure there are other minor differences but they're mostly minor improvements, like better branch prediction, etc.
  • tfranzese - Monday, December 19, 2005 - link

    I don't see where the two of you are going with this and only serve my point that pinning the successes of the architecture on the memory controller is only speculation.

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