The story behind the high-end Xeon E7 has been an uninterrupted triumphal march for the past 5 years: Intel's most expensive Xeon beats Oracle servers - which cost a magnitude more -  silly, and offers much better performance per watt/dollar than the massive IBM POWER servers.  Each time a new generation of quad/octal socket Xeons is born, Intel increases the core count, RAS features, and performance per core while charging more for the top SKUs. Each time that price increases is justified, as the total cost of a similar RISC server is a factor more than an Xeon E7 server. From the Intel side, this new generation based upon the Haswell core is no different: more cores (18 vs 15), better RAS, slightly more performance per core and ... higher prices. 

However, before you close this tab of your browser, know that even this high-end market is getting (more) exciting. Yes, Intel is correct in that the market momentum is still very much in favor of themselves and thus x86. 

No less than 98% of the server shipments have been "Intel inside". No less than 92-94% of the four socket and higher servers contain Intel Xeons.  From the revenue side, the RISC based systems are still good for slightly less than 20% of the $49 Billion (per year) server market*.  Oracle still commands about 4% (+/- $2 Billion), but has been in a steady decline. IBM's POWER based servers are good for about 12-15% (including mainframes) or $6-7 Billion depending on who you ask (*).  

It is however not game over (yet?) for IBM. The big news of the past months is that IBM has sold its x86 server division to Lenovo. As a result, Big Blue finally throw its enormous weight behind the homegrown POWER chips. Instead of a confusing and half heartly "we will sell you x86 and Itanium too" message, we now get the "time to switch over to OpenPOWER" message. IBM spent $1 billion to encourage ISVs to port x86-linux applications to the Power Linux platform.  IBM also opened up its hardware: since late 2013, the OpenPower Foundation has been growing quickly with Wistron (ODM), Tyan and Google building hardware on top of the Power chips. The OpenPOWER Foundation now has 113 members, and lots of OpenPower servers are being designed and build. Timothy Green of the Motley fool believes OpenPower will threaten Intel's server hegemony in the largest server market, China.   

But enough of that. This is Anandtech, and here we quantify claims instead of just rambling about changing markets. What has Intel cooked up and how does it stack up to the competion? Let's find out.

(*) Source: IDC Worldwide Quarterly Server Tracker, 2014Q1, May 2014, Vendor Revenue Share

The New Xeon E7v3
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  • PowerTrumps - Saturday, May 9, 2015 - link

    I'm sure the author will update the article unless this was a Intel cheerleading piece. Reply
  • name99 - Friday, May 8, 2015 - link

    The thing is called E7-8890. Not E7-5890?
    WTF Intel? Is your marketing team populated by utter idiots? Exactly what value is there in not following the same damn numbering scheme that your product line has followed for the past eight years or so?

    Something like that makes the chip look like there's a whole lot of "but this one goes up to 11" thinking going on at Intel...
    Reply
  • name99 - Friday, May 8, 2015 - link

    OK, I get it. The first number indicates the number of glueless chips, not the micro-architecture generation. Instead we do that (apparently) with a v2 or v3 suffix.
    I still claim this is totally idiotic. Far more sensible would be to use the same scheme as the other Intel processors, and use a suffix like S2, S4, S8 to show the glueless SMP capabilities.
    Reply
  • ZeDestructor - Friday, May 8, 2015 - link

    They've been using this convention since Westmere-EX actually, at which point they ditched their old convention of a prefix letter for power tier, followed by one digit for performance/scalability tier, followed by another digit for generation then the rest for individual models. Now we have 2xxx for dual socket, 4xxx for quad socket and 8xxx for 8+ sockets, and E3/E5/E7 for the scalability tier. I'm fine with either, though I have a slight preference for the current naming scheme because the generation is no longer mixed into the main model number. Reply
  • Morawka - Saturday, May 9, 2015 - link

    man the power 8 is a beefy cpu... all that cache, you'd think it would walk all over intel.. but intel's superior cpu design wins Reply
  • PowerTrumps - Saturday, May 9, 2015 - link

    please explain Reply
  • tsk2k - Saturday, May 9, 2015 - link

    Where are the gaming benchmarks? Reply
  • JohanAnandtech - Saturday, May 9, 2015 - link

    Is there still a game with software rendering? :-) Reply
  • Gigaplex - Sunday, May 10, 2015 - link

    Llvmpipe on Linux gives a capable (feature wise) OpenGL implementation on the CPU. Reply
  • Klimax - Saturday, May 9, 2015 - link

    Don't see POWER getting anywhere with that kind of TDP. There will be dearth of datacenters and other hosting locations retooling for such thing. And I suspect not many will even then take it as cooling and power costs will be damn too high.

    Problem is, IBM can't go lower with TDP as architecture features enabling such performance are directly responsible for such TDP. (Just L1 consumes 2W to keep few cycles latency at high frequency)
    Reply

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