Reading the Benchmarks

There are a lot of benchmarks available that compare the IBM POWER8 to Xeons. One example is the Enterprise Resource Planning (ERP) software SAP. We have used the Sales & Distribution 2 Tier benchmark many times because it is one of the very few benchmarks that is a very good representation of real world high-end enterprise workloads.

SAP Sales & Distribution 2 Tier benchmark

Now combine this with the benchmarks that IBM has compiled on their marketing slides and the fact that we know that the POWER8 chip has a TDP of 190W at nominal speed and 247W when running at "Turbo" clockspeeds.

It all seems very simple: the IBM POWER8 is a more power hungry chip but delivers much better performance. But as always you should take the time to read the benchmarks very closely. The IBM S824 is typically the one featured in the benchmarks. However, we are pretty sure that is not the system that will be able to sway the current Intel Xeon customers towards OpenPOWER. Nor are we convinced that the most widely reported benchmarks are accurately predicting the experience of those people.

There are three reasons for that. First of all, most of the benchmarks are run on AIX (7), IBM's own proprietary UNIX. AIX is a high performance, extremely robust OS, but it does not have the rich software system and support that Linux has. Furthermore even with their common design elements, an excellent Linux administrator will have to invest some time to get the same level of expertise in AIX. But more importantly, the S824 is a pretty expensive machine, both in acquisition cost (starting at $21.000, up to $60.000 and more) and energy cost. That kind of pricing lands the system in hostile and more powerful quad Xeon E7 territory.

Lastly, the S824 uses two CPU cards or Dual Chip Modules (DCM), each containing two six-core POWER8 modules at 3.5 GHz. Now consider that the third party OpenPOWER servers have 190/247W TDP 10-core 3.4 GHz POWER8 CPUs. The power consumption does not increase linearly as you add more cores and higher clocks. So the CPU modules found inside the S824 are definitely more power hungry, probably well above 250W.

There is more. Take a look at IBM "Scale-out" server, the more affordable server range of IBM servers. First, a bit of IBM server nomenclature which is actually quite logical and easy to decipher (take note, Intel marketing).

  • S stands for "Scale-out"
  • 8 stands for POWER8
  • 1 or 2 is the number of sockets
  • 2 or 4 is the height, expressed in rack Us.

So an S824 contains 2 sockets in a 4U chassis and a S812 is a one socket system. There is one designation left, : the "L" or Linux .

Notice that the non-L versions also support Linux, but a few months ago they supported only the Big Endian (BE) versions (the slide is from the beginning of this year). IBM told us that all POWER8 servers now support both Little Endian (LE) and BE Linux.

This is important since using an LE version (Ubuntu, SUSE) makes data migration from and data sharing (NAS, SAN) with an x86 system much easier, as x86 only supports LE.

Challenging the Xeon Software Issues
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  • psychobriggsy - Friday, November 6, 2015 - link

    So you are complaining that your job's selection of hardware has made you earn twice as much?
  • dgingeri - Friday, November 6, 2015 - link

    No, because I don't earn twice as much. I'm not fully trained in AIX, so I have to muddle my way through dealing with the test machines we have. We don't use them for full production machines, just for testing software for our customers. (Which means I have to reinstall the OS on at least one of those machines about every month or so. That is a BIG pain in the behind due to the boot procedure. Where it takes a couple hours to reinstall Windows or Linux, it takes a full day to do it on an AIX machine.)

    I'm trying to advise people to NOT use AIX. It's an awful operating system. I'm also advising people NOT use IBM Power based machines because they are extremely aggravating to work on. Overall, it costs much more to run IBM Power machines, even if they aren't running AIX, than it does to run x86 machines. The up front cost might look competitive, but the maintenance costs are huge. Running AIX on them makes it an order of magnitude more expensive.
  • serpint - Friday, November 6, 2015 - link

    I suggest reading the NIM A-Z handbook. It shouldn't take you more than 10 minutes to fully deploy an AIX system fully built and installed with software. As with Linux, it also shouldn't take more than about 10 minutes to install and fully deploy a server if you have any experience scripting installs.

    The developerworks community inside IBM is possibly the best free resource you could hope for. Also the redbooks.ibm.com site.

    Compared to most *NIX flavors, AIX is UNIX for dummies.
  • agtcovert - Tuesday, November 10, 2015 - link

    If you had a NIM server setup and were using LPARs, loading a functional image of AIX should take 10 minutes flat, on a 1G network.

    If you're loading AIX on a physical machine without using the virtualization, you're wasting the server.
  • agtcovert - Tuesday, November 10, 2015 - link

    I've worked on AIX platforms extensively for about the same amount of time. First, most of these purchases go through a partner and yours must've sucked because we got great support from our IBM partner -- free training, access to experts, that sort of thing.

    Second, I always love the complaining about the cost of the hardware, etc. If you're buying big iron Power servers, the maintenance cost should be near irrelevant. And again, your partner should take care to negotiate that into the deal for 3-5 years ensuring you have access to updates.

    The other thing no one ever talks about is *why* you buy these servers. Why do they take so long to boot? Well, for the frame it self, it's a deep POST. But then, mine were never rebooted in 4 years, and that's for firmware upgrades (online) and a couple of interface card swaps (also done online with no service disruption). Do that on x86. So reason #1 -- RAS, at the hardware level. Seriously, how often did you need to reboot the frame?

    Reason #2 -- for large enterprises, you can do so much with these with relatively few cores they lead to huge licensing savings in Oracle, IBM software. For us, it was over $1m a year ongoing. And no, switching to other software was not an option. We could run an Oracle RAC on 4 cores of Power 7 (at the time) versus the 32 x86 it was on previously. That saves a lot of $.

    The machine reviewed does not run AIX. It's Linux only. So the maintenance, etc. you mention isn't even relevant.

    There are still things that are annoying I suppose. AIX is steeped in legacy to some degree, and certainly not as easy to manage as a Linux box. But there are a lot of guides out there for free -- it took me about a month to be fully productive. And the support costs you pay for -- well, if I ran into a wall, I just opened a PMR. IBM was always helpful
  • nils_ - Wednesday, November 11, 2015 - link

    I'm mostly working in Linux Devops now, but I remember dreading to use all the "classic" Unix machines at my first "real" job 12 years ago. We ran a few IRIX and AIX boxes which were ancient along itself. Hell even the first thing I did on my work Macbook was to replace the BSD userland with GNU wherever possible.

    It's hard to find any information on them and any learning materials are expensive and usually on dead trees. They pretty much want to sell training, consulting etc. along with the often non-competitive Hardware prices since these companies don't actually WANT to sell hardware. They want to sell everything that surrounds it.
  • retrospooty - Friday, November 6, 2015 - link

    The problem with server chips is that its about platform stability. IBM (and others) dropped off the face of the Earth and as mentioned above Intel now has 95% of the market. This chip looks great but will companies buy into it in mass? What if IBM makes another choice to drop off the face of the Earth again and your platform is dead ended? I would have to think long and hard about going with them at this point.
  • FunBunny2 - Friday, November 6, 2015 - link

    Not likely. the mainframe z machines are built using POWER blocks.
  • Kevin G - Friday, November 6, 2015 - link

    POWER and System Z are two different architectures. Case in point, POWER is a RISC design introduced in the 90's where as the System Z mainframes can trace their roots to a CISC design from the 1960's (and it is still possible to run some of that 1960's code unmodified).

    They do share a handful of common parts (think the CDIMMs) to cut down on support costs.
  • plonk420 - Friday, November 6, 2015 - link

    can you run an x264 benchmark on it?? x)

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