The Current Intel offerings

Before we can discuss the ARM server SoCs, we want to look at what they are up against: the current low end Xeons. We have described the midrange Xeon E5s in great detail in earlier articles.

The Xeon E3-12xx v3 is nothing more than a Core i5/i7 "Haswell" dressed up as a server CPU: a quad-core die, 8MB L3 cache, and two DDR3 memory channels. You pay a small premium – a few tens of dollars – for enabling ECC and VT-d support. Motherboards for the Xeon E3 are also only a few tens of dollar more expensive than a typical desktop board, and prices are between the LGA-1150 and LGA-2011 enthusiast boards. The advantages are remote management courtesy of a BMC, mostly an Aspeed AST chip.

For the enthusiasts that are considering a Xeon E3, the server chip has also disadvantages over it's desktop siblings. First of all, the boards consume quite a bit more power while in sleep state: 4-6W instead of the typical <1W of the desktop boards. The reason is that server boards come with a BMC and that these boards are supposed to be running 24/7 and not sleeping. So less time is invested in reducing the power usage in sleep mode: for example the voltage regulators are chosen to live long. Also, these boards are much more picky when it comes to DIMMs and expansions cards meaning that users have to check the hardware compatibility lists for the motherboard itself.

Back to the server world, the main advantage of the Xeon E3 is the single-threaded performance. The Xeon E3-1280 v3 runs the Haswell cores at 3.6GHz base clock and can boost to 4GHz. There are also affordable LP (Low Power) 25W TDP versions available, e.g. the Xeon E3-1230L v3 (1.8GHz up to 2.8GHz ) and E3-1240L v3 (2GHz up to 3GHz). These chips seemed to be in very limited supply when they were announced and were very hard to find last year. Luckily, they have been available in greater quantities since Q2 2014. It also worth noting that the Xeon E3 needs a C220 chipset (C222/224/226) for SATA, USB, and Ethernet, which adds 0.7W (idle) to 4.1W (TDP).

The weak points are the limited memory channels (bandwidth), the fact that Xeon E3 server is limited to eight threads, and the very limited (for a server) 32GB RAM capacity (4 Slots x 8 DIMMs). Intelligent Memory or I'M is one of the vendors that is trying to change this. Unfortunately their 16GB DIMMs will only work with the Atom C2000, leading to the weird situation that the Atom C2000 supports more memory than the more powerful Xeon E3. We'll show you our test results of what this means soon.

The Atom C2000 is Intel's server SoC with a power envelope ranging from 6W (dual-core at 1.7GHz) to 20W (octal-core at 2.4GHz). USB 2.0, Ethernet, SATA3, SATA2 and the rest (IO APIC, UART, LPC) are all integrated on the die, together with four pairs of Silvermont Cores sharing 1MB L2 cache. The Silvermont architecture should process about 50% more instructions per clock cycle than previous Atoms due an improved branch prediction, the loop stream detector (like the LSD in Sandy Bridge) and out-of-order execution. However the Atom micro architecture is still a lot simpler than Haswell.

Silvermont has much smaller buffers (for example, the load buffer only has 10 entries, where Haswell has 72!), no memory disambiguation, it executes x86 instructions (and not RISC-like micro-ops), and it can process at the most two integer and two floating point instructions, with a maximum of two instructions per cycle sustained. The Haswell architecture can process and sustain up to five instructions with "ideal" software. AES-NI and SSE 4.2 instructions are available with the C2000, but AVX instructions are not.

The advantages of the Atom C2000 are the low power and high integration -- no additional chip is required. The disadvantages are the relatively low single-threaded performance and the fact that the power management is not as advanced as the Haswell architecture. Intel also wants a lot of money for this SoC: up to $171 for the Atom C2750. The combination of an Atom C2000 and the FCBGA11 motherboard can quickly surpass $300 which is pretty high compared to the Xeon E3.

ARM, Micro and Scale-out Servers The ARM Based Challengers: AppliedMicro
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  • jhh - Tuesday, December 16, 2014 - link

    SPARC and Power have had trouble keeping up with Moore's law, as neither sold enough to amortize R&D to push out innovation at the same rate as Intel. As Moore's law comes to an end, this will stop being a unique Intel advantage. It just might be too late for both of them. One can see the pressure on IBM, with their opening the Power architecture in similar ways to ARM. Both POWER and SPARC have to keep up to porting drivers to their Unix implementations, while the device manufacturers either write drivers for Linux or don't get volume. I just can't see either POWER or SPARC being cost effective over the long run. And, when others see the same thing, they aren't going to be excited about porting application software to those platforms.

    ARM needs to have a good performance/power and performance/cost ratio to get people excited to buy something other than Intel. They are certainly getting enough volume from the low-end to make investment on high-end parts. So far, I'm not excited enough to recommend any ARM proof-of-concept though.
    Reply
  • Kevin G - Wednesday, December 17, 2014 - link

    IBM always had a licensing model similar to ARM with PowerPC cores. The only thing really new here is that IBM is licensing out there flagship POWER chip in the same manner. Despite Intel having a process advantage, IBM was able to keep up in performance. (The 45 mm based 8POWER7 was generally faster than the 32 mm 10 core Westmere-EX.) There will always be a market for top performance but you are correct that sustaining on just that customer base is unwise.

    IBM does realize that their software licensing model to subsidize hardware R&D was not sustainable. So while you can't run AIX, you can get a POWER8 box for less than $3k now.
    Reply
  • OreoCookie - Wednesday, December 17, 2014 - link

    Really, just $3000? Wow, how times have changed, I remember ~12 years ago that a single Alpha CPU cost that much (the department I was working for had a workstation fail, fortunately under warranty, because otherwise they would have had to pay for 2 new CPUs and new RAM worth about 15,000 German Marks). Reply
  • Ratman6161 - Wednesday, December 17, 2014 - link

    "The general lower cost of Linux and open source software" While it's true that the cost of a Linux OS including support is lower than an equivalent Windows OS, in the larger scheme of things the cost of Windows and even VMware becomes little more than background noise in the total cost of operations. Try pricing out an Oracle DB for example and you find that the cost of that software dwarfs the price of the hardware it's running on as well as whatever the OS is costing. Ditto with most "enterprise software". Reply
  • lefty2 - Tuesday, December 16, 2014 - link

    Intel has another big advantage over ARM, which everyone seems to have forgotten about, and that is software compatibilty. 64-bit ARM server software is still a work in progress. The stuff that's being worked on at the moment is open source. Once that's finished you still have to convince clients to convert their proprietary software to ARM. Reply
  • JohanAnandtech - Tuesday, December 16, 2014 - link

    Don't you think that the open source software that has been/is ported now is enough? Apache/PHP/MySQL, Memcached and Hadoop...that is a massive server market. And there is little stopping Microsoft to invest in ARM software too. Just VMware might be a bit tricky, but I don't think the software is a problem. Reply
  • Kevin G - Wednesday, December 17, 2014 - link

    Actually VMware has said some less that flattering about ARM. Xen is the main hyper visor on ARM for the moment. Reply
  • goop666666 - Thursday, December 25, 2014 - link

    Yeah, recompiling is so very hard. Essentially what you're saying is that Intel is for legacy systems and software that is poorly written. That is a large enough market, but doesn't apply to hyperscale deployments, which are the future. Reply
  • gostan - Tuesday, December 16, 2014 - link

    great article by Johan as always.

    but the argument is muted. we have heard this tune before.

    the hardware might be cheaper. the power bill might be cheaper. wait until you see the software maintenance cost. custom software needs 'custom' pricing.

    besides, arm has no cutting edge fab process to back them.
    Reply
  • JohanAnandtech - Tuesday, December 16, 2014 - link

    You do not need expensive software to create a server market these days. Just look how many webservers are running the LAMP stack. Reply

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