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  • pixelstuff - Thursday, April 11, 2013 - link

    The acronyms were quite prolific in this article. Reply
  • WeaselITB - Thursday, April 11, 2013 - link

    IDK, TLAs R AOK w/me. Reply
  • mayankleoboy1 - Thursday, April 11, 2013 - link

    AFAIk, LZMA uses only two threads...
    LZMA2 can use as many as required. Can you do another benchmark, this time with LZMA2 algo, and set the number of threads to something big.
  • mayankleoboy1 - Thursday, April 11, 2013 - link

    Nevermind, i thought you were testing on the complete thing, not only one node. Reply
  • JohanAnandtech - Thursday, April 11, 2013 - link

    The benchmark actually spawns 4 threads if you instruct it to do that. Reply
  • mayankleoboy1 - Thursday, April 11, 2013 - link

    Those 4 threads would be 4 processes, right ? Or a single process with 4 threads ? Reply
  • Kevin G - Thursday, April 11, 2013 - link

    Any news of Intel's ISCCC coming to market? Even if performance is the same, it further integrates the various nodes further for greater density and the possibility of lower performance. Reply
  • Gigaplex - Thursday, April 11, 2013 - link

    I wonder how AMDs Bobcat would compare in this scenario. Reply
  • Spunjji - Friday, April 12, 2013 - link

    Probably average, not great at anything though as its PPW is probably lower than ARM in this scenario. That's mostly due to outdated process tech, though, so Jaguar might well be a nice competitor; even more so if people can figure out novel ways to use the GPU. Reply
  • fteoath64 - Wednesday, April 17, 2013 - link

    The Atom is between a rock-and-a-hard-place. It is only good for consumer NAS devices and nothing really else. The Bobcat cores are worse in power consumption while 25% SLOWER than the Atom , so it is pretty useless, although its gpu is rather respectable at 80 cores. The low power Xeon Haswell is rather nice and should be developed (or sliced and diced) into the "New" Atom2 architecture, saving Intel the dearth of the Atom brand that has long since been dead and beaten over and over. There is no shame for Intel on this "dead horse". they kept beating it for all to see!. Reply
  • dealcorn - Thursday, April 11, 2013 - link

    It makes me wonder why HP has been hogging almost all Intel's S1200 production capacity. HP may think there is a use case where some customers will find Moonshot attractive.

    Is Briarwood (S12X9) the end of the road for Atom at 32 mn? The addition of many Crystal DMA engines to provide a hardware assist in RAID6 calculations lets Atom be a category killer (in a niche market). I find it funny that after all the criticism, the venerable Atom core is departing 32 nm as a (niche) category killer.
  • Ammohunt - Thursday, April 11, 2013 - link

    The should have named this product line Crapshoot you would think they would learn from past dealings with intel. As a career Systems Administrator i don't find this to be an attractive product as compared to scaling density using 1-2U servers crammed with ram running a modern hyper visor with 24 or more cores. At the same time a 1-2U server can be re-purposed for dedicated tasks. Reply
  • Spunjji - Friday, April 12, 2013 - link

    Pun win. Reply
  • Jaybus - Friday, April 12, 2013 - link

    Which makes me question why a E5 2650L, a 1.8 GHz Sandy Bridge part, was used as a comparison. WIth the E5-2600 V2 series being launched soon, I think an Ivy Bridge E3 would have been a better comparison. The 10 core E5 V2 at 70 W will allow 20 Ivy Bridge cores (40 hyper-threads) at around 3 GHz and at least 256 GB of RAM in a 1U space. That will allow a lot of web server VMs from a 1U. Can these Atom and ARM systems run as many web servers in a 1U space? For some of us, that is a more important question. Performance per Watt is important, but it doesn't necessarily translate to better performance per 1U space, which is the more important metric for some of us. Reply
  • Wilco1 - Friday, April 12, 2013 - link

    Well according to Anand's Calxeda test, you need 2.7x as many Cortex-A9 cores than E5-2660 threads to equal it on webserving. With Cortex-A15 being at least 50% faster than the A9 that reduces to 1.8x. Assuming the E5 V2 is 25% faster, it becomes 2.3x. The max density of the Moonshot is 45 x 4 quadcores in 4.3U, so about 167 cores per 1U vs 40 threads for the E5 V2, ie. it gives 1.8 times as much performance per 1U. Reply
  • vFunct - Thursday, April 11, 2013 - link

    Can we have ARM SoC's with stacked 128GB NAND flash chips on an interconnected grid already?

    It's obvious that this is where everything is headed. Don't need a giant cartridge/module when everything can be done in a stacked die. Or, perhaps just add an ARM core/network interface to NAND FLASH.

    You could probably fit several thousand of them in a chassis. Maybe several hundred thousand in a rack.
  • wetwareinterface - Friday, April 12, 2013 - link

    and that would be a fire you could see from space. a stacked die? and several thousand in a chassis...

    would require a cooling solution based on vapor phase and massive heat exchangers to keep it from burning itself up.

    and further the arm cpu with the ability to access more than 4 GB of ram doesn't yet exist. tying slower flash to it isn't a solution either except in a san. and that would be fairly pointless as you'd hit a bottleneck on the network side so flash storage would be a pointless expense.
  • Wilco1 - Friday, April 12, 2013 - link

    The HP Moonshot server supports 7200 ARM cores already using air cooling. Given that a typical quad core node uses about 5 Watts, stacking flash and/or RAM is certainly feasible. This is pretty much what many mobile phone SoCs already do.

    Also ARM's with more than 4GB capability have been on the market for at least 6 months - Cortex-A15 supports 40-bit addressing.
  • wetwareinterface - Monday, April 15, 2013 - link

    okay i'll bite...

    first off, and i quote, "Don't need a giant cartridge/module when everything can be done in a stacked die." everything that module contains stacked up would equal a heat dissipation nightmare.

    or the second option of just adding an arm core and network interface on top of flash would net nothing but a slow waste of cash.

    and also the a15 has a 40 bit address space so it can see up to 1 TB of ram but each thread can only use 32bit of that address space so.... 4GB cap.

    and stacking the ram and or flash is feasible... but when you cram a bunch of modules together in the thousands you have heat dissipation problems. the tighter you group the heat sources the more geometrical progression for heat buildup becomes an issue. that heat has to go somewhere and with nowhere to go and no air volume to exchange with the more you have to go with extreme cooling solutions.

    phones get away with stacking the cpu and other elements because they don't have to run more than a few minutes accessing those elements at once so heat buildup doesn't become a problem in a typical use scenario. but it does cause issues when you use a phone outside the typical usage it sees.

    a server would melt down with all that being accessed at once and constantly if it were stacked and air cooled.
  • vFunct - Monday, April 15, 2013 - link

    If only there were some way to remove that heat, in a way that would "cool" the system..

    Also, the ARM A15 is the last ARM core ARM will ever design. They don't plan on making any future designs past that. There are no plans on making 64-bit ARM cores, ever.

    So, everything you say is right.
  • WackyDan - Friday, April 12, 2013 - link

    Pure Systems... IBM... Been there, done that... HP needs a Mars shot. Reply
  • P_Sinclair - Friday, April 12, 2013 - link

    HP mentioned FPGAs several times in their presentations. I see that SRC Computers is on their partner list. Anyone heard anything about when an FPGA might be available on Moonshot? That would certainly outperform all those wimpy processors announced so far. Reply
  • bloodgrvv - Monday, April 15, 2013 - link

    I'm sure some of us have worked with clusters before, and this one reminds me of Arthur C. Clarke and Kubrick:
    Daisy, Daisy, give me your answer, do,
    I'm half crazy all for the love of you.
    It won't be a stylish marriage,
    I can't afford a cartridge,
    --HAL 9000
  • spamreader1 - Friday, May 03, 2013 - link

    Looks like a crossover between nutanix compute cluster and a bladecenter. Reply
  • sagnikd - Monday, September 15, 2014 - link

    Very new technology... Excited about this "Physicalization" way instead of virtualization..
    One quick question - How many catridges per moonshot box any idea? I would believe one catrdge is one Desktop. Hence, my question boils down to how many parallel desktops can one moonshot take?


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