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Intel Hardware Technology

Intel Announces Cascade Lake With Up To 56 Cores and Optane Persistent Memory DIMMs (tomshardware.com) 112

At its Data-Centric Innovation Day, Intel today announced its Cascade Lake line of Xeon Scalable data center processors. From a report: The second-generation lineup of Xeon Scalable processors comes in 53 flavors that span up to 56 cores and 12 memory channels per chip, but as a reminder that Intel company is briskly expanding beyond "just" processors, the company also announced the final arrival of its Optane DC Persistent Memory DIMMs along with a range of new data center SSDs, Ethernet controllers, 10nm Agilex FPGAs, and Xeon D processors. This broad spectrum of products leverages Intel's overwhelming presence in the data center, it currently occupies ~95% of the worlds server sockets, as a springboard to chew into other markets, including its new assault on the memory space with the Optane DC Persistent Memory DIMMs. The long-awaited DIMMs open a new market for Intel and have the potential to disrupt the entire memory hierarchy, but also serve as a potentially key component that can help the company fend off AMD's coming 7nm EPYC Rome processors.
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Intel Announces Cascade Lake With Up To 56 Cores and Optane Persistent Memory DIMMs

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  • by Anonymous Coward on Tuesday April 02, 2019 @12:49PM (#58372782)

    The fucking company is literally called "Intel"!

    • by Anonymous Coward

      and nothing of note to indicate intel even gives a shit about the ongoing supply issues (shortage) of normal consumer chips.. just the stuff that pads their bank accounts the most (high end and servers).

  • by CODiNE ( 27417 ) on Tuesday April 02, 2019 @01:02PM (#58372862) Homepage

    I don't know if I could handle having a 56 core processor when the whole time I'll know... deep inside. It's not an 8x8 array of cores in there. :|

    • by Kaenneth ( 82978 )

      It probably is; but they disable the first 8 cores that fail testing, to get enough production quantity.

      I know Microsoft Windows dev team has had access to prototype 128 core systems for years

    • by Anonymous Coward

      A grid of processor cores 7 wide by 8 tall would give you exactly 56 cores though. And these things are determined by the available chip area, which is itself determined by manufacturer goals for performance, heat output, electrical consumption, chip yields, etc.

      So yeah, it could be an 8x8 grid, but it could easily be a 7x8 grid too.

    • by Anonymous Coward

      Since Skylake the 'high core count' Xeons use an mesh layout (Instead of a dual ring)

      Look at the first two diagrams here to get an idea about both layouts. https://www.anandtech.com/show/11544/intel-skylake-ep-vs-amd-epyc-7000-cpu-battle-of-the-decade/5

      You'll see that 28 core Xeon is made up of 6x6 blocks that each have a connection to the mesh. 28 of them are cores, 2 are memory controllers (That each have 3 memory channels!) 4 are PCI express controllers , and 2 are QPI controllers.

      The 56core 92xxx proces

  • Can I get all that in a laptop? :-)

  • 400w (Score:5, Interesting)

    by darkain ( 749283 ) on Tuesday April 02, 2019 @01:22PM (#58373020) Homepage

    This new top-end CPU comes in at 400w and requires water cooling. Who the hell wants water cooling in the data center!? This just seems like a massive disaster waiting to happen. Also, they're no longer socketed, but instead soldered directly to the motherboard, just like SoCs.

    • And using Optane as (slow) RAM, when the thing have a finite life? No thanks.
      • Why not think of it as a fast disk instead of slow RAM?

        • Because if the thing is installed in place of a DRAM so it would need to function as DRAM, I have doubts whether the motherboard would be able to correctly identify it as "disk" something that is installed into a DRAM slot.
        • Because you need software designed to recognize and treat it as such to take advantage of the fact that it's persistent.

          • So you need the memory controller and its initialisation to see that it's Optane and act accordingly, and then when that's done, have OS support (i.e. not see it as ordinary DRAM, but allow it to be read and written to via the memory controller as if it were DRAM). Given both, there's hardly a problem.

    • Re:400w (Score:5, Informative)

      by TechyImmigrant ( 175943 ) on Tuesday April 02, 2019 @01:43PM (#58373174) Homepage Journal

      This new top-end CPU comes in at 400w and requires water cooling. Who the hell wants water cooling in the data center!? This just seems like a massive disaster waiting to happen. Also, they're no longer socketed, but instead soldered directly to the motherboard, just like SoCs.

      Mainframes used to use water cooling. See old IBMs.

      Power RF uses water cooling.

      Power machinery uses water cooling.

      Internal combustion engines use water cooling.

      Do it right and it's reliable.

      • Re: (Score:2, Informative)

        Or use mineral oil, like old Crays did. Mineral oil does not conduct electricity.

      • Do it right and it's reliable.

        That's the trick though, isn't it? Everyone knows that nuclear can be done right. TEPCO proves that people will NOT do it right. Same with water cooling or any other project a person might do.

        Of course, the knee-jerk, programmed response is to prohibit doing any such thing rather than setting it up so that it has to be done correctly. Short sighted and stupid is how they like us.

    • by enjar ( 249223 )
      We use rear door heat exchangers in our data centers, we have found that they work quite well vs. using air conditioning.
    • If an pipe leaks you full rack may just meltdown. Maybe the power will cut out after your 20K MB is wasted but before your storage is damaged.

    • Who the hell wants water cooling in the data center!?

      This is not only common in the past but there are several current data centre products on the market for water cooling.

  • Persistent Memory (Score:2, Insightful)

    by Anonymous Coward

    Just what you want... persistent memory... so your keys are easier to steal and the government can see what you were doing when they broke in and stole all of your computers.

  • Optane write-cycles (Score:1, Interesting)

    by Anonymous Coward

    Unless this Optane is very different from the Optane that Intel has been selling as a hard disk cache, the number of writes per bit before failure falls very short of medium-grade SSDs. That's okay for a lightly used consumer laptop but will soon fail as a disk cache in a heavily used system. Main-memory for a server is even worse - they'll run through the expected life in months, if not weeks.

    • Not sure where you read that, but that is completely wrong.

      • Not sure where you read that, but that is completely wrong.

        Got a source? Because a general google search shows up as endurance falling short of traditional SSDs.

        • https://www.tomshardware.co.uk... [tomshardware.co.uk]

          And a quick comparison:
          https://www.samsung.com/semico... [samsung.com] - 1200TBW
          vs
          https://www.intel.com/content/... [intel.com] - 17,520TBW

          • One more:
            https://www.anandtech.com/show... [anandtech.com]

            Write endurance for the 983 ZET also falls short of the bar set by Intel's Optane SSDs, with 8.5 DWPD for the 480GB 983 ZET and 10 DWPD for the 960 GB model, while the Optane SSD debuted with a 30 DWPD rating that has since been increased to 60 DWPD.

            And that is comparing Samsung's latest (released last month) SSD specifically designed to try and compete with Optane. In some respects it does good, and in others not so much. It's latency is 30us vs optane's 10us, and its write IOPS is pretty poor at 75K IOPS, vs 550k IOPS. But if all you do a read, and you read in a heavily loaded server, then it does well with 750k IOPS vs Optane's 575k IOPS. That isn't really a likely scenario for most workloads, and its w

    • There's a reason Micron bowed out of the relationship, neglected to release any 1st generation products, (and looks to not be releasing any 2nd generation products), and has instead doubled down on their investment into traditional DRAM design and manufacturing. 3D Xpoint (Optane) does not meet any of the specs they've claimed it would (even after revising them all, unfavorably, by multiple orders or magnitude). It needs several more years in the oven, and even then it may not pan out.

    • Main-memory for a server is even worse - they'll run through the expected life in months, if not weeks.

      If you bothered to read TFA, the endurance is expected to last 5 years when being driven at maximum possible throughput the whole time -- and if a given stick fails within that 5 years, you get warranty replacement.

  • Except of course the 1.4Phz clock, 200 threads, and RGB LEDs on the die cover.

  • BGA for $10k CPU?! (Score:2, Informative)

    by pope1 ( 40057 )

    From here: https://www.tomshardware.com/reviews/intel-cascade-lake-xeon-optane,6061.html

    "Instead of being socketed processors, the 9200-series processors come in a BGA (Ball Grid Array) package that is soldered directly to the host motherboard via a 5903-ball interface."

    Who is excited to attempt RMA'ing a $10k to $20k Motherboard?

    Intel has been on this train for a while now:

    https://phys.org/news/2012-11-intel-broadwell-cpu-swap-outs.html
    https://www.techpowerup.com/186846/intel-roadmap-outlines-lga-to-bga-tr

    • Right now there are like 11 super micro boards for 1 socket LGA 3647.

      and like 20+ different 2 sockets boards.

      Most of the difference is to fit different case sizes and different io choices.

      Also only 40 pci-e lanes per socket.

      With no socket you are going to end up you can't get X cpu with X board or say your big case board as a min cpu that is over kill for your needs.

      AMD will crush Intel again.

       

    • 2012 and 2013 articles?

      Those journalist's unfounded claims didn't pan out did they?

    • Who is excited to attempt RMA'ing a $10k to $20k Motherboard?

      No one is excited. People who are buying $10k to $20k motherboards have SLAs that make the entire process incredibly boring and uneventful complete with spare part in place instantly so you don't even need to care about if or when your RMA goes through.

  • Will it boot MS-DOS 5.0?
  • I think we are in a new era. 56 Cores means that the next gen will be >100 cores which means we can be within striking distance of 1000 cores within 10 years.
      Maybe ?
    Question to Slashdot: Until what year did humanity have more than 56 cores/CPUs ? 1959, 60, 61 ? I wonder...

  • Persistent malware!

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