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IBM Edge 2016 Day 2 Tuesday Breakout Sessions
This week, I am in Las Vegas for [Edge 2016], IBM's Premiere IT Infrastructure conference of the year. Here is my recap of breakout sessions on Day 2.
Introducing IBM FlashSystem A9000 and A9000R: Grid Architecture Designed for the Hybrid Cloud
Tomer Carmeli, IBM Offering Manager for the A9000 and A9000R presented. Both models offer data-at-rest encryption, snapshots, remote mirroring, and data footprint reduction, assuming 5.26:1, a combination of pattern removal, data deduplication and hardware-assisted Real-time compression.
The A9000 is an 8U high pod that can fit into existing racks. It comes in 60TB, 150TB and 300TB effective capacity.
The A9000R includes its own 42U rack. The rack is organized as two to six "grid elements" combined with two InfiniBand switches. Grid elements come in 150TB and 300TB effective capacities, giving you up to a whopping 1.8 PB in a single rack!
Similar to the IBM XIV and IBM Spectrum Accelerate offerings, the A9000 and A9000R support Hyper-Scale features. Hyper-Scale Manager lets you manage up to 144 devices on a single pane of glass. Hyper-Scale Mobility lets you move volumes (LUNs) non-disruptively from one device to another.
Different data compresses or dedupes at different ratios. Your mileage may vary. Unless you are evaluating a JBOF (just a bunch of flash) device, there is a great difference between raw, usable, and effective capacity. Raw capacity can be calculated by the size of each chip, times the number of chips. Usable capacity factors out RAID, and any spare capacity set aside for RAID rebuild and garbage collection. Effective capacity indicates the amount of information that can be stored by taking advantage of data footprint reduction technologies, such as compression or data deduplication.
IBM offers three options:
Measured Estimate -- IBM has a set of data reduction estimator tools that can scan your existing data, and estimate your reduction ratio, within 5 percent accuracy.
Competitive Match -- If a competitor had run their own set of estimator tools, IBM might be able to match the reduction ratio, without repeating the analysis, by just reviewing the competitor results.
"Sight unseen" -- without analyzing your actual data, reduction ratio is determine by the type of data (DB2, Oracle, SQL server, etc.), based on experience with similar data at other data centers.
Both A9000 and A9000R models are published at 250 microsecond latency, about 30 times faster than traditional spinning disk, although some workloads actually can run even faster than that. Assuming 5.26:1 reduction, these sell for about $1.50 per effective GB.
Flash Primer - Ready to move from disk storage?
Patricia Crowell, IBM Worldwide FlashSystem Enablement manager, presented. She presented an interesting time line:
First Solid-State Drive (SSD)
First Flash card, such as for digital cameras
First USB stick
Flash used in specialized IT appliances
Flash for the enterprise - Microsoft and UCSD paper on SSD
In 2012, Microsoft Research and University of California San Diego published ["The Bleak Future of NAND Flash Memory"], 8 pages, by Laura M. Grupp, John D. Davis, and Steven Swanson. Here is an excerpt:
"The technology trends we have described put SSDs in an unusual position for a cutting-edge technology: SSDs will continue to improve by some metrics (notably density and cost per bit), but everything else about them is poised to get worse. This makes the future of SSDs cloudy: While the growing capacity of SSDs and high IOP rates will make them attractive in many applications, the reduction in performance that is necessary to increase capacity while keeping costs in check may make it difficult for SSDs to scale as a viable technology for some applications"
IBM disagreed with this bleak assessment, announced it was investing $1 billion US Dollars into this technology, acquired Texas Memory Systems, and has deployed flash throughout its product line. For the past three years, IBM has been the #1 vendor for Flash storage systems.
Patricia offered the following example. What would it take to run 20 million IOPS? Here's a comparison:
Disk systems 15K rpm
Disk systems 7200 rpm
How to migrate from SONAS to IBM Spectrum Scale/ESS using Active File Manager
Paul Schena, IBM Senior IT Specialist, presented his experiences migrating existing SONAS data to new IBM Spectrum Scale or Elastic Storage Server (ESS) deployments. SONAS is going End-of-Service (EOS) on April 30, 2018, so it is never too soon to start this migration.
Paul gave two different methodologies. The first used Active File Management (AFM):
Setup an IBM Spectrum Scale "Gateway Node" in "Independent-Writer" AFM mode. Paul recommends 10 threads per gateway node.
Issue an AFM pre-fetch, disabling the "cache eviction" feature to ensure data remains. AFM transfers the directory structure, file data including sparse files, Access Control Lists (ACL), extended attributes.
Define your exports with no-root-squash and move your user mounts to the new systems
Once all the data is moved, convert the cache filesets to regular filesets
Define your quotas, export settings, ILM policies and rules
Decommision the SONAS
The second used Robocopy and Rsync, which may be required if there is high-latency, long-distance connection that prevents proper AFM connections:
Configure IBM Spectrum Scale CES servers to appropriate NFS and/or SMB protocols
Use Robocopy and/or Rsync as appropriate to move the data to the new system
Decommision the SONAS
Having it all: Hybrid Cloud Storage Services for Block, Power and Backup
Clint Parish, Director of Enterprise Solutions and Services for VSS, and Marc The'berge, Business Development for Supermicro, co-presented this session.
VSS offers POWER8-based Cloud services. They consider themselves "boutique" with POWER8 servers, able to run AIX, IBM i and Linux on POWER applications, but not at the scale and size of larger x86-based clouds like Amazon Web Services or Microsoft Azure.
For IBM i, they attach to IBM Storwize V7000. For AIX and Linux on POWER, they use IBM Storwize V7000 and/or Supermicro Hyperconverged Appliance, a pre-built system based on IBM Spectrum Accelerate.
Supermicro offers three "tee-shirt sizes", their small systems have six nodes, medium with 9 nodes, and large with 15 nodes. Unlike other Hyperconverged systems, the ones from Supermicro include a rack, and are pre-cabled with all the necessary Ethernet switches necessary to make a complete solution.
To offer backup services, VSS uses IBM Spectrum Protect with the Supermicro appliances.
In the evening, we were treated with a concert with Train, known for songs like "Meet Virginia", "Hey Soul Sister", "Calling all Angels" and "Drops of Jupiter". They played all of these, plus covered some songs by Led Zeppelin, Journey, Queen and Aerosmith,