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HP StoreEasy Storage File and application storage made easy

HP StoreEasy Storage File and application storage made easy. Product Family overview. Midsize & large enterprises 10-100s TBs based on SAN array capacity StoreEasy 3830, 3830sb. Scale from SMB to Enterprise. Midsize enterprises 10-400TB StoreEasy 5530. SMB & branch offices 5-50TB

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HP StoreEasy Storage File and application storage made easy

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  1. HP StoreEasy StorageFile and application storage made easy

  2. Product Family overview Midsize & large enterprises 10-100s TBs based on SAN array capacity StoreEasy 3830, 3830sb Scale from SMB to Enterprise Midsize enterprises 10-400TB StoreEasy 5530 SMB & branch offices 5-50TB StoreEasy 1430, 1530, 1630, 1830 HP StoreEasy 3000 Gateway Storage HP StoreEasy 5000 Storage HP StoreEasy 1000 Storage

  3. Efficient: Save money and time • Workload • Hundreds to thousands of concurrent file users plus application workloads Capacity Sub-file deduplication for 50-60% average savings Management Centralized and simplified management experience for IT generalists Data Manage data based on it’s business value

  4. Capacity efficiency with deduplication Deduplication Evaluation Tool provides expected savings for local and remote file shares Home Folders 30% Savings* Variable sized chunks (32-128KB) for high dedup ratios Can process ~20 MB of data / sec Integrates with Branch Cache for faster downloads General File Shares Software Dev. Shares 64% Savings* 67% Savings* Virtual Hard Disk Library 82% Savings* * Capacity savings by Microsoft IT

  5. File services for block arrays + Efficient, Secure and Highly Available file services for SAN arrays HP StoreEasy Storage HP XP Storage HP EVA Storage HP MSA Storage

  6. MSA Family Overview

  7. HP MSA Family Spans the Entry Storage Spectrum Building on the Number 1 Position in Entry-Level External Storage NEW Over 400,000 users already enjoy MSA’s unmatched affordability MSA 2040 Budget OptimizedStarting below $6K Performance OptimizedSSD Support 8Gb/16Gb FC, 1/10GbE iSCSI 6/12Gb SAS Host Interconnects 80,000+ IOPS MSA 2000 (formerly HP P2000 G3)

  8. New: HP MSA 2040 Over 400,000 users already enjoy MSA’s unmatched affordability • Simple: Worry-free shared storage for HP Server customers • SMB or HP Converged System building block with ProLiant-familiar management • Fast: Up to 4X faster performance than P2000 G3 and Competitive Entry Arrays • 4GB cache per controller, SSD support and architecture optimized for performance • Futureproof: 2x Host Interconnect bandwidth; first Entry Array w/16Gb FC or 12Gb SAS • Single 4-port Converged SAN Controller supports Fibre Channel/iSCSI • Continues MSA Family’s unique data-in-place upgrades, Scalable to 199 SFF HDDs

  9. MSA 2040 Technical Details

  10. SFF Chassis – 24 Drives LFF Chassis – 12 Drives Disk Enclosures D2700 – 25 SFF Drives MSA 2040 – 12 LFF Drives HP MSA 2040 Configurations – At a Glance Converged SAN Controller - FC, iSCSI • MSA 2040 Key Features: • 2X to 4X performance increase over currently shipping Entry SAN arrays • 4-Ports and 4GB Cache/controller • SSD Support w/integrated Wear Gauge • Newest host interface choices: • 6Gb/12Gb SAS • 4Gb/8Gb FC or 8Gb/16Gb FC • 1GbEor 10GbE iSCSI • 6Gb SAS Backend (to HDDs) • Added support for up to 7 Disk Enclosures (both SFF and/or LFF) • Up to 199 SFF or 96 LFF drives • Continue MSA’s upgrade heritage with Data-in-Place Upgrades from MSA 2000 G3 • Continue rich OS/Hypervisor integration – MS, VMware and others • Volume Copy, and Remote/Local Replication • Rich embedded and host-based management tools: CLI, Web UI, SMI-S 8/16Gb FC 1GbE/10GbE iSCSI MSA 2040 SAS Controller 6/12Gb SAS 6Gb/12Gb SAS Chassis Options Drive Options 199 SFF Drives • SSD • SAS • MDL SAS 96 LFF Drives

  11. SFP Modules - 8Gb FC - 16Gb FC - 1GbE or 10GbE iSCSI MSA 2040 Converged SAN Controller 4 Port Converged SAN Controller - SFP modules define SAN interface personality LED Indicators SAS Expansion Port USB Management Port Network Management Port

  12. MSA 2040 SAS Controller SAS Controller Detail LED Indicators Four 6Gb/12Gb SAS Ports SAS Expansion Port USB Management Port Network Management Port

  13. HP MSA 2040 Storage Arrays Building on the MSA P2000 heritage – Taking MSA to the next level HP MSA 2040 LFF Array HP MSA 2040 SFF Array • More HDDs in less space with new SFF HDDs • 2U with 24 SFF HDD bays • Leverage the latest modern LFF HDDs • 2U with 12 LFF HDD bays • MSA 2040 Controller Architecture • Two ControllersConverged SAN (FC/iSCSI) and SAS • 4 GB cache and 4-Ports/controller std • Support for SSDs with integratedlifecycle management • MSA Architecture Attributes • Dual Controller Active-Active design • Redundant data paths • Dual power supplies • 6Gb SAS internal infrastructure to HDDs

  14. Unmatched Scalability with the HP MSA 2040 Mix and Match LFF and/or SFF Disk Enclosure MSA 2040 SFF Disk Enclosure MSA 2040 LFF Disk Enclosure • 2U with 12 LFF HDD bays • 2U with 25 SFF HDD bays • Scale up as you grow: • up to 7 Disk Enclosures • Mix LFF and/or SFF Disk Enclosures • Up to 96 LFF HDDs (288TB with 3TB LFF drives) • Up to 199 SFF HDDs (199TB with 1TB SFF drives)

  15. Operating Systems Supported • Microsoft Windows Server 2012 • Microsoft Windows Server 2008 • Microsoft Hyper-V • HP-UX • VMware 4.1 and 5.0 • Red Hat Linux (32/64) • SuSE SLES (32/64) • Other OS’s in qualification process. Check SPOCK for latest OS Support details http://h20272.www2.hp.com/ - requires free registration/login

  16. MSA 2040 Performance

  17. MSA 2040 Controller Architecture – Built for Speed Performance Changes vs. MSA 2000 MSA Storage • MSA 2040 delivers >2x to 4x performance over MSA 2000 How? • Doubled the host connect ports to 4 ports/controller • Leverage latest SAN technologies – 16Gb FC, 10 GbE iSCSI • Wider/faster internal busses, Faster I/O Storage Controller • RAID engine enhancements, Faster memory interface – DDR3 • More cache – 4GB per controller Architecture maximizes investment $ and turns them into IOPS • MSA 2040 SSD support becomes useable…not just a checkbox • SSDs won’t solve all problems. MSA 2040 makes sure you will get what you pay for • Boosts Random I/O Performance – key for virtualization and databases • Increased Sequential Throughput with reduced maximum latency • Crucial for high sequential workloads like Media and Entertainment

  18. Where to Deploy SSDs - Understanding the Workloads • Applications which require large spindle counts • High Random I/O requirements • Smaller foot print • Lower TCO • Virtualized Environments • Use SSD tier to support demands of high random workloads (OS boot, file serving…) • Use HDD tier for lower performance mixed workload, dedicated LUN and archive • Databases, OLTP • Use SSD tier for logs and tempDB (high transaction workload) • Use HDD tier for less frequently accessed database tables

  19. Best Practices: Sizing SSDs for Best Performance/Value • SSD Background • SSD cost 10x more $/GB than HDD but 10x less in $/IOps • SDD required for top random performance • Determine SSD pool capacity based on the size of the random workload data set • HDDs are fine for sequential workloads • Number of SSDs is not limited by array SSD/System Performance • MSA 2040 Best Practices • Min 4 SSD, 1 mirrored pair per controller • Size SSD capacity to application(s) • Use parity RAID for larger deployments

  20. Understanding and designing Storage performance

  21. HP 3PAR StoreServ 7000 in the lead For more details read the reports on: http://www.storageperformance.org/results/benchmark_results_spc1 Performance AND latency matter

  22. XP P9500 performance relevant components Size for less than 50% resource utilization Peak Load (~95% load) Recommended average load (~50% load) CHA pair 125k [IOPS] CHA pair 250k [IOPS] MPPK pair 125k [IOPS] MPPK pair 250k [IOPS] DKA pair 125k [IOPS] DKA pair 250k [IOPS] In this example the Average load = 20%Peak load = 96%

  23. Keep spinning disk utilisation below 50% Response Time of different drive technologies • Rule of thumb • Spinning disks should operate below50% utilization • FMD & SSD may operate up to95% utilization

  24. XP P9500 performance relevant components A 40% write ratio will cut some of the number in half Peak Load (~95% load) Recommended average load (~50% load) Recommended average load (~50% load, 40% writes, R1) CHA pair 125k [IOPS] CHA pair 250k [IOPS] CHA pair 125k [IOPS] MPPK pair 125k [IOPS] MPPK pair 250k [IOPS] MPPK pair 60k [IOPS] DKA pair 125k [IOPS] DKA pair 250k [IOPS] DKA pair 60k [IOPS]

  25. XP P9500 performance relevant components RAID-5/6 will further reduce the performance for random writes Peak Load (~95% load, 0% writes) Recommended average load (~50% load, 0% writes) Recommended average load (~50% load, 40% writes, R1) Recommended average load (~50% load, 40% writes, R5/6) CHA pair 125k [IOPS] CHA pair 250k [IOPS] CHA pair 125k [IOPS] CHA pair 125k [IOPS] MPPK pair 125k [IOPS] MPPK pair 250k [IOPS] MPPK pair 60k [IOPS] MPPK pair 30k [IOPS] DKA pair 125k [IOPS] DKA pair 250k [IOPS] DKA pair 60k [IOPS] DKA pair 30k [IOPS]

  26. Adaptive Optimization performance troubleshooting

  27. HP 3PAR Dynamic and Adaptive Optimization Manual or Automatic Tiering 3PAR Adaptive Optimization 3PAR Dynamic Optimization Tier 0 CPG 1 CPG A CPG B CPG 2 Tier 1 CPG C CPG 3 Tier 2 LUN Movement between Tiers Sub-LUN Block Movements between Tiers based on Policies - Region

  28. A New Optimization Strategy for SSDs SSD only • Flash Price decline has enabled SSD as a viable storage tier • … but data placement is difficult on a per LUN basis Non-optimized approach FC only NL only Non-Tiered Volumes/LUNs Tier 0 SSD • A new way of autonomic data placement and cost/performance optimization is required:HP 3PAR Adaptive Optimization Tier 1 FC Optimized approach for leveraging SSDs Tier 2 NL Multi-Tiered Volumes/LUNs

  29. HP 3PAR Thin Technologies Leadership 3PAR Thin Technologies come with virtually no performance impact

  30. HP 3PAR Priority Optimization – QoS

  31. HP 3PAR Priority Optimization • Allows customers to ensure quality of service and better utilize storage resources • Enables setting maximum performance threshold for front-end IOPS and/or Bandwidth • Configured via HP 3PAR Autonomic Groups • Can be enabled, disabled or modified in real time from GUI or CLI • No host agents are required • No physical partitioning of resources within the storage array is required • Supports multi-tenant environments

  32. HP 3PAR Priority Optimization Delivering multi-tenant storage with guaranteed SLA’s Appl 1 10’000 IOPS • Assure tenant/application level QoS by assigning LUN performance caps in IOPS and/or bandwidth (MB/s) • Protect your mission critical applications by limiting non-critical apps • Available for all StoreServ running 3PAR OS ≥3.1.2 MU2 Appl 2 10’000 IOPS TENANT #1 20’000 IOPS 150% over-committed Appl 1 10’000 IOPS HP 3PAR StoreServ TENANT #2 50’000 IOPS No over-commitment Appl 4 50’000 IOPS PriorityOptimization

  33. Priority Optimization / QoS QoS enabled 10 10’000 How does it work? 8’000 8 • Example • Volume red is critical and is being under-serviced • Volume blueis well behaved • Volume greenis taking more resources than it should and starving red 6 6’000 IOPS 4’000 4 2’000 2 Time Enabling QoS • By throttling the VV-set of volume green to 4’000 IOPS resources for red are freed-up IO Latency (ms) Time

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