EMC XtremSF

1. EMC XtremSF Performance. Flexibility. Efficiency.

2. The Performance Gap Hard disk drive performancehas stagnated Xeon E7-4800 CPU performance increases 100xevery decade I/OGap Pentium Pro Hard Disk Drive IOPS/Spindle 1995 2012

3. An Order Of Magnitude Better Performance 2000 IOPS/GB 4000X FASTER THAN HARD DRIVES 150 IOPS/GB 0.5 IOPS/GB Hard Disk Drive Array Flash PCIe Flash

4. Introducing EMC XtremSF • PCIe flash card deployed in the server to dramatically improve application performance by reducing latency and accelerating throughput • Use cases: • Local storage device for read and write acceleration • Caching device for read acceleration with data protection 550GBeMLC 700GBeMLC 1.4TBeMLC 2.2TBeMLC 350GBSLC 700GBSLC

5. XtremSF Advantages Performance Flexibility Efficiency Dramatic improvements in application latency and throughput—up to 1.13 million IOPS Broad range of eMLC and SLC capacities for use as local storage or with XtremSW Cache Best TCO—lowest overhead, highest performance, lowest power consumption, best density

6. Best-in-Class Performance and Capacity • Industry’s best eMLC performance—340KIOPS and 30µs latency • Industry’s highest storage capacity in smallest footprint ACHIEVE MEMORY-CLASS PERFORMANCE WITHOUT ADDITIONAL MEMORY FOOTPRINT

7. Architectural Advantages PCIe X8 Architecture For Superior Bandwidth Advanced Garbage Collection Reduces Spikes Optimized For Real World, 4K & 8K Workloads Range Of Capacitiesin eMLC& SLC Flash Offload Engine Reduces CPU Consumption

8. High Performance Use Cases WEB 2.0 • INDEXES VDI ANALYTICS HPC • REPORTING HI-FREQ TRADING BATCH PROCESSING DATA MODELING • BACKGROUND TASKS DATABASE DUMPS OLTP

9. Application Testing Results 58.2K 30X BETTER IOPS PERFORMANCE 1.9K THAN LOCAL DISK Solution architecture consists of Microsoft SQL Server 2012 SP1, Microsoft Windows 2008 R2SP1, Cisco UCS C-460 M2rackmount server with 512 GB of memory and ten 600 GB SAS drives, and one EMC XtremSF 2200. Testing employed a standard TPC-E like OLTP workload with an 800 GB database. No tuning of SQL database.

10. Application Testing Results 115K 27X BETTER PERFORMANCE THAN LOCAL DISK IOPS 115,000 Transactions Per Minute 4.3K Solution architecture consists of Oracle 11gR2, RedHat Enterprise Linux 5.7, Cisco UCS C-460 M2rackmount server with 512 GB of memory and ten 600 GB SAS drives, and EMC XtremSF 2200. Testing employed a standard TPC-E like OLTP workload with a 1.2 TB database. No tuning of Oracle database.

11. Server Flash Deployments Use XtremSF As Local Storage For: • Read and write acceleration • Temporary data • Large working sets Use XtremSF With XtremSW Cache For: • Read acceleration • Mission-critical data • Small working sets • Data protection Cache Local Storage Temp DB Tier 1 Data

12. EMC XtremSF vs. Fusion-ioioDrive* • Better performance • 70% more read bandwidth • 40% more random 4K read IOPS • 40% more random 4K write IOPS • 2X more random 4K mixed IOPS • 2X more random 8K mixed IOPS • 20% lower 4K read latency • 40% lower 8K latency • Better density • 2.2TBHHHL card vs. 1.2TBHHHL card & 2.4TBFHHL card • Better efficiency • 50% less CPU utilization * Comparing EMC’s highest-capacity HHHL card (2.2TB) vs. Fusion-io’s (1.2TB)

13. VMware vSphere 5.5 Flash Read Cache Key Features • Hypervisor-based software-defined flash storage tier solution. • Aggregates local flash devices to provide a clustered flash resource for VM and vSphere hosts consumption (Virtual Flash Host Swap Cache) • Leverages local flash devices as a cache • Integrated with vCenter, HA, DRS, vMotion • Scale-Out Storage Capability: 32 nodes • Requires Enterprise Plus license vSphere Flash Read Cache vSphere Flash Read Cache vSphere Flash Read Cache vSphere Flash Read Cache Infrastructure vSphere SSD SSD SSD SSD SSD Flash as a New Storage Tier in vSphere