HITACHI DATA SYSTEMS USER GORUP CONFERENCE 2013 MAINFRAME / ZOS WALTER AMSLER, SENIOR DIRECTOR JANUARY 23, 2013

HITACHI DATA SYSTEMS USER HITACHI GROUP DATA CONFERENCE SYSTEMS 2013 USER GORUP CONFERENCE 2013 MAINFRAME / ZOS WALTER AMSLER, SENIOR DIRECTOR JANUARY 23, 2013

AGENDA Hitachi Mainframe Strategy Compatibility Value Add Server and Solutions Selected Roadmap Items Hitachi Dynamic Tiering Enhancements for Mainframe Virtual Tape Library Summary

MAINFRAME LANDSCAPE HITACHI STRATEGY Dealing with todays reality and investing in the future Middleware and Application Level Solution Level Storage Functions Operating Systems Hardware Interface IMS, CICS, DB2, MQSeries etc. IBM Portfolio: RCMF Hyperswap Manager GDPS Hitachi Portfolio: BC Manager, HUR, FDM, FC UVM, MF HDP, MF HDT Concurrent Copy, Flashcopy, Metro Mirror (PPRC), Global Copy (PPRC-XD), z/os Global Mirror (XRC) zos + DFSMSdfp, Linux for System z, zvm, zvse FICON, zhpf, FCP, MA, PAV, HyperPAV Hitachi Strategy: Development Focus on Hitachi added Value Solutions IBM Compatibility (without Host SW) IBM Compatibility (without Host SW) IBM Compatibility (without Host SW) Storage Subsystems IBM Storage Hitachi Storage Hitachi Storage

Essential Compatibility Hitachi Value Add Hitachi Value Add Essential Compatibility VTL and Hitachi UCP Disk Backup with Dedupe HDS SW Integration Legacy WKLD Migration EXPANDING SCOPE OF MAINFRAME STRATEGY 3 DIMENSIONS; HITACHI STORAGE, SERVERS AND SOLUTIONS Leverage Technology to improve Productivity, reduce TCO and improve ROA Systems Management Software Mainframe Strategy Mainframe Strategy

MAINTAINING IBM COMPATIBILITY 1989 HDS was formed and started PCM business Mainframe and Storage 2005.5 (press releases) Hitachi, Ltd., Hitachi Data Systems and IBM Extend Interoperability for Storage Systems, Servers and Software 2008.9 (press releases) Hitachi, Ltd. and Hitachi Data Systems Complete Storage Compatibility and Interoperability Testing for IBM Mainframe Environments (z10, z9 etc.) 2008.12 (press releases) Hitachi, Ltd. and Hitachi Data Systems completed compatibility and interoperability testing in the IBM System z10 environment in support of High Performance FICON for System z (zhpf) 2009.1 (press releases) Hitachi, Ltd. and Hitachi Data Systems Complete Storage Compatibility and Interoperability Testing for IBM Geographically Dispersed Parallel Sysplex (GDPS ) 2011.5: Participation in Early Support Program for new z/os Releases 2012.6: Renewed compatibility and interoperability testing for VSP Basic Connectivity Testing in Poughkeepsie with z10, z196 and zec12 GDPS 3.9 and Hitachi Universal Replicator 3DC Testing in Montpellier Compatibility vs Time to Market

IBM CERTIFICATION LETTERS

HITACHI ADDED VALUE FOR MAINFRAME - Hitachi brings storage virtualization technology to the mainframe space - HDP for Mainframe provides FCSE/DVE/EAV compatibility - HDP is technology foundation for the next wave of mainframe virtualization -Universal Volume Manager -Utilize existing assets or low-cost external storage -Dynamic Provisioning -I/O load balancing -Flexible volume allocation -Better space efficiency EAV DVE EAV DVE EAV DVE HDP Pool FCSE EAV DVE -Automatic Dynamic Tiering -Effective use of highspeed SSD EAV DVE EAV DVE SSD EAV DVE HDP Pool + HDT SAS EAV DVE SATA FCSE UVM EAV DVE UVM SAS UVM

APPLYING HITACHI TECHNOLOGY TO IT CHALLENGES Business Demands, Complexity, Increased Risks, Staffing People Technology Differentiators Management Systems & Benefits Process Management Simplification Reduced Cost Improved Productivity Improved RTO/RPO Consolidation, High Availability and Security USP V and VSP designed and built for Zero Downtime operation Highest Performance and Scalability Hardware-based Encryption for Data at Rest Lower TCO Increase ROA Leverage Hitachi Storage Virtualization to attach lower Cost External Storage Deployment of Virtual Tape Library Solutions for long term Archival on Disk instead of Tape Backup In-System Replication Technology such as ShadowImage and Flashcopy provide Disk-to-Disk backup to minimize backup Window Disaster Recovery Hitachi Universal Replicator for 3-Data Center DR Cascading and/or Multi-Target Topologies Basic Hyperswap No Impact on Host Resources

REMOTE REPLICATION FOR DISASTER RECOVERY 2 DATA CENTERS Synchronous limited by distance Achieving RPO of Zero and Fast Recovery Time With Automation Solutions (IBM s GDPS or HDS Basic Hyperswap) able to achieve RTO of almost Zero Primary Site In-Region Recovery Site 2DC Synchronous P-VOL TrueCopy Sync S-VOL Asynchronous no distance limitations No Host Impact on Response Times Offloads MIPS and reduces cost by replacing host based replication methods Data Movement Overhead is on Out-Of Region Array (Pull Technology) Journaling maintains update sequence Integrity RPO measured in seconds, RTO in minutes (and is application dependent) Primary Site Out-of Region Remote Site 2DC Hitachi Universal Replicator P-VOL S-VOL Asynchronous Asynchronous JNL JNL

REMOTE REPLICATION FOR DISASTER RECOVERY 3 DATA CENTERS Combination of Synchronous and Asynchronous Replication Technologies Leveraging HUR Journaling alleviates impact of Link Failures and Cache limitations No Data loss upon loss of Primary Site HUR Cascade Data volumes in Intermediate Site shared as TCs Secondary and HUR Primary Volumes 3DC Cascade HUR Multitarget Primary Site Intermediate Site Remote Site P-VOL TrueCopy Sync GDPS S-VOL P-VOL Provides Delta Resynchronization upon Primary Site Failure JNL HUR Asynchronous BCM S-VOL Can be combined with Automation Solutions e.g. TPC-R Basic Hyperswap, GDPS etc. Primary Site Intermediate Site Remote Site JNL 3DC Multitarget P-VOL JNL Hitachi Universal Replicator Asynchronous S-VOL JNL TrueCopy Sync GDPS S-VOL JNL BCM Delta Resync

REMOTE REPLICATION FOR DISASTER RECOVERY 3 DATA CENTERS BCM Combination of Synchronous and Asynchronous Replication Technologies Leveraging HUR Journaling alleviates impact of Link Failures and Cache limitations No Data loss upon loss of Primary Site HUR Cascade Data volumes in Intermediate Site shared as TCs Secondary and HUR Primary Volumes 3DC Cascade HUR Multitarget Primary Site Intermediate Site Remote Site P-VOL TrueCopy Sync GDPS S-VOL P-VOL Provides Delta Resynchronization upon Primary Site Failure JNL HUR Asynchronous BCM S-VOL Can be combined with Automation Solutions e.g. TPC-R Basic Hyperswap, GDPS etc. Primary Site Intermediate Site Remote Site JNL 3DC Multitarget P-VOL JNL Hitachi Universal Replicator Asynchronous S-VOL JNL HUR Asynchronous S-VOL JNL Delta Resync

HITACHI DYNAMIC TIERING AT THE PAGE LEVEL A MORE EFFICIENT APPROACH One pool of pages now spans multiple tiers of storage Volume Data is written to the highest performance tier first Least Referenced POOL A EFD/Flash TIER 0 SAS TIER 1 Less active volume pages migrate to lower tiers Pages can be promoted based on Heat Index Volumes no longer have to be moved to optimize performance Volumes can span across tiers on external storage Least Referenced SATA TIER 2

IOPS HDT - STORAGE RESOURCES AS TIERS RELOCATING DATA BASED ON BACKEND IO LOAD Tier 1 Each DPVOL is analyzed and relocated in turn Page IO Weights & Tier Ranges Page relocations IOPS break point where pages higher than this level are relocated to T1 Tier 2 Cycle 0 IOPS break point where pages destined for T2 and T3 is determined Page Tier 3 Monitor physical IO to pages

IOPH HDT TIER ALLOCATION POLICIES Tiering Policies - Default ALL Level 1 = Tier1 Level 2 = Tier1+Tier2 Level 3 = Tier2 Level 4 = Tier2+Tier3 Level 5 = Tier3 ALL LEVEL1 LEVEL2 Tier1 LEVEL3 LEVEL4 Tier2 LEVEL5 Tier3 New Tiering Policies based on a maximum % of the used pages in a DPVOL that can be placed in a tier (Level 6-32) 600GB VOL 200GB data Flexible Tier Policy: T1 = 10-20% T2 = 40-90% T3 = 0-30% 25GB 145GB 30GB Tier1 Tier2 Tier3 Limit the amount a DPVOL can use per tier

DFSMS STORAGE GROUPS AND MF HDT Tiered Storage can be implemented with DFSMS Storage Groups DFSMS Attributes such as Data Class and Storage Class are used to direct allocation to the right Tier Subsystem SG1 SG2 SG3 With MF HDP may combine all SG s into one and use HDT to move data to the right Tier automatically based on Workload performance SSD Tier 0 SAS Tier 1 NL-SAS Tier 2 HDT Storage Group Subsystem ONE SG HDP Volumes are managed at page-level

INTRODUCING TIER POLICY MANAGEMENT HITACHI TIERED STORAGE MANAGER FOR MAINFRAME Assign Tiering Policies for Volumes/Storage Groups in V6 Includes Monitoring and reporting capabilities Later will be able to control Tiering Policies at Dataset Level ISPF Batch CLI HTsM for Mainframe CLI CCW CCW HTsM for Mainframe VOL1 VOL5 CCW VOL2 VOL3 VOL6 CCW VOL4 VOL7 VSP DS1 DS2 DS5 DS3 DS6 DS4 DS7 VSP

VIRTUAL TAPE SOLUTION - HITACHI CB2000 Prod 1 DR Site 8 x 8Gb FICON Prod 2 zseries Mainframe 8 x 8Gb FICON Single VSP/MVT at DR Site 8 x 8Gb FICON Prod 2 8 x 8Gb FICON Replication using IP Replication HDS VSP HDS-Luminex MVTs

HITACHI MAINFRAME ADVANTAGE IBM Compatibility Advantage Hardware Interface compatibility minimizes Risk no Host SW required Interoperability Testing with IBM ensures highest quality Intellectual Property Agreements enables continuous support Hitachi Added Value Advantage Hitachi IP Leadership in Open Systems Storage available to Mainframe More Customer Choices to meet increasing Business Requirements Automation moving into Storage Subsystem improves productivity and Quality of Service Performance Advantage Technology Innovation and Hardware Architecture improvements as strong Foundation Lower Response Time and Higher Throughput enhances Storage Utility Value Larger Subsystems lowers Capital Expenditure

QUESTIONS AND DISCUSSION

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