Yesterday Datacenter, hardware, individual servers, and VMs Slow, expensive innovation Siloed infrastructure and operations Development constraints Tactical and reactive thinking Today and tomorrow People, cloud, apps, service-focused Standardized, automated processes and configurations Industry-standard, low-cost hardware Fast, cost-effective innovation, developer empowerment Holistic, strategic thinking Bringing the cloud to you What if you could have the control of the datacenter and the power of the cloud?

Reduced developer chaos and shadow IT Simplified, abstracted experience Added consistency to modern development One portal, one user experience Write once, deploy anywhere Azure

Microsoft Private Cloud (on premises | hosted) Microsoft Private Cloud Microsoft Azure (on premises | hosted) MicrosoftMicrosoft Private Azure StackCloud Microsoft Azure (on(on(on- -premisespremisespremises/hosted) || hosted)hosted) App innovation

MicrosoftMicrosoft Private Azure StackCloud Microsoft Azure (on(on -premisespremises/hosted) | hosted) Cloud-optimized application platform

Cloud-consistent service delivery

Cloud-inspired hybrid infrastructure

MicrosoftMicrosoft Private Azure StackCloud (on(on -premisespremises/hosted) | hosted)

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Server Roles/Features

GUI Shell

Windows/ Minimal Server Full Server WindowsNT Interface

Server Core Server Core

Windows NT to Windows Server 2008 Windows Server 2012 Windows Server and and 2003 Windows Server 2008 R2 Windows Server 2012 R2 ......

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. Basic Client . Experience .

. Server with Local Admin Tools

Server Core Nano Server ......

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...... Important Critical Bulletins Number of Bulletins 25 23 Reboots 30 12 11 26 20 25 23 10

8 20 15 6 6 15 10 8 9 4 3 10 5 2 5 2 0

0 0 Nano Server Server Core Nano Server Server Core Full Server Nano Server Server Core Full Server Full Server Drivers loaded Services running Ports open 120 50 46 35 31 45 30 100 98 40

35 25 80 73 30 20 60 25 22 20 15 12 40 15 10 10 20 5 5

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Nano Server Server Core Nano Server Server Core Nano Server Server Core Process Count Boot IO (MB) Kernel memory in 30 300 use (MB) 255 26 160 25 250 139 21 140 20 200 120

150 100 15 150 80 61 10 100 60

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Nano Server Server Core Nano Server Server Core Nano Server Server Core Setup Time (sec) Disk Footprint (GB) VHD Size (GB) 350 6 7 300 6.3 300 6 5 4.84

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Nano Server Server Core Nano Server Server Core Nano Server Server Core . .

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Addressing storage challenges with StorSimple

Storage Today Microsoft Azure StorSimple

Primary Storage Manage Lower storage data growth costs

Archival Storage StorSimple

Disk-based

Simplify data Remote Replication Increase business protection and agility disaster recovery Tape backup and DR

Reduce storage costs by 40-60% iSCSI Internet Microsoft Azure

StorSimple Virtual Thin Instant Predictable Appliance

Location independent recovery from cloud snapshot Cloud Snapshots

Periodic VSS consistent cloud snapshots of production data Production Data Production Data

Datacenter-1 Datacenter-2

How Microsoft Azure Backup works ?

1. Sign up

2. Install agent

4. Back up encrypted data

5. Recover to the same or a different server System Center DPM Server Enterprises with System Center • Requirements  Retain backup data for 35 years  Eliminate the need of a secondary DPM server Role in the head office  Eliminate the Tape infrastructure in the Head office • Solutions  After UR5 , Azure offers 99 Years for LTR • Issues During the Deployment  Backup fails with 0x07F26,

• FIX/Workaround  Increase the scratch space for MARS to use 10 % instead 5 % •     • Solutions  Restore the existing data on tape to Disk using backup  Create DPM / MARS Protection to Azure  Use Offline Seeding tool to copy from the staging disk to the export disk  Send disk(s) to Azure • Requirements  Staging Location ( Data will be copied from DPM to Staging location)  Azure Publish Settings  Azure Powershell  Get-AzurePublishSettingsFile  Valid Azure ID  Azure Portal  Settings  Azure Storage account  Azure Portal  Storage  Azure Storage Container  Azure Portal  Storage  Container  Azure Storage Key  Azure Portal  Storage  “StorageName” Manage Access Keys Copy Primary Access Key • Requirements  Azure Import/Export Tool  BitLocker  Source Files (from step1)  Destination Disk 3.5 inch  Azure Storage Container Name (from step1)  Azure Portal  Storage  Container  Azure Storage Key (from step1) • Requirements  Azure import Job Name from step1  JRN File from step 2  Carrier information (Account number, Tracking Number)

Integration of WSB/DPM with Microsoft Azure Backup 5

Orchestrated Physical, Hyper-V & VMware VM Replication & Recovery 6 using Azure Site Recovery, between Hyper-V Guest Clustering for app- on-premises locations, or between on- 2 level HA, i.e. SQL Server AlwaysOn FCI premises & Microsoft Azure

Centralized backup with Data Protection Manager 4

1 Hyper-V Failover Simplified protection with Clustering for VM Windows Server Backup 3 Resilience Azure Site Recovery: Year So Far…

On-premises to On-premises protection GA January 2014

Microsoft Azure Site Recovery Azure Site Recovery: DR

Communication Channel Orchestration between on-premises Hyper-V Sites Replication channel: Hyper-V Replica, SQL Windows AlwaysOn Windows Server Server Primary Recovery Site Site Azure Site Recovery: Year So Far…

On-premises to On-premises protection GA July 2014

Microsoft Azure Site Recovery Azure Site Recovery: DR Download Scout Orchestration between

InMage InMage Scout Replication Scout on-premises VMware Sites channel: InMage Replication with InMage

Physical/ VMWare VMWare Primary Recovery Site Site Azure Site Recovery: Year So Far…

Protect to Azure GA October 2014

Microsoft Azure Site Recovery Azure Site Recovery: DR

Orchestration and Replication: Orchestration between Hyper-V Replica, SQL AlwaysOn on-premises and Microsoft Azure Windows Server

Primary Site Azure Site Recovery with SAN Replication

On-premises to On-premises protection Public Preview Nov 2014

Microsoft Azure Site Recovery Public Preview of Azure

Communication Channel Site Recovery with SAN Replication Support

Windows Windows Server Server SAN Replication

Primary Recovery Site Site VMAX EMC With Preview VNX & VNX/e NetApp With Preview FAS (8.2 C-MODE) HP With Preview 3PAR HDS In Development VSP Fujitsu In Development Eternus Dell In Development Compellent Huawei In Development OceanStor IBM In Development XIV Protect VMware VMs to Azure

Protect to Azure 2015

Microsoft Azure Site Recovery Use ASR and InMage

Orchestration and Replication: Scout to replicate physical InMage Scout

InMage servers and VMware Scout servers VMwareWndows / PhysicalServer

Primary Site Protect Single Hyper-V Server to Azure

Protect to Azure 2015

Microsoft Azure Site Recovery Use ASR to replicate

Orchestration and Replication: Hyper-V Server Virtual

Hyper-V Machines to Azure without Replica VMM HyperWndows-V Server

Primary Site Azure Site Recovery On-premises to Azure protection (Site-to-Azure)

Microsoft Azure Microsoft Azure Microsoft Azure Microsoft Azure Site Recovery Site Recovery Site Recovery Site Recovery

Orchestration Download Channel InMage Scout Orchestration Orchestration and Replication: and Replication: 2015 Hyper-V Replica, InMage Scout SQL AlwaysOn Orchestration InMage and InMage InMage Scout Scout Scout Replication Replication channel: channels: InMage Scout Primary Recovery Primary Recovery Primary Primary Hyper-V Replica, Site Site Site Site Site Site SQL AlwaysOn, VMware / VMware / Hyper-V Hyper-V VMware / Hyper-V SAN Physical Physical Physical Key features include:

Automated VM protection and replication No-impact recovery plan testing Orchestrated recovery when needed Remote health monitoring Customizable recovery plans Replicate to – and recover in – Azure Near zero RPO Minimal RTO – few minutes to hours Heterogeneous physical and virtual support