deploying private cloud storage with dell servers and...

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YesterdayDatacenter, hardware, individual servers, and VMs

Slow, expensive innovation

Siloed infrastructure and operations

Development constraints

Tactical and reactive thinking

Today and tomorrowPeople, 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 youWhat 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

Microsoft Azure

Microsoft Private Cloud(on premises | hosted)

Microsoft Azure

Microsoft Private Cloud(on premises | hosted)

Microsoft Azure

Microsoft Private Cloud(on-premises | hosted)

Microsoft Azure Stack(on-premises | hosted)

Microsoft AzureMicrosoft AzureMicrosoft Private Cloud(on-premises/hosted)

Microsoft Azure Stack(on premises | hosted)

Microsoft AzureMicrosoft Private Cloud(on-premises/hosted)

Microsoft Azure Stack(on premises | hosted)

App innovation

Microsoft Private Cloud(on-premises/hosted)

Microsoft Azure Stack(on premises | hosted)

Cloud-consistent

service delivery

Cloud-optimized

application platform

Cloud-inspired

hybrid infrastructure

Windows NT to Windows Server

2003

Windows/WindowsNT

Server Roles/Features

Windows Server 2008and

Windows Server 2008 R2

Server Core

Full Server

Windows Server 2012and

Windows Server 2012 R2

Server Core

Minimal Server Interface

GUI Shell

Server Core

Server with Local Admin Tools

Basic Client Experience

Nano Server

0

5

10

15

20

25

Critical Bulletins

Nano Server Server Core Full Server

0

5

10

15

20

25

30

Important

Bulletins

Nano Server Server Core Full Server

0

2

4

6

8

10

12

Number of

Reboots

Nano Server Server Core

Full Server

23

8

2

9

23

26

6

11

3

0

5

10

15

20

25

30

35

Ports open

Nano Server Server Core

0

5

10

15

20

25

30

35

40

45

50

Services running

Nano Server Server Core

0

20

40

60

80

100

120

Drivers loaded

Nano Server Server Core

12

31

22

46

73

98

0

50

100

150

200

250

300

Boot IO (MB)

Nano Server Server Core

0

5

10

15

20

25

30

Process Count

Nano Server Server Core

0

20

40

60

80

100

120

140

160

Kernel memory in

use (MB)

Nano Server Server Core

26

21

61

139

150

255

0

50

100

150

200

250

300

350

Setup Time (sec)

Nano Server Server Core

0

1

2

3

4

5

6

Disk Footprint (GB)

Nano Server Server Core

0

1

2

3

4

5

6

7

VHD Size (GB)

Nano Server Server Core

.41

6.3

40

3004.84

.4

https://gallery.technet.microsoft.com/scriptcenter/Convert-WindowsImageps1-0fe23a8f

Addressing storage challenges with StorSimple

Primary Storage

Archival Storage

Disk-based Backup

Remote Replication

Tape backup and DR

Storage Today Microsoft Azure StorSimple

Manage

data growthLower storage

costs

Simplify data

protection and

disaster recovery

Increase business

agility

Reduce storage costs by 40-60%

StorSimple

iSCSI Internet

Microsoft Azure

Production Data Production Data

Cloud Snapshots

Datacenter-1 Datacenter-2

Periodic VSS consistent cloud snapshots

of production data

Location independent recovery from

cloud snapshot

Thin Instant PredictableStorSimple Virtual

Appliance

How Microsoft Azure Backup works ?

4. Back up encrypted data

2. Install agent

1. Sign up

5. Recover to the same or a different server

Enterprises with System CenterSystem Center

DPM Server

• 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

• FIX/Workaround Increase the scratch space for MARS

to use 10 % instead 5 %

• Solutions After UR5 , Azure offers 99 Years for LTR

• Issues During the Deployment Backup fails with 0x07F26,

• Solutions Restore the existing data on tape to Disk using backup software

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)

Hyper-V FailoverClustering for VM Resilience

1

Hyper-V Guest Clustering for app-level HA, i.e. SQL Server AlwaysOn FCI

2

Centralized backup with Data Protection Manager 4

Simplified protection with Windows Server Backup 3

Integration of WSB/DPM with Microsoft Azure Backup 5

Orchestrated Physical, Hyper-V & VMware VM Replication & Recovery using Azure Site Recovery, between on-premises locations, or between on-premises & Microsoft Azure

6

Azure Site Recovery: Year So Far…

On-premises to On-premises protection

Microsoft Azure Site Recovery

Communication Channel

Replication channel: Hyper-V

Replica, SQL AlwaysOn

Primary Site

Windows Server

Recovery Site

Windows Server

GA January 2014

Azure Site Recovery: DR

Orchestration between

on-premises Hyper-V Sites

Microsoft Azure Site Recovery

Download Scout

Replication channel: InMage

Replication

Primary Site

Physical/VMWare

Recovery Site

VMWare

InMage Scout

InMage Scout

Azure Site Recovery: Year So Far…

On-premises to On-premises protection GA July 2014

Azure Site Recovery: DR

Orchestration between

on-premises VMware Sites

with InMage

Windows Server

Protect to Azure

Orchestration and Replication: Hyper-V Replica, SQL AlwaysOn

Microsoft Azure Site Recovery

Primary Site

Azure Site Recovery: Year So Far…

GA October 2014

Azure Site Recovery: DR

Orchestration between

on-premises and Microsoft

Azure

Azure Site Recovery with SAN Replication

Public Preview Nov 2014

Public Preview of Azure

Site Recovery with SAN

Replication Support

On-premises to On-premises protection

Microsoft Azure Site Recovery

Communication Channel

SAN Replication

Primary Site

Recovery Site

Windows Server

Windows Server

EMC With PreviewVMAX

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

2015

Use ASR and InMage

Scout to replicate physical

servers and VMware

serversWndowsServer

Protect to Azure

Orchestration and Replication: InMage Scout

Microsoft Azure Site Recovery

Primary Site

InMage Scout

VMware / Physical

Protect Single Hyper-V Server to Azure

2015

Use ASR to replicate

Hyper-V Server Virtual

Machines to Azure without

VMMWndowsServer

Protect to Azure

Orchestration and Replication:

Microsoft Azure Site Recovery

Primary Site

Hyper-V Replica

Hyper-V

Orchestration and Replication: InMage Scout

Microsoft Azure Site Recovery

Primary Site

InMage Scout

Orchestration and Replication: Hyper-V Replica, SQL AlwaysOn

Microsoft Azure Site Recovery

Primary Site

Hyper-V

Microsoft Azure Site Recovery

Orchestration Channel

Replication channels:

Hyper-V Replica, SQL AlwaysOn,

SAN

Primary Site

Hyper-V

Recovery Site

Hyper-V

Microsoft Azure Site Recovery

Orchestration and

Replication channel:

InMage Scout

Primary Site

VMware / Physical

Recovery Site

InMageScout

InMageScout

Key features include:

Automated VM protection and replication

Remote health monitoring

Near zero RPO

No-impact recovery plan testing

Customizable recovery plans

Minimal RTO – few minutes to hours

Orchestrated recovery when needed

Replicate to – and recover in – Azure

Heterogeneous physical and virtual support

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

VMware / Physical

VMware / Physical

Download InMage Scout

2015

Azure Site Recovery

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