deploying private cloud storage with dell servers and...
TRANSCRIPT
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