vsp1700 vmware vsphere 5.0 storage features

VSP1700VMware vSphere 5.0 Storage Features

Name, Title, Company

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Disclaimer

This session may contain product features that are currently under development.

This session/overview of the new technology represents no commitment from VMware to deliver these features in any generally available product.

Features are subject to change, and must not be included in contracts, purchase orders, or sales agreements of any kind.

Technical feasibility and market demand will affect final delivery.

Pricing and packaging for any new technologies or features discussed or presented have not been determined.

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Cloud

Journey to IT Transformation – Accelerate and Amplify

Infrastructure focus Application focus Business focus

Business Production IT as a Service

Virtualization

Low Governance

High Governance

Enterprise Hybrid Cloud

IT Production

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Agenda

vSphere 5.0 New Storage Features

vSphere Storage APIs - Storage Awareness

Introduction

VMFS-5

Profile Driven Storage

Storage DRS

vSphere Storage APIs - Array Integration – Phase 2

Storage vMotion

Software FCoE

vSphere Storage Appliance

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Introduction

• Welcome to the New Storage Features in vSphere 5.0 session.

• VMware‘s storage goals in vSphere 5.0• Remove some of the complexity from managing storage in vSphere.

• How do we achieve these goals?• Make storage objects much larger & more scalable, reducing the number that

need to be managed by the customer

• Add additional features to the storage objects

• Help customers make the correct storage provisioning decision for Virtual Machines.

• Remove many time consuming & repetitive storage related tasks including the need for repetitive physical storage provisioning.

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Current Issues with managing storage

• A vSphere administrator typically has the following storage tasks:1. Determine the correct datastore on which to initially place a VM’s disk.

2. Continuously monitor datastores for space usage.

3. Continuously monitor datastores for performance/latency.

4. Repetitive physical LUN deployments as storage consumption grows.

5. Verifying that a VM stays on suitable storage throughout its lifecycle.

• Other concerns for a vSphere administrator :1. Possible mistrust of Thin Provisioning due to Out Of Space situation.

2. Possible mistrust of disk usage reporting of Thin Provisioned LUNs.

• This presentation aims to show you how VMware is addressing the above issues with new storage features in vSphere 5.0.

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You are here



Introduction

VMFS-5


Storage DRS


Storage vMotion


Software FCoE

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VMFS-5 vs VMFS-3 Feature Comparison

Feature VMFS-3 VMFS-5

64TB VMFS Volumes Yes (Requires 32 extents)

Yes(Single extent)

Support for more files 30720 130689

Support for 64TB Physical RDMs No Yes

Unified Block size (1MB) No Yes

Atomic Test & Set (ATS) Usage(VAAI locking mechanism) Limited Unlimited

Sub-blocks for space efficiency 64KB (maximum ~3k)

8KB (maximum ~30k)

Small file support No 1KB

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VMFS-5 New Volume Creation (1 of 2)

• vSphere 5.0 provides the option of creating either VMFS-3 or VMFS-5.

• You can only create VMFS-5 on hosts that are running ESXi 5.0.

• Versions of ESX/ESXi earlier than 5.0 cannot use VMFS-5.

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VMFS-5 New Volume Creation (2 of 2)

• Newly created VMFS-5 filesystems now use the GPT (GUID Partition Table) partition format.

• GPT is needed to enable the creation of volumes larger than 2TB.

• Previous versions use the MBR (Master Boot Record) partition format.

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VMFS-3 to VMFS-5 Non-Disruptive Upgrade

• The Upgrade to VMFS-5 is clearly displayed in the vSphere Client.

• This is a non-disruptive upgrade, allowing VMs to remain running on the datastore while it is being upgraded.

• Best Practice: If you have the luxury of doing so, create a brand new VMFS-5 datastore, and use Storage vMotion to move your VMs to it.

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You are here



Introduction

VMFS-5


Storage DRS


Storage vMotion

Software FCoE


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VAAI Improvements

• vSphere Storage APIs for Array Integration (VAAI) offloads certain storage related tasks to the storage array rather than doing them in the VMkernel. This provides improved performance.

• Enhancements to VAAI in vSphere 5.0 are in two areas: NAS Thin Provisioning

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VAAI NAS Primitives

• With the NAS primitives, we give NAS datastores many of the hardware acceleration/offload features that we introduced for VMFS datastores (iSCSI, FC) in vSphere 4.1.

• The following primitives are defined for VAAI NAS:• Full File Clone - Similar to the VMFS block cloning. This primitive allows

offline VMDKs to be cloned by the array.

• Reserve Space - Allows creation of thick VMDK files on NAS devices.

• Fast File Clone – Allows creation of linked clone VMs to be offloaded to the array [only accessible by VMware View currently].

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VAAI NAS Primitives: Thick Disk Creation

• Without the VAAI NAS primitives, only the Thin format could be selected when creating Virtual Disks on NFS datastores.

• With the VAAI NAS primitives in vSphere 5.0, Lazy Zeroed, Eager Zeroed and Thin formats are all available when creating a virtual disk on an NFS datastore.

No VAAI VAAI NAS

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VAAI Thin Provisioning Primitives

• As mentioned in the introduction, VMware wants to make the act of physical storage provisioning in a vSphere environment extremely rare.

• Our vision is that datastores should be incredibly large address spaces & should be able to handle any VM workload.

• Thin Provisioning is a mechanism which can be used to achievethese goals.

• However the use of Thin Provisioning creates 2 new problems:• Dead Space accumulation.• Out-of-space conditions.

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VAAI Thin Provisioning - Dead Space Reclamation

• Dead space is previously written blocks that are no longer used, for instance, after a Storage vMotion operation on a VM.

• Through VAAI, storage system can now reclaim the dead blocks

• Storage vMotion, VM deletion & swap file deletion trigger the Thin Provisioned LUN to free physical space.

• Storage Arrays can now report correctly on used space on Thin Provisioned LUNs, making the forecasting for new storage easier.

VMware

VMFS volume A

VMFS volume B

Storage vMotion

VM’s file data blocks will be released through VAAI

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Can I reclaim space on existing VMFS volumes?

• What if I already have an existing VMFS-3 volume which is already Thin Provisioned? Can I reclaim the dead space from it?

• Yes. Upgrade to VMFS-5, and then run the following command:

# cd /vmfs/volumes/thin_volume

# vmkfstools -y 99

Attempting to reclaim 99% of free capacity on VMFS-5 file system ‘thin_volume’

Done.

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‘Out Of Space’ User Experience with VAAI Extensions

VMware

VMware

Space exhaustion, affected VMs paused, LUN online & awaiting space allocation.

Space exhaustion warning in UI surfaced by VAAI

Storage vMotion VM’s disks or Admin adds more space to the datastore

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VAAI Thin Provisioning Benefits

• VAAI Thin Provisioning solves the previous two problems of dead space & out of space conditions.• Dead space reclamation

Informs the array about the datastore space that is freed when files are deleted or removed from the datastore by Storage vMotion. The array can then reclaim the freed blocks of space.

• Monitoring of the space usage on Thin Provisioned datastores Avoids running out of physical space. A new advanced warning has been added to

vSphere 5.0 for Thin Provisioned out of space condition & there is now a gradual degradation of service (VM pause) on disk full condition.

• Customers should now feel more comfortable in creating & using very large Thin Provisioned datastores.

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You are here


vSphere Storage APIs - Storage Awareness (VASA)

Introduction

VMFS-5


Storage DRS


Storage vMotion

Software FCoE


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What are VMware vStorage APIs for Storage Awareness?

• vSphere Storage APIs – Storage Awareness (VASA) allows storage arrays to integrate with vCenter for management functionality via plug-ins called Storage Providers (which are developed by the storage array vendors).

• This in turn allows a vCenter administrator to be aware of the capabilities of the physical storage devices.

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What are the benefits of VASA?

• For the first time VMware has an end to end storage story.1. Storage array informs vendor provider of capabilities.2. The vendor provider informs vCenter about these capabilities.3. If device is in vCenter inventory, device is tagged with capabilities.4. Administrators now see storage device capabilities from the

vSphere client.5. Administrators no longer need to maintain large spreadsheets of

storage device characteristics, use complex naming conventions for datastores or engage their SAN administrator in order to be sure that their VMs are being provisioned to the correct storage type.

• The visibility of the storage capabilities is also a significant enabler for the next feature that we are about to discuss, Profile Driven Storage.

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You are here



Introduction

VMFS-5


Storage DRS


Storage vMotion

Software FCoE


25


• vSphere 5.0 introduces another feature called Profile Driven Storage.

• Benefits• Profile Driven Storage makes the initial placement of a VM error free.

• This feature also enables VMs to remain compliant with their pre-defined storage requirements.

• Administrators create profiles which contain storage characteristics.

• These storage characteristics can be surfaced via VMware Storage APIs – Storage Awareness or can be user-defined business tags (e.g. gold, silver, bronze).

• A VM can be regularly checked for compliance to ensure that the storage on which it is deployed has the correct & necessary storage capabilities.

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Storage Capabilities & Profile Driven Storage

Storage Capabilities surfaced by Storage Awareness APIs or

user-defined

xxx VM Storage Profile references Storage

Capabilities

VM Storage Profile associated with VM

Compliant – VM is on datastore with correct storage capabilities

Non-Compliant – VM is on datastore with incorrect

storage capabilities

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Profile Driven Storage Compliance

Policy Compliance is visible from the Virtual Machine Summary tab or from VM Storage Profiles.

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You are here



Introduction

VMFS-5


Storage DRS


Storage vMotion

Software FCoE


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Storage DRS Benefits

VM deployment without Storage DRS:• Manually identify the datastore with the most available disk space

• Manually validate that the latency threshold hasn’t been reached

• Manually ensure that there are no conflicts between other virtual machines placed on the same datastore

• Or ignore all that, create Virtual Machine & hope for the best

VM deployment with Storage DRS:• Automatic selection of the best datastore for your initial VM placement

Avoiding hotspots, disk space imbalances & I/O imbalances

• Advanced balancing mechanism to avoid storage performance bottlenecks or “out of space” problems

• Smart Placement Rules Helps in avoiding placing VMs with a similar task on the same datastore Helps in keeping virtual machines together when required

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Datastore Cluster

• An integral part of SDRS is to create a group of datastores called a datastore cluster.• Datastore Cluster without Storage DRS – Simply a group of datastores.

• Datastore Cluster with Storage DRS - Load Balancing domain similar to a DRS Cluster, but for storage.

• A datastore cluster without SDRS is just a datastore folder. It is the functionality provided by SDRS which makes it more than that.

Datastore Cluster2TB

Datastores500GB 500GB 500GB 500GB

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Storage DRS Operations – Initial Placement

• When creating a VM, you now select a datastore cluster rather than an individual datastore - let SDRS choose the appropriate datastore.

• SDRS will select a datastore based on space utilization and I/O load.

• By default, all the VMDKs of a VM will be placed on the same datastore within a datastore cluster (VMDK Affinity Rule), but you can choose to have VMDKs assigned to different datastores.

Datastore Cluster2TB

Datastores500GB 500GB 500GB 500GB

300GB available

260GB available

265GB available

275GB available

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Storage DRS Operations – Load Balancing

SDRS triggers on space usage & latency threshold.• Algorithm issues migration recommendations when I/O response time

and/or space utilization thresholds have been exceeded, AND there is a significant I/O or space imbalance.

• Load Balancing is based on I/O workload and space which ensures that no datastore exceeds the configured thresholds.

datastore cluster2TB

datastores500GB 500GB 500GB 500GB

10ms latency

5ms latency

11ms latency

40ms latency

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Storage DRS Operations - Datastore Maintenance Mode

• Evacuates all VMs & VMDKs from selected datastore.• If SDRS is automatic, SDRS will use Storage vMotion

• If SDRS is manual, administrator has to migrate VMs.

Datastore cluster2TB

DatastoresVOL1 VOL2 VOL3 VOL4

Place VOL1 in maintenance

mode

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Storage DRS Operations - Rules

Datastore Cluster

Intra-VM VMDK affinity Keep a Virtual Machine’s

VMDKs together on the same datastore

Maximize VM availability when all disks needed in order to run

On by default for all VMs

VMDK anti-affinity Keep a VM’s VMDKs on

different datastores

Useful for separating log and data disks of database VMs

Can select all or a subset of a VM’s disks

Datastore Cluster

VM anti-affinity Keep VMs on different

datastores

Similar to DRS anti-affinity rules

Maximize availability of a set of redundant VMs

Datastore Cluster

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Storage DRS Operations – Recommendations

• When SDRS is in manual mode, recommendations are displayed in the Storage DRS tab:

Recommendations display Space Utilization (before & after) for source & destination datastores as well as the current latency values of the source and destination.

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Profile Driven Storage & Storage DRS

• Storage DRS and Profile Driven Storage can be used together when multiple types (tiers) of datastores exist in your infrastructure.

• If all datastores in a datastore cluster have the same storage capabilities, and those capabilities match the VM Storage Profile, then the datastore cluster will be marked as compatible when it comes to choosing an appropriate datastore for a VM deployment.

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You are here



Introduction

VMFS-5


Storage DRS


Storage vMotion

Software FCoE


38

Storage vMotion Enhancements

• In vSphere 5.0, a number of new enhancements were made toStorage vMotion.• Storage vMotion now supports the relocation Virtual Machines that

have snapshots & linked clones.• Storage vMotion has a new use case – Storage DRS – which uses

Storage vMotion for Maintenance Mode & Load Balancing (both space & performance).

• In vSphere 5.0, Storage vMotion uses a new mirroring architecture which mirrors the changed disk blocks after they have been copied to the destination, i.e. we fork writes to both source and destination using mirror mode.

• This means migrations can be done is a single copy operation.

• Mirroring I/O between the source and the destination disks has significant gains when compared to the iterative disk pre-copy mechanism & should mean more predictable (and shorter)migration time.

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You are here



Introduction

VMFS-5


Storage DRS


Storage vMotion


Software FCoE

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Software FCoE Adapter

• vSphere 5.0 introduces a new software FCoE adapter.

• A software FCoE adapter is software code that performs some of the FCoE processing.

• This adapter can be used with a number of NICs that support partial FCoE offload.

• Unlike the hardware FCoE adapter, the software adapter needs to be activated, similar to Software iSCSI.

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You are here



Introduction

VMFS-5


Storage DRS


Storage vMotion


Software FCoE

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vSphere Storage Appliance Introduction

• In vSphere 5.0, VMware release a new storage appliance called VSA.

• VSA is an acronym for “vSphere Storage Appliance”.

• This appliance is aimed at our SMB (Small to Mid-Size Business) customers who may not be in a position to purchase a SAN or NAS array for their virtual infrastructure, and therefore do not haveshared storage.

• Without access to a SAN or NAS array, SMB customers are unable to implement many of vSphere’s core technologies, such as vSphere HA & vMotion.

• Benefits• Low Cost• Easy to deploy• Highly Resilient• Enabler for vMotion & vSphere HA

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vSphere Storage Appliance Configuration

• Each ESXi server has a VSA deployed to it as a Virtual Machine.

• The appliances use the available space on the local disk(s) of the ESXi servers & present one replicated NFS volume per ESXi server. This replication of storage makes the VSA very resilient to failures.

vSpherevSphere vSphere

VSA VSA VSA

NFS NFS NFS

vSphere Client

VSA Manager

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Conclusion

• vSphere 5.0 has many new compelling storage features to help reduce the complexity of managing storage for administrators.• VMware Storage APIs for Storage Awareness (VASA) surfacing

storage characteristics into vCenter.• A VM’s storage compliance can be checked throughout its lifetime via

Profile Driven Storage.

• Datastores are much larger than ever before & can contain many more virtual machines due to VAAI enhancements and architectural changes.

• Features such as Storage DRS & Profile Driven Storage will help solve traditional problems with virtual machine initial placement, and avoiding datastore usage & hot spots.

• The vSphere Storage Appliance (VSA), a low cost, highly available and easy to deploy storage appliance, now provides shared storage for everyone.

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Questions? http://blogs.vmware.com/vSphere/Storage

@VMwareStorage

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