Veritas Dynamic Multi-Pathing for VMware improves storage I/O performance and availability for VMware environments. It provides load balancing across storage paths and controllers, proactive path management to avoid disruptions, and visibility into storage characteristics. The solution offers increased performance through adaptive load balancing policies and improved availability with automated path recovery. It also bridges communication between storage and server teams by providing centralized management and detailed I/O statistics and metrics in vCenter.
2. Virtualization puts increased pressure on storage
performance and availability
Performance & Resiliency Storage Heterogeneity Visibility & Reporting
RAID10, SRDF, Thin , SSD drive
• SAN aware load balancing • Flexibility to choose ANY • Visibility into storage
key for high VM density cost effective storage characteristics needed
• Proactive failover of storage • Optimized handling of ANY • Data center wide I/O
connectivity during disaster tier of storage bottlenecks critical to isolate
I/O bottlenecks to storage arrays! Getting locked-in by single array vendor
Lack visibility into performance bottlenecks!
Device naming complicated in ESX! Am I using the right tier of Storage?
Dynamic Multi-Pathing for VMware 2
3. Veritas Dynamic Multi-Pathing (DMP) for VMware:
Improved storage I/O performance and availability
Any X86 Server • Improve performance
– SAN & workload aware load balancing
Guest Guest Guest Guest
– Real-time I/O performance graphs
VMware ESX • Increase availability
Hypervisor
– Proactive path failover
MPP DMP for VMware – Automated path recovery
ESX PSA Framework • Improve storage visibility
– Enhanced device naming
– Extended attribute discovery & reporting
– Data center storage reporting via vCenter
• Utilize a single multi-pathing solution
across physical and virtual with
heterogeneous storage
Dynamic Multi-Pathing for VMware 3
4. Optimize I/O throughput for greater performance
• Choose between seven I/O policies
to achieve greatest performance
for particular workload or storage
array (for example):
– MinimumQueue (MinQ) I/O Policy
– Adaptive I/O Policy
– Adaptive-MinQ
– Balanced
– Round-Robin, Single-Active, Priority
• Multi-threaded for faster discovery
and recovery
• Load balancing of paths across
controllers
Dynamic Multi-Pathing for VMware 4
5. Improve data path availability
• Pro-active path management and
failure detection
– Tunable monitoring to probe devices to
ensure resiliency
– Automated path recovery after failure
– Added LUNs default to active I/O policy for A B
enclosure
• Supports SAN boot devices
• Enables non-disruptive upgrade (NDU)
of array firmware
Dynamic Multi-Pathing for VMware 5
6. Improve visibility and bridge storage & server team
information gap
Discover Device Characteristics
My application is on tier 1
servers, what tier of storage is
it using? SSD, SATA, SAS, FC? • from vendor list
App Team
• is replicated
• where raid level is 5
• where LUN type is
My mission critical file system
is being protected or not? • where Media type is
RAID5, RAID10?
Server Team
Raid Levels – RAID5, RAID10
Replication Attributes & Snapshots
Thin Or Standard Devices
Is my critical data being Tier Information – SSD, SATA, FC, SAS
replicated underneath
or not? Enables AVID naming to make names
Storage Team meaningful for server and storage teams
Dynamic Multi-Pathing for VMware 6
7. Centralize operations by managing in vCenter
Plugin provides Dynamic
Multi-Pathing storage and
performance visibility
Enables active management
and infrastructure insight
Dynamic Multi-Pathing for VMware 7
8. Respond quickly with active path management
• Perform active path and policy management inside vCenter
• Change load-balancing algorithm on the fly
• Enable / disable individual path components
Dynamic Multi-Pathing for VMware 8
9. Improve performance with insight into storage
performance and I/O statistics
• Granular performance metrics
• Visibility at infrastructure component level
• Tabular or graphical I/O Statistics
Dynamic Multi-Pathing for VMware 9
10. Get deeper visibility into your storage and make better
decisions
• Deep visibility of the storage for your VMware environment
• Easily identify storage load by array or LUN
• Correlate I/O load from individual virtual machines
Dynamic Multi-Pathing for VMware 10
11. Improve operational efficiency and reduce complexity
by using a single multi-pathing solution
Dynamic Multi-Pathing Enables Storage Flexibility on all Platforms
Veritas Cluster Server Veritas Cluster Server Veritas Application HA
File System Guest Guest Guest Guest
Veritas Storage Foundation VMware ESX
Volume Manger MPP DMP for VMware
DMP DMP ESX PSA Framework
Reduce operational costs using a single multi-pathing solution
• Leverage extensive array support
• Standardize on single multi-pathing across storage management stacks
• Seamless migration from native multi-pathing to Dynamic Multi-Pathing
• Choose storage based on price / performance needs, avoiding lock-in
Dynamic Multi-Pathing for VMware 11
12. Veritas Dynamic Multi-Pathing: Storage I/O
performance and availability for your data center
• One solution for VMware, Unix, Windows,
Linux, and multi-vendor storage hardware
• Improved availability with proactive path
management, failover and automated
recovery
– Increased performance with SAN & workload
aware load balancing and I/O performance
reporting
• Bridges storage & server boundaries
– Provides visibility for more informed decision
making
– Manage and report in vCenter
• Pricing starts at $900 per quad-core CPU
• NetApp will be reselling Veritas Dynamic
Multi-Pathing for VMware starting by the
end of Calendar Q2
Dynamic Multi-Pathing for VMware 12