better storage management for data growth...intel and vmware are working together to provide...
TRANSCRIPT
The era of massive data growth presents serious challenges to IT professionals, among them the need
for faster, more scalable, and more cost-effective data storage options that respond to changing business
requirements. To address these storage challenges, Intel and VMware have a vision for the data center that
includes software-defined infrastructure, which can optimize the utilization of data center assets, reduce the
cost of data center operations, and speed the time to delivery of new services to the business. Software-
defined infrastructure can transform the data center from systems deployed in silos with limited scalability
and inefficient utilization to a dynamic, fully automated, and flexible infrastructure that encompasses servers,
storage, and network components.
Intel and VMware are working together to provide foundational technologies that deliver on this vision for
customers’ data centers. These technologies include intelligent storage solutions based on Intel® Solid-State
Drive (SSD) Data Center Family, 10 Gigabit Intel® Ethernet Converged Network Adapters, Intel® Xeon® processor
technologies, and VMware® Virtual SAN™ (VSAN) software-defined storage.
Better Storage Management for Data GrowthIntel and VMware deliver software-defined storage solutions
Solution BriefIntel® Xeon® Processors
VMware® Virtual SAN™
Meeting the Data Challenge with Software-Defined Storage“Big data” is a familiar phrase in the IT industry, but the real magnitude
of today’s data growth is often unappreciated. Eric Schmidt, former CEO
of Google, noted that 5 exabytes of data are produced every two days—
about the same volume of information created between the dawn of
human civilization until 2003.1 According to IDC, by the year 2020 there
will be more than 40 zettabytes of digital information worldwide.2
Storing and subsequently accessing this volume of data is a huge
challenge for IT professionals. As storage demands grow exponentially,
IT departments need storage solutions that are flexible, scalable, and
cost effective. Unfortunately, traditional storage architectures often
fall short of delivering on these capabilities, causing bottlenecks,
underutilization, and application workload inefficiencies. They require
significant capital expense, create complex management tasks for IT
departments, and lack the scalability required to keep up with data
demands. Moreover, traditional storage systems are not easily re-
provisioned on the fly, and they don’t have the flexibility needed to
adapt to fast-changing user and business demands.
Server virtualization further complicates the picture. While
virtualization has transformed the way that IT is managed and
delivered, it places new demands on storage in terms of input/output
(I/O) performance, latency, and scalability.
For IT professionals, there is a new option: Intel technologies that
work with VMware VSAN software-defined storage. With Intel
and VMware VSAN, IT professionals can create intelligent storage
solutions that take advantage of pooled direct-attached storage
(DAS) resources to achieve greater data storage agility, scalability, and
efficiency at a fraction of the cost of traditional storage architectures.
VMware® Virtual SAN™: A New Storage Technology for Enterprise DataVMware VSAN provides a software-defined storage tier that pools
compute and DAS resources through the server hypervisor. By clustering
server direct-attached hard disk drives (HDDs) and solid-state drives (SSDs),
VSAN creates a distributed, shared data store at the hypervisor layer that
is designed and optimized for virtual machines (VMs). As the needs of
virtualized applications change, the hypervisor is uniquely positioned to
make I/O optimizations and intelligent data-placement decisions to optimize
application performance. VSAN, which is part of the VMware vSphere®
kernel, is architected and positioned to deliver a high-performance storage
tier via software by taking advantage of SSDs for high performance read
caching and write buffering and HDDs for cost-effective data persistence.
VSAN also takes advantage of a highly available architecture that can
withstand failures at the disk, server, and network level with no data
loss, using built-in redundancy mechanisms that transparently store
multiple copies of the data across disks and hosts. VSAN uses a policy-
based approach to storage management that allows IT administrators
to specify storage attributes—such as capacity, performance, and
availability—in the form of simple policies that are associated with
individual virtual machines or virtual disks. Storage can then be instantly
provisioned and automatically configured according to the assigned
policies. VSAN also dynamically self-tunes and load balances to meet the
policies of each individual virtual machine, thereby adapting to ongoing
workload condition changes and helping to ensure that service-level
agreements (SLAs) are met throughout the virtual machine lifecycle.
Core Features of VMware VSAN
• Integration with VMware vSphere: VSAN is implemented inside the
VMware vSphere kernel, enabling high performance and scalability
through integration with VMware vSphere data services such as
VMware vSphere Snapshots, VMware vSphere Clones, VMware
vSphere Data Protection, and VMware vSphere Replication. VSAN is
managed from the VMware vSphere Web Client for single-pane-of-
glass management.
• Read/write I/O caching: VSAN minimizes storage latency by accelerating
read/write disk I/O traffic with built-in caching on server side flash.
• Protection from failures: VSAN has built-in distributed Redundant
Array of Independent Nodes (RAIN) data protection and synchronous
cache mirroring to ensure that data is not lost in case of disk, host, or
network failures.
• Non-disruptive scalability: The VSAN data store performance and
capacity is increased easily and non-disruptively by adding hosts to a
cluster or disks to a host.
• VM-centric policy-based management: Storage requirements
are associated with individual virtual machines or virtual disks
through policy statements that VSAN automatically translates
into system configurations.
• Self-tuning storage and dynamic storage load balancing: VSAN
automatically and non-disruptively maintains the specified
storage capacity, performance, and availability levels for each
individual virtual machine.
• Broad hardware compatibility: VSAN is hardware agnostic and
can be deployed on any standard OEM server hardware based
on Intel technology.
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• Interoperability with VMware® Horizon View™ and VMware® vCenter™
Site Recovery Manager™: VSAN can be deployed in conjunction
with VMware Horizon View in virtual desktop infrastructure (VDI)
environments and VMware vCenter Site Recovery Manager in
disaster recovery (DR) environments.
VSAN: Radically Simple Storage for Virtual Environments
VSAN makes it easy to provision and manage storage for virtual
machines. IT professionals can quickly provision storage directly
from the VMware vSphere Web Client with just a few clicks, taking
advantage of a self-tuning system that automatically and non-
disruptively optimizes itself to deliver the right SLAs based on the
requirements for each virtual machine.
Unlike traditional storage arrays, VSAN does not require large upfront
investments to get started. A VSAN data store can be created with
as few as three servers and can be used on any standard Intel-based
server hardware. VSAN also delivers a lower total cost of ownership
(TCO) by reducing storage capital and operational expenses through
the use of inexpensive server disks and high-endurance SSDs, with
standard VMware vSphere networking, and through reduced power
and cooling costs. This means that existing high-dollar SAN devices
can be freed up to perform the mission-critical work for which they
were originally intended. Meanwhile, VSAN lets organizations increase
their storage performance and capacity incrementally and predictably.
Intel: Providing a High-Performance Storage FoundationIntel technologies and products work with VMware VSAN to deliver the
foundation for new software-defined storage solutions. These include
the Intel Xeon processor E5 family, 10 Gigabit Intel Ethernet Converged
Network Adapters, and the Intel SSD Data Center Family products.
Intel® Xeon® Processor E5 Family
VMware VSAN delivers a shared storage solution as software
that is efficient, scalable, and cost effective. However, sufficient
processing capability and increased I/O bandwidth is required to
integrate storage intelligence into virtualized servers running
multiple virtual machine workloads. Intel Xeon processors are
designed to meet these requirements with multiple cores that
power enterprise storage requirements in addition to compute tasks.
These processors deliver energy-efficient performance for the most
demanding workloads, support for automated tiering across SSDs
and HDDs, and offer Intel® Integrated I/O for up to three times higher
bandwidth to minimize performance bottlenecks.3
Intel® Ethernet Converged Network Adapters
The most demanding enterprise storage tasks can be addressed
with 10 Gigabit Intel Ethernet Converged Network Adapters. Based
on Intel’s unified networking vision for supporting all LAN data and
storage traffic on a common Ethernet infrastructure, 10 Gigabit Intel
Ethernet Converged Network Adapters offer significant benefits
in the data center over traditional storage architectures, including
a 45 percent reduction in power per rack, a significant reduction in
infrastructure costs, and twice the server I/O bandwidth.4 The 10
Gigabit Intel Ethernet Converged Network Adapters provide the
scalable, high-throughput features required to meet the demands
of combined compute and storage workloads on VSAN systems.
Hardware optimizations for I/O virtualization and native VMware
vSphere storage networking support deliver outstanding performance
while maintaining compatibility with integrated VMware vSphere
quality-of-service (QoS) and teaming features.
Intel® SSD Data Center Family
There is fast-growing interest in the use of SSDs in the data center.
Intel SSDs offer compelling advantages over HDDs. For example, SSDs
have no moving platters or actuator arms that can fail, and they use
semiconductor-based, non-volatile memory similar to what is used
in USB thumb drives, which means that data is retained even with
sudden losses of power. The Intel SSDs can withstand large amounts
of data writes, they produce less heat and noise than HDDs, and they
typically have about one-third of the power requirements of HDDs.
The Intel® SSD 910 Series, Intel® SSD DC S3700 Series, and Intel® SSD
DC S3500 Series offer significant advantages for enterprise storage
tasks. These include full end-to-end data protection, consistent
performance with low latencies, AES 256-bit encryption for excellent
data protection, and high capacities for growing storage needs.
Intel and VMware: Delivering Better Data Storage OptionsWith Intel technology and VMware VSAN, organizations can efficiently
manage large and growing data stores using standard, off-the-shelf,
Intel-based servers. By dynamically pooling DAS resources using
VSAN, enterprises can implement simple and intelligent storage
policies at the virtual-machine level to automate storage provisioning
and management in tandem with compute functions. The result is
lower upfront costs, reduced TCO, and greater flexibility and scalability
to respond to shifting business demands.
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1 Eric Schmidt. Speech at Techonomy conference. August 2010.2 IDC. Digital Universe Study, sponsored by EMC Corporation. December 2012. http://www.emc.com/collateral/analyst-reports/idc-the-digital-universe-in-2020.pdf.3 Source: Intel internal measurements of average time for an I/O device read to local system memory under idle conditions comparing Intel® Xeon® processor E5-2600 product family (230 ns) versus Intel® Xeon® processor 5500 series (340 ns).4 Results based on Intel® Ethernet Server Adapter ROI tool: http://www.event-management-online.de/LAD/calculator.aspx. Bandwidth claim based on assumed configuration of ten 1 Gigabit Ethernet (GbE) adapters (10 Gb total bandwidth) or two 10
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Additional ResourcesIntel: www.intel.com/storage VMware: www.vsanbeta.com