Intel and VMware: Enabling Open FCoE in VMware vSphere 5

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Intel and VMware: Enabling Native FCoE in VMware vSphere™ 5

SIMPLIFYING THE

NETWORK WITH 10GBE

As IT departments look to reduce costs and

improve server eciency, they are turning

increasingly to server virtualization and

consolidation. e benets of virtualization

are widely acknowledged:

• Lowercapitalandoperational

expenditures through physical server to

virtual machine (VM) consolidation

• Increasedavailabilityandresponsiveness

• Amoredynamic,exibleservicemodel

at lower costs

Today’s servers are based on powerful new

processors, including the Intel® Xeon®

processor 5600 and E7 families, that

support more VMs per physical host than

ever before, helping IT realize greater

consolidation ratios.

• elatestgenerationofIntel®Xeon®

processors enables IT to consolidate

servers at a 15:1 ratio, delivering power

savings of up to 90 percent and a ve-

month return on investment.

• Newfour-socketprocessorsare

delivering 20 times the performance

of previous-generation processors.

• Nearly50percentofthefour-socket

servers shipped today are being used

for virtualization.

With VMware vSphere™ 5 organizations

can create and run “super-VMs” for even

the most resource-intensive applications.

vSphere 5 VMs support up to 1 terabyte

of memory and can enable up to 32

virtual CPUs. As for network throughput,

vSphere 5 can support in excess of 1M I/O

operations per second. ese capabilities

surpass the requirements of even the most

resource-intensive applications available

today, so there are many technical reasons

to virtualize any workload on vSphere.

As VM density and use of advanced

virtualization features increase, a physical

server’s networking needs also increase,

adding to both cost and complexity. A

typical virtualized server uses eight to 10

GbElocalareanetwork(LAN)portsand

two dedicated SAN ports.

10GbE and unied networking allow IT

departments to simplify server connectivity.

Consolidating the trac of multiple

GbE connections onto a single 10GbE

adapter signicantly reduces cable and

infrastructure complexity and overall TCO.

Recent enhancements to the Ethernet

standard enable 10GbE support for both

LANandSANtrac,allowingITto

realize further benets by converging data

and storage infrastructures. anks to its

ubiquity, cost eectiveness, exibility, and

ease of use, Ethernet has emerged as the

unied data center fabric

EVOLVING WITH THE

DATA CENTER

e growth in server virtualization has

helped data center networks evolve from

discrete, siloed infrastructures to more

exible fabrics with the scalability and

agility necessary to address the needs of

new usage models and provide an excellent

foundation for enterprise cloud computing.

Over 2.5 billion users will connect to the

Internet in the next ve years

with over

10 billion devices.

is usage will require

eight times the amount of storage capacity,

16 times the network capacity, and over 20

times the compute capacity by 2015.

new infrastructure must emerge to power

this growth and enable the most ecient

use of resources; this infrastructure is cloud

computing. e cloud is an evolution of

computing that delivers services over the

Internet to consumers and enterprises.

Services scale—as needed and only when

needed—without user intervention. Highly

scalable and ecient cloud architecture

is needed to provide both the technical

attributes and the extreme resource utilization

and eciency cloud computing promises.

With its reduced hardware requirements,

fewer points of management, and broad

ecosystem support, 10GbE delivers the

exible, simplied network infrastructure

needed to support cloud computing. ese

characteristics make 10GbE the ideal fabric

for cloud infrastructures:

• Ubiquity. Ethernet connectivity

ships standard on nearly every server

today, and Ethernet infrastructures are

a universal data center component.

10GbE products have been available for

severalyears,butwhen10GbELAN

onmotherboard(LOM)connections

are integrated in the next generation

ofservers,uniedLANandSAN

connectivity will be available by default.

• Advanced virtualization support.

Advanced server virtualization enables

dynamic resource allocation and is

required for most cloud computing

infrastructures. Technologies from

companies such as Intel and VMware

are delivering near-native 10GbE

throughput in virtualized environments.

• Unied networking. A 10GbE

unied fabric simplies the network

infrastructurebyconsolidatingLANand

SAN trac. Internet small computer

system interface (iSCSI) and network

le system (NFS) are storage protocols

that use Ethernet, and the recent

ratication of the Fibre Channel over

Ethernet (FCoE) standard extends this

capability. In addition, recent Ethernet

enhancements ensure quality of service

(QoS) for critical trac.