Cisco Cisco Catalyst 6500 Series Network Analysis Module (NAM-1 NAM-2) Guía De Introducción
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Scalability of applications
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Preparation for cloud migration
While many benefits are gained by migrating to
geographically dispersed data centers, challenges
are encountered when a distributed infrastructure is
deployed. Load balancing traffic to remote data centers
can add latency because of the round trip to remote data
centers, leading the IT department to want to increase
the local computing resources before distributing the
workload to remote data centers.
geographically dispersed data centers, challenges
are encountered when a distributed infrastructure is
deployed. Load balancing traffic to remote data centers
can add latency because of the round trip to remote data
centers, leading the IT department to want to increase
the local computing resources before distributing the
workload to remote data centers.
Increasing the local compute resources introduces
the need for virtual machine intelligence. Otherwise,
services cannot be delivered with optimal response
times, resulting in suboptimal use of the distributed
infrastructure. Cisco ACE dynamic workload scaling
addresses these challenges:
the need for virtual machine intelligence. Otherwise,
services cannot be delivered with optimal response
times, resulting in suboptimal use of the distributed
infrastructure. Cisco ACE dynamic workload scaling
addresses these challenges:
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Virtual machine visibility: Integration with VMware
vCenter enables ACE to actively monitor the current
resource utilization of the local virtual machines to
make an intelligent decision regarding whether to
distribute workload locally or send it to the remote
data center.
vCenter enables ACE to actively monitor the current
resource utilization of the local virtual machines to
make an intelligent decision regarding whether to
distribute workload locally or send it to the remote
data center.
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Service latency: Cisco ACE enables customers to
efficiently use the local compute resources before
distributing workload to a remote data center. When
the compute resources of the local virtual machines
are fully used, ACE distributes the workload to a
remote data center to service the increased load.
efficiently use the local compute resources before
distributing workload to a remote data center. When
the compute resources of the local virtual machines
are fully used, ACE distributes the workload to a
remote data center to service the increased load.
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Limited scalability: Integration with OTV provides
increased capacity to scale an application across
geographically dispersed data centers without
compromising the autonomy of the data centers
or the stability of the overall network. ACE dynami-
cally adds remote compute resources to service
increased workload when local resources become
scarce.
increased capacity to scale an application across
geographically dispersed data centers without
compromising the autonomy of the data centers
or the stability of the overall network. ACE dynami-
cally adds remote compute resources to service
increased workload when local resources become
scarce.
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Complex deployments: Integration with Nexus
7000 and VMware vCenter enable ACE to service
increased workload faster and simpler while pre-
serving existing network design. As a result, busi-
nesses gain increased application resiliency while
keep operating expenses low.
7000 and VMware vCenter enable ACE to service
increased workload faster and simpler while pre-
serving existing network design. As a result, busi-
nesses gain increased application resiliency while
keep operating expenses low.
Business Reasons for Deploying Cisco ACE
Dynamical Workload Scaling
Dynamical Workload Scaling
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Increased application resiliency: DWS enables
effective disaster-recovery mechanisms that
increase availability of the applications through
flexible workload mobility.
effective disaster-recovery mechanisms that
increase availability of the applications through
flexible workload mobility.
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Flexibility: DWS extends ACE intelligence to achieve
greater virtual data center resilience, performance,
and flexibility.
greater virtual data center resilience, performance,
and flexibility.
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Greater scalability: As data centers evolve from a
hierarchical architectural model to a flatter Layer 2–
based distributed model, DWS enables businesses
to scale applications and the infrastructure without
increasing the costs and resources needed for
administration and management.
hierarchical architectural model to a flatter Layer 2–
based distributed model, DWS enables businesses
to scale applications and the infrastructure without
increasing the costs and resources needed for
administration and management.
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Optimal hardware resource utilization: By distribut-
ing workload to a remote data center only when local
compute resources have been fully utilized, Cisco
ACE offers significant cost saving benefits and
operational benefits.
ing workload to a remote data center only when local
compute resources have been fully utilized, Cisco
ACE offers significant cost saving benefits and
operational benefits.
For More Information
For more information about Cisco ACE The Virtual Data
Center solution, visit
Center solution, visit
ACE Dynamic Workload Scaling
At-A-Glance
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