A Realistic Approach To Dynamic Workload Scaling

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October 9th, 2012

Dave Dhillon, Product Marketing Manager, Cisco Systems

Dynamic Workload Scaling or Cloud bursting is commonly referred to as the ability to expand or contract workload between two or more virtualized data centers or cloud providers.  It sounds simple enough, but there has not been a practical approach to securely and automatically facilitate elastic IT resources in response to demand.  Cisco Systems is offering one of the most realistic approaches to cloud bursting that leverages the Nexus 7000 and its Application Control Engine or ACE load balancers.  Overlay Transport Virtualization or (OTV) is a feature of the Nexus 7000 and provides Layer 2 connectivity extension across any transport connecting two or more data centers.  ACE provides VM aware load balancing over OTV, which creates the basis for Cisco’s Dynamic Workload Scaling cloud bursting strategy.  I talk with Dave Dhillon Product Marketing Manager at Cisco Systems as we dive into Cisco’s approach to cloud bursting.

Duration: 9 minutes 59 seconds

Lippis Intro/Analysis @ : 00:10 sec

Question 1 @ 2:01 sec: let’s start with a Dynamic Workload Scaling definition and how much demand Cisco sees for this capability?

Question 2 @ 3:46 sec:  Ok great, so let’s talk about Cisco’s Dynamic Workload Scaling approach.  It leverages ACE, OTV, Nexus 7000 and its partnership with VMware.   Can you talk to the piece parts of the approach and how they work together to deliver Dynamic Workload Scaling?

Question 3 @ 6:53 sec: Thank for solution overview, so what are the new levels of business flexibility or outcomes enabled when Dynamic Workload Scaling is implemented?

Question 4 @ 7:59 sec: How do IT business leaders implement DWS in their private clouds?


Lippis Report 197: Cisco’s Unified Fabric for Physical, Virtual and Cloud Environments

August 14th, 2012

Over the past several years, the term “fabric” has been used to describe a weave of computing, storage and networking that make up the foundation of data center infrastructure. Many networking firms use the term “fabric” to describe converged networking and storage. But today’s data centers are built with a combination of physical, virtual and cloud networking elements that need to interoperate and span multiple data centers. A modern fabric needs to incorporate all of these forms of networking consistently to deliver flexibility through a wide range of design options. Cisco Systems has one of the most expansive fabric definitions that is backed up by over 36,000 customers who deployed NX-OS. Cisco modifies the term “fabric” with the word “unified” to describe a functionally-rich fabric, yet control is simplified through integrated management. In this Lippis Report Research Note, we review Cisco’s Unified Fabric from business driver, architectural structure and outcome point of views.

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