In recent years, there have been a number of discussions around the subject of orchestration as a key enabler for different Cloud technologies.
The ETSI NFV Management and Network Orchestration (MANO) working group is defining the main interfaces for resource orchestration, a fundamental layer in management.
It is important to define standard interfaces, but equally important is to understand the main capabilities for an orchestration (or choreography) solution. We can gain some more insight by revisiting previous work, particularly in the domain of Grid computing.
Personally, I found the work done by Ian Foster and Steven Tuecke around IT as a Service (back in 2005, 9 years ago!), still extremely relevant. It is fascinating to see how applicable this work continues to be, apart perhaps from the replacement of general SOA services by REST services in particular. We should pay special attention to their definition of Grid Infrastructure: “enable the horizontal integration across diverse physical resources”. I see their work applicable beyond the physical layer, to logical resources and their composition into services. Quoting the paper, the Grid Infrastructure’s capabilities should be:
- Resource modeling: describes available resources, their capabilities, and the relationships between them to facilitate discovery, provisioning, and quality of service management.
- Monitoring and notification: provides visibility into the state of resources to enable discovery and maintain quality of service.
- Allocation: Assures quality of service across an entire set of resources for the lifetime of their use by an application.
- Accounting and auditing: tracks the usage of shared resources and provides mechanisms for transferring costs among user communities and for charging for resource use by applications and users
- Provisioning, life-cycle management and decommissioning: enables an allocated resource to be configured automatically for application use, manages the resource for the duration of the task at hand and restores the resource to its original state for future use. Read More »
Tags: cloud, Cloud Computing, innovation, NFV, orchestration, SDN, Service Provider, virtualization
The use of hybrid cloud or Intercloud technology is growing increasingly popular. A recent study supports that IT managers want a mix of public and private cloud in their enterprises. In fact, 60% of the 400 enterprises surveyed see the hybrid cloud model as the way to go.
And for good reason: The same secure, open and flexible solutions that can be found within your private data center can be implemented with a hybrid cloud set-up, providing the best of both worlds: private cloud control and flexible public clouds. And when the need arises to expand your data center, creating an Intercloud to extend your own data center and cloud capacity when you need it is an excellent option for any business of any size.
Next week, we invite you to join our informative cloud webcast: Cisco Solutions for Open and Secure Intercloud Workload Migration. You’ll gain insight as to how your organization will benefit from an Intercloud approach. The conversation will be focused on how your business can:
- Extend your company’s capabilities, store more data and increase resources as you need them. Data centers cost to both build and operate, and InterCloud makes the public cloud an extension of your cloud.
- Maintain your sense of security by applying your same quality of service restrictions and policies to your hybrid cloud. You may be “renting” the capacity, but for all intended purposes, you own it.
- Keep your current cloud provider of choice and even link to more than one if you choose. The same traits are replicated in each instance of your data center.
When Cisco’s Global Intercloud was introduced, it completely changed the direction of how we utilized the hybrid cloud. It also showed us the need that CIOs across the globe had for a customizable, secure and high-performance data center expansion solution. And now is your chance to see why we’ve answered with Intercloud.
Registration is open, mark your calendar and join us for this webcast (available on demand):
Cisco Solutions for Open and Secure Intercloud Workload Migration. Join our webcast to learn how the Cisco InterCloud solution helps ensure the same network security, quality of service (QoS), and access control policies previously enforced in the data center are implemented in the public cloud. Available on demand.
Cisco Solutions for Open and Secure Intercloud Workload Migration
Wednesday, May 14
9:00 a.m. Pacific Time / 12:00 pm Eastern Time
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Tags: #CLUS, Cisco, cisco intercloud, CiscoCloud, cloud, Cloud Computing, Fabio Gori, Gartner, Hybrid Cloud, InterCloud, Rackspace, rob lloyd, webcast
In my previous blog, we provided an overview of the critical use cases and innovations we included in our new Business Continuity and Workload Mobility Solution for Private Cloud. This blog highlights the critical trends and challenges driving new multi-site Cloud designs.
Two important trends are driving CTO’s and CIO’s to deploy new multi-site Cloud solutions that provide better Business Continuity, Workload Mobility, and Disaster Recovery.
- More workloads are moving to the Private and Public Cloud versus the traditional data center
- Cloud Data Centers have a higher density of workloads per server than traditional data centers due to increased virtualization.
Cisco Global Cloud Index: Forecast and Methodology, 2012–2017
This ever increasing volume of Cloud hosted workloads is placing serious pressure on operations teams to manage larger scale data centers, and insure that they keep these workloads up and running, avoiding costly downtime or a nightmare service outage. Many of the CTO’s and CIO’s we’ve worked with are re-assessing their Multi-site strategy to insure they can answer some tough questions:
- What are the common weak points of multi-site Cloud designs that could prevent us from achieving our Business Continuity goals for our critical apps? Can we avoid them?
- How can we provide Workload Mobility between sites to provide a more agile Cloud environment?
- In the event of site outage, can our Private Cloud reduce the time it takes to recover critical applications to a new site?
- How can our Private Cloud deliver these critical services (Business Continuity, Workload Mobility, and Disaster Recovery) with lower cost and complexity?
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Tags: application virtualization, business continuity, Cisco CVD, Cisco Validated Design, cloud, Cloud Computing, data center, disaster recovery, private cloud, Workload Mobility
In the world of sports, becoming the fiercest competitor possible is the name of the game.
Today, the intersection of cloud technology and smart sports equipment is helping athletes and para-athletes perform at a world-class level. As a techie, you might admire the new shock absorbers built for downhill skis so paraplegics can hurl down a mountain at 70mph. Or how can you not marvel at the development of the prosthetic retina that can help blind athletes perform the sports they love?
Another amazing advancement is highlighted in Rick Smolan’s book, The Human Face of Big Data. Sheila Nirenberg, an associate professor at Weill Cornell Medical College, developed a way to enable patients with macular degeneration to see again. Awesome! As stated in the book:
“Using an array of high-speed, parallel processing computers, Nirenberg and her team embedded custom software in microprocessors and cameras that will be built into eyeglasses…images captured by the cameras will be translated into code in the form of thousands of pulsing lights, which can be recognized by the brain.”
It won’t be long before today’s visually impaired athletes can use this technology to compete at the highest level. And more than ever, this technology will rely on data that flows quickly and in real-time.
This is where cloud computing plays a key role -- allowing data to be easily accessed and stored, so that mobile devices and the peripherals of tomorrow (connected eyeglasses, etc.) can provide new experiences to athletes. These devices will be able to transmit data, communicate to each other (M2M) and relay to the user (M2P) vital information needed for the athlete.
Advancements in medical technology and cloud computing are giving us a new perspective on life
For example, a partially blind, or fully blind cross-country skier may one day have the capabilities through the Internet of Everything (IoE) to communicate through M2P technology while on the course. What will this mean? Sensors indicating course characteristics (downhill, uphill, turns, starting line/finish line, timing, etc.) will be able to communicate and relay the information in real-time to the skier. These types of mobile-enabled experiences are powered through cloud infrastructure and applications.
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Tags: Big Data, blindness, Cisco, cloud, Cloud Computing, connected athlete, data, data in motion, Internet of Everything, IoE, M2P, Rick Smolan, Sheila Nirenberg, The Human Face of Big data, Weill Cornell Medical College
Data centers are undergoing a major transition to meet higher performance, scalability, and resiliency requirements with fewer resources, smaller footprint, and simplified designs. These rigorous requirements coupled with major data center trends, such as virtualization, data center consolidation and data growth, are putting a tremendous amount of strain on the existing infrastructure and adding complexity. MDS 9710 is designed to surpass these requirements without a forklift upgrade for the decade ahead.
MDS 9700 provides unprecedented
- Performance - 24 Tbps Switching capacity
- Reliability -- Redundancy for every critical component in the chassis including Fabric Card
- Flexibility -- Speed, Protocol, DC Architecture
In addition to these unique capabilities MDS 9710 provides the rich feature set and investment protection to customers.
In this series of blogs I plan to focus on design requirements of the next generation DC with MDS 9710. We will review one aspect of the DC design requirements in each. Let us look at performance today. A lot of customers how MDS 9710 delivers highest performance today. The performance that application delivers depend
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Tags: 16 Gigabit, 16Gb, 16Gb Fibre Channel, 9710, architecture, Cisco, cloud, Cloud Computing, Consolidation, convergence, data center, Data Mobility Manager, DCNM, design, Director, dmm, FCIP, FCoE, Fibre Channel, Fibre Channel over Ethernet, IO accelerator, it-as-a-service, MDS, nexus, NX-OS, SAN, Storage, storage area networks, switch, switching, Unified Data Center, Unified Fabric, virtualization