Published By: CyrusOne
Published Date: Jul 05, 2016
Many companies, especially those in the Oil and Gas Industry, need high-density deployments of high performance compute (HPC) environments to manage and analyze the extreme levels of computing involved with seismic processing. CyrusOne’s Houston West campus has the largest known concentration of HPC and high-density data center space in the colocation market today. The data center buildings at this campus are collectively known as the largest data center campus for seismic exploration computing in the oil and gas industry. By continuing to apply its Massively Modular design and build approach and high-density compute expertise, CyrusOne serves the growing number of oil and gas customers, as well as other customers, who are demanding best-in-class, mission-critical, HPC infrastructure. The company’s proven flexibility and scale of its HPC offering enables customers to deploy the ultra-high density compute infrastructure they need to be competitive in their respective business sectors.
In this white paper, we will look into:
• The changing face of the colocation buyer
• Industry structure, including mergers and acquisitions
• The Internet of Things and big data
• Edge computing
• Cloud computing and Internet Giants
• The impact of data center infrastructure management (DCIM)
• Data center design architectures
SaaS vendors are using next-generation data center principles to revolutionize the way cloud-based software applications are delivered by applying a software-defined everything (SDx) strategy. This paper examines five key principles of the modern data center design that are accelerating business growth.
Juniper Networks hybrid cloud architecture enables enterprises to build secure, high performance environments across private and public cloud data centers. The easy-tomanage, scalable architecture keeps operational costs down, allowing users to do more with fewer resources. Security is optimized by the space-efficient Juniper Networks® SRX Series Services Gateways, which are next-generation firewalls (NGFWs) with fully integrated, cloud-informed threat intelligence that offers outstanding performance, scalability, and integrated security services. Designed for high-performance security environments and seamless integration of networking, along with advanced malware detection with Juniper Sky™ Advanced Threat Prevention (ATP), application visibility and control, and intrusion prevention on a single platform, the SRX Series firewalls are best suited for enterprise hybrid cloud deployments.
Published By: Aviatrix
Published Date: Jun 11, 2018
Join Aviatrix for a discussion of next-generation transit hubs that are purpose-built to treat the network as code, rather than as a virtualized instance of a data center router. Learn how a software-defined approach can transform your AWS transit hub design from a legacy architecture exercise into a strategic infrastructure initiative that doesn’t require you to descend into the command-line interface and BGP of the IT networking world.
As part of our fact-filled AWS Bootcamp series, Aviatrix CTO Sherry Wei and Neel Kamal, head of field operations at Aviatrix share the requirements that our most successful customers have insisted upon for their Global Transit Networks, and demonstrate the key features that deliver on those requirements.
Who Should Watch?
Anyone responsible for connectivity of cloud resources, including cloud architects, cloud infrastructure managers, cloud engineers, and networking staff.
This video describes that maturity lifecycle and the key management activities you will need to get past these tipping points, drive virtualization maturity and deliver virtualization success, at every stage of your virtualization lifecycle.
Oracle Exalogic is a standard data center building block of integrated compute, storage and network components designed to provide a ready to deploy, out of the box platform for a range of enterprise application workloads. Learn more now!
Published By: Tripp Lite
Published Date: May 15, 2018
As organizations pursue improvements in reliability and energy efficiency, power design in data centers gets substantial attention—particularly from facilities and engineering personnel. At the same time, however, many IT professionals tend to spend little time or energy on the specific products they use to deliver and distribute electrical power. In?rack power is often considered less strategically important than which servers or databases to deploy, and it is often one of the last decisions to be made in the overall design of the data center. But choosing the right in-rack power solutions can save organizations from potentially crippling downtime and deliver significant up-front and ongoing savings through improved IT efficiency and data center infrastructure management.
Published By: Equinix
Published Date: Oct 20, 2015
In real estate, the most important factor is location, location, location! Your services are not quite as sensitive to the physical position of your technology, but location certainly can be a pivotal factor in optimizing your service design and service delivery. Ideally, location shouldn’t matter; however, it does
have an e?ect on customer experience. When technology services were simpler, location was largely irrelevant, but now the complexity of new services demands a strategy more in line with your BT agenda than your former IT agenda. The e?ects of regulatory, cost, risk, and performance factors will vary based
on the physical location of your technology resources. Colocation providers, cloud service providers, and even traditional hosting services o?er plenty of evolving options to help infrastructure and operations (I&O) professionals balance these factors to optimize service design and delivery.
Application delivery services are critical for successful applications. Whether such services add scalability, reliability, or security, most applications rely on one or more. Application Delivery Controllers (ADCs), therefore, occupy a critical place in most application, cloud, and data center designs.
But what does "performance" actually mean? In general, ADC vendors publish four main types of metrics to demonstrate performance:
Requests per second (RPS) Connections per second (CPS) Transactions per second (TPS) Throughput (often measured in gigabits per second, Gbps)
Download now to learn more!
Departments of roads and highways around the world have begun to implement technology solutions to improve the safety of their highways, lessen congestion and manage traffic more efficiently. Intelligent Transport Systems (ITS), as these systems are known, require reliable, secure and scalable networks to link cameras, sensors, signage, signaling and vehicles to remote data centers and operation centers.
These networks will be deployed in harsh environments and will pose their own unique challenges to operate, maintain and manage.
In this application note, we will present the unique requirements of ITS networks and discuss how AlcatelLucent Enterprise products and technologies not only meet today’s ITS requirements, but are designed to grow and scale to meet tomorrow’s as well.
Data centers are large, important investments that, when properly designed, built, and operated, are an integral part of the business strategy driving the success of any enterprise. Yet the central focus of organizations is often the acquisition and deployment of the IT architecture equipment and systems with little thought given to the structure and space in which it is to be housed, serviced, and maintained. This invariably leads to facility infrastructure problems such as thermal “hot spots”, lack of UPS (uninterruptible power supply) rack power, lack of redundancy, system overloading and other issues that threaten or prevent the realization of the return on the investment in the IT systems.
Today's IT executives are not only expected to create and maintain high-availability IT environments, but they are also expected to implement green initiatives to satisfy customers, analysts, and government agencies that are worried about the impact of modern, energy-thirsty data centers on the environment. Is such a dual mandate reasonable? Can companies be expected to maintain service levels and reduce their carbon footprints at the same time? The White Paper offers a description of the different types of services available to improved energy efficiency data center design and a prescription for successful implementation.
Data centers are large, important investments that when properly designed, built and operated, are an integral part of the business strategy driving the success of any enterprise, yet the central focus of organizations is often the acquisition and deployment of the IT architecture equipment and systems, with little thought given to the structure and space in which it is to be housed, serviced and maintained. This invariably leads to facility infrastructure problems, such as thermal hot spots, lack of UPS, rack power, lack of redundancy, system overloading and other issues that threaten or prevent the realization of the return on the investment in the IT systems.
Data centers are large, important investments that, when properly designed, built, and operated, are an integral part of the business strategy driving the success of any enterprise. Yet the central focus of organizations is often the acquisition and deployment of the IT architecture equipment and systems with little thought given to the structure and space in which it is to be housed, serviced, and maintained.
To accommodate increasingly dense technology environments, increasingly critical business applications, and increasingly stringent service level demands, data centers are typically engineered to deliver the highest-affordable availability levels facility-wide. Within this monolithic design approach, the same levels of mechanical, electrical, and IT infrastructure are installed to support systems and applications regardless of their criticality or business risk if unplanned downtime occurs. Typically, high redundancy designs are deployed in order to provide for all eventualities. The result, in many instances, is to unnecessarily drive up both upfront construction or retro-fitting costs and ongoing operating expenses.
When considering server virtualization, planning and design are critical. How do you optimize your environment through virtualization? How do you keep your server sprawl from becoming virtual server sprawl? How will a virtualized environment help your business? Will your existing data center meet current, and future, business requirements? Answer your Questions today!
Data center administrators face a significant challenge: They need to secure the data center without compromising the performance and functionality that new data center environments enable. Many are looking to secure the data center using solutions designed for the Internet edge, but these solutions are not enough. The data center has unique requirements around provisioning, performance, virtualization, applications, and traffic that Internet-edge security devices are simply not designed to address.
Cisco's Virtualized Multi-tenant Data Center (VMDC) system defines an end-to-end architecture, which an organization may reference for the migration or build out of virtualized, multi-tenant data centers for new cloud-based service models such as Infrastructure as a Service (IaaS).
Over the last couple of years SD-WAN technology has matured into a mainstream solution. Yet, the
most appropriate migration path is not always clear. While there are many considerations to
balance during a migration, the enduring benefit of an SD-WAN architecture is simplification:
branch design, data center design, routing, edge platform choices, security choices, management.
To ensure an understanding of the fundamental concepts, let’s quickly discuss the architecture and components of SD-WAN,
and then move on to cover the best practices of various aspects of an SD-WAN migration
DatacenterDynamics is a brand of DCD Group, a global B2B media and publishing company that develops products to help senior professionals in the world's most ICT dependent organizations make risk-based infrastructure and capacity decisions.
Our portfolio of live events, online and print publishing, business intelligence and professional development brands are centred on the complexities of technology convergence. Operating in 42 different countries, we have developed a unique global knowledge and networking platform, which is trusted by over 30,000 ICT, engineering and technology professionals.
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