Windows 10 requires 32% more graphics consumption than Windows 7, which means in a virtual desktop environment, the end user experiences slow performance, and applications that won’t launch.
When the OS is deployed using graphics processing units (GPUs) these additional processing requirements can be offloaded, enhancing overall performance.
Download this white paper to learn 4 ways GPUs can help improve your Windows 10 deployments in a virtualized environment.
At a projected market of over $4B by 2010 (Goldman Sachs), virtualizationhas firmly established itself as one of the most importanttrends in Information Technology. Virtualization is expectedto have a broad influence on the way IT manages infrastructure.Major areas of impact include capital expenditure and ongoingcosts, application deployment, green computing, and storage.
The idea of load balancing is well defined in the IT world: A network device accepts traffic on behalf ofa group of servers, and distributes that traffic according to load balancing algorithms and the availabilityof the services that the servers provide. From network administrators to server administrators to applicationdevelopers, this is a generally well understood concept.
Effective workload automation that provides complete management level visibility into real-time events impacting the delivery of IT services is needed by the data center more than ever before. The traditional job scheduling approach, with an uncoordinated set of tools that often requires reactive manual intervention to minimize service disruptions, is failing more than ever due to todays complex world of IT with its multiple platforms, applications and virtualized resources.
WAN edge infrastructure is changing rapidly as I&O leaders responsible for networking face dynamic business requirements, including new application architectures and on-premises and cloud-based deployment models. I&O leaders can use this research to identify vendors that best fit their requirements. By year-end 2023, more than 90% of WAN edge infrastructure refresh initiatives will be based on virtualized customer premises equipment (vCPE) platforms or software-defined WAN (SD-WAN) software/appliances versus traditional routers (up from less than 40% today).
Today’s idea-driven economy calls for a simpler, faster virtualization solution—one that can be managed by one IT generalist vs. numerous IT specialists. Enter HPE Hyper Converged 380, an advanced, virtualized system from Hewlett Packard Enterprise. Based on the HPE ProLiant DL380 Gen9 Server, this enterprise-grade VM vending machine enables you to quickly deploy VMs, simplify IT operations, and reduce overall costs like no other hyperconverged system available today.
Published By: Dell EMC
Published Date: Oct 13, 2016
Dell EMC is the world market leader in converged infrastructure and converged solutions. Through Dell EMC Converged Infrastructure and Solutions Dell EMC accelerates the adoption of converged infrastructure and cloud-based computing models that reduce IT costs while improving time to market. Dell EMC delivers the industry’s only fully integrated and virtualized cloud infrastructure systems, allowing customers to focus on business innovation instead of integrating, validating, and managing IT infrastructure. VCE solutions are available through an extensive partner network.
Hyperconverged infrastructure is radically shaking up the IT landscape, creating huge operational and economic benefits. Tier 1 applications such as Exchange, SQL Server, Oracle and others are among the many beneficiaries of this new generation of infrastructure. However, there are many vendors jumping on the market bandwagon, and not all systems that are marketed as hyperconverged really fit the criteria. IT organizations need to do their homework to ensure they are selecting true hyperconverged solutions.
Published By: Commvault
Published Date: Jul 06, 2016
Today, nearly every datacenter has become heavily virtualized. In fact, according to Gartner as many as 75% of X86 server workloads are already virtualized in the enterprise datacenter. Yet even with the growth rate of virtual machines outpacing the rate of physical servers, industry wide, most virtual environments continue to be protected by backup systems designed for physical servers, not the virtual infrastructure they are used on. Even still, data protection products that are virtualization-focused may deliver additional support for virtual processes, but there are pitfalls in selecting the right approach.
This paper will discuss five common costs that can remain hidden until after a virtualization backup system has been fully deployed.
Virtualization has transformed the data center over the past decade. IT departments use virtualization to consolidate multiple server workloads onto a smaller number of more powerful servers. They use virtualization to scale existing applications by
adding more virtual machines to support them, and they deploy new applications without having to purchase additional servers to do so. They achieve greater resource utilization by balancing workloads across a large pool of servers in real time—and they respond more quickly to changes in workload or server availability by moving virtual machines between physical servers. Virtualized environments support private clouds on which application engineers can now provision their own virtual servers and networks in environments that expand and contract on demand.
Protecting your business-critical applications without impacting performance is proving ever more challenging in the face of unrelenting data growth, stringent recovery service level agreements (SLAs) and increasingly virtualized environments. Traditional approaches to data protection are unable to cost-effectively deliver the end-to-end availability and protection that your applications and hypervisors demand. A faster, easier, more efficient, and reliable way to protect data is needed.
Organizations looking to implement desktop and app virtualization traditionally play a guessing game where storage is concerned. When considering local and physical storage, determining what would be necessary for the virtualized world is difficult and can be overwhelming. This is especially true when determining how virtualizing desktops will impact the storage architecture. Organizations risk over sizing their environment thereby wasting CapEx, or under-sizing and potentially ruining the user experience. Software-defined storage solutions, such as VMware Virtual SAN, provide simplified solutions with high performance data stores that offer fine-grained scalability with linearly-predictable performance as demand grows. Dell’s validated and certified desktop virtualization solutions incorporate vSphere and Virtual SAN, and provide a complete end-to-end solution that allows companies to grow and expand without large capital investments in SAN hardware.
Over the last decade, converged infrastructure (CI) solutions have been used to implement virtualized infrastructure over a three-tier
configuration that is packaged, sold and supported as a single entity. In place of three separate vendors supplying and supporting the three tiers, with CI, customers gain faster ordering, less problem-prone deployment and less administrator burden.
A related recent development in the data center is converged infrastructure (CI). Instead of the traditional silo deployment approach to storage, compute, and network resources, all infrastructure elements are delivered and managed in a single environment, providing virtualized access to business services in an efficient manner. This is particularly suitable for cloud-based delivery models. However, since CI achieves lower costs through optimization of data center resources, it can be effective for all IT organizations, regardless of the way in which the services are managed or presented.
Published By: Riverbed
Published Date: Jan 25, 2018
To stay ahead in today's hybrid network, you need a lens into the end user's experience as well as an understanding of the dependencies between your applications and network. With this approach, you are alerted to issues before the business is impacted and problems are resolved faster. This eBook details what you need to know to select a best of breed network performance management solution and outlines the critical capabilities required for deep application visibility across virtualized, hybrid and cloud networks no matter where a user is located. Read this book and:
Discover best practices - for proactive network monitoring and fast troubleshooting
Learn how to stay ahead of application performance issues with increased visibility
Increase productivity and a higher ROI - with automatic discovery, end-to-end monitoring, reporting, analytics and faster MTTR
Ensure your approach is a proactive mode
Published By: Dell EMC
Published Date: Nov 04, 2016
According to recent ESG research, 70% of IT respondents indicated they plan to invest in HCI over the next 24 months. IT planners are increasingly turning toward HyperConverged Infrastructure (HCI) solutions to simplify and speed up infrastructure deployments, ease day-to-day operational management, reduce costs, and increase IT speed and agility.
HCI consists of a nodal-based architecture whereby all the required virtualized compute, storage, and networking assets are self-contained inside individual nodes. These nodes are, in effect, discrete virtualized computing resources “in a box.” However, they are typically grouped together to provide resiliency, high performance, and flexible resource pooling. And since HCI appliances can scale out to large configurations over time, these systems can provide businesses with investment protection and a simpler, more agile, and cost-effective way to deploy virtualized computing infrastructure. Read this paper to learn more.
Published By: Dell EMC
Published Date: Nov 10, 2015
No matter how advanced data centers may become, they remain in a perpetual state of change in order to meet the demands of virtualized environments. But with the advent of software-defined storage (SDS) architecture, capabilities associated with hyperconverged technologies (including compute, storage, and networking), help data centers meet virtualization requirements with less administrator intervention at webscale.
To run a truly efficient private cloud, the enterprise must have clear visibility into operations, applications, and costs, no matter how heterogeneous the underlying virtualized environment. Read on to learn how to build the ties that bind the private cloud infrastructure to what the business needs.
Data is the lifeblood of your business. To compete in today’s global information economy, you need to keep your IT systems up and running and provide consistent and reliable access to
business-critical applications at all times. Application downtime or slow performance can mean diminished employee productivity, dissatisfied customers, and lost revenue.
But keeping pace with change and managing growth can be a real challenge. Increasing numbers of applications, evolving technology, and rapid data growth are pushing older IT
infrastructure to the limit—demanding more storage and bandwidth, greater security and agility, and higher availability than ever before.
" One thing is clear: the old way of running IT just won’t work in the new business environment.Truth is, preparing your IT department (and your company) to be agile, cost-efficient, metrics-driven, and flexible will require a change in how you operate. To support new business processes, you would do well to turn to a converged system, like HP ConvergedSystem for Virtualization.
In this paper, we look at the greatest challenges faced by IT departments, and how traditional configurations, processes, and organizations are poorly-equipped to handle today’s workplace. We discuss the benefits of converged systems that are engineered to handle virtualized workloads. Finally, we look at HP ConvergedSystem for Virtualization as a simple and effective way for businesses to optimize their data center infrastructure
and processes to better meet business needs."
Published By: Webroot
Published Date: Nov 02, 2012
This paper examines the different endpoint security methods for virtualized environments and presents how Webroot® SecureAnywhereTM Business - Endpoint Protection security provides optimal performance, protection and manageability.