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Showing 33 - 48 of 53 white papers, page 3 of 4.
The Next Generation VDI Reference Architecture on Cloudistics Ignite
Desktop and application virtualization is one of the primary ways how businesses reduce CapEx and OpEx, improve time to market, efficiency, increase control, and expand connectivity. VDI enables users to now access their desktops hosted in a data center server as virtual machines, which can be accessed from laptops and thin clients. Although desktop virtualization has existed for many years, many implementers of the technology have discovered that significant hurdles need to be overcome to fully

Desktop and application virtualization is one of the primary ways how businesses reduce CapEx and OpEx, improve time to market, efficiency, increase control, and expand connectivity. VDI enables users to now access their desktops hosted in a data center server as virtual machines, which can be accessed from laptops and thin clients. Although desktop virtualization has existed for many years, many implementers of the technology have discovered that significant hurdles need to be overcome to fully reap its benefits.

This document defines a set of architectural blocks for building a multitenant, Virtual Desktop Infrastructure in and application services on the Cloudistics platform.
This document includes 2 major sections:

  • VDI Solution Architecture
  • Overview of Cloudistics Ignite Platform Components (Appendix A)
The primary goal of this VDI architecture is to enable service providers and IT departments to create secure, scalable, and reliable desktop hosting solution offers for small- and medium-sized organizations ranging from 500 to 1,000 users. The intended audience is hosting providers, and IT departments who want to leverage the Cloudistics infrastructure services to deliver desktop hosting services to multiple tenants.

To deliver a desktop hosting solution, service provider partners can leverage Windows Server and the Windows Desktop Experience feature to deliver Windows users a highly performant application experience that is familiar to business users and consumers.

The Next Generation Clusterless Federation Design in the Cloudistics Cloud Platform
Is there another way to manage your VMs? Yes, the introduction of the Cloudistics Cloud Platform has an innovative approach – non-clustered (or clusterless) federated design.The clusterless federation of the Cloudistics Cloud platform uses categories and tags to characterize computer nodes, migration zones, and storage groups (or blocks). With these benefits: ⦁ Node Limits Are A Thing of the Past. ⦁ Locking limitations are removed. ⦁ Flexibility is Enhanced. ⦁ Ladders of Latency are Removed. ⦁

This paper is written in the context of modern virtualized infrastructures, such as VMware or Nutanix. In such systems, a hypervisor runs on each compute node creating multiple virtual machines (VMs) per compute node. A guest OS runs inside each VM.

Data associated with each VM is stored in one or more virtual disks (vDisks). A virtual disk appears like a local disk, but can be mapped to physical storage in many ways as we will discuss.

Virtualized infrastructures use clustering to provide for non-disruptive VM migration between compute nodes, for load balancing across the nodes, for sharing storage, and for high availability and failover. Clustering is well known and has been used to build
computer systems for a long time. However, in the context of virtualized infrastructures, clustering has a number of significant limitations. Specifically, as we explain below, clusters limit scalability, decrease resource efficiency, hurt performance, reduce flexibility and impair manageability.

In this paper, we will present an innovative alternative architecture that does not have these limitations of clustering. We call our new approach clusterless federation and it is the approach used in the Cloudistics platform.

The rest of this paper is organized as follows. In Section 2, we describe the limitations of clustering and in Section 3, we drive the point home by using the specific example of VMware; other virtualized systems are similar. In Section 4, we present the clusterless federated approach and show how it avoids the limitations of clustering. We summarize in Section 5.

Does Deploying Citrix in the Cloud Make Performance Monitoring Easier?
Organizations now have a variety of cloud-based options for delivering virtualized applications and desktops. Cloud deployments are fast, involve lower hardware footprint and simplify IT operations. A key question to answer in this context is whether Citrix Cloud services make performance monitoring easier than it was for on-premises deployments. Read this white paper and find out how to implement monitoring for Citrix Cloud environments.

The technology of cloud computing has caught up with virtual desktop infrastructures. Tapping into the agility and flexibility of cloud-hosted infrastructures, Citrix Cloud enables organizations to simplify digital workspace delivery. With many of the critical components of the Citrix delivery infrastructure hosted in the cloud and managed by Citrix, organizations can speed up deployment, lower hardware footprint, increase ROI, simplify IT operations. Despite the many benefits of Citrix Cloud, the performance management challenges still persist, just as they do in traditional on-premises Citrix deployments.

Read this eG Innovations white paper, and understand:

  • The two popular Citrix Cloud deployment options
  • Performance monitoring challenges in Citrix Cloud infrastructures
  • Stakeholders involved and their respective domains of responsibility
  • The various monitoring tools and options available
  • Best practices to set up performance monitoring
Application Lifecycle Management with Stratusphere UX
Enterprises today are faced with many challenges, and among those at the top of the list is the struggle surrounding the design, deployment, management and operations that support desktop applications. The demand for applications is increasing at an exponential rate, and organizations are being forced to consider platforms beyond physical, virtual and cloud-based environments.
Enterprises today are faced with many challenges, and among those at the top of the list is the struggle surrounding the design, deployment, management and operations that support desktop applications. The demand for applications is increasing at an exponential rate, and organizations are being forced to consider platforms beyond physical, virtual and cloud-based environments. Users have come to expect applications to ‘just work’ on whatever device they have on hand. Combined with the notion that for many organizations, workspaces can be a mix of various delivery approaches, it is vital. to better understand application use, as well as information such as versioning, resource consumption and application user experience. This whitepaper defines three major lifecycle stages—analysis, user experience baselining and operationalization―each of which is composed of several crucial steps. The paper also provides practical use examples that will help you create and execute an application-lifecycle methodology using Stratusphere UX from Liquidware.
Optimizing Performance for Office 365 and Large Profiles with ProfileUnity ProfileDisk
Managing Windows user profiles can be a complex and challenging process. Better profile management is usually sought by organizations looking to reduce Windows login times, accommodate applications that do not adhere to best practice application data storage, and to give users the flexibility to login to any Windows Operating System (OS) and have their profile follow them.

Managing Windows user profiles can be a complex and challenging process. Better profile management is usually sought by organizations looking to reduce Windows login times, accommodate applications that do not adhere to best practice application data storage, and to give users the flexibility to login to any Windows Operating System (OS) and have their profile follow them. Note that additional profile challenges and solutions are covered in a related ProfileUnity whitepaper entitled “User Profile and Environment Management with ProfileUnity.” To efficiently manage the complex challenges of today’s diverse Windows profile environments, Liquidware ProfileUnity exclusively features two user profile technologies that can be used together or separately depending on the use case.

These include:

1. ProfileDisk, a virtual disk based profile that delivers the entire profile as a layer from an attached user VHD or VMDK, and

2. Profile Portability, a file and registry based profile solution that restores files at login, post login, or based on environment triggers.

High Availability Clusters in VMware vSphere without Sacrificing Features or Flexibility
This paper explains the challenges of moving important applications from traditional physical servers to virtualized environments, such as VMware vSphere in order to take advantage of key benefits such as configuration flexibility, data and application mobility, and efficient use of IT resources and highlights six key facts you should know about HA protection in VMware vSphere environments that can save you money.

Many large enterprises are moving important applications from traditional physical servers to virtualized environments, such as VMware vSphere in order to take advantage of key benefits such as configuration flexibility, data and application mobility, and efficient use of IT resources.

Realizing these benefits with business critical applications, such as SQL Server or SAP can pose several challenges. Because these applications need high availability and disaster recovery protection, the move to a virtual environment can mean adding cost and complexity and limiting the use of important VMware features. This paper explains these challenges and highlights six key facts you should know about HA protection in VMware vSphere environments that can save you money.

Achieve Secure Cloud Printing for Microsoft Office 365 and Azure
The Microsoft Azure platform offers an open and scalable Cloud computing platform as a service, providing a highly available Virtual Machine (VM) Cloud service payable on a monthly fee. For subscribers, critical services and server functions can now be moved with relative ease but what about printing, how realistic is that? This paper explores the topic further and considers what happens when subscribers elect to migrate everything, including print servers, offsite into the Cloud and pitfalls to
The Microsoft Azure platform offers an open and scalable Cloud computing platform as a service, providing a highly available Virtual Machine (VM) Cloud service payable on a monthly fee. For subscribers, critical services and server functions can now be moved with relative ease but what about printing, how realistic is that? Users are struggling with print file sizes and resultant bandwidth issues, not to mention security and compliance concerns. This paper explores the topic further and considers what happens when subscribers elect to migrate everything, including print servers, offsite into the Cloud and pitfalls to avoid.
Solving the Top 5 Virtualized Application and Infrastructure Problems
In this Uila sponsored white paper, David Davis talks about the Top 5 Virtualized Application and Infrastructure Problems and how to solve them.

You’ve virtualized your company’s most critical applications (or are about to) but you might have found that the virtual world is much more complicated than the physical world when the unexpected inevitably happens. So how do you prevent application performance problems and how do you troubleshoot application performance issues when they do happen? 

Learn the solutions to the top virtualization application problems BEFORE your critical applications go down in this white paper by David Davis from ActualTech Media.

Data Protection Overview and Best Practices
This white paper works through data protection processes and best practices using the Tintri. Tintri technology is differentiated by its level of abstraction—the ability to take every action on individual virtual machines.
This white paper works through data protection processes and best practices using the Tintri. Tintri technology is differentiated by its level of abstraction—the ability to take every action on individual virtual machines. In this paper, you’ll:

1) Learn how that greatly increases the precision and efficiency of snapshots for data protection
2) Explore the ability to move between recovery points
3) Analyze the behavior of individual virtual machines
4) Predict the need for additional capacity and performance for data protection

If you’re focused on building a successful data protection solution, this document targets key best practices and known challenges. Hypervisor administrators and staff members associated with architecting, deploying and administering a data protection and disaster recovery solution will want to dig into this document to understand how Tintri can save them the majority of their management effort and greatly reduce operating expense.
Essential Guide to Storage for Virtual Desktops
Topics: Tintri, VDI
"What are the 7 criteria you need to weigh when choosing storage for VDI? What 3 lessons can you learn from VDI failures? The Essential Guide to Storage for VDI has those answers and more. We designed this practical guide to get you thinking. We peppered it with anecdotes from your peers—sharing their failures and learnings, so you’ll be prepared to succeed."
What are the 7 criteria you need to weigh when choosing storage for VDI? What 3 lessons can you learn from VDI failures? The Essential Guide to Storage for VDI has those answers and more.

We designed this practical guide to get you thinking. We peppered it with anecdotes from your peers—sharing their failures and learnings, so you’ll be prepared to succeed.
Cisco UCS B-Series Best Practice & Deployment Guide
Topics: Tintri, Cisco UCS
This guide describes the Tintri best practices for a UCS environment with VMware. Tintri recommends cabling the VMstore such that one port on each controller is configured on each UCS fabric. Fabric A is configured to preferentially carry storage traffic under normal operating conditions.
Cisco UCS B-Series Blade Servers are a popular server choice. A typical UCS configuration includes a Fabric Interconnect (FI) with two separate fabrics, and there are some important considerations for configuring Tintri VMstore storage systems in the UCS environment.

This guide describes the Tintri best practices for a UCS environment with VMware. Tintri recommends cabling the VMstore such that one port on each controller is configured on each UCS fabric. Fabric A is configured to preferentially carry storage traffic under normal operating conditions.

Distributed virtual switching (dvSwitch) is described as the best practice for switching in the VMware environment. However, a separate appendix describes the configuration of vstandard switching.

Additional appendices describe design considerations for LACP, native VLAN use, and jumbo frames as well as configuration for the Cisco Nexus 5K switch.
Application & Desktop Delivery for Dummies
In this book, you learn how solutions, such as Parallels Remote Application Server (RAS), replace traditional application deployment with on-demand application delivery, and why it's right for your organization.
Applications are essential to the businesses and organizations of all sizes and in all industries. End-users need to have continuous and reliable access to their applications whether working in the office or remotely, at any time of the day or night, and from any device. With the advent of cloud computing, office desktops with installed applications (that had to be constantly updated) have become a thing of the past — application streaming, virtual desktop infrastructure (VDI), and hosted applications are the future (and the present, for that matter). Application virtualization is an easy way to manage, distribute, and maintain business applications. Virtualized applications run on a server, while end-users view and interact with their applications over a network via a remote display protocol. Remote applications can be completely integrated with the user’s desktop so that they appear and behave like local applications. Today, you can dynamically publish applications to remote users in several ways. The server-based operating system (OS) instances that run remote applications can be shared with other users (a terminal services desktop), or the application can be running on its own OS instance on the server (a VDI desktop).
Switch to Parallels Remote Application Server and Save 60% Compared to Citrix XenApp
This article will explain how Parallels Remote Application Server can easily act as a business’s desktop and application delivery solution, offering the same qualities as other leading solutions such as Citrix XenApp, but at an entirely different and affordable price. As a result, companies who opt to use Parallels Remote Application Server could save up to 60%, while gaining added flexibility and maneuverability for their devices.
A few years ago, Citrix had two separate products for its virtualization solutions: XenApp and XenDesktop. In 2016, Citrix merged them into a single product; XenDesktop 7. The change was not well received by Citrix customers, and Citrix has split them again into XenApp and XenDesktop from version 7.5 onward. The major difference between XenApp and XenDesktop is the type of virtual desktop delivered to the user. XenDesktop includes all XenApp features and also has a VDI solution, so from this point on we will use the XenDesktop term in this document to refer to Citrix virtualization solution: published applications and virtual desktop infrastructure. Although XenDesktop is the most popular solution in the industry, it has several shortcomings coupled with a very expensive price tag. Due to migration from Independent Management Architecture (IMA) to Flexcast Management Architecture (FMA), there is no option in place to upgrade to XenDesktop 7.x from previous versions of XenApp (5 or 6.X). Therefore, now is the right time to jump ship. In this white paper, we examine how migrating to Parallels Remote Application Server can reduce the costs of an application and virtual desktop delivery solution by more than 60%. Parallels RAS is an easy-to-use, scalable application and desktop delivery solution which has the lowest total cost of ownership amongst its competitors. Considered an industry underdog by many, Parallels Remote Application Server has been in the industry since 2005, and many Citrix customers have already switched to Parallels RAS.
Parallels RAS and Microsoft Office 365: Deliver a Superior, Cloud-Optimized Employee Experience
When used together, Parallels Remote Application Server (RAS) and Microsoft deliver an enhanced method for employees to access Office 365. With increased security and management options, Parallels RAS delivers a superior employee experience on any device or platform—anywhere.
Microsoft Office 365 is fast becoming the industry standard, with companies rushing to adopt the solution to maximize flexibility and bring down budget costs. However, the online version lacks certain features to maximize the end-user experience and improve employee productivity. This is where a comprehensive, affordable virtualization can be useful. When used together, Parallels Remote Application Server (RAS) and Microsoft deliver an enhanced method for employees to access Office 365. With increased security and management options, Parallels RAS delivers a superior employee experience on any device or platform—anywhere.
How Parallels Remote Application Server Enhances Microsoft RDS
The revolutionary potential of remote desktops is just being tapped. This article will illustrate how remote desktops can help companies work more efficiently and effectively, reducing costs and harmoniously integrating solutions such as thin clients. In addition, by delivering applications and data straight to thin clients, remote desktops simplify digital policies by centralizing data directly onto the company’s server.
In 2001, Microsoft introduced the RDP protocol, a proprietary protocol that allowed users to access an operating system’s desktop remotely. Since then, Microsoft has come a long way, developing Remote Desktop Services to facilitate remote desktop access. Formerly known as Terminal Services, RDS consists of a number of tools and services that allow businesses to build an application and virtual desktop delivery solution that their users can access remotely. However, the Microsoft RDS solution leaves a lot to be desired. This white paper looks at the pain points of Microsoft RDS solutions, and how systems administrators can use Parallels® Remote Application Server to enhance their RDS infrastructure and provide the functionality their businesses need to give their users the flexibility they need to be more productive.
HyperCore-Direct: NVMe Optimized Hyperconvergence
Scale Computing’s award winning HC3 solution has long been a leader in the hyperconverged infrastructure space. Now targeting even higher performing workloads, Scale Computing is announcing HyperCore-Direct, the first hyperconverged solution to provide software defined block storage utilizing NVMe over fabrics at near bare-metal performance.
Scale Computing’s award winning HC3 solution has long been a leader in the hyperconverged infrastructure space. Now targeting even higher performing workloads, Scale Computing is announcing HyperCore-Direct, the first hyperconverged solution to provide software defined block storage utilizing NVMe over fabrics at near bare-metal performance. In this whitepaper, we will showcase the performance of a Scale HyperCore-Direct cluster which has been equipped with Intel P3700 NVMe drives, as well as a single-node HyperCore-Direct system with Intel Optane P4800X NVMe drives. Various workloads have been tested using off-the-shelf Linux and Windows virtual machine instances. The results show that HyperCore-Direct’s new NVMe optimized version of SCRIBE, the same software-defined- storage powering every HC3 cluster in production today, is able to offer the lowest latency per IO delivered to virtual machines.