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Showing 1 - 16 of 25 white papers, page 1 of 2.
Citrix AppDNA and FlexApp: Application Compatibility Solution Analysis
Desktop computing has rapidly evolved over the last 10 years. Once defined as physical PCs, Windows desktop environments now include everything from virtual to shared hosted (RDSH), to cloud based. With these changes, the enterprise application landscape has also changed drastically over the last few years.
Desktop computing has rapidly evolved over the last 10 years. Once defined as physical PCs, Windows desktop environments now include everything from virtual to shared hosted (RDSH), to cloud based. With these changes, the enterprise application landscape has also changed drastically over the last few years.

This whitepaper provides an overview of Citrix AppDNA with Liquidware Labs FlexApp.

FlexApp: Application Layering Technology
FlexApp Application Layering in ProfileUnity enables applications to be virtualized in such an innate way that they look native to the Windows OS and other applications.
This whitepaper has been authored by experts at Liquidware to provide guidance to adopters of desktop virtualization technologies. It provides an overview of FlexApp concepts and ways in which FlexApp can serve as a cornerstone in an application delivery strategy. FlexApp Application Layering is an integrated part of ProfileUnity that enables applications to be virtualized innately so they look native to the Windows operating system (OS) and other applications. FlexApp is a perfect complement to ProfileUnity, which provides full user- environment management (UEM) with advanced features such as Application Rights Management and context-aware settings for printer and policy management. Although FlexApp is cost effectively licensed with ProfileUnity, the solution can be licensed separately if your organization has already standardized on an alternative UEM solution. Application layering leads to much higher rates of compatibility than earlier technologies, which used application isolation to virtualize applications. Once applications have been packaged for layering, they are containerized on virtual hard disks (VHDs) or virtual machine disk files (VMDKs) and can be centrally assigned to users on a machine-level or context-aware basis. FlexApp DIA (department installed applications) are compatible with virtual, physical, and Server Based Computing (SBC) environments such as Citrix XenApp and RDSH. Select users in specialized virtual desktop infrastructure (VDI) environments can also be empowered to install their own applications through a similar feature in ProfileUnity known as FlexApp user-installed applications (UIA). FlexApp DIA greatly reduces desktop administration overhead by dramatically reducing the need for traditional software distribution and a reduction in the number of base images needed to support users. FlexApp UIA was designed to make more users, including knowledge and task workers, compatible with VDI. Together, FlexApp UIA and DIA are powerful allies of VDI users and administrators.
FSLogix Apps for Citrix AppDisk Reference Architecture
App Layering and Image Masking Combined for the Most Versatile Delivery Solution on the Market! Optimizing the way applications are delivered and managed has been an ongoing challenge in enterprise IT, and the variety of approaches over the years have been received with varying degrees of success. Citrix AppDisk, when integrated with FSLogix Apps, provides a unique set of features that can improve end-user productivity, reduce IT overhead and lower the cost of desktop management.
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Optimizing the way applications are delivered and managed has been an ongoing challenge in enterprise IT, and the variety of approaches over the years have been received with varying degrees of success. While every method has pros and cons, some of the most stubborn issues include time-to-deliver, application conflicts, plug-ins and licensing. The too-frequent result is high IT overhead, too many gold images and excess spending on application licenses.

Too many companies are settling on less than optimal solutions because that is all they are presented with and they are unaware of the true state of the art for application management. It is possible to dramatically reduce the number of Windows gold images, in some cases to a single image. It is possible to deliver exactly what each and every end user needs to do their job, and nothing else. It is possible for a user to log into a random system and instantly be presented with their personal desktop, all the right applications, plugins and add-ons, the right printers, and the right fonts. It is possible and it is simple.

Citrix AppDisk, when integrated with FSLogix Apps, provides a unique set of features that can improve end-user productivity, reduce IT overhead and lower the cost of desktop management. With FSLogix patent pending Image Masking technology, AppDisk gains very granular and powerful user-based policy control over every aspect of a user’s desktop and applications, and enhances the ability to distribute applications on network attached disk images. FSLogix Apps also enable AppDisks to scale to a much greater degree than any other similar technologies available today.

This document details what is possible when FSLogix is combined with Citrix AppDisk and suggests best practices for installing and configuring the products for maximum flexibility and applicability in various environments.
The Definitive Guide to Monitoring Virtual Environments
The virtualization of physical computers has become the backbone of public and private cloud computing from desktops to data centers, enabling organizations to optimize hardware utilization, enhance security, support multi-tenancy and more. These environments are complex and ephemeral, creating requirements and challenges beyond the capability of traditional monitoring tools that were originally designed for static physical environments. But modern solutions exist, and can bring your virtual env

OVERVIEW

The virtualization of physical computers has become the backbone of public and private cloud computing from desktops to data centers, enabling organizations to optimize hardware utilization, enhance security, support multi-tenancy and more. These environments are complex and ephemeral, creating requirements and challenges beyond the capability of traditional monitoring tools that were originally designed for static physical environments. But modern solutions exist, and can bring your virtual environment to new levels of efficiency, performance and scale.

This guide explains the pervasiveness of virtualized environments in modern data centers, the demand these environments create for more robust monitoring and analytics solutions, and the keys to getting the most out of virtualization deployments.

TABLE OF CONTENTS

·        History and Expansion of Virtualized Environments

·        Monitoring Virtual Environments

·        Approaches to Monitoring

·        Why Effective Virtualization Monitoring Matters

·        A Unified Approach to Monitoring Virtualized Environments

·        5 Key Capabilities for Virtualization Monitoring

o   Real-Time Awareness

o   Rapid Root-Cause Analytics

o   End-to-End Visibility

o   Complete Flexibility

o   Hypervisor Agnosticism

·        Evaluating a Monitoring Solution

o   Unified View

o   Scalability

o   CMDB Support

o   Converged Infrastructure

o   Licensing

·        Zenoss for Virtualization Monitoring

IGEL Powers Rich Multimedia Computing Experience for Fulton Financial Corporation
In an effort to optimize the productivity of its employees and enable them to have more time to focus on their customers, Fulton sought to upgrade the thin clients for its Citrix application virtualization infrastructure. With the help of its Citrix partner and IGEL Platinum Partner, Plan B Technologies, Fulton selected the IGEL Universal Desktop (UD6) thin clients featuring Intel Celeron J1900 Quad-Core processors and the IGEL Universal Management Suite (UMS).

Fulton Financial Corporation has a long and storied history that began in 1882 in Lancaster, Pennsylvania, where local merchants
and farmers organized Fulton National Bank. The bank’s name was chosen to honor Lancaster County native Robert Fulton, the inventor and artist best known for designing and building the Clermont, the first successful steamboat.

In an effort to optimize the productivity of its employees and enable them to have more time to focus on their customers, Fulton sought to upgrade the thin clients for its Citrix application virtualization infrastructure, with the help of its Citrix partner and IGEL Platinum Partner, Plan B Technologies.

In selecting a desktop computing solution to support its Citrix application virtualization infrastructure, Fulton had one unique business requirement, they were looking for a solution that would mirror the experience provided by a Windows PC, without actually being a Windows PC.

During the evaluation process, Fulton looked at thin clients from IGEL and another leading manufacturer, conducting a “bake-off” of several models including the IGEL Universal Desktop (UD6). Fulton like the fact that IGEL is forward- thinking in designing its desktop computing solutions, and began its IGEL roll-out by purchasing 2,300 IGEL UD6 thin clients in 2016 for its headquarters and branch offices, and plans to complete the roll out of IGEL thin clients to the remainder of its 3,700 employees in the coming months. The bank is also leveraging the IGEL Universal Management Suite (UMS) to manage its fleet of IGEL thin clients.

Ease of Management and Flexibility Lead to Long-Term Relationship for IGEL at Texas Credit Union
Randolph-Brooks Federal Credit Union was looking for a more powerful endpoint computing solution to deliver e-mail and core financial applications through its Citrix-based infrastructure to its end-users, and IGEL’s Universal Desktop thin clients and Universal Management Suite (UMS) software fit the bill.

Randolph-Brooks Federal Credit Union is more than just a bank. It is a financial cooperative intent on helping its members save time, save money and earn money. Over the years, the credit union has grown from providing financial resources to military service members and their families to serving hundreds of thousands of members across Texas and around the world. RBFCU has a presence in three major market areas — Austin, Dallas and San Antonio — and has more than 55 branches dedicated to serving members and the community.

First and foremost, RBFCU is people. It’s the more than 1,800 employees who serve members’ needs each day. It’s the senior team and Board of Directors that guide the credit union’s growth. It’s the members who give their support and loyalty to the credit union each day.

To help its employees provide the credit union’s members with the highest levels of services and support, Randolph-Brooks Federal Credit Union relies on IGEL’s endpoint computing solutions.

Austin Solution Provider Powers DaaS Offering with IGEL and Parallels
In 2014, Austin-based Trinsic Technologies introduced Anytime Cloud. Anytime Cloud is a Desktop-as-a-Service (DaaS) solution designed to help SMB clients improve the end user computing experience and streamline business operations. Through Anytime Cloud, customers gain access to the latest cloud and virtualization technologies using IGEL thin clients with Parallels, a virtual application and desktop delivery software application.

Headquartered in Austin, Texas, Trinsic Technologies is a technology solutions provider focused on delivering managed IT and cloud solutions to SMBs since 2005.

In 2014, Trinsic introduced Anytime Cloud, a Desktop-as-a-Service (DaaS) designed to help SMB clients improve the end user computing experience and streamline business operations. To support Anytime Cloud, the solution provider was looking for a desktop delivery and endpoint management solution that would fulfill a variety of different end user needs and requirements across the multiple industries it serves. Trinsic also wanted a solution that provided ease of management and robust security features for clients operating within regulated industries such as healthcare and financial services.

The solution provider selected the IGEL Universal Desktop (UD) thin clients, the IGEL Universal Desktop Converter (UDC), the IGEL OS and the IGEL Universal Management Suite. As a result, some of the key benefits Trinsic has experienced include ease of management and configuration, security and data protection, improved resource allocation and cost savings.

Ovum: Igel's Security Enhancements for Thin Clients
Thin client vendor Igel is enhancing the security capabilities of its products, both under its own steam and in collaboration with technology partners. Ovum sees these developments as important for the next wave of thin client computing, which will be software-based – particularly if the desktop-as-a-service (DaaS) market is to take off.

With hardware-based thin client shipments in the region of 4–5 million units annually, this market is still a drop in the ocean compared to the 270 million PCs shipping each year, though the latter figure has been declining since 2011. And within the thin client market, Igel is in fourth place behind Dell and HP (each at around 1.2 million units annually) and China’s Centerm, which only sells into its home market.

However, the future for thin clients looks bright, in that the software-based segment of the market  (which some analyst houses refuse to acknowledge) is expanding, particularly for Igel. Virtual desktop infrastructure (VDI) technology has stimulated this growth, but the greatest promise is probably in the embryonic DaaS market, whereby enterprises will have standard images for their workforce hosted by service providers.

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
IT Infrastructure Risk Management
When implementing new IT infrastructure there are always risks. These risks include under-provisioning or over-provisioning, hardware incompatibility, software incompatibility, network issues and outages, migration issues, downtime, disaster recovery, vendor reliability, and unexpected costs. These risks can be inflated when ripping and replacing an entire infrastructure, but that doesn’t have to be the case. Hyperconverged infrastructure solutions like HC3 from Scale Computing can reduce or eve
When implementing new IT infrastructure there are always risks. These risks include under-provisioning or over-provisioning, hardware incompatibility, software incompatibility, network issues and outages, migration issues, downtime, disaster recovery, vendor reliability, and unexpected costs. These risks can be inflated when ripping and replacing an entire infrastructure, but that doesn’t have to be the case. Hyperconverged infrastructure solutions like HC3 from Scale Computing can reduce or even eliminate risks that have become common with traditional virtualization infrastructure.
Hyperconverged Infrastructure: A Brief Introduction
The term hyperconverged infrastructure (HCI) has become an industry buzzword that has been applied to a number of different new computing technologies. The misuse of the term has caused confusion for many IT professionals looking at HCI as an infrastructure solution. In this document we will shed some light on what HCI really means and why it might be the right IT solution for you.
The term hyperconverged infrastructure (HCI) has become an industry buzzword that has been applied to a number of different new computing technologies. The misuse of the term has caused confusion for many IT professionals looking at HCI as an infrastructure solution. In this document we will shed some light on what HCI really means and why it might be the right IT solution for you.
Disaster Recovery Strategies with Scale Computing
Disaster recovery is a concept that asks the question, “How can an organization survive and respond to a wide variety of threats ranging from small hiccups to catastrophic destruction?” The threats to ongoing operations range from human error to malicious attacks to natural disasters. Organizations need to prepare in ways that involve both human and technological response. Technology is an important part of any organization. At Scale Computing, we recognize that in today’s 24/7 marketplace, IT i
Disaster recovery is a concept that asks the question, “How can an organization survive and respond to a wide variety of threats ranging from small hiccups to catastrophic destruction?” The threats to ongoing operations range from human error to malicious attacks to natural disasters. Organizations need to prepare in ways that involve both human and technological response. Technology is an important part of any organization. At Scale Computing, we recognize that in today’s 24/7 marketplace, IT infrastructure must be both resilient and highly available to keep organizations operational.

In our HC3 architecture, keeping in mind our typical simplicity and ease of use, we have built-in a number of disaster recovery capabilities. These allow our users to recover quickly from a variety of disasters that may affect anywhere from a single file to an entire site. Disaster recovery is often planned for and measured in terms of recovery point objective (RPO) and recovery time objective (RTO). HC3 provides features to achieve both RPO and RTO measured in minutes to minimize both downtime and data loss.
How HC3 Lowers the Total Cost of Ownership
When considering a new IT infrastructure solution, the acquisition cost of the hardware and software to standup the infrastructure is only the starting point for cost analysis. It is important to look into the operational costs of deployment, training, licensing, scale out, downtime, and management. All of these considerations contribute to the total cost of ownership (TCO) of the solution.
When considering a new IT infrastructure solution, the acquisition cost of the hardware and software to standup the infrastructure is only the starting point for cost analysis. It is important to look into the operational costs of deployment, training, licensing, scale out, downtime, and management. All of these considerations contribute to the total cost of ownership (TCO) of the solution.

This document will dive into the TCO of the Scale Computing HC3 infrastructure solution and discuss how it compares to traditional architecture models. The combined considerations of different areas of costs will give a broader and more complete picture of how HC3 affects IT costs. With a focus on serving small and midmarket IT, Scale Computing is committed to making virtualization infrastructure both accessible and affordable for any size organization.
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).
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.
HC3, SCRIBE and HyperCore Theory of Operations
This document is intended to describe the technology, concepts and operating theory behind the Scale Computing HC3 System (Hyper-converged Compute Cluster) and the HyperCore OS that powers it, including the SCRIBE (Scale Computing Reliable Independent Block Engine) storage layer.
This document is intended to describe the technology, concepts and operating theory behind the Scale Computing HC3 System (Hyper-converged Compute Cluster) and the HyperCore OS that powers it, including the SCRIBE (Scale Computing Reliable Independent Block Engine) storage layer.