2,612 research outputs found
Virtual Machines and Networks - Installation, Performance Study, Advantages and Virtualization Options
The interest in virtualization has been growing rapidly in the IT industry
because of inherent benefits like better resource utilization and ease of
system manageability. The experimentation and use of virtualization as well as
the simultaneous deployment of virtual software are increasingly getting
popular and in use by educational institutions for research and teaching. This
paper stresses on the potential advantages associated with virtualization and
the use of virtual machines for scenarios, which cannot be easily implemented
and/or studied in a traditional academic network environment, but need to be
explored and experimented by students to meet the raising needs and
knowledge-base demanded by the IT industry. In this context, we discuss various
aspects of virtualization - starting from the working principle of virtual
machines, installation procedure for a virtual guest operating system on a
physical host operating system, virtualization options and a performance study
measuring the throughput obtained on a network of virtual machines and physical
host machines. In addition, the paper extensively evaluates the use of virtual
machines and virtual networks in an academic environment and also specifically
discusses sample projects on network security, which may not be feasible enough
to be conducted in a physical network of personal computers; but could be
conducted only using virtual machines
Designing a VM-level vertical scalability service in current cloud platforms: A new hope for wearable computers
The file attached to this record is the author's final peer reviewed version. The Publisher's final version can be found by following the DOI link.Public clouds are becoming ripe for enterprise adoption. Many companies, including large enterprises, are increasingly relying on public clouds as a substitute for, or a supplement to, their own computing infrastructures. On the other hand, cloud storage service has attracted over 625 million users. However, apart from the storage service, other cloud services, such as the computing service, have not yet attracted the end users’ interest for economic and technical reasons. Cloud service providers offers horizontal scalability to make their services scalable and economical for enterprises while it is still not economical for the individual users to use their computing services due to the lack of vertical scalability. Moreover, current virtualization technologies and operating systems, specifically the guest operating systems installed on virtual machines, do not support the concept of vertical scalability. In addition, network remote access protocols are meant to administer remote machines but they are unable to run the non-administrative tasks such as playing heavy games and watching high quality videos remotely in a way that makes the users feel as if they are sitting locally on their personal machines. On the other hand, the industry is yet unable to make efficient wearable computers a reality due to the limited size of the wearable devices, where it is infeasible to place efficient processors and big enough hard disks. This paper aims to highlight the need for the vertical scalability service and design the appropriate cloud, virtualization layer, and operating system services to incorporate vertical scalability in current cloud platforms in a way that will make it economically and technically efficient for the end users to use cloud virtual machines as if they are using their personal laptops. Through these services, the cloud takes wearable computing to the next stage and makes wearable computers a reality
How Virtualized Environments Affect Computer Forensics
Virtualized environments can make forensics investigation more difficult. Technological advances in virtualization tools essentially make removable media a PC that can be carried around in a pocket or around a neck. Running operating systems and applications this way leaves very little trace on the host system. This paper will explore all the newest methods for virtualized environments and the implications they have on the world of forensics. It will begin by describing and differentiating between software and hardware virtualization. It will then move on to explain the various methods used for server and desktop virtualization. Next, it will describe the fundamentals of a traditional forensic investigation and explain how virtualization affects this process. Finally, it will describe the common methods to find virtualization artifacts and identify virtual activities that affect the examination process.
Keywords: Hardware-assisted, Hypervisor, Para-virtualization, Virtual Machine, virtualization, VMware, Moka5, MojoPac, Portable Virtual Privacy Machine, VirtualBox
Survey of Desktop Virtualization in Higher Education: An Energy- and Cost-Savings Perspective
Benefits of utilizing desktop virtualization technology in higher education environments include the ability to deploy numerous applications, which may conflict on a traditional desktop, into a single image. Additionally, the utilization of thin-clients could produce substantial energy savings and reduce physical desktop replacement costs. Finally, virtualized desktops can be delivered to numerous non-enterprise devices, particularly student’s personal laptops or dorm-room computers. While there appear to be numerous benefits to desktop virtualization, there are many barriers to adoption. This paper outlines the substantial energy- and cost-savings provided through desktop virtualization in higher education. A literature review of relevant works and findings of a university implementation workgroup are presented using a case-study approach
TEACHING IN THE CLOUD MICROELECTRONICS UBIQUITOUS LAB (MULAB)
CAD laboratory students activity is mandatory for microelectronics teaching. This, applied in the deep-submicron era, creates new challenges to couple software management simplicity to user friendliness inside lab sessions, which requires the use of complex tools and concepts. In this paper, a new approach to microelectronics CAD deployment is presented, based on virtualization capabilities of new servers hardware and software technology. A test case, realized at Politecnico di Torino, degree of Electronic Engineering, is presented, with real world results on resource consumption and user satisfactio
High-Performance Cloud Computing: A View of Scientific Applications
Scientific computing often requires the availability of a massive number of
computers for performing large scale experiments. Traditionally, these needs
have been addressed by using high-performance computing solutions and installed
facilities such as clusters and super computers, which are difficult to setup,
maintain, and operate. Cloud computing provides scientists with a completely
new model of utilizing the computing infrastructure. Compute resources, storage
resources, as well as applications, can be dynamically provisioned (and
integrated within the existing infrastructure) on a pay per use basis. These
resources can be released when they are no more needed. Such services are often
offered within the context of a Service Level Agreement (SLA), which ensure the
desired Quality of Service (QoS). Aneka, an enterprise Cloud computing
solution, harnesses the power of compute resources by relying on private and
public Clouds and delivers to users the desired QoS. Its flexible and service
based infrastructure supports multiple programming paradigms that make Aneka
address a variety of different scenarios: from finance applications to
computational science. As examples of scientific computing in the Cloud, we
present a preliminary case study on using Aneka for the classification of gene
expression data and the execution of fMRI brain imaging workflow.Comment: 13 pages, 9 figures, conference pape
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