The Experts below are selected from a list of 144 Experts worldwide ranked by ideXlab platform
Kenneth Van Surksum - One of the best experts on this subject based on the ideXlab platform.
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Release: Vmware Workstation 11 and Vmware Player 7 Pro
2014Co-Authors: Kenneth Van SurksumAbstract:On October 1st Vmware announced the upcoming features for Workstation version 11 and Player Pro version 7. Today Vmware released both version making them generally ...
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Release: Vmware Player 4.0/ACE 2.7.5
2011Co-Authors: Kenneth Van SurksumAbstract:Last month Vmware released version 8.0 of Workstation, and while normally in line with Workstation, no update of Player or ACE was released. Now Vmware ...
ともやん Nakayama - One of the best experts on this subject based on the ideXlab platform.
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Vmware Player workstation
2008Co-Authors: ともやん NakayamaAbstract:Vmware Player/Workstation インストール関連 インストール準備 Vmware関連ファイルの入手 Vmware Download Center - Vmwareダウンロードページ パッチファイルの入手 Linux VM kernelnewbies - Vmware-any-any-update[xxx].tar.gz パッチを入手(必要時のみ) バージョンによってインストール時にトラブル対処が必要 Linux
Mirzoev Timur - One of the best experts on this subject based on the ideXlab platform.
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Employing Virtualization for Information Technology Education
2014Co-Authors: Mirzoev TimurAbstract:This manuscript presents teaching and curriculum design for Information Technology classes. Today, students demand hands-on activities for the newest technologies. It is feasible to satisfy this appetite for exciting education by employing server virtualization technologies to teach advanced concepts with extensive hands-on assignments. Through utilization of virtualized servers, students are able to deploy, secure and manage virtual machines and networks in a contained environment. Various techniques, assessment tools and experiences will be analyzed and presented by this manuscript. Previous teaching cases for Information Systems or Information Technology classes are done using non-commercial products, such as free Vmware Server or Vmware Player. Such products have very limited functionality in terms of networking, storage and resource management. Several advanced datacenter functions, such as Distributed Power Management (DPM), vMotion and others, are not available in desktop versions of that type of virtualization software. This manuscript introduces the utilization of commercial software, such as vSphere 4.1, with full datacenter functionality and operations for teaching Information Technology classes of various levels.Comment: Technology Interface International Journal, Vol 12. No.1 Fall Winter 201
Timur Mirzoev - One of the best experts on this subject based on the ideXlab platform.
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EMPLOYING VIRTUALIZATION FOR INFORMATION TECHNOLOGY EDUCATION
arXiv: Computers and Society, 2014Co-Authors: Timur MirzoevAbstract:This manuscript presents teaching and curriculum design for Information Technology classes. Today, students de- mand hands-on activities for the newest technologies. It is feasible to satisfy this appetite for exciting education by employing server virtualization technologies to teach ad- vanced concepts with extensive hands-on assignments. Through utilization of virtualized servers, students are able to deploy, secure and manage virtual machines and net- works in a contained environment. Various techniques, as- sessment tools and experiences will be analyzed and pre- sented by this manuscript. Previous teaching cases for Infor- mation Systems or Information Technology classes are done using non-commercial products, such as free Vmware Serv- er or Vmware Player. Such products have very limited functionality in terms of networking, storage and resource management. Several advanced datacenter functions, such as Distributed Power Management (DPM), vMotion and others, are not available in desktop versions of that type of virtualization software. This manuscript introduces the utili- zation of commercial software, such as vSphere 4.1, with full datacenter functionality and operations for teaching Information Technology classes of various levels.
Nivas K S - One of the best experts on this subject based on the ideXlab platform.
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Priority Based Implementation in Pintos
2014Co-Authors: Deepa D, Nivas K SAbstract:Abstract—Pintos is a simple operating system framework for the 80x86 architecture. It supports kernel threads, loading and running user programs, and a file system, but it implements all of these in a very simple way.Pintos could, theoretically, run on a regular IBM-compatible PC. But it is difficult to get a regular IBM-compatible PC just for this OS, we will run Pintos projects in a system simulator, that is, a program that simulates an 80x86 CPU and its peripheral devices accurately enough that unmodified operating systems and software can run under it. In class we will use the Bochs and QEMU simulators. Pintos has also been tested with Vmware Player. Pintos uses a basic FIFO round robin algorithm for scheduling threads, semaphores, locks and condition variables. The current system has a minimally functional thread system.Our paper is to understand the working of pintos and extend the functionality of this system to gain a better understanding of synchronization problems byimplement priority scheduling and priority donation
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Priority Based Implementation in Pintos
2013Co-Authors: Deepa D, Nivas K S, PreethiAbstract:Pintos is a simple operating system framework for the 80x86 architecture. It supports kernel threads, loading and running user programs, and a file system, but it implements all of these in a very simple way.Pintos could, theoretically, run on a regular IBM-compatible PC. But it is difficult to get a regular IBM-compatible PC just for this OS, we will run Pintos projects in a system simulator, that is, a program that simulates an 80x86 CPU and its peripheral devices accurately enough that unmodified operating systems and software can run under it. In class we will use the Bochs and QEMU simulators. Pintos has also been tested with Vmware Player. Pintos uses a basic FIFO round robin algorithm for scheduling threads, semaphores, locks and condition variables. The current system has a minimally functional thread system.Our paper is to understand the working of pintos and extend the functionality of this system to gain a better understanding of synchronization problems byimplement priority scheduling and priority donation. Keywords— pintos, 80x86 architecture, bochs, gdb-stub, priority donation, priority inversion.
