The Experts below are selected from a list of 234 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: VMTurbo Operations Manager 4.5
2014Co-Authors: Kenneth Van SurksumAbstract:VMTurbo today announced the release of version 4.5 of its Virtualization Management platform Operations Manager. Operations Manager continuously analyzes the real-time performance characteristics, resource capacity, ...
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Release: VMTurbo Operations Manager 4.0
2013Co-Authors: Kenneth Van SurksumAbstract:VMTurbo today released version 4.0 of its Virtualization Management platform Operations Manager. This release is the follow up of version 3.3 which was released in ...
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Release: VMTurbo Operations Manager 3.3.
2013Co-Authors: Kenneth Van SurksumAbstract:VMTurbo has released version 3.3. of its Virtualization Management platform Operations Manager. This version is the follow up of version 3.2. which was released in ...
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Release: Solarwinds Virtualization Manager 5.1
2012Co-Authors: Kenneth Van SurksumAbstract:Solarwinds has released version 5.1 of its Virtualization Management product Virtualization Manager. This version is the follow-up of version 5.0 which was released in April ...
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Release: VMTurbo Appliance update for May 2011
2011Co-Authors: Kenneth Van SurksumAbstract:VMTurbo has released its May update for its capacity Management solution appliance, the Virtualization Management Suite. This update is the follow up of the April ...
Karsten Schwan - One of the best experts on this subject based on the ideXlab platform.
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Loosely coupled coordinated Management in virtualized data centers
Cluster Computing, 2011Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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vmanage loosely coupled platform and Virtualization Management in data centers
International Conference on Autonomic Computing, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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ICAC - vManage: loosely coupled platform and Virtualization Management in data centers
Proceedings of the 6th international conference on Autonomic computing - ICAC '09, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
Sanjay Kumar - One of the best experts on this subject based on the ideXlab platform.
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Loosely coupled coordinated Management in virtualized data centers
Cluster Computing, 2011Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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vmanage loosely coupled platform and Virtualization Management in data centers
International Conference on Autonomic Computing, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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ICAC - vManage: loosely coupled platform and Virtualization Management in data centers
Proceedings of the 6th international conference on Autonomic computing - ICAC '09, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
Vanish Talwar - One of the best experts on this subject based on the ideXlab platform.
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Loosely coupled coordinated Management in virtualized data centers
Cluster Computing, 2011Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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vmanage loosely coupled platform and Virtualization Management in data centers
International Conference on Autonomic Computing, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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ICAC - vManage: loosely coupled platform and Virtualization Management in data centers
Proceedings of the 6th international conference on Autonomic computing - ICAC '09, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
Vibhore Kumar - One of the best experts on this subject based on the ideXlab platform.
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Loosely coupled coordinated Management in virtualized data centers
Cluster Computing, 2011Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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vmanage loosely coupled platform and Virtualization Management in data centers
International Conference on Autonomic Computing, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.
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ICAC - vManage: loosely coupled platform and Virtualization Management in data centers
Proceedings of the 6th international conference on Autonomic computing - ICAC '09, 2009Co-Authors: Sanjay Kumar, Vanish Talwar, Vibhore Kumar, Parthasarathy Ranganathan, Karsten SchwanAbstract:Management is an important challenge for future enterprises. Previous work has addressed platform Management (e.g., power and thermal Management) separately from Virtualization Management (e.g., virtual machine (VM) provisioning, application performance). Coordinating the actions taken by these different Management layers is important and beneficial, for reasons of performance, stability, and efficiency. Such coordination, in addition to working well with existing multi-vendor solutions, also needs to be extensible to support future new Management solutions potentially operating on different sensors and actuators. In response to these requirements, this paper proposes vManage, a solution to loosely couple platform and Virtualization Management and facilitate coordination between them in data centers. Our solution is comprised of registry and proxy mechanisms that provide unified monitoring and actuation across platform and Virtualization domains, and coordinators that provide policy execution for better VM placement and runtime Management, including a formal approach to ensure system stability from inefficient Management actions. The solution is instantiated in a Xen environment through a platform-aware Virtualization manager at a cluster Management node, and a Virtualization-aware platform manager on each server. Experimental evaluations using enterprise benchmarks show that compared to traditional solutions, vManage can achieve additional power savings (10% lower power) with significantly improved service-level guarantees (71% less violations) and stability (54% fewer VM migrations), at low overhead.