X. Jiang and D. Xu. SODA: a Service-On-Demand Architecture for Application Service Hosting Utility Platforms. IEEE HPDC-12, June 2003.  Home/Search   Document Details and Download   Summary   Related Articles   Check

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X. Jiang and D. Xu. SODA: a Service-On-Demand Architecture for Application Service Hosting Utility Platforms. IEEE HPDC-12, June 2003.

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X. Jiang and D. Xu. SODA: a Service-On-Demand Architecture for Application Service Hosting Utility Platforms. IEEE HPDC-12, June 2003.

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X. Jiang and D. Xu. SODA: a Service-On-Demand Architecture for Application Service Hosting Utility Platforms. IEEE HPDC-12, June 2003.

....vision of utility computing: computational resources are supplied on demand, and turned off when no longer needed. ASHoPs have recently drawn tremendous attention from both industry (such as Oceano [5] of IBM and Utility Data Center [4] of HP) and academia (such as Denali [31] SHoP [28] and SODA [19]) However, current research in ASHoP mainly focuses on resource and service quality issues. Little efforts have been devoted to the critical problem of OS architecture and mechanisms for ASHoP security and protection. In this paper, we show that ASHoP protection poses new research challenges. ....

....1. Although far from being a complete suite of ASHoP security solutions, these mechanisms can be seen as the basis for the implementation of more complicated mechanisms and policies. SODA stands for Service On Demand Architecture. Details about the non security aspects of SODA can be found in [19]. 4.1 Resource Isolation between Virtual Servers Resource isolation not only provides performance guarantee to the AS running in each virtual server, but also prevents an ill behaving or malicious AS from launching local DoS attacks upon other ASes in the same ASHoP server. Currently, our SODA ....

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X. Jiang and D. Xu. SODA: a Service-On-Demand Architecture for Application Service Hosting Utility Platforms. IEEE International Symposium on High Performance Distributed Computing (HPDC-12), June 2003.

....builds paths of composed services. Active proxies are located between the service base and the user devices for dynamic service adaptation. CANS is very similar to Ninja, but one of the main differences is that CANS performs resource aware service adaptation. Service On Demand Architecture (SODA) [16] shares the same high level goal of Ninja and CANS, but focuses on service virtualization by executing multiple UserMode Linux atop a unmodified host OS to achieve fault isolation. Service Overlay Networks (SON) 10] is pieced together via service gateways, the logical connection between which is ....

X. Jiang and D. Xu. SODA: a service-on-demand architecture for application service hosting utility platforms. In Proceedings of IEEE HPDC-12, Seattle, WA, June 2003.

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JIANG, X., AND XU, D. Soda: A service-on-demand architecture for application service hosting platforms. In Proceedings of the 12th IEEE International Symposium on High Performance Distributed Computing (HPDC 2003.

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JIANG, X., AND XU, D. Soda: A service-on-demand architecture for application service hosting platforms. In Proceedings of the 12th IEEE International Symposium on High Performance Distributed Computing (HPDC 2003.

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