Active Network Working Group. Architectural framework for active networks. URL http://www.cc.gatech.edu/projects/canes/arch/arch-0-9.ps, August 31 1998. Version 0.9.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....System. Janos has two primary research emphases: 1) resource management and control, and (2) first class support for untrusted active applications written in Java. Toward these goals, Janos necessarily encompasses both the EE and NodeOS layers of the canonical active network architecture [2]. As Fig ure 9 shows, Janos is a layered architecture with three com ponents: ANTSR, the Janos Virtual Machine (JanosVM) and Moab. Though this section is primarily concerned with Moab, the Janos NodeOS, we introduce the other layers to provide a bit of context. A complete discussion of the ....

Active Network Working Group. Architectural framework for active networks, version 1.0. Available from http://- vcww.darpa.mil/ito/research/anets/Arcdocs.html, July 1999.

....resource sharing schemes to allow a safe execution of the custom code. The design space of an activenetwork platform can be divided into three elementary components: the hardware platform, the software which consists of the node s operating system (NodeOS) 2] and a set of Execution Environments [3], and the protocol used for communication between active network nodes. This paper puts emphasis on a streamlined protocol between active nodes and the efficient forwarding of activepackets through the OS and EE components on an activenode. While most AN software architectures[4] 5] 6] ....

..... Fig. 2. Selector setup for TAN nodes and receiver chosen selectors. The state information for the flow is set up when a node receives the request for a selector. negotiated selectors. The binding of the selector to a state record is similar to the creation of a channel described in [3]. State records in all active devices expire if they are not used after some configurable amount of time (softstate) This is similar to the soft state behavior of RSVP [17] implementations.Therefore, there are no explicit tear down messages required to free instances. D.2 IP TAN Gateways ....

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Active Network Working Group, "Architectural framework for active networks," http://www.cc.gatech.edu/projects/canes/arch/arch-0-9.ps

....System. Janos has two primary research emphases: 1) resource management and control, and (2) rst class support for untrusted active applications written in Java. Toward these goals, Janos necessarily encompasses both the EE and NodeOS layers of the canonical active network architecture [2]. As Figure 9 shows, Janos is a layered architecture with three components: ANTSR, the Janos Virtual Machine (JanosVM) and Moab. Though this section is primarily concerned with Moab, the Janos NodeOS, we introduce the other layers to provide a bit of context. A complete discussion of the Janos ....

Active Network Working Group. Architectural framework for active networks, version 1.0. Available from http://- www.darpa.mil/ito/research/anets/Arcdocs.html, July 1999.

....[9] that a highly modular router software architecture could be implemented without any significant performance penalties. The architecture described here leverages the results from the Router Plugins work. Within the active networking community, it is common to distinguish between the NodeOS [1] and Execution Environments (EEs) for active networking software architectures. The NodeOS represents the operating system components implementing services like packet scheduling, resource management, and packet classification, which are independent of a specific active networking ....

Active Networks Working Group, "Architectural Framework for Active Networks", at http://www.cc.gatech.edu/projects/canes/arch/arch-0-9.ps, August 1998

....(EEs) such as those being developed by the active network community, adaptable networks should also support the coexistence of concurrent programming environments that can be discretely deployed within a single node. This has prompted the formulation of the active network node architecture [10] depicted in Figure 2. Here, several EEs execute in user space and explicitly request resources from the node operating system. A particularly interesting aspect of the architecture is its provision for a privileged management EE that performs network and system management tasks (security ....

Active Networks Working Group. Architectural framework for active networks. Technical Report http://www.cc.gatech.edu/projects/canes/arch/arch-draft.ps, 1998.

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Active Network Working Group. Architectural framework for active networks. URL http://www.cc.gatech.edu/projects/canes/arch/arch-0-9.ps, August 31 1998. Version 0.9.

No context found.

Active Network Working Group. Architectural framework for active networks, version 1.0. Available from http://www.darpa.mil/ito/research/anets/- Arcdocs.html, July 1999.

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