P. Tullmann, M. Hibler, and J. Lepreau. Janos: A Java-Oriented OS for Active Network Nodes. IEEE Journal on Selected Areas in Communications, 19(3):501--510, Mar. 2001.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....certain syntactic patterns. 138 These extensions can include knowledge about the semantics of the program that are not normally accessible to a compiler, such as whether a class is shared or reloaded or that Kernel.enter( enters kernel mode. 7. 2 JanosVM Application An ongoing project, JanosVM [78], already uses Ka#eOS as its design and implementation base. JanosVM is a virtual machine targeted at supporting mobile Java code in active networks. JanosVM code is run in teams, which correspond to Ka#eOS processes. Unlike Ka#eOS, JanosVM is not intended as an environment in which to run ....

Tullmann, P., Hibler, M., and Lepreau, J. Janos: A Java-oriented OS for active network nodes. IEEE Journal on Selected Areas in Communications 19, 3 (March 2001), 501--510.

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P. Tullmann, M. Hibler, and J. Lepreau. Janos: A Java-Oriented OS for Active Network Nodes. IEEE Journal on Selected Areas in Communications, 19(3):501--510, Mar. 2001.

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Patrick Tullmann, Mike Hibler, and Jay Lepreau. Janos: A Java-oriented OS for active network nodes. IEEE Journal on Selected Areas in Communications, 19(3):501-510, March 2001.

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P. Tullmann, M. Hibler, and J. Lepreau. Janos: A JavaOriented OS for Active Network Nodes. IEEE Journal on Selected Areas in Communications, 19(3):501--510, Mar. 2001.

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P. Tullmann, M. Hibler, and J. Lepreau, "Janos: A Java-oriented OS for active network nodes," IEEE Journal on Selected Areas in Communications, vol. 19, no. 3, pp. 501--510, Mar. 2001.

....and static methods. We have developed a prototype of the key parts of hybrid resource control in an environment for active extensions, called RBClick, Resource Bounded Click. RBClick is an extension of the Click modular router [4] implemented in Janos, an active network operating system [5] that was originally designed to achieve resource control only through sandboxing. Active extensions in RBClick are Click graphs involving both trusted and untrusted elements. Trusted elements are taken from a base version of Click, while untrusted elements are written in a resource bounded ....

....an efficiently checkable proof of its resource boundedness. PCC can be quite effective in minimizing the overhead of runtime checks [11] However, currently, PCC is practical only for small programs. Our implementation was done in the context of Janos, an active network node operating system [5] that currently supports only Java based active applications written for the ANTS2 and Bees environments [12] Java based active applications in Janos are much slower compared to the fast path in the kernel. RBClick adds safe fast path active networking to Janos. Similar to RBClick in Janos, many ....

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P. Tullmann, M. Hibler, and J. Lepreau, "Janos: A Java-Oriented OS for Active Network Nodes," IEEE Journal on Selected Areas in Communications, vol. 19, no. 3, pp. 501--510, Mar. 2001.

....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 architecture, focusing on other issues, appears elsewhere in this journal [27]. AA1 AI 1 AA3 AA4 Janos Java NodeOS Bindings Janos Virtual Machine Active Applications (AAs) Execution Environment (EE) Fig. 9. The Janos Architecture and the corresponding DARPA Ac tive Network Architecture. Active applications for Janos are written to use the ANTSR Java runtime ....

Patrick Tullmann, Mike Hibler, and Jay Lepreau. Janos: A Java-oriented OS for active network nodes. In IEEE Journal on Selected Areas in Communications, Active and Programmable Networks, 2001.

....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 architecture, focusing on other issues, appears elsewhere in this journal [27]. AA3 AA4 AA1 OSKit Moab Execution Environment (EE) Active (AAs) Applications NodeOS AA2 Janos Virtual Machine ANTSR Janos Java NodeOS Bindings Fig. 9. The Janos Architecture and the corresponding DARPA Active Network Architecture. Active applications for Janos are written ....

Patrick Tullmann, Mike Hibler, and Jay Lepreau. Janos: A Java-oriented OS for active network nodes. In IEEE Journal on Selected Areas in Communications, Active and Programmable Networks, 2001.

No context found.

P. Tullmann, M. Hibler, and J. Lepreau. Janos: a Javaoriented OS for active network nodes. IEEE Journal on Selected Areas in Communications (JSAC), 19(3), March 2001.

No context found.

P. Tullmann, M. Hibler, and J. Lepreau, "Janos: a Java-oriented OS for active network nodes," IEEE J. Select. Areas Commun., vol. 19, no. 3, Mar. 2001.

No context found.

P. Tullmann, M. Hibler, and J. Lepreau. Janos: a Javaoriented OS for active network nodes. IEEE Journal on Selected Areas in Communications (JSAC), 19(3), March 2001.

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