The Experts below are selected from a list of 8907 Experts worldwide ranked by ideXlab platform
Eugene H. Spafford - One of the best experts on this subject based on the ideXlab platform.
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Classical IP and ARP over ATM
2010Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self-contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies, establish their importance as data communication paradigms, motivate their integration, and sketch several scenarios of their interaction. We concentrate on one specific scenario: the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol, and connection management functionality as provided by the Q.2931 protocol. The manipulation of transmitted network protoco
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Classical IP and ARP over ATM
2008Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self-contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies � establish their importance as data communication paradigms � motivate their integration � and sketch several scenarios of their interaction. We concentrate on one specific scenario � the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol � and connection management functionality as provided by the Q.2931 protocol. The manipulation of transmitted network protocol data units between their submission to the network layer and their transmission by ATM are detailed in an appendix. These explanations are structured analogous to the lower layers in the IEEE local area network model. The complexity and intricacy of the logical IP subnetwork (LIS) approach motivate the development of a model describing the interaction of all participants in an LIS. The devised model is based on a finite automaton. It instruments a structured implementation and it assists in convincing the implementor of the completeness and correctness of the implementation by facilitating its gradual testing and extension
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Classical IP and ARP over ATM
2007Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self--contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-- based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies, establish their importance as data communication paradigms, motivate their integration, and sketch several scenarios of their interaction. We concentrate on one specific scenario: the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol, and connection man..
Christoph L. Schuba - One of the best experts on this subject based on the ideXlab platform.
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Classical IP and ARP over ATM
2010Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self-contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies, establish their importance as data communication paradigms, motivate their integration, and sketch several scenarios of their interaction. We concentrate on one specific scenario: the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol, and connection management functionality as provided by the Q.2931 protocol. The manipulation of transmitted network protoco
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Classical IP and ARP over ATM
2008Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self-contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies � establish their importance as data communication paradigms � motivate their integration � and sketch several scenarios of their interaction. We concentrate on one specific scenario � the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol � and connection management functionality as provided by the Q.2931 protocol. The manipulation of transmitted network protocol data units between their submission to the network layer and their transmission by ATM are detailed in an appendix. These explanations are structured analogous to the lower layers in the IEEE local area network model. The complexity and intricacy of the logical IP subnetwork (LIS) approach motivate the development of a model describing the interaction of all participants in an LIS. The devised model is based on a finite automaton. It instruments a structured implementation and it assists in convincing the implementor of the completeness and correctness of the implementation by facilitating its gradual testing and extension
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Classical IP and ARP over ATM
2007Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self--contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-- based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies, establish their importance as data communication paradigms, motivate their integration, and sketch several scenarios of their interaction. We concentrate on one specific scenario: the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol, and connection man..
Berry Kercheval - One of the best experts on this subject based on the ideXlab platform.
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Classical IP and ARP over ATM
2010Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self-contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies, establish their importance as data communication paradigms, motivate their integration, and sketch several scenarios of their interaction. We concentrate on one specific scenario: the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol, and connection management functionality as provided by the Q.2931 protocol. The manipulation of transmitted network protoco
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Classical IP and ARP over ATM
2008Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self-contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies � establish their importance as data communication paradigms � motivate their integration � and sketch several scenarios of their interaction. We concentrate on one specific scenario � the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol � and connection management functionality as provided by the Q.2931 protocol. The manipulation of transmitted network protocol data units between their submission to the network layer and their transmission by ATM are detailed in an appendix. These explanations are structured analogous to the lower layers in the IEEE local area network model. The complexity and intricacy of the logical IP subnetwork (LIS) approach motivate the development of a model describing the interaction of all participants in an LIS. The devised model is based on a finite automaton. It instruments a structured implementation and it assists in convincing the implementor of the completeness and correctness of the implementation by facilitating its gradual testing and extension
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Classical IP and ARP over ATM
2007Co-Authors: Christoph L. Schuba, Berry Kercheval, Eugene H. SpaffordAbstract:This paper gives a self--contained description of classical IP (internet protocol) and ARP (Address resolution protocol) over ATM (asynchronous transfer mode) and describes a model facilitating the implementation of the switched virtual circuit-- based local area network ATM subnet model. Its contents are distilled from the design and implementation of a prototype of a device driver for this particular subnet model. The work was conducted at the Computer Science Laboratory (CSL) at the Xerox Palo Alto Research Center (PARC). We outline the main features of the two technologies, establish their importance as data communication paradigms, motivate their integration, and sketch several scenarios of their interaction. We concentrate on one specific scenario: the utilization of ATM as a logical IP subnetwork. Building blocks of this approach are the ATM Address resolution protocol as a unicast server based emulation of the classical Broadcast Address resolution protocol, and connection man..
K Persson - One of the best experts on this subject based on the ideXlab platform.
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a non Broadcast Address resolution protocol for spacewire networks
IEEE Aerospace Conference, 2006Co-Authors: S G Dykes, B Walls, M A Johnson, K PerssonAbstract:SpaceWire is a switched network designed for space environments. To support the Internet protocol (IP) and other high level network protocols, SpaceWire requires a method for mapping the physical interface Addresses to global network protocol Addresses. Standard Address resolution protocol (ARP) cannot be used because SpaceWire does not have a Broadcast mechanism. This paper describes a non-Broadcast SpaceWire ARP (SW-ARP) that supports any higher network protocol, including IPv4, IPv6, and the CCSDS SCPS-NP Address family. Our protocol includes forward and reverses ARP mappings, and is applicable to all devices that conform to the SpaceWire standard specification. SW-ARP can be implemented in node software drivers and requires no changes to the interface hardware, SpaceWire routing switches, or the SpaceWire standard specification.
S G Dykes - One of the best experts on this subject based on the ideXlab platform.
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a non Broadcast Address resolution protocol for spacewire networks
IEEE Aerospace Conference, 2006Co-Authors: S G Dykes, B Walls, M A Johnson, K PerssonAbstract:SpaceWire is a switched network designed for space environments. To support the Internet protocol (IP) and other high level network protocols, SpaceWire requires a method for mapping the physical interface Addresses to global network protocol Addresses. Standard Address resolution protocol (ARP) cannot be used because SpaceWire does not have a Broadcast mechanism. This paper describes a non-Broadcast SpaceWire ARP (SW-ARP) that supports any higher network protocol, including IPv4, IPv6, and the CCSDS SCPS-NP Address family. Our protocol includes forward and reverses ARP mappings, and is applicable to all devices that conform to the SpaceWire standard specification. SW-ARP can be implemented in node software drivers and requires no changes to the interface hardware, SpaceWire routing switches, or the SpaceWire standard specification.
