Index

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Index

AAL5: ATM Adaptation Layers, 4.3 Classical IP and
abstraction: 2.2.1 Network Interface Layer
address: Internet Layer
Address Resolution Protocol: 1.1 Motivation to research , 2.2.1 Network Interface Layer, 2.4 ARP
address space: 2.2.2 Internet Layer, 2.3 IP addressing
algorithm: 3.4.1 Multicast Address Resolution
algorithmic relation: 2.4 ARP
ANS: Other supported features:
Any-cast: Signalling UNI
Application Protocols: 2.2.4 Application Protocols
Applications protocols: Application Layer
architectural views: 2.5.3 Interconnection of Nodes
aread: 6.2.3 ATM Hardware for
Arequipa: Other supported features:
ARP cache: ARP on a Broadcast
ARP entity: 2.4.1 ARP on a
ARPANET: 2 The Internet Protocol
Asynchronous Transfer Mode: 1 Introduction, 4 ATMLANE and
ATM: 1 Introduction, 2 The Internet Protocol , 2.5 Implementation Architecture of , 3.6 Data Forwarding between , 5.1 RFC 2022 Concepts
ATM Adaptation Layers: ATM Adaptation Layers
ATM as Network Interface: ARP on a non-broadcast
ATM Bearer Service: ATM Bearer Service, 4.2 LAN Emulation (LANE)
ATM Cells: Physical Layer, Virtual Connections
ATM Forum: 1.2.1 Original Problem Statement, 4.2 LAN Emulation (LANE)
ATM hosts: 4.1.2 Network Structure
ATM level: ATM Adaptation Layers
ATM networks: 4.1 Asynchronous Transfer Mode
ATM over TCP: The following Physical Interface
ATM protocol stack: 4.1.1 Basic Concepts
ATM provider: 5.2.1 VC Mesh
ATM signalling protocols: UNI 3.1 or 4.0 Multicast
ATM switch: 5.2.1 VC Mesh
ATM switches: 4.1.2 Network Structure
ATM-switch: 6.2.4 Connecting the Hardware
ATMARP: 6.2.5 Internal Structure of
ATMARP daemon: 6.2.5 Internal Structure of
ATMARP server: ARP on a non-broadcast , 4.3 Classical IP and , 5.1 RFC 2022 Concepts
ATMARPd: 6.2.5 Internal Structure of
ATMSIGd: 6.2.5 Internal Structure of
Authority and Format Identifier: Native ATM addresses
Available Bit-Rate: ATM Transport Layer
awrite: 6.2.3 ATM Hardware for
B-ISDN: 4.1 Asynchronous Transfer Mode
back-to-back: 6.2.4 Connecting the Hardware
bandwidth: 1 Introduction
Bellcore: 7.3 Available Source Code
black box: 2.1.5 Network View in
bottleneck: Pros and Cons of
broadcast: 1.1 Motivation to research , Network Interface Layer, 2.3 IP addressing, ARP on a non-broadcast , 3.6 Data Forwarding between
Broadcast and Unknown Server: 1.2.1 Original Problem Statement, 4.2.1 LANE Architecture
broadcast LAN: 2.4.1 ARP on a , ARP on a Broadcast
broadcasting: IP router
BSD socket API: 6.1.1 BSD Socket API
BUS: 4.2.1 LANE Architecture, 7.3 Available Source Code
bypass cluster-boundaries: 5.7.3 Comments on EARTH
C programming language: 7.3.1 Time scale of
cables: Physical Layer
CBR: ATM Transport Layer
Cell: ATM Transport Layer
Cell Delay: ATM Transport Layer
Cell Delay Variation: ATM Transport Layer
Cell-Loss Ratio: ATM Transport Layer
class: 2.3 IP addressing
Class D: Multicasting, Periodic Host Membership Queries, 5.1 RFC 2022 Concepts, 5.3 Multicast Address Resolution
Classical IP and ARP over ATM: 1.1 Motivation to research , ARP on a non-broadcast , 4.3 Classical IP and , 5.3 Multicast Address Resolution
client-part: Application Layer
CLIP: 5.5 IP Multicast Transmission , 5.6 Integration of the , 6.2.5 Internal Structure of , 6.3.2 Configuration of Classical
CLIP code: 7.1.1 MARS Cluster Member
cloud: 2.1.2 Network View, 2.1.5 Network View in
cluster boundaries: LLC/SNAP encapsulation
Cluster Member Identifier: 5.4 MARS Group Management
cluster members: 5.4 MARS Group Management
ClusterControlVC: 5.4 MARS Group Management, 7.1.2 MARS Server
CMI: Discussion of the multicast
collisions: 4.2 LAN Emulation (LANE)
communicating virtually: 2.1.1 Protocol Stack View
component: 2.1.2 Network View
conferencing: 1 Introduction, 3.7 IP Multicast Usage
connection oriented: 4.1.1 Basic Concepts
connection table: Pros and Cons of
connectionless traffic: ATM Adaptation Layers
connectionless traffic over ATM: Virtual Connections
connectors: Physical Layer
Constant Bit-Rate: ATM Transport Layer
control plane: 2.5.2 Protocol Entities in , 5.2.1 VC Mesh
copy service: 3.1.1 Discussion, Copy Service Implementation Choices, 7.3 Available Source Code
copying entity: 3.1.1 Discussion
cross-connect tables: Virtual Connections
CSMA-CD: 4.2 LAN Emulation (LANE)
Data Country Codes: Native ATM addresses
Datacom: 4.1 Asynchronous Transfer Mode
Definition of Multicasting: 3.1 Multicasting
device driver: 6.2.5 Internal Structure of
Device drivers: 6.1.2 Kernel-space vs. User-space
devices: 2.1.5 Network View in
discard reflected: LLC/SNAP encapsulation
distributed protocol stack view: 2.1.2 Network View, 2.1.5 Network View in
distributed view: 5.5 IP Multicast Transmission
Domain Specific Part: Native ATM addresses
E.164: Native ATM addresses
EARTH: 5.7 IP Multicast over
ELAN: 4.2.1 LANE Architecture
Emulated LAN: 4.2.1 LANE Architecture
encapsulation: 4.3 Classical IP and
End-System Identifier: Native ATM addresses
endpoint: Internet Layer
Ethernet: 1.1 Motivation to research , 2 The Internet Protocol , 2.4 ARP, ARP on a Broadcast , 4 ATMLANE and , 4.2 LAN Emulation (LANE), 5 IP Multicasting over , 6.2.5 Internal Structure of
Ethernet ARP: 4.3 Classical IP and
Ethernet MAC address: Native ATM addresses
example implementation: 7.3 Available Source Code
FDDI: 4.1 Asynchronous Transfer Mode
FIFO: 5.2.1 VC Mesh
forwarding: 3 IP multicasting
functionality: 2.1.4 IETF Layer Functions, 2.5 Implementation Architecture of
functions: 2.1.4 IETF Layer Functions
GNU General Public License: 6.1 The Linux Operating
group membership: 3 IP multicasting
HELLO messages: 5.2.2 Multicast Server
High Order DSP: Native ATM addresses
host: 2.5.1 NodesHosts and
host group: Periodic Host Membership Queries, 5.2.1 VC Mesh, 5.2.2 Multicast Server
host group address: 3.3 Adding multicast support
host group changes: Comparison between the VC-mesh
host group memberships: Pros and Cons of
host ID: 2.4.2 Resolution for non-local
Host Membership Query: Periodic Host Membership Queries
Hosts: 2.1.5 Network View in
HTML: 1.3 Structure of This
human;tex2html_html_special_mark_quot;analogue: 2.1.1 Protocol Stack View
IANA: 2.3 IP addressing
ICMP: 2.2.2 Internet Layer
IEEE 802.3: 4.2 LAN Emulation (LANE)
IEEE 802.5: 4.2 LAN Emulation (LANE)
IETF: 1.2.1 Original Problem Statement, 2.1.3 IETF Protocol Stack, 3.7.1 The Multicast Backbone , 4.3 Classical IP and
IGMP: 2.2.2 Internet Layer, 3.3 Adding multicast support , 5.4.1 IGMP in combination
IGMP functions: IGMP to MARS interface
IGMP queries: 5.4.1 IGMP in combination
IGMP reports: Periodic Host Membership Queries, 5.4.1 IGMP in combination
IGMP_Leave: Leaving a Host Group
IGMP_QUERY: Leaving a Host Group, IGMP to MARS interface
ILMId: 6.2.5 Internal Structure of
implementation: 2.2 TCP/IP Protocol Suite
InARP: ATMARP and InATMARP
InATMARP: 4.3 Classical IP and
Information Elements: ATM Transport Layer
Initial Domain Identifier: Native ATM addresses
inter-cluster multicast: 5.7.2 VENUS
interconnecting network: 2.5 Implementation Architecture of
interface: 2.4 ARP
Interim Local Management Interface: Native ATM addresses
International Code Designator: Native ATM addresses
Internet: 1.3 Structure of This , 2.3 IP addressing, 2.5.3 Interconnection of Nodes , 3.7.1 The Multicast Backbone
Internet Control Message Protocol: 2.2.2 Internet Layer
Internet Group Management Protocol: 2.2.2 Internet Layer
Internet Protocol: 1.1 Motivation to research , 2 The Internet Protocol , 2.2.2 Internet Layer, 3 IP multicasting
interpreting: 2.1.1 Protocol Stack View
intra-cluster: 5.5 IP Multicast Transmission
ION: 5.7.2 VENUS
IP: 2 The Internet Protocol
IP address: 2.4.2 Resolution for non-local
IP host: IP router
IP multicast: 5.1 RFC 2022 Concepts
IP multicasting: 2.5 Implementation Architecture of , 3.6 Data Forwarding between
IP router: 2.1.5 Network View in , 2.3 IP addressing, 2.4.1 ARP on a , IP router
IP routing: Virtual Connections
IP service provider: 2.1.5 Network View in
IP;tex2html_html_special_mark_quot;layer: 2.1.5 Network View in
IPv6: 3 IP multicasting, 3.7.1 The Multicast Backbone , 4.5 Conclusions, 7.4.1 Integration into the
IPX: 4.4 Carrying Connectionless Data
ISDN: Native ATM addresses
JoinLocalGroup: 5.4 MARS Group Management
kernel: 6.3.1 Getting ATM operational
kernel-space: 6.1.2 Kernel-space vs. User-space
LAN: 2.1.5 Network View in
LAN address: 2.2.1 Network Interface Layer
LAN clouds: 2.5.3 Interconnection of Nodes
LAN Emulation: 1.1 Motivation to research , 4.2 LAN Emulation (LANE), Other supported features:
LAN Emulation Configuration Server: 4.2.1 LANE Architecture
LAN Emulation Server: 4.2.1 LANE Architecture
LAN multicast: IGMP to MARS interface
LAN service provider: 4.2.1 LANE Architecture
LANE: 5 IP Multicasting over
LANE Clients: 4.2.1 LANE Architecture
LANE multicast: 4.5 Conclusions
LANE User-Network Interface: 4.2.1 LANE Architecture
layers: 2.1.1 Protocol Stack View
Leaf Initiated Join: Signalling UNI
LeaveLocalGroup: 5.4 MARS Group Management
levels of multicast support: 3.3 Adding multicast support
licenses: 6.1 The Linux Operating
Linux kernel: 7.4 Future Developments of
Linux operating system: 6 Linux ATM System
Linux-ATM: Comparison between the VC-mesh , 6 Linux ATM System, 6.2.5 Internal Structure of
Linux-ATM package: 6.2.1 Currently Supported Features
LIS: ARP on a non-broadcast , 4.3 Classical IP and
LLC/SNAP: 4.3 Classical IP and , 5.5 IP Multicast Transmission
LLC/SNAP encapsulation: 5.5 IP Multicast Transmission , 6.2.5 Internal Structure of
LLC/SNAP;tex2html_html_special_mark_quot;encapsulation: 4.4 Carrying Connectionless Data
Local Area Network: 2 The Internet Protocol
Logical IP Subnet: ARP on a non-broadcast , 4.3 Classical IP and , 5.1 RFC 2022 Concepts
loop-back: 6.2.4 Connecting the Hardware
MAC addresses: 4.2.1 LANE Architecture
MARP: 7.1.2 MARS Server
MARS: 5.1 RFC 2022 Concepts
MARS Cluster: 5.3 Multicast Address Resolution
MARS Cluster member: 7.1.1 MARS Cluster Member
MARS server: 5.1 RFC 2022 Concepts
MARS-Cluster: 5.1 RFC 2022 Concepts
MARS_GROUPLIST_REPLY: 5.4.1 IGMP in combination
MARS_GROUPLIST_REQUEST: 5.4.1 IGMP in combination
MARS_MULTI: 5.3 Multicast Address Resolution
MARS_NAK: 5.3 Multicast Address Resolution
MARS_REQUEST: 5.3 Multicast Address Resolution
MARSport: 7.3 Available Source Code
Maximum Burst Size: ATM Transport Layer
Maximum Transmission Unit: 5 IP Multicasting over
Maximum Transmit Unit: 4.3 Classical IP and
MBone: 3.7 IP Multicast Usage
MCS implementation: Association with an IP
membership information: 7.1.2 MARS Server
mIP/ATM: 4.2.1 LANE Architecture, 4.5 Conclusions, 5.5 IP Multicast Transmission
mrouter: 3.3 Adding multicast support , 3.7.1 The Multicast Backbone , IGMP to MARS interface
multicast: Network Interface Layer, 2.2.2 Internet Layer
Multicast address resolution: 3.3 Adding multicast support
Multicast Address Resolution Server: 5.1 RFC 2022 Concepts
Multicast applications: 3.7 IP Multicast Usage
multicast LAN address: 3.3 Adding multicast support
multicast router: Multicasting, 3.5.1 Basic IGMP operations, 5.4.1 IGMP in combination
multicast routers: 5.5 IP Multicast Transmission , 5.5 IP Multicast Transmission
Multicast Server: Signalling UNI, 4.2.1 LANE Architecture, 5.1 RFC 2022 Concepts
multicast traffic: 3.5 Internet Group Management
multicast transmission: Pros and Cons of
multicast transmissions: 3.3 Adding multicast support
multicast tree: Pros and Cons of
multicasting: 1 Introduction, 2.2 TCP/IP Protocol Suite , IP router, 3 IP multicasting
multimedia: 3.7 IP Multicast Usage
multiple unicast: Multicasting
multipoint-to-multipoint: Signalling UNI, 5.2 Intra-Cluster IP Multicast
NASA: 3.7.1 The Multicast Backbone
NBMA: 4.3.1 Next Hop Resolution
Netherlands: Native ATM addresses
network cloud: 2.1.2 Network View
network description: 1.3 Structure of This
network ID: 2.4.2 Resolution for non-local
Network Identifier: Native ATM addresses
Network Information Service: 1.1 Motivation to research
Network Interface: 2.4 ARP
network interface layer: 2.1.5 Network View in
Network Service Access Point: Native ATM addresses
network technologies: 2 The Internet Protocol
Network View: 2.1 Basic Network Description, 2.1.2 Network View
Next Hop Resolution Protocol: 4.3.1 Next Hop Resolution
NFS: 4.5 Conclusions
NHRP: 4.3.1 Next Hop Resolution
NICStAR: 6 Linux ATM System
node: 2.5.1 NodesHosts and
nodes: 2.1.1 Protocol Stack View, 2.1.5 Network View in
non-broadcast LAN: 2.4.1 ARP on a
Non-Broadcast Multi-Access: 4.3.1 Next Hop Resolution
Operating Systems Design: 6.1.2 Kernel-space vs. User-space
OSI: 2.1.3 IETF Protocol Stack, Native ATM addresses
P-NNI: 4.1.2 Network Structure
packets: 2.2.2 Internet Layer
Payload: ATM Transport Layer, 4.3 Classical IP and
Peak Cell Rate: ATM Transport Layer
peer protocol;tex2html_html_special_mark_quot;entities: 2.5.2 Protocol Entities in
Permanent Virtual Connection: ATM Signalling Entities
Physical Layer: 2.1.5 Network View in , 4.1.1 Basic Concepts
physical networks: 2 The Internet Protocol
point of interaction: 2.1.5 Network View in
point-to-multipoint: Signalling UNI, 5 IP Multicasting over , 5.2 Intra-Cluster IP Multicast , Discussion of the multicast
point-to-multipoint VCC: 4.2.1 LANE Architecture
port numbers: Transport Layer
port-numbers: 2.3 IP addressing
Private Network: 4.1.2 Network Structure
Private UNI: 4.1.2 Network Structure
production environment: 1.1 Motivation to research
protocol entities: 2.2 TCP/IP Protocol Suite , 2.5 Implementation Architecture of , 5.5 IP Multicast Transmission
protocol handling function: 2.2 TCP/IP Protocol Suite
protocol stack: 4.2 LAN Emulation (LANE), 5.5 IP Multicast Transmission , 6.2.5 Internal Structure of
protocol stack view: 2.1 Basic Network Description
Public Network: 4.1.2 Network Structure
PVPC: Virtual Connections
QoS: 2.2.1 Network Interface Layer, ATM Transport Layer
Quality of Service: 2.2.1 Network Interface Layer, 4.1 Asynchronous Transfer Mode
querying: 3.5 Internet Group Management
radio: 2 The Internet Protocol
Re-assembly: ATM Adaptation Layers
redundancy for the MCS: 5.2.2 Multicast Server
reference models: 2.1.3 IETF Protocol Stack
references: 1.3 Structure of This
reflected packets: 5.2.1 VC Mesh, Pros and Cons of
reflected transmission: Discussion of the multicast
reliable service: Transport Layer
reliable transport protocol: 3.7 IP Multicast Usage
Request For Comment: 1 Introduction
resolve Class D addresses: 7.1.1 MARS Cluster Member
Reverse ARP: 2.2.1 Network Interface Layer
RFC: 1 Introduction
RFC 1112: 5.1 RFC 2022 Concepts
RFC 1577: 1.2 Problem statement, 4.3 Classical IP and
RFC 1626: 4.3 Classical IP and
RFC 1755: 4.3 Classical IP and
RFC 2022: 1.2.1 Original Problem Statement, 5 IP Multicasting over
RFC 2149: 5.2.2 Multicast Server
RFC 1483: 4.3 Classical IP and
root: Signalling UNI, 5.2 Intra-Cluster IP Multicast
router: 2.5.1 NodesHosts and
routers: 2.1.5 Network View in
routing: 2.2.2 Internet Layer
SAAL: ATM Signalling Entities
SAP: 2.1.5 Network View in
satellites: 2 The Internet Protocol
SCSP: 5.7.1 EARTH
SDH: Physical Layer
SDU: 4.4.1 Packet Encapsulation
Segmentation: ATM Adaptation Layers
SEL: Native ATM addresses
selector byte: Native ATM addresses, 5.1 RFC 2022 Concepts
server-part: Application Layer
ServerControlVC: 5.4 MARS Group Management, 7.1.2 MARS Server
Service Access Point: 2.1.5 Network View in
Service Category: ATM Transport Layer
Service Data Unit: 4.4.1 Packet Encapsulation
Service Provider: 2.1.1 Protocol Stack View, 2.1.5 Network View in
Service User: 2.1.1 Protocol Stack View, 2.1.5 Network View in
services: 2.1.1 Protocol Stack View
signalling: Virtual Connections, The following connection types
Signalling ATM Adaptation Layer: ATM Signalling Entities
signalling daemon: 6.3.1 Getting ATM operational
signalling overhead: 5.2.1 VC Mesh
simultaneous multiple sends: Pros and Cons of
single point of failure: 5.2.1 VC Mesh, Pros and Cons of
socket: 6.1.1 BSD Socket API
Solaris: 6 Linux ATM System
Solaris/Sparc implementation: 7.3.1 Time scale of
SONET: Physical Layer
statistical multiplexing: ATM Transport Layer
subscriptions to host group: 3.3 Adding multicast support
subset of the UNI 3.1: UNI 3.1 or 4.0 Multicast
Sustainable Cell Rate: ATM Transport Layer
Switched Virtual Connections: ATM Signalling Entities
Synchronous Digital Hierarchy: Physical Layer
Synchronous Optical NETwork: Physical Layer
TCP: 2 The Internet Protocol , 2.2.3 Transport Protocols
TCP/IP: 2.2 TCP/IP Protocol Suite
TCP/IP implementation model: 2.4.1 ARP on a
TCP/IP protocol suite: 2 The Internet Protocol
Telecom: 4.1 Asynchronous Transfer Mode
telephone companies: 4.1 Asynchronous Transfer Mode
telephone networks: 4.1.1 Basic Concepts
telephone-wires: 2 The Internet Protocol
temporary connections: Pros and Cons of
temporary solution: UNI 3.1 or 4.0 Multicast
three issues: 5.1 RFC 2022 Concepts
timing relation: ATM Adaptation Layers
Token-Ring: 4 ATMLANE and , 4.2 LAN Emulation (LANE)
traffic contract: ATM Transport Layer
Traffic Descriptor: ATM Transport Layer
Transfer Mode: ATM Transport Layer
Transmission Control Protocol: 2 The Internet Protocol , 2.2.3 Transport Protocols
transmitting: 2.1.1 Protocol Stack View
Transport layer: Transport Layer
Transport Protocols: 2.2.3 Transport Protocols
tunnelling: 3.3 Adding multicast support
tunnels: 3.7.1 The Multicast Backbone
UDP: 2.2.3 Transport Protocols
UNI 3.1: Signalling UNI, 5.2 Intra-Cluster IP Multicast , 6.2.2 Supposed Point-to-Multipoint SVC
UNI 4.0: Signalling UNI
unicast: Network Interface Layer, ARP on a non-broadcast
unidirectional VCCs: Signalling UNI
Universal Resource Locators: 1.3 Structure of This
University of Twente: 1.1 Motivation to research , Native ATM addresses
Unix: 6.1 The Linux Operating
UNI 4.0: UNI 3.1 or 4.0 Multicast
Unshielded Twisted Pair: Physical Layer
Unspecified Bit-Rate: ATM Transport Layer
upper protocol layers: 2.1.5 Network View in , 5.5 IP Multicast Transmission
URL: 1.3 Structure of This
User Datagram Protocol: 2.2.3 Transport Protocols
user-space: 6.1.2 Kernel-space vs. User-space
user;tex2html_html_special_mark_quot;plane: 2.5.2 Protocol Entities in
Variable Bit-Rate: ATM Transport Layer
VC multiplexing: 4.3 Classical IP and
VC-mesh: 5.1 RFC 2022 Concepts
VCC: Virtual Connections
VCI: ATM Transport Layer
VCL: Virtual Connections
VC multiplexing: 4.4 Carrying Connectionless Data
VENUS: 5.7 IP Multicast over
Virtual Channel Connection: ATM Adaptation Layers
Virtual Channel Identifier: ATM Transport Layer
Virtual Channel Link: Virtual Connections
Virtual Path Identifier: ATM Transport Layer
Virtual Path Link: Virtual Connections
VPI: ATM Transport Layer
VPI/VCI pair: 4.5 Conclusions
web-sites: 1.3 Structure of This
World Wide Web: 1 Introduction
WWW: 1 Introduction
X.25: 4.3.1 Next Hop Resolution

Simon Oosthoek
Wed Jul 9 17:11:08 CEST 1997