F.M. Chiussi, Ye Xia and V.P. Kumar, Performance of shared-memory switches under multicast bursty traffic, IEEE Journal on Selected Areas in Communications 15 (1997) 473--487.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....services, distance learning etc. So far, multicasting has been used primarily in the Internet, but future ATM networks are likely to deploy multicasting in a large scale, particularly in applications like broadcast video, video conferencing, multiparty telephony and workgroup applications[4]. Resource allocation in multicast networks is more complex than that in unicast and broadcast networks. This calls for a separate study of these problems in the multicast scenario. Parts of this paper have been presented at Allerton 1999 y Corresponding Author. 1 Submitted to IEEE ....

F. Chiussi, Y. Xia and V. Kumar. Performance of Shared-Memory Switches under Multicast Bursty Trac IEEE Journal on Selected Areas In Communications, Vol 15, No. 3, 1997.

....and IBMs NetBIOS[11] are using multicasting. Multicasting has been used primarily in the Internet, but future ATM networks are likely to deploy multicasting in a large scale, particularly in applications like broadcast video, video conferencing, multiparty telephony and workgroup applications[4]. There may be more than one possible route between a source and a group of destinations. More than one multicast session may share the same link. This gives rise to the fundamental issues of routing and scheduling in multicast communications. Until now scheduling in multicast networks has ....

....are input queued or output queued or stored in a shared memory mode. ffl If the packets are input queued, then the physical buffers are as those described in page 5. Note that here packets are replicated 7 (if at all) only when they are transmitted to the output (replication at sending (RAS)[4]) Let E T i be the set of outgoing links of tree T at node i, e.g. E T12 = fL 2 ; L 3 g, E T11 = fL 1 g, E T22 = fL 2 ; L 3 ; L 4 g, in Example IV.1, Figure 2. Let physical buffer u store packets of tree T of session n at node i. X u (t) max e2ET i B Tne (t) ffl If the packets are output ....

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F. Chiussi, Y. Xia and V. Kumar. Performance of SharedMemory Switches under Multicast Bursty Traffic IEEE Journalon Selected Areas In Communications, Vol 15, No. 3, 1997.

....SEs. The location of buffers in an SE is crucial in the throughput, delay, and cost of the switch. Input, output, and shared buffering are among the types of internal buffering whose performances have been widely studied by researchers in multiprocessors systems [1 3] and communications networks [4 11]. Turner [9] developed a model for a multistage switch with shared buffer SEs under uniform output traffic distribution. His model assumes independence between buffer slots, and uses local flow control to avoid cell loss inside the switch. His model was extended by Monterosso [10] and Bianchi [12] ....

F.M. Chiussi, Y. Xia, V.P. Kumar, Performance of shared memory switches under multicase bursty traffic, IEEE Journal on Selected Areas in Communications 15 (3) (1997) 473--487.

....allocation for real time multicast applications. Multicasting has been used primarily in the Internet, but future ATM networks are likely to deploy multicasting in a large scale, particularly in applications like broadcast video, video conferencing, multiparty telephony and workgroup applications[10]. There are two possible transmission modes in multicast networks for loss tolerant real time traffic like audio, video, etc. In one, all receivers in the same session receive information at the same rate. However, this unirate transmission has severe shortcomings for multicast networks. This is ....

F. Chiussi, Y. Xia and V. Kumar. Performance of Shared-Memory Switches under Multicast Bursty Traffic IEEE Journal on Selected Areas In Communications, Vol 15, No. 3, 1997.

....and IBMs NetBIOS[18] are using multicasting. Multicasting has been used primarily in the Internet, but future ATM networks are likely to deploy multicasting in a large scale, particularly in applications like broadcast video, video conferencing, multiparty telephony and workgroup applications[11]. In general many multicast sessions simultaneously share the network resources. Ideally all sessions should have a fair share of bandwidth. This issue of inter session fairness have been studied extensively in unicast networks. Multicasting poses some specific challenges in this regard. This is ....

F. Chiussi, Y. Xia and V. Kumar. Performance of Shared-Memory Switches under Multicast Bursty Tra#c IEEE Journal on Selected Areas In Communications, Vol 15, No. 3, 1997.

....and IBMs NetBIOS[12] are using multicasting. Multicasting has been used primarily in the Internet, but future ATM networks are likely to deploy multicasting in a large scale, particularly in applications like broadcast video, video conferencing, multiparty telephony and workgroup applications[4]. 1 Corresponding Author SUBMITTED TO IEEE TRANSACTIONS ON INFORMATION THEORY 2 There may be more than one possible route between a source and a group of destinations. More than one multicast session may share the same link. This gives rise to the fundamental issues of routing and scheduling ....

....in page 9. Note that here packets are replicated 10 (if at all) only when they are transmitted to the output. Upon arrival only a single copy of the packet is stored. Replication coincides with transmission to the outputs. This mode of replication is known as replication at sending (RAS)[4]. Let E T i be the set of outgoing links of tree T at node i, e.g. E T 1 2 = fL 2 ; L 3 g, E T11 = fL 1 g, E T22 = fL 2 ; L 3 ; L 4 g in Example IV.1, Figure 2. Let physical buffer u store packets of tree T of session n at node i. X u (t) max e2E T i B Tne (t) Example VI.1: Refer to Example ....

[Article contains additional citation context not shown here]

F. Chiussi, Y. Xia and V. Kumar. Performance of Shared-Memory Switches under Multicast Bursty Traffic IEEE Journalon Selected Areas In Communications, Vol 15, No. 3, 1997.

....and IBMs NetBIOS[12] are using multicasting. Multicasting has been used primarily in the Internet, but future ATM networks are likely to deploy multicasting in a large scale, particularly in applications like broadcast video, video conferencing, multiparty telephony and workgroup applications[4]. There may be more than one possible route between a source and a group of destinations. More than one multicast session may share the same link. This gives rise to the fundamental issues of routing and scheduling in multicast communications. Until now scheduling in multicast networks has ....

....in page 10. Note that here packets are replicated 10 (if at all) only when they are transmitted to the output. Upon arrival only a single copy of the packet is stored. Replication coincides with transmission to the outputs. This mode of replication is known as replication at sending (RAS)[4]. Let E Ti be the set of outgoing links of tree T at node i, e.g. E T12 = L 2 ,L 3 , E T11 = L 1 , E T22 = L 2 ,L 3 ,L 4 in Example 4.1, Figure 2. Let physical bu#er u store packets of tree T of session n at node i. X u (t) max e#ETi BTne (t) Example 6.1: Refer to Example 4.1, Figure 4. ....

[Article contains additional citation context not shown here]

F. Chiussi, Y. Xia and V. Kumar. Performance of Shared-Memory Switches under Multicast Bursty Tra#c IEEE Journalon Selected Areas In Communications, Vol 15, No. 3, 1997.

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F.M. Chiussi, Ye Xia and V.P. Kumar, Performance of shared-memory switches under multicast bursty traffic, IEEE Journal on Selected Areas in Communications 15 (1997) 473--487.

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F.M. Chiussi, Y. Xia, V.P. Kumar, Performance of shared memory switches under multicase bursty trac, IEEE Journal on Selected Areas in Communications 15 (3) (1997) 473487.

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