Growable ATM switch with embedded multi-channel/multicasting property

K. B. Kim; P. Y. Yan; K. S. Kim; O. Schmid; P. S. Min

Growable ATM switch with embedded multi-channel/multicasting property

K. B. Kim^*, P. Y. Yan, K. S. Kim, O. Schmid, P. S. Min

^*Corresponding author for this work

ETRI

Research output: Contribution to conference › Paper › peer-review

3 Citations (Scopus)

Abstract

We propose a high capacity switch network called the Multi-channel ATM Switch with Crossbar Oriented Network (MASCON). Implementing this switch network as a custom ASIC, we construct Multi-Stage Interconnected Networks (MINs) using the multi-channel concept to give greater throughput than that possible from MINs constructed from single-channel modules. Flexible multi-channel switching is supported in which any k ports may be grouped logically to form a higher bandwidth pipe. Multi-channel switching results in improved cell loss and delay performance due to the economy of scale in aggregating shared resources. MASCON is an internally non-blocking switch. Sixteen inputs/outputs are implemented with 622 Mbps port speed at each port for a total module capacity of 10 Gbps. A fully shared buffer is incorporated into the design. MASCON's shared buffering can interact well with MIN input and output buffering through the use of our backpressure flow-control scheme.

Original language	English
Pages	222-226
Number of pages	5
Publication status	Published - 1997
Externally published	Yes
Event	Proceedings of the 1997 IEEE Global Telecommunications Mini-Conference - Phoenix, AZ, USA Duration: 3 Nov 1997 → 8 Nov 1997

Conference

Conference	Proceedings of the 1997 IEEE Global Telecommunications Mini-Conference
City	Phoenix, AZ, USA
Period	3/11/97 → 8/11/97

Cite this

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title = "Growable ATM switch with embedded multi-channel/multicasting property",

abstract = "We propose a high capacity switch network called the Multi-channel ATM Switch with Crossbar Oriented Network (MASCON). Implementing this switch network as a custom ASIC, we construct Multi-Stage Interconnected Networks (MINs) using the multi-channel concept to give greater throughput than that possible from MINs constructed from single-channel modules. Flexible multi-channel switching is supported in which any k ports may be grouped logically to form a higher bandwidth pipe. Multi-channel switching results in improved cell loss and delay performance due to the economy of scale in aggregating shared resources. MASCON is an internally non-blocking switch. Sixteen inputs/outputs are implemented with 622 Mbps port speed at each port for a total module capacity of 10 Gbps. A fully shared buffer is incorporated into the design. MASCON's shared buffering can interact well with MIN input and output buffering through the use of our backpressure flow-control scheme.",

author = "Kim, {K. B.} and Yan, {P. Y.} and Kim, {K. S.} and O. Schmid and Min, {P. S.}",

year = "1997",

language = "English",

pages = "222--226",

note = "Proceedings of the 1997 IEEE Global Telecommunications Mini-Conference ; Conference date: 03-11-1997 Through 08-11-1997",

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TY - CONF

T1 - Growable ATM switch with embedded multi-channel/multicasting property

AU - Kim, K. B.

AU - Yan, P. Y.

AU - Kim, K. S.

AU - Schmid, O.

AU - Min, P. S.

PY - 1997

Y1 - 1997

N2 - We propose a high capacity switch network called the Multi-channel ATM Switch with Crossbar Oriented Network (MASCON). Implementing this switch network as a custom ASIC, we construct Multi-Stage Interconnected Networks (MINs) using the multi-channel concept to give greater throughput than that possible from MINs constructed from single-channel modules. Flexible multi-channel switching is supported in which any k ports may be grouped logically to form a higher bandwidth pipe. Multi-channel switching results in improved cell loss and delay performance due to the economy of scale in aggregating shared resources. MASCON is an internally non-blocking switch. Sixteen inputs/outputs are implemented with 622 Mbps port speed at each port for a total module capacity of 10 Gbps. A fully shared buffer is incorporated into the design. MASCON's shared buffering can interact well with MIN input and output buffering through the use of our backpressure flow-control scheme.

AB - We propose a high capacity switch network called the Multi-channel ATM Switch with Crossbar Oriented Network (MASCON). Implementing this switch network as a custom ASIC, we construct Multi-Stage Interconnected Networks (MINs) using the multi-channel concept to give greater throughput than that possible from MINs constructed from single-channel modules. Flexible multi-channel switching is supported in which any k ports may be grouped logically to form a higher bandwidth pipe. Multi-channel switching results in improved cell loss and delay performance due to the economy of scale in aggregating shared resources. MASCON is an internally non-blocking switch. Sixteen inputs/outputs are implemented with 622 Mbps port speed at each port for a total module capacity of 10 Gbps. A fully shared buffer is incorporated into the design. MASCON's shared buffering can interact well with MIN input and output buffering through the use of our backpressure flow-control scheme.

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M3 - Paper

AN - SCOPUS:0031379587

SP - 222

EP - 226

T2 - Proceedings of the 1997 IEEE Global Telecommunications Mini-Conference

Y2 - 3 November 1997 through 8 November 1997

ER -

Growable ATM switch with embedded multi-channel/multicasting property

Abstract

Conference

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