• Title/Summary/Keyword: ATM Switch Architecture

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Performance Evaluation of ATM Switch Structures with AAL Type 2 Switching Capability

  • Sonh, Seung-Il
    • Journal of information and communication convergence engineering
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    • v.5 no.1
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    • pp.23-28
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    • 2007
  • In this paper, we propose ATM switch structure including AAL type 2 switch which can efficiently transmit low-bit rate data, even if the network has many endpoints. We simulate the architecture of ATM switch fabric that is modeled in computer program and analyze the performance according to offered loads. ATM switch proposed in this paper can support cell switching for all types of AAL cells which consist of AAL type 1, AAL type 2, AAL type 3/4, and AAL type 5 cells. We propose two switch fabric methods; One supports the AAL type 2 cell processing per input port, the other global AAL type 2 cell processing for every input port. The simulation results show that the latter is superior to the former. But the former has a strong point for easy implementation and extensibility. The proposed ATM switch fabric architecture is applicable to mobile communication, narrow band services over ATM network.

Performance Analysis of Output Queued Batcher-Banyan Switch for ATM Network (ATM 망에 적용 가능한 출력단 버퍼형 Batcher-Banyan 스위치의 성능분석)

  • Keol-Woo Yu;Kyou Ho Lee
    • Journal of the Korea Society for Simulation
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    • v.8 no.4
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    • pp.1-8
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    • 1999
  • This paper proposes an ATM switch architecture called Output Queued Batcher-Banyan switch (OQBBS). It consists of a Sorting Module, Expanding Module, and Output Queueing Modules. The principles of channel grouping and output queueing are used to increase the maximum throughput of an ATM switch. One distinctive feature of the OQBBS is that multiple cells can be simultaneously delivered to their desired output. The switch architecture is shown to be modular and easily expandable. The performance of the OQBBS in terms of throughput, cell delays, and cell loss rate under uniform random traffic condition is evaluated by computer simulation. The throughput and the average cell delay are close to the ideal performance behavior of a fully connected output queued crossbar switch. It is also shown that the OQBBS meets the cell loss probability requirement of $10^{-6}$.

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The Performance Evaluation of an ATM Switch supporting AAL Type 2 cell Switching and The FPGA Implementation of AAL Type 2 Switch Module (AAL 유형 2 셀 스위칭을 지원하는 ATM 스위치의 성능 평가 및 AAL 유형 2 스위치 모듈의 FPGA 구현)

  • Sonh Seung-il
    • Journal of Internet Computing and Services
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    • v.5 no.3
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    • pp.45-56
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    • 2004
  • In this paper, we propose ATM switch architecture including ALL type 2 switch which can efficiently transmit low-bit rate data, even if the network has many endpoints. We simulate the architecture of ATM switch fabric that is modeled in computer program and analyze the performance according to offered loads. ATM switch proposed in this paper can support cell switching for all types of m cells which consist of ALL type 1. ALL type 2, ALL type 3/4 and ALL type 5 cells. We propose two switch fabric methods; One supports the ALL type 2 cell processing per input port, the other global ALL type 2 cell processing for every input port. The simulation results show that the latter is superior to the former. But the former has a merit for easy implementation and extensibility. In this paper, the AAL Type 2 switch module which adapts the former method is designed using VHDL language and implemented in FPGA chip. The designed AAL Type 2 switch module operates at 52MHz. The proposed ATM switch fabric is widely applicable to mobile communication, narrow band services over ATM network and wireless ATM as well as general ATM switching fabric.

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Architecture and Feasibility Evaluation of VSN (Virtual Switch Network) based Mobile ATM Switching System (VSN (Virtual Switch Network) 기반의 이동 ATM 교환기 구조 및 타당성 평가)

  • Kim, Dae-Sik;Han, Chi-Moon;Ryu, keun-Ho
    • Journal of the Korean Institute of Telematics and Electronics S
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    • v.36S no.10
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    • pp.40-50
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    • 1999
  • The novel network architecture is recently required to accommodate a variety and intelligence of communication services. It is also required to provide customized network functions and to efficiently satisfy a various user's requirements. Accordingly, open network architecture based on ATM transport network features has been mainly studied in communication network. This paper evaluates the VSN(Virtual Switch Network) characteristics in the call processing of IMT-2000 switching system, which is composed of VSN instead of ATM switch network. VSN means switch network which is composed of ATM transport network. As a result, this paper proposes new VSN based ATM-MSC architecture with integrated call and connection control systems. and evaluates call processing delay characteristics using call process procedures. Internal call processing delay is increased approximately 3.5msec than the conventional ATM switching system. The experimental values applied in the analysis condition are the load 0.8, and the 100km distance between CCCPs(Call and Connection Control Processors) and VSNs. It is confirmed that the VSN has the potentiality in the practical implementation.

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Performance evaluation of the input and output buffered knockout switch

  • Suh, Jae-Joon;Jun, Chi-Hyuck;Kim, Young-Si
    • Korean Management Science Review
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    • v.10 no.1
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    • pp.139-156
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    • 1993
  • Various ATM switches have been proposed since Asynchronous Transfer Mode (ATM) was recognized as appropriate for implementing broadband integrated services digital network (BISDN). An ATM switching network may be evaluated on two sides : traffic performances (maximum throughput, delay, and packet loss probability, etc.) and structural features (complexity, i.e. the number of switch elements necessary to construct the same size switching network, maintenance, modularity, and fault tolerance, etc.). ATM switching networks proposed to date tend to show the contrary characteristics between structural features and traffic performance. The Knockout Switch, which is well known as one of ATM switches, shows a good traffic performance but it needs so many switch elements and buffers. In this paper, we propose an input and output buffered Knockout Switch for the purpose of reducing the number of switch elements and buffers of the existing Knockout Switch. We analyze the traffic performance and the structural features of the proposed switching architecture through a discrete time Markov chain and compare with those of the existing Knockout Switch. It was found that the proposed architecture could reduce more than 40 percent of switch elements and more than 30 percent of buffers under a given requirement of cell loss probability of the switch.

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A Study on the Two-Stage ATM Switch and Its Traffic Characteristics (대용량 2단 ATM 스위치와 그 특성에 관한 연구)

  • 송광석;김윤철;한치문;이태원
    • Journal of the Korean Institute of Telematics and Electronics A
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    • v.29A no.7
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    • pp.19-30
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    • 1992
  • In this paper, a new large scale ATM switch architecture for Broadband ISDN is presented and its performance is analyzed mathematically. The proposed two-stage ATM switch consists of a sorting network and several unit switches. The proposed switch is self-routing and nonlocking. Its maximum through put is 100% without speed up which other output buffered switch needs. The hardware complexity mainly depends on that of a sorting network, but sorting network is easy to be implemented to VLSI because of its regularity in the structure.

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A High-Performance Scalable ATM Switch Design by Integrating Time-Division and Space-Division Switch Architectures

  • Park, Young-Keun
    • Journal of Electrical Engineering and information Science
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    • v.2 no.6
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    • pp.48-55
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    • 1997
  • Advances in VLSI technology have brought us completely new design principles for the high-performance switching fabrics including ATM switches. From a practical point of view, port scalability of ATM switches emerges as an important issue while complexity and performance of the switches have been major issues in the switch design. In this paper, we propose a cost-effective approach to modular ATM switch design which provides the good scalability. Taking advantages of both time-division and space-division switch architectures, we propose a practically implementable large scale ATM switch architecture. We present a scalable shared buffer type switch for a building block and its expansion method. In our design, a large scale ATM switch is realized by interconnecting the proposed shared buffer switches in three stages. We also present an efficient control mechanism of the shared buffers, synchronization method for the switches in each stage, and a flow control between stages. It is believed that the proposed approach will have a significant impact on both improving the ATM switch performance and enhancing the scalability of the switch with a new cost-effective scheme for handling the traffic congestion. We show that the proposed ATM switch provides an excellent performance and that its cell delay characteristic is comparable to output queueing which provides the best performance in cell delay among known approaches.

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Design of a Max CID Assignable AAL2 Switch (최대 CID를 지정할 수 있는 AAL2 스위치의 설계)

  • 양승엽;이정승;김장복
    • Proceedings of the IEEK Conference
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    • 1999.11a
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    • pp.113-116
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    • 1999
  • This paper presents a hardware architecture of AAL(ATM Adaptation Layer) type 2 switch. The proposed architecture can assign and configure maximum AAL2 CID limit. AAL2 is the protocol which has been recommended by ITU-T and ATM-Forum for low bit rate delay sensitive services. The architecture assumes 155 Mbps STM-1/STS-3c physical interface, maximum VCC can be 64K connections. It can support maximum 16,384M AAL2 connections. For efficient use of peripheral memory, a concept of segment address was proposed. The proposed AAL2 switch hardware architecture can be used in ATM network as a standalone server or embedded module in a ATM switching system.

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A Study on the Cell Resequence Method at the ATM Switch (공유 버퍼형 순서 재정렬 ATM스위치에 관한 연구)

  • 박성헌;전용일박광채
    • Proceedings of the IEEK Conference
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    • 1998.10a
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    • pp.273-276
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    • 1998
  • This paper proposes a new Asynchronous Transfer Mode(ATM) switch architecture for the Broadband ISDN. The proposed switch has the architecture to prohibit the out-of-sequence in shared buffer switch system with being fixed buffer size in the out-buffered large scale ATM Switch System. then in this paper proposes cell resequence algorithm to decrease the out-of-sequence problem. also, we studied the out-of-sequence problem that was occurred by the cell transfer delay and the cell overflow due to the fixed buffer size when cell resequenced and we propose to implement optimal ACFIFO(Address Counter First In First Out) buffer size which has the minimized cell loss.

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Structure and Implementation of Fully Interconnected ATM Switch (Part II : About the implementation of ASIC for Switching Element and Interconnected Network of Switch) (완전 결합형 ATM 스위치 구조 및 구현 (II부 스위치 엘리먼트 ASIC화 및 스위치 네트워크 구현에 대하여))

  • 김경수;김근배;박영호;김협종
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.21 no.1
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    • pp.131-143
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    • 1996
  • In this paper, we propose the improved structure of fully interconnected ATM Switch to develop the small sized switch element and represent practical implementation of switch network. As the part II of the full study about structure and implementation of fully interconnected ATM Switch, this paper especially describes the implementation of an ATM switching element with 8 input port and 8 output port at 155 Mbits/sec each. The single board switching element is used as a basic switching block in a small sized ATm switch for ATM LAN Hub and customer access node. This switch has dedicated bus in 12 bit width(8 bit data + 4 bit control signal) at each input and output port, bit addressing and cell filtering scheme. In this paper, we propose a practical switch architecture with fully interconnected buses to implement a small-sized switch and to provide multicast function withoutany difficulty. The design of switching element has become feasible using advanced CMOS technology and Embedded Gate Array technology. And, we also represent Application Specific Integrated Circuit(ASIC) of Switch Output Multiplexing Unit(SOMU) and 12 layered Printed Circuit Board for interconnection network of switch.

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