• The Journal of Korean Institute of Communications and Information Sciences
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• v.24 no.8B
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• pp.1401-1411
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• 1999

Due to the increase of multimedia services, multicasting is considered as important design factor for ATM switch. To resolve the traffic expansion problem that is occurred by multicast in multistage interconnection networks, this paper proposes the multicast switch using a high-speed bus and a shared memory switch. Since the proposed switch uses a high-speed time division bus as a connection medium and chooses a shared memory switch as a basic switch module, it provides good port scalability. The traffic arbitration scheme enables internal non-blocking. By simulation we proves a good performance in the data throughput and the cell delay.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.6 no.5
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• pp.703-717
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• 2002

This paper illustrates the implementation of a scalable shared buffer asynchronous transfer mode (ATM) switch. The designed shared buffer ATM switch has a shared buffet of a pipelined memory which has the access time of 4 ns. The high-speed buffer access time supports a possibility of the implementation of a shared buffer ATM switch which has a large switching capacity. The designed switch architecture provides flexible switching performance and port size scalability with the independence of queue address control from buffer memory control. The switch size and the buffer size of the designed ATM switch can be reconfigured without serious circuit redesign. The designed prototype chip has a shared buffer of 128-cell and 4 ${\times}$ 4 switch size. It is integrated in 0.6um, double-metal, and single-poly CMOS technology. It has 80MHz operating frequency and supports 640Mbps per port.

• Journal of Communications and Networks
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• v.17 no.3
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• pp.286-295
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• 2015

Avionic databuses fulfill a critical function in the connection and communication of aircraft components and functions such as flight-control, navigation, and monitoring. Ethernet-based avionic databuses have become the mainstream for large aircraft owning to their advantages of full-duplex communication with high bandwidth, low latency, low packet-loss, and low cost. As a new generation aviation network communication standard, avionics full-duplex switched ethernet (AFDX) adopted concepts from the telecom standard, asynchronous transfer mode (ATM). In this technology, the switches are the key devices influencing the overall performance. This paper reviews the avionic databus with emphasis on the switch architecture classifications. Based on a comparison, analysis, and discussion of the different switch architectures, we propose a new avionic switch design based on a time-division switch fabric for high flexibility and scalability. This also merges the design concept of space-partition switch fabric to achieve reliability and predictability. The new switch architecture, called space partitioned shared memory switch (SPSMS), isolates the memory space for each output port. This can reduce the competition for resources and avoid conflicts, decrease the packet forwarding latency through the switch, and reduce the packet loss rate. A simulation of the architecture with optimized network engineering tools (OPNET) confirms the efficiency and significant performance improvement over a classic shared memory switch, in terms of overall packet latency, queuing delay, and queue size.

• Proceedings of the IEEK Conference
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• 2001.06a
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• pp.383-386
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• 2001

This paper presents a novel multicast architecture for shared multibuffer ATM switch, which is tailored for throughput enhancement in multicast environments. The address queues for multicast cells are separated from those for unicast cells to arbitrate multicast cells independently from unicast cells. Three read cycles are carried out during each cell slot and multicast cells have chances to be read from shared buffer memory(SBM) in the third read cycle provided that the shared memory is not accessed to read a unicast cell. In this architecture, maximum two cells are queued at each fabric output port per time slot and output mask choose only one cell. Extensive simulations are carried out and it shows that the proposed architecture has enhanced throughput comparing with other multicast schemes in shared multibuffer switch architecture.

• Journal of the Korean Institute of Telematics and Electronics C
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• v.35C no.11
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• pp.39-47
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• 1998

This paper describes high-speed pipelined memory architecture for a shared buffer ATM switch. The memory architecture provides high speed and scalability. It eliminates the restriction of memory cycle time in a shared buffer ATM switch. It provides versatile performance in a shared buffer ATM switch using its scalability. It consists of a 2-D array configuration of small memory banks. Increasing the array configuration enlarges the entire memory capacity. Maximum cycle time of the designed pipelined memory is 4 ns with 5 V V$\_$dd/ and 25$^{\circ}C$. It is embedded in the prototype chip of a shared scalable buffer ATM switch with 4 x 4 configuration of 4160-bit SRAM memory banks. It is integrated in 0.6 $\mu\textrm{m}$ 2-metal 1-poly CMOS technology.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.21 no.11
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• pp.2850-2861
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• 1996

This paper describes the design of AATM switch LIS of shared buffer type with linked-list architecture to control memory access. The proposed switch LSI consists of the buffer memory, controller and FIFO memory blocks and two special circuits to avoid the cell blocking. One of the special circuit is a new address control scheme with linked-list architecture which maintains the address of buffer memory serially ordered from write address to read address. All of the address is linked as chain is operated like a FIFO. The other is slip-flag register it will be hold the address chain when readaddress missed the reading of data. The circuits control the buffer memory efficiently and reduce the cell loss rate. As a result the designed chip operates at 33ns and occupied on 2.7*2.8mm$^{2}$ using 0.8.mu.m CMOS technology.

• Journal of Korea Multimedia Society
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• v.6 no.2
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• pp.301-308
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• 2003

In this paper, we propose a multicast ATM switch that reduces traffic load by using the method of storing unicast cells and multicast cells separately according to the type of the cells. The switch is based on a shared memory type to reduce HOL blocking and deadlock. In the proposed switch, we use a control scheme that schedules stored cells to output ports to reduce the loss of traffic cells and to output effectively. We analyzed the Performance of the proposed switch through the computer simulation and the results have shown the effectiveness of the switch.

• The Journal of Korean Institute of Communications and Information Sciences
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• v.30 no.4B
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• pp.162-169
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• 2005

Network traffic measurements show that the data traffic on packet switched networks has the self-similar features which is different from the traditional traffic models such as Poisson distribution or Markovian process model. Most of the call admission control researches have been done on the performance analysis of a single network switch. It is necessary to consider the performance analysis of the proposed admission control scheme under interconnected switch environment because the data traffic transmits through switches in networks. From the simulation results, it is shown that the call admission control scheme may not operate properly on the interconnected switch even though the scheme works well on a single switch. In this parer, we analyze the cell loss probability, utilization and self-similarity of output ports of the interconnected networks switch by using shared buffer memory management schemes and propose the new call admission control scheme considering the interconnected network switches under self-similar traffic environments.

• Journal of the Korea Society of Computer and Information
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• v.3 no.2
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• pp.169-175
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• 1998

There is a shared multibuffer method which can preventing HOL blocking in ATM switch. However, the system still has a problem that reduces the performance of the system because of the cell loss. Therefore, in this paper, preventing of cell loss in non-contentional shared multibuffer switch is suggested. To prevent cell loss, a structure is suggested that a cell can be loss in a certain slot time is stored in the dedicated temporary memory so the cell can be transferred in the next slot time. The simulation result of the structure, this suggested system superior performance than the exited system in cell loss rate and throughput.

• Proceedings of the IEEK Conference
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• 2000.11a
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• pp.283-286
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• 2000

One major drawback of conventional output buffered switches is that the speed of writing cells into output buffer should be N times faster than input link speed. This paper proposes a new output buffer switch that divides one output buffer into several buffers and virtually shares the divided buffers by using a distributor. The proposed switch makes it possible to reduce the memory speed. The proposed switch is evaluated in terms of the average cell latency compared with the input buffered switches which use the arbitration alogorithms, i.e., iSLIP or wrapped wave front arbiter(WWFA).