Abstract: Xunet 2 is a collaborative research program with a goal of understanding the fundamental issues in the performance of ATM networks. These networks are expected to carry a mixture of constant bit rate traffic, variable bit rate traffic and computer traffic spanning a wide range of performance requirements. This paper describes these service requirements and matches them with performance guarantees that can be provided by the scheduling discipline supported by an experimental ATM switch. The scheduler supports per-virtual-circuit queueing and several priorities of round robin service in order to segregate real-time and non-real-time traffic and provide fair sharing for bursty computer traffic. Detailed simulations show that real-tim...
A new approach for bandwidth allocation and congestion control is reported in this paper, which is o...
This paper presents a heuristic approach to the problem of call admission control. The algorithm is ...
Today, ATM networks are being used to carry bursty data traffic with large and highly variable rates...
Abstract—This paper is a retrospective on the design of Xunet 2, one of the earliest functional wide...
Abstract — This paper is a retrospective on the design of Xunet 2, one of the earliest functional wi...
In an ATM network, a single link may carry traffic for thousands of connections with different para...
The issue of traffic control in ATM networks is of the utmost importance in the light of the heterog...
We have developed an Asynchronous Transfer Mode (ATM) network simulator to study the relationships b...
The scheduling scheme of a switch affects the delay, throughput and fairness of a network and thus h...
This paper proposes a new mechanism called the Priority Token Bank for admission control, scheduling...
The key to multi-service platform performance with QoS support is to provide appropriate switching a...
grantor: University of TorontoBroadband integrated services networks should support a wide...
This paper proposes a new mechanism called the Priority Token Bank for admission control, scheduling...
High-speed ATM networks are expected to support various types of applications, each with their own Q...
Current and feature application make use of different technologies as voice, data and video. Consequ...
A new approach for bandwidth allocation and congestion control is reported in this paper, which is o...
This paper presents a heuristic approach to the problem of call admission control. The algorithm is ...
Today, ATM networks are being used to carry bursty data traffic with large and highly variable rates...
Abstract—This paper is a retrospective on the design of Xunet 2, one of the earliest functional wide...
Abstract — This paper is a retrospective on the design of Xunet 2, one of the earliest functional wi...
In an ATM network, a single link may carry traffic for thousands of connections with different para...
The issue of traffic control in ATM networks is of the utmost importance in the light of the heterog...
We have developed an Asynchronous Transfer Mode (ATM) network simulator to study the relationships b...
The scheduling scheme of a switch affects the delay, throughput and fairness of a network and thus h...
This paper proposes a new mechanism called the Priority Token Bank for admission control, scheduling...
The key to multi-service platform performance with QoS support is to provide appropriate switching a...
grantor: University of TorontoBroadband integrated services networks should support a wide...
This paper proposes a new mechanism called the Priority Token Bank for admission control, scheduling...
High-speed ATM networks are expected to support various types of applications, each with their own Q...
Current and feature application make use of different technologies as voice, data and video. Consequ...
A new approach for bandwidth allocation and congestion control is reported in this paper, which is o...
This paper presents a heuristic approach to the problem of call admission control. The algorithm is ...
Today, ATM networks are being used to carry bursty data traffic with large and highly variable rates...