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....firing times k Theta v , that represent an Erlang k distribution. 3 The GAUSS Switch The ATM GAUSS switch (Grab Any UnuSed Slot) has been proposed by De Vries at KPN Research [1, 28] see also [24, Section 5. 5] The basic structure of the GAUSS switch is comparable to the Knockout switch [24, 29]: it is a time division switch, that has an input broadcast bus for every input port, and an output port interface connected to the bus for every output port, as depicted in Fig. 3. The main difference between the GAUSS and the Knockout Switch is the output module. The output module of the GAUSS ....
C. Partridge, Gigabit Networking, Addison-Wesley, 1993.
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....reserve this bandwidth. If the reservation is granted, the application can use it for its purposes. RSVP is not responsible for how the reservations are implemented at the network nodes. This is the responsibility of the respective trac control modules such as a Weighted Fair Queueing Scheduler [10, 4, 9] or a Class Based Queueing module [6] Therefore it is possible to de ne more or less strict services. Two services have been de ned by the IETF, the controlled load service [14] and the guaranteed service [12] In this paper we only consider the latter one. It is the strictest service possible ....
....1. Delay determination with the token bucket envelope function 2.1 End to end Delay with Guaranteed Service In this section we describe the original Guaranteed Service [12] for later comparison with our new method. To describe a trac pro le the token bucket with a leaky bucket model is used [10]. A description has the parameter set (r; b; p; M ) The parameter r denotes the average data rate. Parameter b denotes the maximum burst size and parameter p denotes the peak rate. For any time interval T the amount of data will not exceed M p T . Additional parameters used by GS are the ....
Partridge, C.: Gigabit Networking, Addison-Wesley Professional Computing Series, 1995.
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....increase of available bandwidth was mainly instigated by the innovation of link technologies, especially the development of optical carriers, while as the routers that power the Internet have become a bottleneck in the rocketing use of the World Wide Web. With the advent of gigabit networking [18], sophisticated new distributed router designs have emerged to meet the resulting technical challenges in ways that allow Internet Service Providers (ISPs) to quickly scale up their networks and bring new services to market. 3] One of the dictinct features of modern Internet routers is that most ....
Craig Partridge. Gigabit Networking. Addison Wesley Publishers, 1994.
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....the admission control parameters based on the administrator supplied response time target. In the current design, the controller adjusts the rate at which new requests are admitted into the stage s queue by adjusting the rate at which new tokens are generated in a token bucket traffic shaper [110]. The basic overload control algorithm makes use of additive increase multiplicativedecrease tuning of the token bucket rate based on the current observation of the 90th percentile response time. The controller is invoked by the stage s event processing thread after some number of requests (nreq) ....
C. Partridge. Gigabit Networking. Addison-Wesley, 1993.
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C. Partridge, Gigabit Networking, Addison Wesley, 1994.
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C. Partridge (1994). Gigabit Networking. Addison-Wesley, Reading, MA. 32(6):26--31.
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C. Partridge (1994). Gigabit Networking. Addison-Wesley, Reading, MA. 32(6):26--31.
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C. Partridge (1994). Gigabit Networking. Addison-Wesley, Reading, MA. 32(6):26--31.
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C. Partridge (1994). Gigabit Networking. Addison-Wesley, Reading, MA. 32(6):26--31.
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