Title :
Worst-case performance of a buffer with independent shaped arrival processes
Author :
Kesidis, George ; Konstantopoulos, Takis
Author_Institution :
Dept. of Electr. & Comput. Eng., Waterloo Univ., Ont., Canada
Abstract :
In both asynchronous transfer mode (ATM) standards and evolving Internet guidelines, deterministic shaping has two principle objectives: (1) to facilitate the allocation of a suitable amount of resources (buffer memory, bandwidth) to a connection to achieve its required quality of service and (2) to easily police traffic and assure "fair" access to a shared resource. We take an ATM context and use fluid modeling, which is appropriate because ATM uses small fixed-length (53-byte) packets called cells. A buffer in a network access node with independent and identically distributed shaped arrival processes is considered. A worst-case performance bound is derived that relies only on the traffic shaping parameters.
Keywords :
asynchronous transfer mode; buffer storage; packet switching; quality of service; queueing theory; telecommunication standards; telecommunication traffic; ATM; ATM standards; Internet guidelines; asynchronous transfer mode; bandwidth; buffer memory; cells; deterministic shaping; fair access; fixed-length packets; fluid modeling; i.i.d. arrival processes; identically distributed shaped arrival processes; independent shaped arrival processes; network access node; quality of service; queue occupancies; resource allocation; shared resource; traffic policing; traffic shaping parameters; worst-case performance bound; Asynchronous transfer mode; Bandwidth; Context modeling; Guidelines; Quality of service; Resource management; Telecommunication traffic; Traffic control; Upper bound; Web and internet services;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/4234.823539
