Title :
Performance evaluation of shared-buffer ATM switches under self-similar traffic
Author :
Fong, Simon ; Singh, Samar
Author_Institution :
Sch. of Comput. Sci. & Comput. Eng., La Trobe Univ., Melbourne, Vic., Australia
Abstract :
Self-similar (or fractal) is a relatively new concept in traffic modeling that needs to be taken into account in the design and performance evaluation of communication networks. Many studies indicate that self-similar traffic exhibits features such as long-range-dependence and heavy-tailed distributions which are not found in current traffic assumptions. Thus previous results that draw on those assumptions may need to be revised. We investigate the performance of shared-buffer ATM switches with and without pushout (as a buffer control scheme called HSPO) under self-similar traffic input using simulation. Our results confirm that (i) HSPO still shows improvement in performance under self-similar traffic, and (ii) the long-range-dependence in self-similar traffic is not a major influence in cell-switching whereas the way successive cells address the outputs plays a significant role
Keywords :
asynchronous transfer mode; buffer storage; fractals; telecommunication congestion control; telecommunication networks; telecommunication traffic; HSPO; buffer control; cell switching; communication network design; fractals; heavy tailed distributions; long range dependence; performance evaluation; pushout; self similar traffic; shared buffer ATM switches; simulation; traffic assumptions; traffic modeling; Analytical models; Asynchronous transfer mode; Communication networks; Computer science; Fractals; Performance analysis; Queueing analysis; Switches; Telecommunication traffic; Traffic control;
Conference_Titel :
Performance, Computing, and Communications Conference, 1997. IPCCC 1997., IEEE International
Conference_Location :
Phoenix, Tempe, AZ
Print_ISBN :
0-7803-3873-1
DOI :
10.1109/PCCC.1997.581525
