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Multi-frame Isochronous Service for ATM Networks: Stop-and-Go Revisited
Las Vegas, NV September 22-September 25
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/ICCCN.1997.623284Sixth International Conference on Com ...
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T. Ibaraki, T. Kameda, "Multi-frame Isochronous Service for ATM Networks: Stop-and-Go Revisited," Computer Communications and Networks, International Conference on, pp. 4, Sixth International Conference on Computer Communications and Networks (ICCCN '97), 1997.
 
 
BibTex
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@article{ 10.1109/ICCCN.1997.623284,
author = {T. Ibaraki and T. Kameda},
title = {Multi-frame Isochronous Service for ATM Networks: Stop-and-Go Revisited},
journal ={Computer Communications and Networks, International Conference on},
volume = {0},
year = {1997},
issn = {1095-2055},
pages = {4},
doi = {http://doi.ieeecomputersociety.org/10.1109/ICCCN.1997.623284},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
}
 
 
RefWorks Procite/RefMan/Endnote
x 
 
TY - CONF
JO - Computer Communications and Networks, International Conference on
TI - Multi-frame Isochronous Service for ATM Networks: Stop-and-Go Revisited
SN - 1095-2055
SP
EP
A1 - T. Ibaraki,
A1 - T. Kameda,
PY - 1997
KW - ATM networks
KW - frame-based cell scheduling
KW - end-to-end delay
KW - delay-jitter
KW - quality of service.
VL - 0
JA - Computer Communications and Networks, International Conference on
ER -
 
T. Ibaraki, Kyoto University
T. Kameda, Simon Fraser University
The ATM switching scheme we propose is similar to the multi-frame Stop-and-Go, except that we use the EDF (Earliest-Deadline-First) scheduler, instead of the rate-monotonic, static-priority scheduler. Unlike the multi-frame Stop-and-Go, our scheme can fully utilize the link bandwidth, and does not require that the input or output frames of the same size be synchronized. EDF scheduling is, in general, more complex than static-priority scheduling. However, we show that the next earliest deadline needs to be computed only when an output frame reaches its end, i.e., not whenever a cell is output, resulting in significant saving in computation time. We show a detailed implementation, which requires two FIFO queues per frame size per switch, and derive bounds on end-to-end delay and delay-jitters.
Index Terms:
ATM networks, frame-based cell scheduling, end-to-end delay, delay-jitter, quality of service.
Citation:
T. Ibaraki, T. Kameda, "Multi-frame Isochronous Service for ATM Networks: Stop-and-Go Revisited," icccn, pp.4, Sixth International Conference on Computer Communications and Networks (ICCCN '97), 1997
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