An experimental switching system has been built using commercially available integrated semiconductors to switch data. Data messages to be handled by the system may vary in bit rate (100 bits/sec - 4 × 106 bits/sec), message length, and rate of message occurrence. The system uses a synchronous transmission facility with a crystal stabilized clock rate of approximately 6 MHz. The signaling format chosen facilitates data interchange between a number of similar small sequential machines that share a common transmission facility. Efficient data transmission over common carrier systems requires a change in signal format at the channel inputs. Systems involving interconnected loops are discussed briefly; however, the traffic handling capacity of such systems must be analyzed to determine the memory requirements at the junction points. This paper is concerned primarily with the detailed organization of a single loop.
Description
An experimental distributed switching system to handle bursty computer traffic
%0 Conference Paper
%1 FN69
%A Farmer, W. D.
%A Newhall, E. E.
%B Proceedings of the first ACM symposium on Problems in the optimization of data communications systems
%C New York, NY, USA
%D 1969
%I ACM
%K tokenring www02 wwwbook wwwkap4
%P 1--3
%R http://doi.acm.org/10.1145/800165.805236
%T An experimental distributed switching system to handle bursty computer traffic
%X An experimental switching system has been built using commercially available integrated semiconductors to switch data. Data messages to be handled by the system may vary in bit rate (100 bits/sec - 4 × 106 bits/sec), message length, and rate of message occurrence. The system uses a synchronous transmission facility with a crystal stabilized clock rate of approximately 6 MHz. The signaling format chosen facilitates data interchange between a number of similar small sequential machines that share a common transmission facility. Efficient data transmission over common carrier systems requires a change in signal format at the channel inputs. Systems involving interconnected loops are discussed briefly; however, the traffic handling capacity of such systems must be analyzed to determine the memory requirements at the junction points. This paper is concerned primarily with the detailed organization of a single loop.
@inproceedings{FN69,
abstract = {An experimental switching system has been built using commercially available integrated semiconductors to switch data. Data messages to be handled by the system may vary in bit rate (100 bits/sec - 4 × 106 bits/sec), message length, and rate of message occurrence. The system uses a synchronous transmission facility with a crystal stabilized clock rate of approximately 6 MHz. The signaling format chosen facilitates data interchange between a number of similar small sequential machines that share a common transmission facility. Efficient data transmission over common carrier systems requires a change in signal format at the channel inputs. Systems involving interconnected loops are discussed briefly; however, the traffic handling capacity of such systems must be analyzed to determine the memory requirements at the junction points. This paper is concerned primarily with the detailed organization of a single loop.},
added-at = {2009-06-19T14:35:26.000+0200},
address = {New York, NY, USA},
author = {Farmer, W. D. and Newhall, E. E.},
biburl = {https://www.bibsonomy.org/bibtex/26f6374877b0accf7796c7e40ceb34983/lysander07},
booktitle = {Proceedings of the first ACM symposium on Problems in the optimization of data communications systems},
description = {An experimental distributed switching system to handle bursty computer traffic},
doi = {http://doi.acm.org/10.1145/800165.805236},
interhash = {8d5839b6f1f4763c9d0aeb49324b4a8a},
intrahash = {6f6374877b0accf7796c7e40ceb34983},
keywords = {tokenring www02 wwwbook wwwkap4},
location = {Pine Mountain, Georgia, United States},
pages = {1--3},
publisher = {ACM},
timestamp = {2009-06-19T14:35:26.000+0200},
title = {An experimental distributed switching system to handle bursty computer traffic},
year = 1969
}