Using selective discard to improve real-time video quality on an ethernet local area network
International Journal of Network Management
Time Domain Multiplexed TAM: Implementation and Comparison
DATE '03 Proceedings of the conference on Design, Automation and Test in Europe - Volume 1
Reusing an on-chip network for the test of core-based systems
ACM Transactions on Design Automation of Electronic Systems (TODAES)
Testing Embedded Sequential Cores in Parallel Using Spectrum-Based BIST
IEEE Transactions on Computers
Reuse-based test access and integrated test scheduling for network-on-chip
Proceedings of the conference on Design, automation and test in Europe: Proceedings
Design and implementation of reconfigurable and flexible test access mechanism for system-on-chip
Integration, the VLSI Journal
An IEEE 1149.1-based BIST method for at-speed testing of inter-switch links in network on chip
Microelectronics Journal
Bandwidth Analysis of Functional Interconnects Used as Test Access Mechanism
Journal of Electronic Testing: Theory and Applications
Product-term-based synthesizable embedded programmable logic cores
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
Early estimation of wire length for dedicated test access mechanisms in networks-on-chip based SoCs
Proceedings of the 24th symposium on Integrated circuits and systems design
Research: A simulation study of enhanced arbitration methods for improving Ethernet performance
Computer Communications
A fully parallel BIST-based method to test the crosstalk defects on the inter-switch links in NOC
Microelectronics Journal
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It is well known that the Ethernet medium access control protocol can cause significant short-term unfairness through a mechanism known as the capture effect, and that this unfairness condition is worst in heavily loaded Ethernets with a small number of active nodes. Recently, Ramakrishnan and Yang (1994) proposed capture avoidance binary exponential back-off (CABEB) to provide 1-packet-per-turn round robin service in the important special case of a 2-node collision domain. We introduce an equal time round-robin scheme, in which only one node needs to be modified. In our scheme, the modified node maintains a local copy of the attempts counter of the other node. It uses this information to trigger switching its medium access policy between the two extremes of aggressively persistent and completely passive. As a result, the modified node can control the actions of the other node in such a way that both enjoy fair, low delay, round-robin access to the shared channel.