Our results show that such hardware devices provide a failure reaction time in the order of microseconds, with an average of 472.88 μ s, which poses PDP as a key technology to achieve zero packet loss and zero delay failure recovery.
Dec 19, 2023 · In this paper, we demonstrate the benefits of the devices with Programmable Data Planes (PDP) for fast reacting to link failures. We first ...
In this paper, we demonstrate the benefits of the devices with Programmable Data Planes (PDP) for fast reacting to link failures. We first review the link ...
Dec 19, 2023 · InFaRR (In-network Fast ReRouting) is an algorithm for fast rerouting in programmable data planes. Implemented in P4, InFaRR is free of ...
Quantitative measurement of link failure reaction time for devices with P4-programmable data planes ; Journal: Telecommunication Systems, 2023, № 2, p. 277-288.
Dec 19, 2023 · Quantitative measurement of link failure reaction time for devices with P4-programmable data planes. Publication date:12/19/2023 ...
Quantitative measurement of link failure reaction time for devices with P4-programmable data planes. D Franco, M Higuero, EO Zaballa, J Unzilla, E Jacob.
Quantitative measurement of link failure reaction time for devices with P4-programmable data planes ... Quick handling of link failures remains a ...
... measured FRT when using 7.619 Gbps bitrate and 64-byte.. Quantitative measurement of link failure reaction time for devices with P4-programmable data planes.
Oct 24, 2022 · In this paper, we introduce a design of a fast failure recovery mechanism using MRC for software-defined networks with Programming Protocol-independent Packet ...