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RFC 9330: Low Latency, Low Loss, and Scalable Throughput (L4S . . . L4S needs networks and hosts to support a more fine-grained meaning for each ECN signal that is less severe than a drop, so that the L4S signals: * can be much more frequent and * can be signalled immediately, without the significant delay required to smooth out fluctuations in the queue
L4S | Nokia. com L4S enables real-time applications to always enjoy a low latency, no matter how busy the network is L4S also resolves another issue with standard congestion controls It provides a scalable control signal that can control rates from practically zero up to infinite throughputs
L4S – low latency, low loss, and scalable throughput - Nokia This white paper explains how a next-generation IETF internet-protocol innovation called “L4S”, pioneered by Nokia Bell Labs, can be used to control and reduce the latency that users experience on the internet
Nokia and Vodafone conduct world’s first trial of L4S . . . Pioneered by Nokia Bell Labs, L4S is a new IETF Internet standard that enables networks to simultaneously maintain high throughput and low latency First operator trial to demonstrate L4S running over an end-to-end passive optical network (PON)
An introduction to L4S - DOMOS L4S is a new standard for congestion control on the internet championed by Bob Briscoe, Greg White (CableLabs) and Koen De Schepper (Nokia) L4S stands for Low-Latency, Low-Loss, Scalable Throughput The test results from the recent L4S interop event at IETF 115 in London are very impressive, delivering low latency over WiFi and 5G networks