Hi Bob, Thanks for your response, I think it helped clarify some important things for me. The point about starvation especially was a good one I hadn't fully considered, and I agree if SCE-based implementations can’t demonstrate a solution, that would be a major problem with the SCE approach for signaling. And sorry for my slow response, I ended up restarting a few times to try to dodge ratholes. (Plus some day-job duties, apologies...) I found it a bit challenging to avoid the ratholes effectively, so I'm thinking maybe the right move is to set up a testbed. Maybe playing with that (very cool-looking!) L4SDemo tool can either ease my concerns, or provide some more specific and detailed scenarios to address. I see that the source code is published now at https://github.com/L4STeam/l4sdemo (thanks Olivier!). So I’ll try to bring that up at some point, time permitting, in hopes it makes the comments and questions more productive. One meta-point I wanted to make: "In trying to find a compromise, you've taken the fire that is really aimed at the inadequacy of underlying SCE protocol - for anything other than FQ. If the primary SCE proponents had attempted to articulate a way to use SCE in a single queue or a dual queue, as you have, that would have taken my fire." I think "fire" here is a potentially harmful metaphor--I don't take your comments as an attack or this discussion as a battle, but rather a collaborative attempt to reach a common goal of a better internet. I hope my comments on this are received the same way, even where we don't see eye to eye yet. While both ideas can't be the best use of ECT(1) at the same time, I take this discussion as an effort to reach a common and complete understanding of the issues at hand, so that we can hopefully agree on the best approach in the end (or if we can't get there, maybe we can at least agree on the underlying reasons we don't agree). With that said, a few brief points I think really should be raised: 1. "non-problem" is an unreasonably strong conclusion to reach from a snapshot failure to detect any single-queue marking AQMs. We know that tc-pie exists in widely deployed systems, supports ECN, and could be turned on at any moment by anybody, and we also know there's an increased interest in ECN since Apple and Linux got it turned on on endpoints. Even if we measure everything today, it’s hard to be sure this wouldn’t impact an in-progress rollout that someone has been working toward for their network with proper due diligence, and following IETF advice faithfully. I think if the intent is really to deploy this experiment under the claim that's a non-problem, it should be called out in the docs as a risk factor, and consensus should probably be explicitly checked on that point. It also probably would be polite to update RFC 7567's advice in section 4, since it seems like this position would invalidate (or at least add nuance) to several of the SHOULDs given there, recommending the use of ECN. 2. “does not starve a classic flow, but can be highly unequal” is also perhaps too low a bar to consider a non-problem, and also seems like maybe it deserves to be called out as a risk factor. 3. One more meta-point: the sales-y language makes the drafts hard to read for me, so please forgive some of my confusion. I'm having a hard time distinguishing the claims that are well-supported by test results in a realistic experimental design from some of the claims that are more forward- looking or speculative. (4. There’s one other point I’ll mention in response to Ingemar’s comment, about performance being sufficient to drive adoption, and the difference between what’s achievable with classic ECN and what’s achievable with L4S, but that thread is perhaps a better venue for discussing it.) Best regards, Jake