Firstly, I agree that this should be reopened.
I'm not a Verilog expert, but so far nobody criticising this question has claimed that the question's accepted answer, which is a grand total of around 7 sentences plus a code snippet, is anything less than a correct and entirely complete answer to the question that was asked. I'm therefore presuming, until somebody claims otherwise, that it is in fact correct and complete.
I've also taken the time to acquire a copy of IEEE 1800-2012, the standard cited by that same accepted answer. It takes 10 pages to cover the behaviour of these three functions.
There have been, essentially, two arguments given for why this question deserves closure. The first, quoted in this Meta question, was basically that it was asking for something trivially looked up in "the manual". But as best I can tell, there is no single official manual for Verilog, only a standard. That standard, as I mentioned, takes 10 pages to cover this material, and is also behind a paywall, so it is hardly possible to answer this question with a trivial lookup. Other references I can find publicly available via Google, like https://accellera.org/images/downloads/standards/v-ams/VAMS-LRM-2-4.pdf, also fail to clearly and succinctly describe the differences between these functions in a single place. As such, I think that the assertion that the question is trivially answerable by using official sources (whether or not that's a valid justification for closing questions in the first place) is not actually true.
The second argument against the question is that it's too broad. There have been essentially two variants of this argument made. One is advanced by Nicol Bolas, in his answer. As I understand it, he considers an analogy to two substantially different but easily-confused functions in OpenGL (an API he knows well), and argues that a question asking what the difference between them is would be unhelpful because to answer it completely he'd essentially have to regurgitate the full content of the documentation of each of those individual functions, providing no value-add over the reader just reading those documentation pages themselves. That's all well and good, as it concerns his hypothetical case. But I think it is a mistake to casually assume, as he does, that this is an inherent and inevitable problem with "what is the difference between these things" questions. It is perfectly possible for two functions to be almost exactly identical in their behaviour, modulo one tiny difference, but for their official documentation to describe their behaviour in a way that does not make that clear. This appears to be such a case; as such, I don't think Nicol's argument applies.
The second variant of the argument for the question being Too Broad is that the fact that the standard takes a lot of pages to describe these functions' behaviour proves that the question is very broad. I think this is patently silly. The fact one source spends many words describing something does not mean that it innately requires many words to describe, and the fact that we do in fact have an answer that is only a few sentences long seems to prove that.
In summary, the question looks to my inexpert eye like it provides value to Verilog programmers by succinctly offering information that is hard to extract from the official standard, and that none of the arguments for its closure survive scrutiny. I usually refrain from pitching in on moderating questions in technologies that I don't use or understand, but since in this case many of the close-voters also don't have any subject-matter expertise (and since the verilog community probably isn't big enough to reopen this on its own), I'm comfortable arguing for reopening. Maybe, in my ignorance of Verilog, I'm misjudging this - but if so, I haven't seen a persuasive argument of that yet.
Secondly, I'm annoyed by the attempts to shut down discussion on this Meta thread, which took two forms:
Voting to delete the accepted answer. I don't agree with it either, but I agree with Cody Gray that voting to delete perfectly coherently-argued opinions because you disagree with them is an abuse of delete votes. The proper recourse was to argue against it, not to delete it.
Voting to close the question itself. There were two justifications given: the stock reason that the question "does not seek input and discussion", and, during the time that the question on the main site was deleted, that this Meta question asked about a situation that "can no longer be reproduced", on the grounds that a deleted question can't be reopened.
This all seems very silly to me. Posting a Meta thread arguing for taking some action on a specific question is perfectly legitimate and done frequently. It seems to me that this question seeks input just as much as any other such question does - and, indeed, that it has attracted a great deal of input.
Arguing that the Meta question deserves closure due to the main question's deletion also strikes me as a use of closure that we shouldn't accept. It's normal, and perfectly fine, that the status of a question on main changes over the course of a discussion about it on Meta. That isn't a reason for closure. Those who voted to close the Meta question on that basis are effectively arguing for a system that allows any three people to halt any Meta discussion about reopening a question: you just delete the question from main that's being discussed, revert any edits on Meta acknowledging that this has happened and criticise them as abusive for invalidating the existing discussion, and vote to close the Meta question on the grounds that the circumstances have changed. This is silly. The discussion about the merits of the Verilog question were not invalidated by its deletion. If we accept that it was, we permit a trivial formula to auto-win any discussion about reopening a question. That's stupid.