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    • CommentRowNumber1.
    • CommentAuthoradeelkh
    • CommentTimeApr 17th 2013

    Karoubian category

    Added the definitions of Karoubian category and Karoubi envelope that appear in (an exercise in) SGA 4.

    A stupid question: why do they call that difference kernel the image of p? In what sense is it the image?

    • CommentRowNumber2.
    • CommentAuthorZhen Lin
    • CommentTimeApr 17th 2013

    The equaliser of an idempotent and the identity is (as an object) also the coequaliser of the same pair. So you can think of it either as a quotient or as a subobject!

    But doesn’t this article duplicate what is at Cauchy complete category and Karoubi envelope?

    • CommentRowNumber3.
    • CommentAuthoradeelkh
    • CommentTimeApr 17th 2013
    • (edited Apr 17th 2013)

    The equaliser of an idempotent and the identity is (as an object) also the coequaliser of the same pair.

    This I do understand; if one can think of Ker(id, p) as the kernel of p then one can also see it as the image, since it is canonically isomorphic to Coker(id, p). What i don't understand is in what sense Ker(id, p) is the kernel of p? (Why is a Karoubi category one where all idempotents "have a kernel"?) I thought the kernel is the object represented by the functor Y -> Ker(Hom(Y,X) -> Hom(Y,X)), or the equaliser Ker(p, 0) when C admits zero morphisms.

    But doesn’t this article duplicate what is at Cauchy complete category and Karoubi envelope?

    Hm... it's strange that there weren't even any links between these two pages. I suppose we will have to do some reorganization.

    • CommentRowNumber4.
    • CommentAuthorZhen Lin
    • CommentTimeApr 18th 2013
    • (edited Apr 18th 2013)

    This I do understand; if one can think of Ker(id, p) as the kernel of p then one can also see it as the image, since it is canonically isomorphic to Coker(id, p). What i don’t understand is in what sense Ker(id, p) is the kernel of p? (Why is a Karoubi category one where all idempotents “have a kernel”?) I thought the kernel is the object represented by the functor Y -> Ker(Hom(Y,X) -> Hom(Y,X)), or the equaliser Ker(p, 0) when C admits zero morphisms.

    Oh, I think that’s just a French-ism. It seems to me people close to algebraic geometry like saying ‘kernel’ instead of ‘equaliser’.

    • CommentRowNumber5.
    • CommentAuthorTodd_Trimble
    • CommentTimeApr 18th 2013
    • (edited Apr 18th 2013)

    Hm… it’s strange that there weren’t even any links between these two pages.

    ??? Karoubi envelope links directly to Cauchy complete category, in more than one place. And I see that Cauchy complete category links back to Karoubi envelope as well.

    • CommentRowNumber6.
    • CommentAuthoradeelkh
    • CommentTimeApr 18th 2013

    Oh, I think that’s just a French-ism. It seems to me people close to algebraic geometry like saying ‘kernel’ instead of ‘equaliser’.

    Ah, I see.

    Hm... it's strange that there weren't even any links between these two pages.

    ??? Karoubi envelope links directly to Cauchy complete category, in more than one place. And I see that Cauchy complete category links back to Karoubi envelope as well.

    Sorry, I meant between the pages Karoubian category and Karoubi envelope.

    • CommentRowNumber7.
    • CommentAuthorTodd_Trimble
    • CommentTimeApr 18th 2013

    Of course, linking between pages is the easiest thing in the world. If you see pages that ought to be linked, just put them in (as I just did, cross-linking between Karoubian category and Karoubi envelope).

    While I was at it, I added some more material to Karoubian category (e.g., answering a question about a converse statement).

    • CommentRowNumber8.
    • CommentAuthoradeelkh
    • CommentTimeApr 18th 2013
    • (edited Apr 18th 2013)

    I added some more material to Karoubian category (e.g., answering a question about a converse statement).

    Thanks!

    Since p:XXp:X\to X is idempotent iff id Xp\id_X - p is idempotent, this is the same as saying every idempotent has a kernel.

    Ah, this was precisely the point I was missing.

    • CommentRowNumber9.
    • CommentAuthorUrs
    • CommentTimeMay 31st 2013

    I moved a bunch of redirects pointing to various synonyms of “idempotent completion” from Karoubian category to idempotent completion. Okay?

    I also made some slight cosmetic edits in the former entry.

    • CommentRowNumber10.
    • CommentAuthorzskoda
    • CommentTimeMar 9th 2014
    • (edited Mar 9th 2014)

    The entries Karoubian category, , Karoubi envelope, Cauchy completion confuse me quote a lot in the case of AbAb-enriched categories (what is the default case for Karoubian envelope in the practical mathematics). If understood the terminology, the nnLab says that the Cauchy completion is the general case of enriched categories and Karoubi envelope is the default for usual categories. This seems to say that in the case of Ab-enriched categories that the underlying Set-category of the Karoubian completion is the Karoubian completion of the underlying Set-category. But this seems not to be so. Borceux’s monograph’s proof of the existence of completion takes Yoneda embedding, notes that it is Karoubi complete, takes the representables and their split subobjects where one particular splitting is chosen for each such object. So, in the case of a ring viewed as a AbAb-enriched category with one object, one would look just at projective ideals (+with splitting within the ring), while the true Karoubian envelope is the category of finitely generated projectives. Thus the Karoubi completion of AbAb-enriched categories is completion under idempotents and direct sums. AbAb-enriched category does not need to have the direct sums so it is not obvious how the general discussion implies we have to take retracts of finite coproducts ?

    • CommentRowNumber11.
    • CommentAuthorTodd_Trimble
    • CommentTimeMar 9th 2014
    • (edited Mar 9th 2014)

    Zoran, I expect you’re right that the situation is a bit of a mess, but let me try to summarize what I think you are saying and then propose a remedy:

    • The nLab says that the Karoubi envelope is the Cauchy completion for categories considered qua SetSet-enriched categories, but

    • Usually in mathematics, when the term “Karoubi envelope” comes up, it is understood as pertaining to AbAb-enriched categories, where Cauchy completion means something else (closure under absolute colimits, which includes direct sums and splitting of idempotents).

    I think that sounds right to me, particularly the second point. I think merging idempotent completion into Karoubi envelope is therefore a bad idea; we should have them as separate entries. (I can check once this comment is posted, but I prefer the term idempotent-splitting completion and hope that at least there’s a redirect for that. Edit: yes there is, but the redirect is to Karoubi envelope.)

    Of course Cauchy completion, for which we actually have multiple entries, is the most general (pertaining to all forms of enrichment), and I think deserves a stand-alone entry.

    • CommentRowNumber12.
    • CommentAuthorzskoda
    • CommentTimeMar 9th 2014
    • (edited Mar 9th 2014)

    I expected the answer from you – and was lucky to get it quickly!

    let me try to summarize what I think you are saying

    Yes, you summarized what I said that I suspected that it was true, but was not sure. Otherwise I would not ask (I am trying to compare many external references, but it is hard to quickly find explicit all what I need in a due comparison).

    • CommentRowNumber13.
    • CommentAuthorzskoda
    • CommentTimeMar 9th 2014

    closure under absolute colimits, which includes direct sums and splitting of idempotents

    Not only finite direct sums ?

    • CommentRowNumber14.
    • CommentAuthorTodd_Trimble
    • CommentTimeMar 9th 2014

    No, I meant only finite direct sums for the AbAb-enriched case.

    • CommentRowNumber15.
    • CommentAuthorTodd_Trimble
    • CommentTimeMar 9th 2014

    After googling a little bit, it seems that all the hits I got pointed to Karoubi envelope as a synonym of idempotent-splitting completion (even for AbAb-enriched categories). So what can I say? It would be nice if Karoubi envelope in the literature on AbAb-enriched categories meant the “true Karoubi envelope” as Zoran put it, but for whatever reason people don’t seem to adopt the “true” concept under that name. Does Borceux treat the general enriched case?

    • CommentRowNumber16.
    • CommentAuthorTodd_Trimble
    • CommentTimeApr 17th 2014

    Just in case anyone is wondering, the “Anonymous Coward” who performed the last edits at Karoubi envelope was me (it was an accident; I’m on vacation and working from a computer different from my own).

    • CommentRowNumber17.
    • CommentAuthorGuest
    • CommentTimeSep 9th 2021
    A question about:

    The Karoubian envelope is also used in the construction of the category of pure motives,
    and in K-theory.

    which constructions from K-theory are here referred to exactly? The most common one is of course the construction K_0 (A) of algebraic K-theory for a ring A as K_0 (P_A), where P_A is the category of finitely generated A-modules, which can also be recognized as Karoubi completion of the category F_A of finite generated free A-modules. BUT my question is if here is referred to constructions in K-theory in more general setting (eg for K-groups of exact or Waldhausen-categories) which make use of the Karoubian completion.

    many greetings,
    Ingo
    • CommentRowNumber18.
    • CommentAuthorDmitri Pavlov
    • CommentTimeMar 25th 2023
    • CommentRowNumber19.
    • CommentAuthorelias_guisado
    • CommentTimeMay 9th 2023

    Added the eponymous mathematician.

    diff, v12, current

    • CommentRowNumber20.
    • CommentAuthorUrs
    • CommentTimeMay 9th 2023

    Thanks. We should also add citation for why, when and by whom these structures were named after Karoubi.

    Incidentally, the same problem persists for the entry Karoubi envelope and also with the Wikipedia entry of the same name (here): These entries never say what Karoubi had to do with their content.

    • CommentRowNumber21.
    • CommentAuthorUrs
    • CommentTimeMay 9th 2023

    added pointer to:

    diff, v13, current

    • CommentRowNumber22.
    • CommentAuthorUrs
    • CommentTimeMay 9th 2023

    also added two reference that actually say “Karoubian category”:

    (for bystanders: see also the parallel discussion in another thread here)

    diff, v13, current