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SubjectRE: Frontswap [PATCH 0/4] (was Transcendent Memory): overview
(I'll back down on the CMM2 comparisons until I can go
back and read the paper :-)

> >> [frontswap is] really
> >> not very different from a synchronous swap device.
> >>
> > Not to beat a dead horse, but there is a very key difference:
> > The size and availability of frontswap is entirely dynamic;
> > any page-to-be-swapped can be rejected at any time even if
> > a page was previously successfully swapped to the same index.
> > Every other swap device is much more static so the swap code
> > assumes a static device. Existing swap code can account for
> > "bad blocks" on a static device, but this is far from sufficient
> > to handle the dynamicity needed by frontswap.
>
> Given that whenever frontswap fails you need to swap anyway, it is
> better for the host to never fail a frontswap request and instead back
> it with disk storage if needed. This way you avoid a pointless vmexit
> when you're out of memory. Since it's disk backed it needs to be
> asynchronous and batched.
>
> At this point we're back with the ordinary swap API. Simply have your
> host expose a device which is write cached by host memory, you'll have
> all the benefits of frontswap with none of the disadvantages, and with
> no changes to guest .

I think you are making a number of possibly false assumptions here:
1) The host [the frontswap backend may not even be a hypervisor]
2) can back it with disk storage [not if it is a bare-metal hypervisor]
3) avoid a pointless vmexit [no vmexit for a non-VMX (e.g. PV) guest]
4) when you're out of memory [how can this be determined outside of
the hypervisor?]

And, importantly, "have your host expose a device which is write
cached by host memory"... you are implying that all guest swapping
should be done to a device managed/controlled by the host? That
eliminates guest swapping to directIO/SRIOV devices doesn't it?

Anyway, I think we can see now why frontswap might not be a good
match for a hosted hypervisor (KVM), but that doesn't make it
any less useful for a bare-metal hypervisor (or TBD for in-kernel
compressed swap and TBD for possible future pseudo-RAM technologies).

Dan


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