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    SubjectRe: [RFC PATCH 0/3] Weight-balanced binary tree + KVM growable memory slots using wbtree
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    On Thu, 2011-02-24 at 12:06 +0200, Avi Kivity wrote:
    > On 02/23/2011 09:28 PM, Alex Williamson wrote:
    > > I had forgotten about<1M mem, so actually the slot configuration was:
    > >
    > > 0:<1M
    > > 1: 1M - 3.5G
    > > 2: 4G+
    > >
    > > I stacked the deck in favor of the static array (0: 4G+, 1: 1M-3.5G, 2:
    > > <1M), and got these kernbench results:
    > >
    > > base (stdev) reorder (stdev) wbtree (stdev)
    > > --------+-----------------+----------------+----------------+
    > > Elapsed | 42.809 (0.19) | 42.160 (0.22) | 42.305 (0.23) |
    > > User | 115.709 (0.22) | 114.358 (0.40) | 114.720 (0.31) |
    > > System | 41.605 (0.14) | 40.741 (0.22) | 40.924 (0.20) |
    > > %cpu | 366.9 (1.45) | 367.4 (1.17) | 367.6 (1.51) |
    > > context | 7272.3 (68.6) | 7248.1 (89.7) | 7249.5 (97.8) |
    > > sleeps | 14826.2 (110.6) | 14780.7 (86.9) | 14798.5 (63.0) |
    > >
    > > So, wbtree is only slightly behind reordering, and the standard
    > > deviation suggests the runs are mostly within the noise of each other.
    > > Thanks,
    >
    > Doesn't this indicate we should use reordering, instead of a new data
    > structure?

    The original problem that brought this on was scaling. The re-ordered
    array still has O(N) scaling while the tree should have ~O(logN) (note
    that it currently doesn't because it needs a compaction algorithm added
    after insert and remove). So yes, it's hard to beat the results of a
    test that hammers on the first couple entries of a sorted array, but I
    think the tree has better than current performance and more predictable
    when scaled performance.

    If we knew when we were searching for which type of data, it would
    perhaps be nice if we could use a sorted array for guest memory (since
    it's nicely bounded into a small number of large chunks), and a tree for
    mmio (where we expect the scaling to be a factor). Thanks,

    Alex



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