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https://issues.apache.org/jira/browse/HBASE-15560?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=16815767#comment-16815767
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Andrew Purtell commented on HBASE-15560:
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{quote}Also the test 'fixes' for existing code seem to be hacks
{quote}
I dispute this term 'hack'. Previously the tests expected the first level cache
to always be LRUBlockCache. That is not invalid when there is only one choice
but once there is more than one choice it is a bug, a bug in the test. I don't
think we should require TinyLFU integrator to rewrite all of the tests with
this old assumption, so what I've done is exclude those cases when TinyLFU is
L1, and only then, so there is no loss of coverage for the default case.
There can be more coverage added later for TinyLFU. A follow up issue would be
fine.
Thanks for pointing out the commented out code. I can remove that upon commit.
I've opted to remove this logging from the test because it seems of little
value rather than also make it conditional on which blockcache version is
installed. If you disagree we could do it the other way.
Thanks for the hesitant +1 :)
> TinyLFU-based BlockCache
> ------------------------
>
> Key: HBASE-15560
> URL: https://issues.apache.org/jira/browse/HBASE-15560
> Project: HBase
> Issue Type: Improvement
> Components: BlockCache
> Affects Versions: 2.0.0
> Reporter: Ben Manes
> Assignee: Ben Manes
> Priority: Major
> Fix For: 3.0.0, 2.3.0
>
> Attachments: HBASE-15560.patch, HBASE-15560.patch, HBASE-15560.patch,
> HBASE-15560.patch, HBASE-15560.patch, HBASE-15560.patch, HBASE-15560.patch,
> HBASE-15560.patch, HBASE-15560.patch, HBASE-15560.patch, HBASE-15560.patch,
> HBASE-15560.patch, bc.hit.count, bc.miss.count, branch-1.tinylfu.txt, gets,
> run_ycsb_c.sh, run_ycsb_loading.sh, tinylfu.patch
>
>
> LruBlockCache uses the Segmented LRU (SLRU) policy to capture frequency and
> recency of the working set. It achieves concurrency by using an O( n )
> background thread to prioritize the entries and evict. Accessing an entry is
> O(1) by a hash table lookup, recording its logical access time, and setting a
> frequency flag. A write is performed in O(1) time by updating the hash table
> and triggering an async eviction thread. This provides ideal concurrency and
> minimizes the latencies by penalizing the thread instead of the caller.
> However the policy does not age the frequencies and may not be resilient to
> various workload patterns.
> W-TinyLFU ([research paper|http://arxiv.org/pdf/1512.00727.pdf]) records the
> frequency in a counting sketch, ages periodically by halving the counters,
> and orders entries by SLRU. An entry is discarded by comparing the frequency
> of the new arrival (candidate) to the SLRU's victim, and keeping the one with
> the highest frequency. This allows the operations to be performed in O(1)
> time and, though the use of a compact sketch, a much larger history is
> retained beyond the current working set. In a variety of real world traces
> the policy had [near optimal hit
> rates|https://github.com/ben-manes/caffeine/wiki/Efficiency].
> Concurrency is achieved by buffering and replaying the operations, similar to
> a write-ahead log. A read is recorded into a striped ring buffer and writes
> to a queue. The operations are applied in batches under a try-lock by an
> asynchronous thread, thereby track the usage pattern without incurring high
> latencies
> ([benchmarks|https://github.com/ben-manes/caffeine/wiki/Benchmarks#server-class]).
> In YCSB benchmarks the results were inconclusive. For a large cache (99% hit
> rates) the two caches have near identical throughput and latencies with
> LruBlockCache narrowly winning. At medium and small caches, TinyLFU had a
> 1-4% hit rate improvement and therefore lower latencies. The lack luster
> result is because a synthetic Zipfian distribution is used, which SLRU
> performs optimally. In a more varied, real-world workload we'd expect to see
> improvements by being able to make smarter predictions.
> The provided patch implements BlockCache using the
> [Caffeine|https://github.com/ben-manes/caffeine] caching library (see
> HighScalability
> [article|http://highscalability.com/blog/2016/1/25/design-of-a-modern-cache.html]).
> Edward Bortnikov and Eshcar Hillel have graciously provided guidance for
> evaluating this patch ([github
> branch|https://github.com/ben-manes/hbase/tree/tinylfu]).
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