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From "Stefania (JIRA)" <>
Subject [jira] [Updated] (CASSANDRA-9259) Bulk Reading from Cassandra
Date Sat, 30 Jul 2016 02:51:21 GMT


Stefania updated CASSANDRA-9259:
    Attachment: before_after.jpg

> Bulk Reading from Cassandra
> ---------------------------
>                 Key: CASSANDRA-9259
>                 URL:
>             Project: Cassandra
>          Issue Type: New Feature
>          Components: Compaction, CQL, Local Write-Read Paths, Streaming and Messaging,
>            Reporter:  Brian Hess
>            Assignee: Stefania
>            Priority: Critical
>             Fix For: 3.x
>         Attachments: 256_vnodes.jpg, before_after.jpg, bulk-read-benchmark.1.html, bulk-read-jfr-profiles.1.tar.gz,
bulk-read-jfr-profiles.2.tar.gz, no_vnodes.jpg,
> This ticket is following on from the 2015 NGCC.  This ticket is designed to be a place
for discussing and designing an approach to bulk reading.
> The goal is to have a bulk reading path for Cassandra.  That is, a path optimized to
grab a large portion of the data for a table (potentially all of it).  This is a core element
in the Spark integration with Cassandra, and the speed at which Cassandra can deliver bulk
data to Spark is limiting the performance of Spark-plus-Cassandra operations.  This is especially
of importance as Cassandra will (likely) leverage Spark for internal operations (for example
> The core CQL to consider is the following:
> SELECT a, b, c FROM myKs.myTable WHERE Token(partitionKey) > X AND Token(partitionKey)
<= Y
> Here, we choose X and Y to be contained within one token range (perhaps considering the
primary range of a node without vnodes, for example).  This query pushes 50K-100K rows/sec,
which is not very fast if we are doing bulk operations via Spark (or other processing frameworks
- ETL, etc).  There are a few causes (e.g., inefficient paging).
> There are a few approaches that could be considered.  First, we consider a new "Streaming
Compaction" approach.  The key observation here is that a bulk read from Cassandra is a lot
like a major compaction, though instead of outputting a new SSTable we would output CQL rows
to a stream/socket/etc.  This would be similar to a CompactionTask, but would strip out some
unnecessary things in there (e.g., some of the indexing, etc). Predicates and projections
could also be encapsulated in this new "StreamingCompactionTask", for example.
> Another approach would be an alternate storage format.  For example, we might employ
Parquet (just as an example) to store the same data as in the primary Cassandra storage (aka
SSTables).  This is akin to Global Indexes (an alternate storage of the same data optimized
for a particular query).  Then, Cassandra can choose to leverage this alternate storage for
particular CQL queries (e.g., range scans).
> These are just 2 suggestions to get the conversation going.
> One thing to note is that it will be useful to have this storage segregated by token
range so that when you extract via these mechanisms you do not get replications-factor numbers
of copies of the data.  That will certainly be an issue for some Spark operations (e.g., counting).
 Thus, we will want per-token-range storage (even for single disks), so this will likely leverage
CASSANDRA-6696 (though, we'll want to also consider the single disk case).
> It is also worth discussing what the success criteria is here.  It is unlikely to be
as fast as EDW or HDFS performance (though, that is still a good goal), but being within some
percentage of that performance should be set as success.  For example, 2x as long as doing
bulk operations on HDFS with similar node count/size/etc.

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