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| -rw-r--r-- | docs/monitoring.md | 4 | ||||
| -rw-r--r-- | docs/streaming-programming-guide.md | 4 |
2 files changed, 4 insertions, 4 deletions
diff --git a/docs/monitoring.md b/docs/monitoring.md index 84073fe4d9..d07ec4a57a 100644 --- a/docs/monitoring.md +++ b/docs/monitoring.md @@ -33,7 +33,7 @@ application's UI after the application has finished. If Spark is run on Mesos or YARN, it is still possible to reconstruct the UI of a finished application through Spark's history server, provided that the application's event logs exist. -You can start a the history server by executing: +You can start the history server by executing: ./sbin/start-history-server.sh @@ -106,7 +106,7 @@ follows: <td> Indicates whether the history server should use kerberos to login. This is useful if the history server is accessing HDFS files on a secure Hadoop cluster. If this is - true it looks uses the configs <code>spark.history.kerberos.principal</code> and + true, it uses the configs <code>spark.history.kerberos.principal</code> and <code>spark.history.kerberos.keytab</code>. </td> </tr> diff --git a/docs/streaming-programming-guide.md b/docs/streaming-programming-guide.md index 90a0eef60c..7b8b793343 100644 --- a/docs/streaming-programming-guide.md +++ b/docs/streaming-programming-guide.md @@ -939,7 +939,7 @@ Receiving multiple data streams can therefore be achieved by creating multiple i and configuring them to receive different partitions of the data stream from the source(s). For example, a single Kafka input stream receiving two topics of data can be split into two Kafka input streams, each receiving only one topic. This would run two receivers on two workers, -thus allowing data to received in parallel, and increasing overall throughput. +thus allowing data to be received in parallel, and increasing overall throughput. Another parameter that should be considered is the receiver's blocking interval. For most receivers, the received data is coalesced together into large blocks of data before storing inside Spark's memory. @@ -980,7 +980,7 @@ If the number of tasks launched per second is high (say, 50 or more per second), of sending out tasks to the slaves maybe significant and will make it hard to achieve sub-second latencies. The overhead can be reduced by the following changes: -* **Task Serialization**: Using Kryo serialization for serializing tasks can reduced the task +* **Task Serialization**: Using Kryo serialization for serializing tasks can reduce the task sizes, and therefore reduce the time taken to send them to the slaves. * **Execution mode**: Running Spark in Standalone mode or coarse-grained Mesos mode leads to |