My cluster: 1 master, 11 slaves, each node has 6 GB memory.

My settings:

spark.executor.memory=4g, Dspark.akka.frameSize=512

Here is the problem:

First, I read some data (2.19 GB) from HDFS to RDD:

val imageBundleRDD = sc.newAPIHadoopFile(...)

Second, do something on this RDD:

val res = imageBundleRDD.map(data => {
                               val desPoints = threeDReconstruction(data._2, bg)
                                 (data._1, desPoints)
                             })

Last, output to HDFS:

res.saveAsNewAPIHadoopFile(...)

When I run my program it shows:

.....
14/01/15 21:42:27 INFO cluster.ClusterTaskSetManager: Starting task 1.0:24 as TID 33 on executor 9: Salve7.Hadoop (NODE_LOCAL)
14/01/15 21:42:27 INFO cluster.ClusterTaskSetManager: Serialized task 1.0:24 as 30618515 bytes in 210 ms
14/01/15 21:42:27 INFO cluster.ClusterTaskSetManager: Starting task 1.0:36 as TID 34 on executor 2: Salve11.Hadoop (NODE_LOCAL)
14/01/15 21:42:28 INFO cluster.ClusterTaskSetManager: Serialized task 1.0:36 as 30618515 bytes in 449 ms
14/01/15 21:42:28 INFO cluster.ClusterTaskSetManager: Starting task 1.0:32 as TID 35 on executor 7: Salve4.Hadoop (NODE_LOCAL)
Uncaught error from thread [spark-akka.actor.default-dispatcher-3] shutting down JVM since 'akka.jvm-exit-on-fatal-error' is enabled for ActorSystem[spark]
java.lang.OutOfMemoryError: Java heap space

There are too many tasks?

PS: Every thing is ok when the input data is about 225 MB.

How can I solve this problem?

  • how do run spark? is it from console? or which deploy scripts do you use? – Tombart Jan 15 '14 at 14:46
  • I use sbt to compile and run my app. sbt package then sbt run. I implemented the same program on hadoop a month ago , and I met the same problem of OutOfMemoryError, but in hadoop it can be easily solved by increasing the value of mapred.child.java.opts from Xmx200m to Xmx400m. Does spark have any jvm setting for it's tasks?I wonder if spark.executor.memory is the same meaning like mapred.child.java.opts in hadoop. In my program spark.executor.memory has already been setted to 4g much bigger than Xmx400m in hadoop. Thank you~ – hequn8128 Jan 16 '14 at 1:26
  • Are the three steps you mention the only ones you do? What's the size of the dataa generated by (data._1, desPoints) - this should fit in memory esp if this data is then shuffled to another stage – Arnon Rotem-Gal-Oz Feb 2 '15 at 5:08
  • What is the memory configuration for the driver? Check which server get the out of memory error. Is it the driver or one of the executors. – RanP Oct 12 '15 at 15:26
  • See here all configurations properties: spark.apache.org/docs/2.1.0/configuration.html – Naramsim Mar 16 '17 at 13:36

I have a few suggestions:

  • If your nodes are configured to have 6g maximum for Spark (and are leaving a little for other processes), then use 6g rather than 4g, spark.executor.memory=6g. Make sure you're using as much memory as possible by checking the UI (it will say how much mem you're using)
  • Try using more partitions, you should have 2 - 4 per CPU. IME increasing the number of partitions is often the easiest way to make a program more stable (and often faster). For huge amounts of data you may need way more than 4 per CPU, I've had to use 8000 partitions in some cases!
  • Decrease the fraction of memory reserved for caching, using spark.storage.memoryFraction. If you don't use cache() or persist in your code, this might as well be 0. It's default is 0.6, which means you only get 0.4 * 4g memory for your heap. IME reducing the mem frac often makes OOMs go away. UPDATE: From spark 1.6 apparently we will no longer need to play with these values, spark will determine them automatically.
  • Similar to above but shuffle memory fraction. If your job doesn't need much shuffle memory then set it to a lower value (this might cause your shuffles to spill to disk which can have catastrophic impact on speed). Sometimes when it's a shuffle operation that's OOMing you need to do the opposite i.e. set it to something large, like 0.8, or make sure you allow your shuffles to spill to disk (it's the default since 1.0.0).
  • Watch out for memory leaks, these are often caused by accidentally closing over objects you don't need in your lambdas. The way to diagnose is to look out for the "task serialized as XXX bytes" in the logs, if XXX is larger than a few k or more than an MB, you may have a memory leak. See https://stackoverflow.com/a/25270600/1586965
  • Related to above; use broadcast variables if you really do need large objects.
  • If you are caching large RDDs and can sacrifice some access time consider serialising the RDD http://spark.apache.org/docs/latest/tuning.html#serialized-rdd-storage. Or even caching them on disk (which sometimes isn't that bad if using SSDs).
  • (Advanced) Related to above, avoid String and heavily nested structures (like Map and nested case classes). If possible try to only use primitive types and index all non-primitives especially if you expect a lot of duplicates. Choose WrappedArray over nested structures whenever possible. Or even roll out your own serialisation - YOU will have the most information regarding how to efficiently back your data into bytes, USE IT!
  • (bit hacky) Again when caching, consider using a Dataset to cache your structure as it will use more efficient serialisation. This should be regarded as a hack when compared to the previous bullet point. Building your domain knowledge into your algo/serialisation can minimise memory/cache-space by 100x or 1000x, whereas all a Dataset will likely give is 2x - 5x in memory and 10x compressed (parquet) on disk.

http://spark.apache.org/docs/1.2.1/configuration.html

EDIT: (So I can google myself easier) The following is also indicative of this problem:

java.lang.OutOfMemoryError : GC overhead limit exceeded
  • Thanks for your suggestions~ If I set spark.executor.memory=6g, spark will have the problem:"check your cluster UI to ensure that workers are registered and have sufficient memory". Setting spark.storage.memoryFraction to 0.1 can't solve the problem either. Maybe the problem lies in my code.Thank you! – hequn8128 Apr 2 '14 at 5:05
  • @hequn8128, spark executor memory must fit you spark worker memory – Jacek L. May 16 '14 at 15:26
  • 1
    @samthebest This is a fantastic answer. I really appreciate the logging help for finding memory leaks. – Myles Baker Apr 9 '15 at 16:36
  • 1
    Hi @samthebest how did you specify 8000 partitions? Since I am using Spark sql I can only specify partition using spark.sql.shuffle.partitions, default value is 200 should I set it to more I tried to set it to 1000 but not helping getting OOM are you aware what should be the optimal partition value I have 1 TB skewed data to process and it involves group by hive queries. Please guide. – u449355 Sep 2 '15 at 7:15
  • 2
    Hi @user449355 please could you ask a new question? For fear of starting a long a comment thread :) If you are having issues, likely other people are, and a question would make it easier to find for all. – samthebest Sep 2 '15 at 9:12

To add a use case to this that is often not discussed, I will pose a solution when submitting a Spark application via spark-submit in local mode.

According to the gitbook Mastering Apache Spark by Jacek Laskowski:

You can run Spark in local mode. In this non-distributed single-JVM deployment mode, Spark spawns all the execution components - driver, executor, backend, and master - in the same JVM. This is the only mode where a driver is used for execution.

Thus, if you are experiencing OOM errors with the heap, it suffices to adjust the driver-memory rather than the executor-memory.

Here is an example:

spark-1.6.1/bin/spark-submit
  --class "MyClass"
  --driver-memory 12g
  --master local[*] 
  target/scala-2.10/simple-project_2.10-1.0.jar 

Have a look at the start up scripts a Java heap size is set there, it looks like you're not setting this before running Spark worker.

# Set SPARK_MEM if it isn't already set since we also use it for this process
SPARK_MEM=${SPARK_MEM:-512m}
export SPARK_MEM

# Set JAVA_OPTS to be able to load native libraries and to set heap size
JAVA_OPTS="$OUR_JAVA_OPTS"
JAVA_OPTS="$JAVA_OPTS -Djava.library.path=$SPARK_LIBRARY_PATH"
JAVA_OPTS="$JAVA_OPTS -Xms$SPARK_MEM -Xmx$SPARK_MEM"

You can find the documentation to deploy scripts here.

  • Thank you~ I will try later. From spark ui, it shows the memory of every executor is 4096. So the setting has been enabled, right? – hequn8128 Jan 16 '14 at 14:03
  • Saw your answer while I'm facing similar issue (stackoverflow.com/questions/34762432/…). Looking the link you provided looks like setting Xms/Xmx is not there anymore, can you tell why? – Seffy Jan 13 '16 at 9:39

You should increase the driver memory. In your $SPARK_HOME/conf folder you should find the file spark-defaults.conf, edit and set the spark.driver.memory 4000m depending on the memory on your master, I think. This is what fixed the issue for me and everything runs smoothly

The location to set the memory heap size (at least in spark-1.0.0) is in conf/spark-env. The relevant variables are SPARK_EXECUTOR_MEMORY & SPARK_DRIVER_MEMORY. More docs are in the deployment guide

Also, don't forget to copy the configuration file to all the slave nodes.

  • 3
    How do you know which one to adjust between SPARK_EXECUTOR_MEMORY & SPARK_DRIVER_MEMORY? – Hunle Jul 16 '16 at 23:14
  • 10
    i.e. what error would tell you to increase the SPARK_EXECUTOR_MEMORY, and what error would tell you to increase SPARK_DRIVER_MEMORY ? – Hunle Jul 16 '16 at 23:43

Broadly speaking, spark Executor JVM memory can be divided into two parts. Spark memory and User memory. This is controlled by property spark.memory.fraction - the value is between 0 and 1. When working with images or doing memory intensive processing in spark applications, consider decreasing the spark.memory.fraction. This will make more memory available to your application work. Spark can spill, so it will still work with less memory share.

The second part of the problem is division of work. If possible, partition your data into smaller chunks. Smaller data possibly needs less memory. But if that is not possible, you are sacrifice compute for memory. Typically a single executor will be running multiple cores. Total memory of executors must be enough to handle memory requirements of all concurrent tasks. If increasing executor memory is not a option, you can decrease the cores per executor so that each task gets more memory to work with. Test with 1 core executors which have largest possible memory you can give and then keep increasing cores until you find the best core count.

You should configure offHeap memory settings as shown below:

`val spark = SparkSession
     .builder()
     .master("local[*]")
     .config("spark.executor.memory", "70g")
     .config("spark.driver.memory", "50g")
     .config("spark.memory.offHeap.enabled",true)
     .config("spark.memory.offHeap.size","16g")   
     .appName("sampleCodeForReference")
     .getOrCreate()`

Give the driver memory and executor memory as per your machines RAM availability. You can increase the offHeap size if you are still facing the OutofMemory issue.

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