I'm trying to reproduce this error and I haven't been able to. It _might_ have been fixed. When I load up on topic drafts and try to create a new topic, I get the following error:

> You have the maximum of 10 outstanding topic drafts. Please submit your drafts for review and wait for other users to review them.

Until I can figure out how to reproduce the error, I'm going to mark this as [meta-tag:status-norepro]. But please let me know if there is a procedure to reproduce it.

Looking in the database, I can still find the text of your deleted draft. I pasted it below for your convenience. 


## Partitions of an RDD                             

As mentioned in "Remarks", a partition is a part/slice/chunk of an RDD. Below is a minimal example on how to request a *minimum* number of partitions for your RDD:

    In [1]: mylistRDD = sc.parallelize([1, 2, 3, 4, 5, 6, 7, 8, 9, 10], 2)
    In [2]: mylistRDD.getNumPartitions()
    Out[2]: 2

Notice in `[1]` how we passed 2 as a second parameter of `parallelize()`. That parameter says that we want our RDD to has at least 2 partitions.                                                                    

## Repartition an RDD                               

Sometimes we want to repartition an RDD, for example because it comes from a file that wasn't created by us, and the number of partitions defined from the creator is not the one we want.

The two most known functions to achieve this are:

> repartition(numPartitions)


> coalesce(numPartitions, shuffle=False)

As a rule of thumb, use the first when you want to repartition your RDD in a greater number of partitions and the second to reduce your RDD, in a smaller number of partitions. http://stackoverflow.com/questions/31610971/spark-repartition-vs-coalesce


For example:

    data = sc.textFile(file)
    data = data.coalesce(100) // requested number of #partitions

will decrease the number of partitions of the RDD called 'data' to 100, given that this RDD has more than 100 partitions when it got read by `textFile()`.

And in a similar way, if you want to have more than the current number of partitions for your RDD, you could do (given that your RDD is distributed in 200 partitions for example):

    data = sc.textFile(file)
    data = data.repartition(300) // requested number of #partitions

## Why did textFile() failed to repartition my RDD? 

Many people think that [textFile(name, minPartitions=None, use_unicode=True)][1] **will** repartition their RDD. However, as the example below demonstrates, this is not always the case:

    In [1]: file = 'myBigDataFile'
    In [2]: data  = sc.textFile(file)
    In [3]: data.getNumPartitions()
    Out[3]: 202092
    In [4]: data  = sc.textFile(file, 1000)
    In [5]: data.getNumPartitions()
    Out[5]: 202092

The reason is that `textFile()`'s 2nd argument specifies the *minimum* number of partitions, which means that if the RDD has a greater number of partitions than the number of partitions you are requesting, then nothing will happen in terms or repartitioning.

If you want to be sure that your RDD gets repartitioned, then you should do:

    In [6]: data = data.coalesce(1000)
    In [7]: data.getNumPartitions()
    Out[7]: 1000

  [1]: http://spark.apache.org/docs/1.6.2/api/python/pyspark.html?highlight=textfile#pyspark.SparkContext.textFile

## Rule of Thumb about number of partitions         

As rule of thumb, one would want his RDD to have as many partitions as the product of the number of executors by the number of used cores by 3 (or maybe 4). Of course, that's a heuristic and it *really* depends on your application, dataset and cluster configuration.


    In [1]: data  = sc.textFile(file)
    In [2]: total_cores = int(sc._conf.get('spark.executor.instances')) * int(sc._conf.get('spark.executor.cores'))
    In [3]: data = data.coalesce(total_cores * 3)      

## Parameters

The parameter to tune is the ***number*** of partitions.     

## Remarks

The *number* of partitions is critical for an application's performance and/or successful termination.

A Resilient Distributed Dataset (RDD) is Spark's main abstraction. An RDD is split into *partitions*, that means that a partition is a part of the dataset, a slice of it, or in other words,  a chunk of it.

The greater the number of partitions is, the smaller the size of each partition is.

However, notice that a large number of partitions puts a lot of pressure on Hadoop Distributed File System (HDFS), which has to keep a significant amount of metadata.

The number of partitions is related to the memory usage, and a memoryOverhead issue can be related to this number ([personal experience][1]).


A **common pitfall** for new users is to transform their RDD into an RDD with only one partition, which usually looks like that:

    data = sc.textFile(file)
    data = data.coalesce(1) 

That's usually a very bad idea, since you are telling Spark to put **all the data** is just one partition! Remember that:

>A stage in Spark will operate on one partition at a time (and load the data in that partition into memory). 

As a result, you tell Spark to handle all the data at once, which usually results in memory related errors (Out of Memory for example), or even a null pointer exception.

So, unless you know what you are doing, avoid repartitioning your RDD in just one partition!

  [1]: https://gsamaras.wordpress.com/code/memoryoverhead-issue-in-spark/