I'm working with a largish (?) graph (60 million vertices and 9.5 billion edges) using Spark Graphframes. The underlying data is not large - the vertices take about 500mb on disk and the edges are about 40gb. My containers are frequently shutting down due to java heap out of memory problems, but I think the underlying problem is that the graphframe is constantly shuffling data around (I'm seeing shuffle read/write of up to 150gb). Is there a way to efficiently partition a Graphframe or the underlying edges/vertices to reduce shuffle?
TL;DR It is not possible to efficiently partition
Graphframe algorithms can be separated into two categories:
Methods which delegate processing to
GraphXcounterpart. GraphX supports a number of partitioning methods but these are not exposed via
GraphframeAPI. If you use one of these it is probably better to use
Unfortunately development of
GraphXstopped almost completely with only a handful of small fixes over the last two years and overall performance is highly disappointing compared to both in-core libraries and out-of-core libraries.
Methods which are implemented natively using Spark
Datasets, which considering limited programming model and only a single partitioning mode, are deeply unfit for complex graph processing.
While relational columnar storage can be used for efficient graph processing naive iterative
joinapproach employed by
Graphframesjust don't scale (but it is OK for shallow traversing with one or two hops).'
You can try to repartition
val nPart: Int = ??? GraphFrame(v.repartition(nPart, v("id")), e.repartition(e(nPart, "src")))
what should help in some cases.
Overall, at it's current (Dec, 2016) state, Spark is not a good choice for intensive graph analytics.
Here's the partial solution / workaround - create a UDF that mimics one of the partition functions to create a new column and partition on that.
num_parts = 256 random_vertex_cut = udf.register("random_vertex_cut", lambda src, dst: math.abs((src, dst).hashCode()) % num_parts, IntegerType()) edge.withColumn("v_cut", random_vertex_cut(col("src"), col("dst")).repartition(256, "v_cut")
This approach can help some, but not as well as GraphX.