What is the difference between spark checkpoint and persist to a disk. Are both these store in the local disk?
It is a very generic question. Better would be to add some context around it. To answer your question it can be stored to any persistent Storage Area - Local DIsk or HDFS or NFS Mounted space etc.– SumitFeb 1, 2016 at 11:15
13@Sumit - This is a very specific question about the differences between two Spark RDD methods. The answer can be objective and focused, as zero323's answer below demonstrates.– Nick ChammasMar 24, 2016 at 18:33
There are few important differences but the fundamental one is what happens with lineage.
cache keeps lineage intact while
checkpoint breaks lineage. Lets consider following examples:
import org.apache.spark.storage.StorageLevel val rdd = sc.parallelize(1 to 10).map(x => (x % 3, 1)).reduceByKey(_ + _)
val indCache = rdd.mapValues(_ > 4) indCache.persist(StorageLevel.DISK_ONLY) indCache.toDebugString // (8) MapPartitionsRDD at mapValues at <console>:24 [Disk Serialized 1x Replicated] // | ShuffledRDD at reduceByKey at <console>:21 [Disk Serialized 1x Replicated] // +-(8) MapPartitionsRDD at map at <console>:21 [Disk Serialized 1x Replicated] // | ParallelCollectionRDD at parallelize at <console>:21 [Disk Serialized 1x Replicated] indCache.count // 3 indCache.toDebugString // (8) MapPartitionsRDD at mapValues at <console>:24 [Disk Serialized 1x Replicated] // | CachedPartitions: 8; MemorySize: 0.0 B; ExternalBlockStoreSize: 0.0 B; DiskSize: 587.0 B // | ShuffledRDD at reduceByKey at <console>:21 [Disk Serialized 1x Replicated] // +-(8) MapPartitionsRDD at map at <console>:21 [Disk Serialized 1x Replicated] // | ParallelCollectionRDD at parallelize at <console>:21 [Disk Serialized 1x Replicated]
val indChk = rdd.mapValues(_ > 4) indChk.checkpoint indChk.toDebugString // (8) MapPartitionsRDD at mapValues at <console>:24  // | ShuffledRDD at reduceByKey at <console>:21  // +-(8) MapPartitionsRDD at map at <console>:21  // | ParallelCollectionRDD at parallelize at <console>:21  indChk.count // 3 indChk.toDebugString // (8) MapPartitionsRDD at mapValues at <console>:24  // | ReliableCheckpointRDD at count at <console>:27 
As you can see, in the first case lineage is preserved even if data is fetched from the cache. It means that data can be recomputed from scratch if some partitions of
indCache are lost. In the second case lineage is completely lost after the checkpoint and
indChk doesn't carry an information required to rebuild it anymore.
persist is computed separately from other jobs. That's why RDD marked for checkpointing should be cached:
It is strongly recommended that this RDD is persisted in memory, otherwise saving it on a file will require recomputation.
checkpointed data is persistent and not removed after
SparkContext is destroyed.
Regarding data storage
SparkContext.setCheckpointDir used by
DFS path if running in non-local mode. Otherwise it can be local files system as well.
persist without replication should use local file system.
RDD checkpointing is a different concept than a chekpointing in Spark Streaming. The former one is designed to address lineage issue, the latter one is all about streaming reliability and failure recovery.
4Little bit confused here. If I have a long computation chain and I decide to break it, assign it to a variable, and chache it. Then I will read that variable and go forward. Now my question is, how is it different from checkpointing? (except from recomputation perspective). My real question is, in what sitauation we should go for checkpointing instead of the above mentioned process? Given that the checkpointed RDD will not be used in future. Clarification will be helpful :)– MrinalApr 3, 2018 at 6:07
2Another important difference is that if you
cachean RDD, and later dependent RDD-s need to be calculated, then the persisted/cached RDD content is used automatically by Spark to speed up things. But if you just
checkpointthe same RDD, it won't be utilized when calculating dependent RDD-s. I wonder when a checkpointed RDD is used by Spark. If there's a failure, will Spark use it automatically? Or am I supposed to
spark.readit manually to get the RDD to continue from? That would explain why it's never deleted by Spark. So, how are checkpoints supposed to be used?– ddekanyAug 7, 2018 at 14:37
What is the recommendation for DStream with CustomReceiver implementations? Should they be checkpointed as is the norm for Kafka receivers or should they be persisted? Feb 22, 2019 at 14:49
@Mrinal - re: in what situation should checkpointing be used? Checkpoints hang around even after the job is finished (while persisted-to-disk blocks might be cleaned up). So one thing (which I have read) that checkpoints are useful for is if you have a flaky long running job that sometimes fails in a busy cluster, checkpointing can help you recover faster because on restart you don't have to go all the way back to the beginning of the job. Jul 15, 2019 at 20:07
@ddekany - response above might be interesting to you to ! hope it is useful ;^) Jul 15, 2019 at 20:08
I think you can find a very detailed answer here
While it is very hard to summarize all in that page, I will say
- Persisting or caching with StorageLevel.DISK_ONLY cause the generation of RDD to be computed and stored in a location such that subsequent use of that RDD will not go beyond that points in recomputing the linage.
- After persist is called, Spark still remembers the lineage of the RDD even though it doesn't call it.
- Secondly, after the application terminates, the cache is cleared or file destroyed
- Checkpointing stores the rdd physically to hdfs and destroys the lineage that created it.
- The checkpoint file won't be deleted even after the Spark application terminated.
- Checkpoint files can be used in subsequent job run or driver program
- Checkpointing an RDD causes double computation because the operation will first call a cache before doing the actual job of computing and writing to the checkpoint directory.
You may want to read the article for more of the details or internals of Spark's checkpointing or Cache operations.
Persist(MEMORY_AND_DISK) will store the data frame to disk and memory temporary without breaking the lineage of the program i.e. df.rdd.toDebugString() would return the same output. It is recommended to use persist(*) on a calculation, that is going to be reused to avoid recalculation of intermediate results:
df = df.persist(StorageLevel.MEMORY_AND_DISK) calculation1(df) calculation2(df)
Note, that caching the data frame does not guarantee, that it will remain in memory until you call it next time. Depending on the memory usage the cache can be discarded.
checkpoint(), on the other hand, breaks lineage and forces data frame to be stored on disk. Unlike usage of cache()/persist(), frequent check-pointing can slow down your program. Checkpoints are recommended to use when a) working in an unstable environment to allow fast recovery from failures b) storing intermediate states of calculation when new entries of the RDD are dependent on the previous entries i.e. to avoid recalculating a long dependency chain in case of failure
If you check the relevant part of the documentation, it talks about writing data to a reliable system, e.g. HDFS. But it is up to you to tell Apache Spark where to write its checkpoint information.
On the other hand, persisting is about caching data mostly in memory, as this part of the documentation clearly indicates.
So, it depends on what directory you gave to Apache Spark.
2Persistence in streaming is quite different issue and not really related to caching.– zero323Jun 30, 2016 at 21:04