I've got a simple patch in the works that modifies the driver and mapper to spray its output clusters across all the reducers (specified by -Dmapred.reduce.tasks=n). This will mix the mapper output sets and; hopefully, improve scalability by allowing multiple reducers to play. The patch also decreases the number of reducers by one in each iteration, resulting in a single reducer in the end game. I want to do some testing of this before I commit. -----Original Message----- From: Jeff Eastman [mailto:jeastman@Narus.com] Sent: Thursday, June 23, 2011 12:34 PM To: user@mahout.apache.org Subject: RE: meanshift reduce task problem If you look at the MeanShiftCanopyMapper, you will notice that the mapper writes all merged canopy values to a single "canopy" key. Running this with multiple reducers will give the same performance as running with a single reducer as only one reducer will get the values associated with that key. That is why the driver was setting the numReduceTasks(1). I've thought a bit about how this might be improved. It is clearly a form of bottom-up hierarchical clustering algorithm: - The input vector set is first converted into an equivalent set of 1-vector clusters by a map-only process that preserves the number of input files. - Then the cluster set is partitioned into M mappers by hadoop. Each mapper combines clusters which "touch" and shifts all clusters toward their local means using T1 and T2 parameters like in Canopy. Presumably, each mapper's output set will be smaller than it's input set due to the combination of touching clusters. - Here's where the scalability breaks down as a single reducer is used to merge the mapper output sets into a single file, after which a single mapper and reducer will complete the iterations. - How can we utilize more reducers and thus keep the concurrency levels up? -- We could imagine just using map-only processing, but this would keep the original input sets distinct. Each mapper set would converge internally but points close to each other in different mapper sets would never see each other and thus could never merge. Not workable; we need the input sets to be mixed in each iteration to avoid this. -- If we knew we were going to have M mappers for an iteration, and we wanted to use R reducers, then one approach might be to randomly assign each mapper output cluster to one of the R reducers. This would mix up the mapper streams in each iteration and allow adjacent points to be combined across the mapper streams. If we simultaneously decreased the R value for each iteration (as the clusters merged) then finally there would be a single output file that had considered all of the input points. - Of course, there is another scalability limitation in the current implementation: each cluster contains the clusterIds of all the other clusters which it has consumed. Thus the size of each cluster will grow monotonically and at some point will outgrow the heap. This could be handled by writing out merge records during processing and then combining them back to determine the point->cluster mapping. This is likely not necessary until the first limitation is addressed, but could be done independently. I'm open to other ways of thinking about the scalability of mean shift. Comments would be appreciated. -----Original Message----- From: Sengupta, Sohini IN BLR SISL [mailto:sohini.sengupta@siemens.com] Sent: Thursday, June 23, 2011 5:59 AM To: user@mahout.apache.org Subject: FW: meanshift reduce task problem Any inputs will be helpful. Thanks ________________________________ From: Sengupta, Sohini IN BLR SISL Sent: Wednesday, June 22, 2011 5:15 PM To: user@mahout.apache.org Cc: Sengupta, Sohini IN BLR SISL Subject: meanshift reduce task problem Hi, I have programmatically specified setNumReduceTasks(16) in MeanShiftCanopyDriver.java. On execution the number of reducers is being set correctly (i.e. 16 as visible on jobtracker screen) but on digging deeper I see that one node has maximum number of bytes to process and it is nominal for rest of the nodes. Hence the reduce phase is very slow after 98% completion. I am trying this on a cluster of 18 nodes. I also see that load is distributed evenly in map phase but not in reduce. This is happening on 0.4 and 0.5 versions of Mahout. Has anyone faced such a problem and how to get around it? Thanks a lot in advance, Sohini ________________________________ Important notice: This e-mail and any attachment there to contains corporate proprietary information. If you have received it by mistake, please notify us immediately by reply e-mail and delete this e-mail and its attachments from your system. Thank You.