public void computeMatrixCharacteristics( MatrixCharacteristics mc1, MatrixCharacteristics mc2, MatrixCharacteristics mc3, MatrixCharacteristics dimOut) { QuaternaryOperator qop = (QuaternaryOperator) optr; if (qop.wtype1 != null || qop.wtype4 != null) { // wsloss/wcemm // output size independent of chain type (scalar) dimOut.set(1, 1, mc1.getRowsPerBlock(), mc1.getColsPerBlock()); } else if (qop.wtype2 != null || qop.wtype5 != null) { // wsigmoid/wumm // output size determined by main input dimOut.set(mc1.getRows(), mc1.getCols(), mc1.getRowsPerBlock(), mc1.getColsPerBlock()); } else if (qop.wtype3 != null) { // wdivmm // note: cannot directly consume mc2 or mc3 for redwdivmm because rep instruction changed // the relevant dimensions; as a workaround the original dims are passed via nnz boolean mapwdivmm = _cacheU && _cacheV; long rank = qop.wtype3.isLeft() ? mapwdivmm ? mc3.getCols() : mc3.getNonZeros() : mapwdivmm ? mc2.getCols() : mc2.getNonZeros(); MatrixCharacteristics mcTmp = qop.wtype3.computeOutputCharacteristics(mc1.getRows(), mc1.getCols(), rank); dimOut.set(mcTmp.getRows(), mcTmp.getCols(), mc1.getRowsPerBlock(), mc1.getColsPerBlock()); } }
@Override public void processInstruction(ExecutionContext ec) throws DMLRuntimeException, DMLUnsupportedOperationException { SparkExecutionContext sec = (SparkExecutionContext) ec; String rddVar = (_type == CacheType.LEFT) ? input2.getName() : input1.getName(); String bcastVar = (_type == CacheType.LEFT) ? input1.getName() : input2.getName(); MatrixCharacteristics mc = sec.getMatrixCharacteristics(output.getName()); long rlen = sec.getScalarInput(_nrow.getName(), _nrow.getValueType(), _nrow.isLiteral()).getLongValue(); // get inputs JavaPairRDD<MatrixIndexes, MatrixBlock> in1 = sec.getBinaryBlockRDDHandleForVariable(rddVar); PartitionedBroadcastMatrix in2 = sec.getBroadcastForVariable(bcastVar); // execute pmm instruction JavaPairRDD<MatrixIndexes, MatrixBlock> out = in1.flatMapToPair(new RDDPMMFunction(_type, in2, rlen, mc.getRowsPerBlock())); out = RDDAggregateUtils.sumByKeyStable(out); // put output RDD handle into symbol table sec.setRDDHandleForVariable(output.getName(), out); sec.addLineageRDD(output.getName(), rddVar); sec.addLineageBroadcast(output.getName(), bcastVar); // update output statistics if not inferred updateBinaryMMOutputMatrixCharacteristics(sec, false); }
@Override public void processInstruction(ExecutionContext ec) throws DMLRuntimeException, DMLUnsupportedOperationException { SparkExecutionContext sec = (SparkExecutionContext) ec; MatrixCharacteristics mc = sec.getMatrixCharacteristics(input1.getName()); long rlen = mc.getRows(); int brlen = mc.getRowsPerBlock(); int bclen = mc.getColsPerBlock(); // get input JavaPairRDD<MatrixIndexes, MatrixBlock> in = sec.getBinaryBlockRDDHandleForVariable(input1.getName()); // execute unary aggregate (w/ implicit drop correction) AggregateUnaryOperator auop = (AggregateUnaryOperator) _optr; JavaPairRDD<MatrixIndexes, MatrixBlock> out = in.mapToPair(new RDDCumAggFunction(auop, rlen, brlen, bclen)); out = RDDAggregateUtils.mergeByKey(out); // put output handle in symbol table sec.setRDDHandleForVariable(output.getName(), out); sec.addLineageRDD(output.getName(), input1.getName()); }
/** * @param type * @param mcBc * @return */ private static boolean requiresFlatMapFunction(CacheType type, MatrixCharacteristics mcBc) { return (type == CacheType.LEFT && mcBc.getRows() > mcBc.getRowsPerBlock()) || (type == CacheType.RIGHT && mcBc.getCols() > mcBc.getColsPerBlock()); }
/** * @param mcIn * @param type * @return */ private static boolean preservesPartitioning(MatrixCharacteristics mcIn, CacheType type) { if (type == CacheType.LEFT) return mcIn.dimsKnown() && mcIn.getRows() <= mcIn.getRowsPerBlock(); else // RIGHT return mcIn.dimsKnown() && mcIn.getCols() <= mcIn.getColsPerBlock(); }
/** * @param pfid * @param program * @param taskFile * @param resultFile * @param _enableCPCaching * @param mode * @param numMappers * @param replication * @return * @throws DMLRuntimeException */ public static RemoteParForJobReturn runJob( long pfid, String program, String taskFile, String resultFile, MatrixObject colocatedDPMatrixObj, // inputs boolean enableCPCaching, int numMappers, int replication, int max_retry, long minMem, boolean jvmReuse) // opt params throws DMLRuntimeException { RemoteParForJobReturn ret = null; String jobname = "ParFor-EMR"; long t0 = DMLScript.STATISTICS ? System.nanoTime() : 0; JobConf job; job = new JobConf(RemoteParForMR.class); job.setJobName(jobname + pfid); // maintain dml script counters Statistics.incrementNoOfCompiledMRJobs(); try { ///// // configure the MR job // set arbitrary CP program blocks that will perform in the mapper MRJobConfiguration.setProgramBlocks(job, program); // enable/disable caching MRJobConfiguration.setParforCachingConfig(job, enableCPCaching); // set mappers, reducers, combiners job.setMapperClass(RemoteParWorkerMapper.class); // map-only // set input format (one split per row, NLineInputFormat default N=1) if (ParForProgramBlock.ALLOW_DATA_COLOCATION && colocatedDPMatrixObj != null) { job.setInputFormat(RemoteParForColocatedNLineInputFormat.class); MRJobConfiguration.setPartitioningFormat(job, colocatedDPMatrixObj.getPartitionFormat()); MatrixCharacteristics mc = colocatedDPMatrixObj.getMatrixCharacteristics(); MRJobConfiguration.setPartitioningBlockNumRows(job, mc.getRowsPerBlock()); MRJobConfiguration.setPartitioningBlockNumCols(job, mc.getColsPerBlock()); MRJobConfiguration.setPartitioningFilename(job, colocatedDPMatrixObj.getFileName()); } else // default case { job.setInputFormat(NLineInputFormat.class); } // set the input path and output path FileInputFormat.setInputPaths(job, new Path(taskFile)); // set output format job.setOutputFormat(SequenceFileOutputFormat.class); // set output path MapReduceTool.deleteFileIfExistOnHDFS(resultFile); FileOutputFormat.setOutputPath(job, new Path(resultFile)); // set the output key, value schema job.setMapOutputKeyClass(LongWritable.class); job.setMapOutputValueClass(Text.class); job.setOutputKeyClass(LongWritable.class); job.setOutputValueClass(Text.class); ////// // set optimization parameters // set the number of mappers and reducers job.setNumMapTasks(numMappers); // numMappers job.setNumReduceTasks(0); // job.setInt("mapred.map.tasks.maximum", 1); //system property // job.setInt("mapred.tasktracker.tasks.maximum",1); //system property // job.setInt("mapred.jobtracker.maxtasks.per.job",1); //system property // use FLEX scheduler configuration properties if (ParForProgramBlock.USE_FLEX_SCHEDULER_CONF) { job.setInt("flex.priority", 0); // highest job.setInt("flex.map.min", 0); job.setInt("flex.map.max", numMappers); job.setInt("flex.reduce.min", 0); job.setInt("flex.reduce.max", numMappers); } // set jvm memory size (if require) String memKey = "mapred.child.java.opts"; if (minMem > 0 && minMem > InfrastructureAnalyzer.extractMaxMemoryOpt(job.get(memKey))) { InfrastructureAnalyzer.setMaxMemoryOpt(job, memKey, minMem); LOG.warn("Forcing '" + memKey + "' to -Xmx" + minMem / (1024 * 1024) + "M."); } // disable automatic tasks timeouts and speculative task exec job.setInt("mapred.task.timeout", 0); job.setMapSpeculativeExecution(false); // set up map/reduce memory configurations (if in AM context) DMLConfig config = ConfigurationManager.getConfig(); DMLAppMasterUtils.setupMRJobRemoteMaxMemory(job, config); // enables the reuse of JVMs (multiple tasks per MR task) if (jvmReuse) job.setNumTasksToExecutePerJvm(-1); // unlimited // set sort io buffer (reduce unnecessary large io buffer, guaranteed memory consumption) job.setInt(MRConfigurationNames.MR_TASK_IO_SORT_MB, 8); // 8MB // set the replication factor for the results job.setInt("dfs.replication", replication); // set the max number of retries per map task // disabled job-level configuration to respect cluster configuration // note: this refers to hadoop2, hence it never had effect on mr1 // job.setInt("mapreduce.map.maxattempts", max_retry); // set unique working dir MRJobConfiguration.setUniqueWorkingDir(job); ///// // execute the MR job RunningJob runjob = JobClient.runJob(job); // Process different counters Statistics.incrementNoOfExecutedMRJobs(); Group pgroup = runjob.getCounters().getGroup(ParForProgramBlock.PARFOR_COUNTER_GROUP_NAME); int numTasks = (int) pgroup.getCounter(Stat.PARFOR_NUMTASKS.toString()); int numIters = (int) pgroup.getCounter(Stat.PARFOR_NUMITERS.toString()); if (DMLScript.STATISTICS && !InfrastructureAnalyzer.isLocalMode()) { Statistics.incrementJITCompileTime(pgroup.getCounter(Stat.PARFOR_JITCOMPILE.toString())); Statistics.incrementJVMgcCount(pgroup.getCounter(Stat.PARFOR_JVMGC_COUNT.toString())); Statistics.incrementJVMgcTime(pgroup.getCounter(Stat.PARFOR_JVMGC_TIME.toString())); Group cgroup = runjob.getCounters().getGroup(CacheableData.CACHING_COUNTER_GROUP_NAME.toString()); CacheStatistics.incrementMemHits( (int) cgroup.getCounter(CacheStatistics.Stat.CACHE_HITS_MEM.toString())); CacheStatistics.incrementFSBuffHits( (int) cgroup.getCounter(CacheStatistics.Stat.CACHE_HITS_FSBUFF.toString())); CacheStatistics.incrementFSHits( (int) cgroup.getCounter(CacheStatistics.Stat.CACHE_HITS_FS.toString())); CacheStatistics.incrementHDFSHits( (int) cgroup.getCounter(CacheStatistics.Stat.CACHE_HITS_HDFS.toString())); CacheStatistics.incrementFSBuffWrites( (int) cgroup.getCounter(CacheStatistics.Stat.CACHE_WRITES_FSBUFF.toString())); CacheStatistics.incrementFSWrites( (int) cgroup.getCounter(CacheStatistics.Stat.CACHE_WRITES_FS.toString())); CacheStatistics.incrementHDFSWrites( (int) cgroup.getCounter(CacheStatistics.Stat.CACHE_WRITES_HDFS.toString())); CacheStatistics.incrementAcquireRTime( cgroup.getCounter(CacheStatistics.Stat.CACHE_TIME_ACQR.toString())); CacheStatistics.incrementAcquireMTime( cgroup.getCounter(CacheStatistics.Stat.CACHE_TIME_ACQM.toString())); CacheStatistics.incrementReleaseTime( cgroup.getCounter(CacheStatistics.Stat.CACHE_TIME_RLS.toString())); CacheStatistics.incrementExportTime( cgroup.getCounter(CacheStatistics.Stat.CACHE_TIME_EXP.toString())); } // read all files of result variables and prepare for return LocalVariableMap[] results = readResultFile(job, resultFile); ret = new RemoteParForJobReturn(runjob.isSuccessful(), numTasks, numIters, results); } catch (Exception ex) { throw new DMLRuntimeException(ex); } finally { // remove created files try { MapReduceTool.deleteFileIfExistOnHDFS(new Path(taskFile), job); MapReduceTool.deleteFileIfExistOnHDFS(new Path(resultFile), job); } catch (IOException ex) { throw new DMLRuntimeException(ex); } } if (DMLScript.STATISTICS) { long t1 = System.nanoTime(); Statistics.maintainCPHeavyHitters("MR-Job_" + jobname, t1 - t0); } return ret; }
public void setMatrixCharacteristics(MatrixCharacteristics mcIn) { _mcIn = mcIn; _lastRowBlockIndex = (long) Math.ceil((double) _mcIn.getRows() / _mcIn.getRowsPerBlock()); }