Hello Dan,
are you broadcasting the 85GB of data then? I don't get why you wouldn't
store that file on HDFS so it's accessible by your workers.
If you have the full code available somewhere we might be able to help
better.
For L-BFGS you should only be broadcasting the model (i.e. the weight
vector), and yes that would happen at each iteration, since you are
updating the model at each iteration.
On Fri, Sep 2, 2016 at 5:30 PM, Dan Drewes <dre...@campus.tu-berlin.de>
wrote:
> Hi Greg,
>
> thanks for your response!
>
> I just had a look and realized that it's just about 85 GB of data. Sorry
> about that wrong information.
>
> It's read from a csv file on the master node's local file system. The 8
> nodes have more than 40 GB available memory each and since the data is
> equally distributed I assume there should be no need to spill anything on
> disk.
>
> There are 9 iterations.
>
> Is it possible that also with Flink Iterations the data is repeatedly
> distributed? Or the other way around: Might it be that flink "remembers"
> somehow that the data is already distributed even for the while loop?
>
> -Dan
>
>
>
> Am 02.09.2016 um 16:39 schrieb Greg Hogan:
>
> Hi Dan,
>
> Where are you reading the 200 GB "data" from? How much memory per node? If
> the DataSet is read from a distributed filesystem and if with iterations
> Flink must spill to disk then I wouldn't expect much difference. About how
> many iterations are run in the 30 minutes? I don't know that this is
> reported explicitly, but if your convergence function only has one input
> record per iteration then the reported total is the iteration count.
>
> One other thought, we should soon have support for object reuse with
> arrays (FLINK-3695). This would be implemented as DoubleValueArray or
> ValueArray<DoubleValue> rather than double[] but it would be interesting to
> test for a change in performance.
>
> Greg
>
> On Fri, Sep 2, 2016 at 6:16 AM, Dan Drewes <dre...@campus.tu-berlin.de>
> wrote:
>
>> Hi,
>>
>> for my bachelor thesis I'm testing an implementation of L-BFGS algorithm
>> with Flink Iterations against a version without Flink Iterations but a
>> casual while loop instead. Both programs use the same Map and Reduce
>> transformations in each iteration. It was expected, that the performance of
>> the Flink Iterations would scale better with increasing size of the input
>> data set. However, the measured results on an ibm-power-cluster are very
>> similar for both versions, e.g. around 30 minutes for 200 GB data. The
>> cluster has 8 nodes, was configured with 4 slots per node and I used a
>> total parallelism of 32.
>> In every Iteration of the while loop a new flink job is started and I
>> thought, that also the data would be distributed over the network again in
>> each iteration which should consume a significant and measurable amount of
>> time. Is that thought wrong or what is the computional overhead of the
>> flink iterations that is equalizing this disadvantage?
>> I include the relevant part of both programs and also attach the
>> generated execution plans.
>> Thank you for any ideas as I could not find much about this issue in the
>> flink docs.
>>
>> Best, Dan
>>
>> *Flink Iterations:*
>>
>> DataSet<double[]> data = ...
>>
>> State state = initialState(m, initweights,0,new double[initweights.length]);
>> DataSet<State> statedataset = env.fromElements(state);
>> //start of iteration sectionIterativeDataSet<State> loop=
>> statedataset.iterate(niter);;
>>
>>
>> DataSet<State> statewithnewlossgradient =
>> data.map(difffunction).withBroadcastSet(loop, "state")
>> .reduce(accumulate)
>> .map(new NormLossGradient(datasize))
>> .map(new SetLossGradient()).withBroadcastSet(loop,"state")
>> .map(new LBFGS());
>>
>>
>> DataSet<State> converged = statewithnewlossgradient.filter(
>> new FilterFunction<State>() {
>> @Override public boolean filter(State value) throws Exception {
>> if(value.getIflag()[0] == 0){
>> return false;
>> }
>> return true;
>> }
>> }
>> );
>>
>> DataSet<State> finalstate =
>> loop.closeWith(statewithnewlossgradient,converged);
>>
>> *While loop: *
>>
>> DataSet<double[]> data =...
>> State state = initialState(m, initweights,0,new double[initweights.length]);
>> int cnt=0;do{
>> LBFGS lbfgs = new LBFGS();
>> statedataset=data.map(difffunction).withBroadcastSet(statedataset,
>> "state")
>> .reduce(accumulate)
>> .map(new NormLossGradient(datasize))
>> .map(new SetLossGradient()).withBroadcastSet(statedataset,"state")
>> .map(lbfgs);
>> cnt++;
>> }while (cnt<niter && statedataset.collect().get(0).getIflag()[0] != 0);
>>
>>
