Difference between revisions of "Iterative Averaging"
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<math>PR(u) = \sum_{v \in B_u} \frac{PR(v)}{L(v)}</math> | <math>PR(u) = \sum_{v \in B_u} \frac{PR(v)}{L(v)}</math> | ||
| − | <nowiki>for (int iteration : new IntegerRange(0, | + | <nowiki>for (int iteration : new IntegerRange(0, iterationCount)) { |
forall(slices, (slice) -> { | forall(slices, (slice) -> { | ||
PageRank[] arrayPrev = ((iteration & 1) == 0) ? a : b; | PageRank[] arrayPrev = ((iteration & 1) == 0) ? a : b; | ||
Revision as of 17:30, 7 March 2018
Contents
Motivation
X10/Habanero like Phasers have been added to Java since JDK7. We will gain some experience with using Phasers in a parallel for loop context.
Background
- bulkRegister
- arriveAndAwaitAdvance
- arriveAndDeregister (note: not required for this studio, but good to know about.)
 Warning: Our use of the forall loop with Phasers does not accurately convey their finicky nature. More than other features, Phasers seem to require more care to get performance improvements. |
Code to Investigate
Sequential Iterative Averaging
| class: | SequentialIterativeAverager.java | DEMO:  |
| methods: | iterativelyAverage | |
| package: | iterativeaveraging.demo | |
| source folder: | src//java |
method: public void iterativelyAverage(List<Slice<double[]>> slices, double[] a, double[] b, int iterationCount) 
(sequential implementation only)
for (int iteration = 0; iteration < iterationCount; iteration++) {
double[] arrayPrev = ((iteration & 1) == 0) ? a : b;
double[] arrayNext = ((iteration & 1) == 0) ? b : a;
for (Slice<double[]> slice : slices) {
for (int index = slice.getMinInclusive(); index < slice.getMaxExclusive(); index++) {
arrayNext[index] = (arrayPrev[index - 1] + arrayPrev[index + 1]) * 0.5;
}
}
}
Phased PageRank
for (int iteration : new IntegerRange(0, iterationCount)) {
forall(slices, (slice) -> {
PageRank[] arrayPrev = ((iteration & 1) == 0) ? a : b;
PageRank[] arrayNext = ((iteration & 1) == 0) ? b : a;
for (int index = slice.getMinInclusive(); index < slice.getMaxExclusive(); index++) {
arrayNext[index] = calculateNextRank(index, arrayPrev);
}
});
}
Phaser phaser = new Phaser();
phaser.bulkRegister(slices.size());
forall(slices, (slice) -> {
for (int iteration : new IntegerRange(0, iterationCount)) {
PageRank[] arrayPrev = ((iteration & 1) == 0) ? a : b;
PageRank[] arrayNext = ((iteration & 1) == 0) ? b : a;
for (int index = slice.getMinInclusive(); index < slice.getMaxExclusive(); index++) {
arrayNext[index] = calculateNextRank(index, arrayPrev);
}
phaser.arriveAndAwaitAdvance();
}
// note: arriveAndDeregister not required for this application
phaser.arriveAndDeregister();
});
Code to Implement
| class: | ForForallIterativeAverager.java | |
| methods: | iterativelyAverage | |
| package: | iterativeaveraging.studio | |
| source folder: | student/src/main/java |
method: public void iterativelyAverage(List<Slice<double[]>> slices, double[] a, double[] b, int iterationCount) 
(parallel implementation required)
| class: | ForallForPhasedIterativeAverager.java | |
| methods: | iterativelyAverage | |
| package: | iterativeaveraging.studio | |
| source folder: | student/src/main/java |
method: public void iterativelyAverage(List<Slice<double[]>> slices, double[] a, double[] b, int iterationCount) (parallel implementation required)
Testing Your Solution
Correctness
| class: | IterativeAveragingTestSuite.java |  |
| package: | iterativeaveraging.studio | |
| source folder: | testing/src/test/java |
Performance
| class: | IterativeAveragingTiming.java |  |
| package: | iterativeaveraging.studio | |
| source folder: | src/main/java |
