Difference between revisions of "Parallel Partition"
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==(Optional) Parallel Partition Challenge== | ==(Optional) Parallel Partition Challenge== | ||
| − | The partitioning step can also be done [https://www.cse.wustl.edu/~angelee/archive/cse341/fall14/handouts/lecture08.pdf in parallel] with [[ | + | The partitioning step can also be done [https://www.cse.wustl.edu/~angelee/archive/cse341/fall14/handouts/lecture08.pdf in parallel] with [[Scan|Scan]] remarkably similar to how [[Pack|Pack]] worked. |
| − | {{CodeToImplement|ParallelPartitioner|partitionRange|sort.challenge | + | {{CodeToImplement|ParallelPartitioner|partitionRange|sort.quick.challenge}} |
{{Parallel|PivotLocation partitionRange(int[] data, int min, int maxExclusive)}} | {{Parallel|PivotLocation partitionRange(int[] data, int min, int maxExclusive)}} | ||
| Line 58: | Line 58: | ||
=Testing Your Solution= | =Testing Your Solution= | ||
==Correctness== | ==Correctness== | ||
| − | {{TestSuite| | + | {{TestSuite|_ParallelPartitionerTestSuite|sort.quick.challenge}} |
Latest revision as of 09:31, 1 April 2023
Partition does almost all of the work of quicksort. Further, the classic sequential partition, although wonderful, dominates the span of the quicksort algorithm. If we can parallelize partition, the span can be improved from down to .
For N=16:
| <- - - - - - - - - - - - - - N - - - - - - - - - - - - - -> | ||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ^ | partition [0, 16) | |||||||||||||||
| | | partition [0, 8) | partition [8, 16) | ||||||||||||||
| lg N | partition [0, 4) | partition [4, 8) | partition [8, 12) | partition [12, 16) | ||||||||||||
| | | partition [0, 2) | partition [2, 4) | partition [4, 6) | partition [6, 8) | partition [8, 10) | partition [10, 12) | partition [12, 14) | partition [14, 16) | ||||||||
| v | base | base | base | base | base | base | base | base | base | base | base | base | base | base | base | base |
(Optional) Parallel Partition Challenge
The partitioning step can also be done in parallel with Scan remarkably similar to how Pack worked.
| class: | ParallelPartitioner.java |  |
| methods: | partitionRange | |
| package: | sort.quick.challenge | |
| source folder: | student/src/main/java |
method: PivotLocation partitionRange(int[] data, int min, int maxExclusive) 
(parallel implementation required)
Testing Your Solution
Correctness
| class: | _ParallelPartitionerTestSuite.java |  |
| package: | sort.quick.challenge | |
| source folder: | testing/src/test/java |
