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(1)数组实现(Array)

实现数据结构:int[][]

写入:追加写入数组的最后位置

查询:先拷贝一份数组,做排序后做查询

...

不同数据结构读写混合负载下写入及查询吞吐量

测试方法

单线程写入,同时匹配单线程写入,同时有 n 个线程查询,测试在有查询的负载下,写入线程最终完成写入的总时间n: 查询线程数

查询线程是一个无限循环,每次随机选择一个时间序列查询全部数据

写入吞吐

负载 / 查询线程数n = 1 (points (points / ms)ms)n = 3 (points / ms)n = 5 (points / ms)
数据结构ArraySkipListArraySkipListArraySkipList
单序列一千万个点18.93 K0.81 K14.25 K0.70 K8.84 K0.61 K
一千序列每序列一万个点16.58 K0.36 K9.91 K0.25 K8.19 K0.19 K
十万序列每序列一百个点9.47 K0.97 K6.50 K0.86 K4.85 K0.72 K

...

负载 / 查询线程数n = 1 (points / ms)n = 3 (points / ms)n = 5 (points / ms)
数据结构ArraySkipListArraySkipListArraySkipList
单序列一千万个点28.40 K40.76 K40.01 K114.63 K42.44 K162.16 K
一千序列每序列一万个点27.31 K42.31 K66.73 K96.48 K89.31 K112.91 K
十万序列每序列一百个点32.20 K8.40 K60.43 K28.92 K82.36 K35.22 K

Array/Skiplist查询延迟比随序列中的点数变化趋势

Image Removed

结论

(1)内存占用:skiplist 的内存占用为 array 的10倍左右

(2)写延迟:array 的写性能大约为 skiplist 的20倍

(3)读延迟:由于内存拷贝及排序,内存中的点数越多,array查询的性能越差,在1000万点时,skiplist 的查询性能约为array的5倍,100点时,skiplist 的查询性能约为array的1.5倍

...


实验对比图:

对实验数据中具有趋势性的数据表示为图表,如下四张图分别表示:

(1)内存占用:十万序列每序列十个点,跳表的内存占用为数组的10倍左右

Image Added

(2)数组写入查询延迟 / 跳表写入查询延迟:跳表的写延迟大约为数组的20倍,由于内存拷贝及排序,内存中的点数越多,数组查询的性能越差,在1000万点时,数组的查询延迟约为跳表的5倍,100点时,数组的查询延迟约为跳表的1.5倍

Image Added

(3)数组写入吞吐 / 跳表写入吞吐:随着每序列的点数增加,数组比跳表写入吞吐越来越高,从9倍升高到40倍

Image Added

(4)数组查询吞吐 / 跳表查询吞吐:随着每序列的点数增加,数组的查询吞吐一开始比跳表高,超过5000点后低于跳表

Image Added


结论

(1)内存占用:跳表的内存占用为 数组的10倍左右
(2)写延迟:跳表的写延迟大约为 数组的20倍
(3)读延迟:由于内存拷贝及排序,内存中的点数越多,数组查询的性能越差,在1000万点时,数组的查询延迟约为跳表的5倍,100点时,数组的查询延迟约为跳表的1.5倍
(4)读写混合负载写入吞吐:随着每序列的点数增加,数组比跳表写入吞吐越来越高,从9倍升高到40倍
(5)读写混合负载查询吞吐:随着每序列的点数增加,数组的查询吞吐一开始比跳表高,超过5000点后低于跳表


关键实验代码

单线程:

Code Block
package data_structure;

import java.util.Random;

public class Main {
  private static int timeseriesNum = 1;
  private static int size = 10000000;
  static Random random = new Random();

  public static void main(String[] args) throws InterruptedException {
    multiWriteAndRead();

    // for memory calculate
    Thread.sleep(100000000);
  }

  private static void multiWriteAndRead() throws InterruptedException {
    MemTable[] arrayTable = new MemTable[timeseriesNum];
    MemTable[] skipListTable = new MemTable[timeseriesNum];

    // skip list
    long curTime = System.nanoTime();
    for (int i = 0; i < timeseriesNum; i++) {
      skipListTable[i] = new SkipListTable(size);
      write(skipListTable[i]);
    }
    long finishTime = System.nanoTime();
    System.out.println("SkipList write time: " + (finishTime - curTime) / 1_000_000 + " ms.");

    curTime = System.nanoTime();
    for (int i = 0; i < timeseriesNum; i++) {
      query(skipListTable[i]);
    }
    finishTime = System.nanoTime();
    System.out.println("SkipList query time: " + (finishTime - curTime) / 1_000_000 + " ms.");


    // array
    curTime = System.nanoTime();
    for (int i = 0; i < timeseriesNum; i++) {
      arrayTable[i] = new ArrayTable(size);
      write(arrayTable[i]);
    }
    finishTime = System.nanoTime();
    System.out.println("Array write time: " + (finishTime - curTime) / 1_000_000 + " ms.");

    curTime = System.nanoTime();
    for (int i = 0; i < timeseriesNum; i++) {
      query(arrayTable[i]);
    }
    finishTime = System.nanoTime();
    System.out.println("Array query time: " + (finishTime - curTime) / 1_000_000 + " ms.");


    System.out.println("finished");
  }


  private static int query(MemTable table){
    return table.query();
  }

  public static void write(MemTable table){
    for (int i = 0; i < size; i++) {
      if(random.nextDouble() < 0.2){
        table.add(random.nextInt(100000) - 50000);
      }
      else{
        table.add(i);
      }
    }
  }
}

多线程:

Code Block
languagejava
themeConfluence
package data_structure;

import java.util.Random;
import java.util.concurrent.atomic.AtomicLong;

public class MultiMain {
  private static int timeseriesNum = 1000_00;
  private static int size = 100;
  static Random random = new Random();
  static MemTable[] memtable = new MemTable[timeseriesNum];
  private static int queryThreadNum = 1;

  static AtomicLong count = new AtomicLong();

  public static void main(String[] args) {
    for (int i = 0; i < timeseriesNum; i++) {
      memtable[i] = new SkipListTable(size);
    }

    Thread[] queryThread = new Thread[queryThreadNum];
    for (int i = 0; i < queryThreadNum; i++) {
      queryThread[i] = new Thread(MultiMain::queryThread);
      queryThread[i].start();
    }

    writeThread();
  }

  public static void writeThread(){
    long curTime = System.nanoTime();
    for (int i = 0; i < size; i++) {
      for (int j = 0; j < timeseriesNum; j++) {
        int cur = random.nextDouble() < 0.05 ? random.nextInt(100000) - 50000 : i;
        memtable[j].add(cur);
      }
    }
    long finishTime = System.nanoTime();
    long cur = count.get();
    System.out.println("Finish time: " + (finishTime - curTime) / 1_000_000 + " ms.");
    System.out.println("Read points: " + cur / 1000 / 1000);
  }

  private static void queryThread(){
    while(true){
      int loc = random.nextInt(timeseriesNum);
      count.addAndGet(memtable[loc].query());
    }
  }
}

Array实现:

Code Block
languagejava
package data_structure;

import java.util.Arrays;

public class ArrayTable implements MemTable {

  int[] res;
  int index;

  public ArrayTable(int size){
    res = new int[size];
  }

  @Override
  public void add(int i) {
    res[index] = i;
    index++;
  }

  @Override
  public int query() {
    int len = index;
    int[] query = new int[len];
    System.arraycopy(res, 0, query,0, len);
    Arrays.sort(query);
    int sum = 0;
    for (int i : query) {
      sum += 1;
    }

    return sum;
  }
}

SkipList实现:

Code Block
languagejava
package data_structure;

import java.util.concurrent.ConcurrentSkipListSet;

public class SkipListTable implements MemTable {

  ConcurrentSkipListSet<Integer> set;

  public SkipListTable(int size){
    set = new ConcurrentSkipListSet<>();
  }

  @Override
  public void add(int i) {
    set.add(i);
  }

  @Override
  public int query() {
    int sum = 0;
    for (int i : set) {
      sum += 1;
    }

    return sum;
  }
}