Merge pull request '[Л/Р 5] Халитова Ангелина' (#116) from angelina/distributed-computing:khalitova-am-lab-5 into main

Reviewed-on: http://student.git.athene.tech/v.moiseev/distributed-computing/pulls/116
2023-12-18 11:25:57 +04:00 · 2023-12-18 11:25:57 +04:00 · efd9d1bd47
commit efd9d1bd47
parent a21123fbd8 d04e2f8c23
5 changed files with 832 additions and 0 deletions
--- a/tasks/khalitova-am/lab_5/App/.gitignore
+++ b/tasks/khalitova-am/lab_5/App/.gitignore
@ -0,0 +1,454 @@
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--- a/tasks/khalitova-am/lab_5/App/App.csproj
+++ b/tasks/khalitova-am/lab_5/App/App.csproj
@ -0,0 +1,14 @@
 <Project Sdk="Microsoft.NET.Sdk">
  <PropertyGroup>
    <OutputType>Exe</OutputType>
    <TargetFramework>net6.0</TargetFramework>
    <ImplicitUsings>enable</ImplicitUsings>
    <Nullable>enable</Nullable>
  </PropertyGroup>
  <ItemGroup>
    <PackageReference Include="BenchmarkDotNet" Version="0.13.11" />
  </ItemGroup>
 </Project>
--- a/tasks/khalitova-am/lab_5/App/Program.cs
+++ b/tasks/khalitova-am/lab_5/App/Program.cs
@ -0,0 +1,173 @@
 using System;
 using System.Diagnostics;
 using System.Threading.Tasks;
 using BenchmarkDotNet.Attributes;
 using BenchmarkDotNet.Running;
 public class MatrixMultiplication
 {
    public static int[][] MultiplySequential(int[][] matrixA, int[][] matrixB)
    {
        int rowsA = matrixA.Length;
        int colsA = matrixA[0].Length;
        int colsB = matrixB[0].Length;
        int[][] result = new int[rowsA][];
        for (int i = 0; i < rowsA; i++)
        {
            result[i] = new int[colsB];
            for (int j = 0; j < colsB; j++)
            {
                for (int k = 0; k < colsA; k++)
                {
                    result[i][j] += matrixA[i][k] * matrixB[k][j];
                }
            }
        }
        return result;
    }
    public static int[][] MultiplyParallel(int[][] matrixA, int[][] matrixB, int numThreads)
    {
        int rowsA = matrixA.Length;
        int colsA = matrixA[0].Length;
        int colsB = matrixB[0].Length;
        int[][] result = new int[rowsA][];
        Parallel.For(0, rowsA, new ParallelOptions { MaxDegreeOfParallelism = numThreads }, i =>
        {
            result[i] = new int[colsB];
            for (int j = 0; j < colsB; j++)
            {
                for (int k = 0; k < colsA; k++)
                {
                    result[i][j] += matrixA[i][k] * matrixB[k][j];
                }
            }
        });
        return result;
    }
    [Benchmark]
    public void MultiplySequential_100x100()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplySequential(matrixA, matrixB);
    }
    [Benchmark]
    public void MultiplyParallel_100x100_4TH()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplyParallel(matrixA, matrixB, 4);
    }
    [Benchmark]
    public void MultiplyParallel_100x100_8TH()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplyParallel(matrixA, matrixB, 8);
    }
    [Benchmark]
    public void MultiplyParallel_100x100_16TH()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplyParallel(matrixA, matrixB, 16);
    }
    [Benchmark]
    public void MultiplySequential_300x300()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplySequential(matrixA, matrixB);
    }
    [Benchmark]
    public void MultiplyParallel_300x300_4TH()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplyParallel(matrixA, matrixB, 4);
    }
    [Benchmark]
    public void MultiplyParallel_300x300_8TH()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplyParallel(matrixA, matrixB, 8);
    }
    [Benchmark]
    public void MultiplyParallel_300x300_16TH()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplyParallel(matrixA, matrixB, 16);
    }
    [Benchmark]
    public void MultiplySequential_500x500()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplySequential(matrixA, matrixB);
    }
    [Benchmark]
    public void MultiplyParallel_500x500_4TH()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplyParallel(matrixA, matrixB, 4);
    }
    [Benchmark]
    public void MultiplyParallel_500x500_8TH()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplyParallel(matrixA, matrixB, 8);
    }
    [Benchmark]
    public void MultiplyParallel_500x500_16TH()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplyParallel(matrixA, matrixB, 16);
    }
    private static int[][] GenerateRandomMatrix(int rows, int cols)
    {
        int[][] matrix = new int[rows][];
        Random rand = new Random();
        for (int i = 0; i < rows; i++)
        {
            matrix[i] = new int[cols];
            for (int j = 0; j < cols; j++)
            {
                matrix[i][j] = rand.Next(1, 10);
            }
        }
        return matrix;
    }
 }
 class Program
 {
    static void Main(string[] args)
    {
        var summary = BenchmarkRunner.Run<MatrixMultiplication>();
        Console.ReadLine();
    }
 }
--- a/tasks/khalitova-am/lab_5/README.md
+++ b/tasks/khalitova-am/lab_5/README.md
@ -0,0 +1,191 @@
 # Отчёт по лабораторной работе №5
 Выполнила: студентка гр. ИСЭбд-41 Халитова А.М.
 ## Создание приложения
 В приложении были созданы следующие методы:
 - Заполнение матрицы рандомными значениями:
 ```
    private static int[][] GenerateRandomMatrix(int rows, int cols)
    {
        int[][] matrix = new int[rows][];
        Random rand = new Random();
        for (int i = 0; i < rows; i++)
        {
            matrix[i] = new int[cols];
            for (int j = 0; j < cols; j++)
            {
                matrix[i][j] = rand.Next(1, 10);
            }
        }
        return matrix;
    }
 ```
 - Перемножение матриц обычным алгоритмом:
 ```
    public static int[][] MultiplySequential(int[][] matrixA, int[][] matrixB)
    {
        int rowsA = matrixA.Length;
        int colsA = matrixA[0].Length;
        int colsB = matrixB[0].Length;
        int[][] result = new int[rowsA][];
        for (int i = 0; i < rowsA; i++)
        {
            result[i] = new int[colsB];
            for (int j = 0; j < colsB; j++)
            {
                for (int k = 0; k < colsA; k++)
                {
                    result[i][j] += matrixA[i][k] * matrixB[k][j];
                }
            }
        }
        return result;
    }
 ```
 - Перемножение матриц параллельным алгоритмом:
 ```
 public static int[][] MultiplyParallel(int[][] matrixA, int[][] matrixB, int numThreads)
    {
        int rowsA = matrixA.Length;
        int colsA = matrixA[0].Length;
        int colsB = matrixB[0].Length;
        int[][] result = new int[rowsA][];
        Parallel.For(0, rowsA, new ParallelOptions { MaxDegreeOfParallelism = numThreads }, i =>
        {
            result[i] = new int[colsB];
            for (int j = 0; j < colsB; j++)
            {
                for (int k = 0; k < colsA; k++)
                {
                    result[i][j] += matrixA[i][k] * matrixB[k][j];
                }
            }
        });
        return result;
    }
 ```
 - Создание матриц различных размеров и с различным количеством потоков для параллельного алгоритма:
 ```
    [Benchmark]
    public void MultiplySequential_100x100()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplySequential(matrixA, matrixB);
    }
    [Benchmark]
    public void MultiplyParallel_100x100_4TH()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplyParallel(matrixA, matrixB, 4);
    }
    [Benchmark]
    public void MultiplyParallel_100x100_8TH()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplyParallel(matrixA, matrixB, 8);
    }
    [Benchmark]
    public void MultiplyParallel_100x100_16TH()
    {
        int[][] matrixA = GenerateRandomMatrix(100, 100);
        int[][] matrixB = GenerateRandomMatrix(100, 100);
        MultiplyParallel(matrixA, matrixB, 16);
    }
    [Benchmark]
    public void MultiplySequential_300x300()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplySequential(matrixA, matrixB);
    }
    [Benchmark]
    public void MultiplyParallel_300x300_4TH()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplyParallel(matrixA, matrixB, 4);
    }
    [Benchmark]
    public void MultiplyParallel_300x300_8TH()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplyParallel(matrixA, matrixB, 8);
    }
    [Benchmark]
    public void MultiplyParallel_300x300_16TH()
    {
        int[][] matrixA = GenerateRandomMatrix(300, 300);
        int[][] matrixB = GenerateRandomMatrix(300, 300);
        MultiplyParallel(matrixA, matrixB, 16);
    }
    [Benchmark]
    public void MultiplySequential_500x500()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplySequential(matrixA, matrixB);
    }
    [Benchmark]
    public void MultiplyParallel_500x500_4TH()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplyParallel(matrixA, matrixB, 4);
    }
    [Benchmark]
    public void MultiplyParallel_500x500_8TH()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplyParallel(matrixA, matrixB, 8);
    }
    [Benchmark]
    public void MultiplyParallel_500x500_16TH()
    {
        int[][] matrixA = GenerateRandomMatrix(500, 500);
        int[][] matrixB = GenerateRandomMatrix(500, 500);
        MultiplyParallel(matrixA, matrixB, 16);
    }
 ```
 - Запуск приложения:
 ```
    static void Main(string[] args)
    {
        var summary = BenchmarkRunner.Run<MatrixMultiplication>();
        Console.ReadLine();
    }
 ```
 ## Результаты работы приложения
 ![](shot1.PNG)
 По результатам работы: для матриц небольших размеров большое количество потоков не ускоряет (а в некоторых случаях замедляет) работу алгоритма, за счет излишнего переключения процессора. Для больших матриц увеличение количества потоков увеличивает скорость работы алгоритма. В сравнении с однопоточным алгоритмом, работа параллельного в несколько раз быстрее.
--- a/tasks/khalitova-am/lab_5/shot1.PNG
+++ b/tasks/khalitova-am/lab_5/shot1.PNG