Exemplos de NArray.FillRandom em C# (CSharp)

Exemplo n.º 1

        public void CheckExponentialPerformance()
        {
            IntelMathKernelLibrary.SetSequential();

            var location = StorageLocation.Host;

            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                var normalDistribution = new Normal(randomStream, 0, 1);

                var a = new NArray(location, 5000);
                var b = new NArray(location, 5000);
                a.FillRandom(normalDistribution);

                var aArray = GetArray(a);
                var bArray = GetArray(b);

                var watch = new Stopwatch(); watch.Start();

                for (int i = 0; i < 1000; ++i)
                {
                    IntelMathKernelLibrary.Exp(aArray, 0, bArray, 0, 5000);
                }

                var baseline = watch.ElapsedMilliseconds;
                Console.WriteLine("5 millions in place Exps");
                Console.WriteLine(baseline);
            }
        }

Exemplo n.º 2

Arquivo: DistributionTests.cs Projeto: joemoorhouse/vector-accelerator

        public void TestRandomNumberGeneration()
        {
            var location = StorageLocation.Host;

            // We create the stream.
            // This identifies the stream and stores the state or pointer to the state (in the case
            // of IntelMKL, CUDA, etc).
            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                // We then create a distribution based on the stream.
                // This stores only specific parameters of the distribution (i.e. mean and standard deviation).
                // The purpose of the design is to push scaling and offsetting of random numbers to the Provider,
                // which can do this efficiently whilst generating.
                var normal = new Normal(randomStream, 0, 1);

                var a = new NArray(location, 1000);
                var b = new NArray(location, 1000);

                // When we call FillRandom, we need to use a Provider that is appropriate to the stream.
                a.FillRandom(normal);
                b.FillRandom(normal);

                var v = a * b;
            }
        }

Exemplo n.º 3

Arquivo: BasicCheckVectorPerformance.cs Projeto: joemoorhouse/vector-accelerator

        public void CheckExponentialPerformance()
        {
            IntelMathKernelLibrary.SetSequential();

            var location = StorageLocation.Host;

            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                var normalDistribution = new Normal(randomStream, 0, 1);

                var a = new NArray(location, 5000);
                var b = new NArray(location, 5000);
                a.FillRandom(normalDistribution);

                var aArray = GetArray(a);
                var bArray = GetArray(b);

                var watch = new Stopwatch(); watch.Start();

                for (int i = 0; i < 1000; ++i)
                {
                    IntelMathKernelLibrary.Exp(aArray, 0, bArray, 0, 5000);
                }

                var baseline = watch.ElapsedMilliseconds;
                Console.WriteLine("5 millions in place Exps");
                Console.WriteLine(baseline);
            }
        }

Exemplo n.º 4

Arquivo: DistributionTests.cs Projeto: hanshaoqiang/vector-accelerator

        public void TestRandomNumberGeneration()
        {
            var location = StorageLocation.Host;

            // We create the stream.
            // This identifies the stream and stores the state or pointer to the state (in the case
            // of IntelMKL, CUDA, etc).
            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                // We then create a distribution based on the stream.
                // This stores only specific parameters of the distribution (i.e. mean and standard deviation).
                // The purpose of the design is to push scaling and offsetting of random numbers to the Provider,
                // which can do this efficiently whilst generating.
                var normal = new Normal(randomStream, 0, 1);

                var a = new NArray(location, 1000);
                var b = new NArray(location, 1000);

                // When we call FillRandom, we need to use a Provider that is appropriate to the stream.
                a.FillRandom(normal);
                b.FillRandom(normal);

                var v = a * b;
            }
        }

Exemplo n.º 5

        private NArray CalculateSyntheticReturns(NArray correlationMatrix, int returnsCount)
        {
            var location = StorageLocation.Host;
            var cholesky = NMath.CholeskyDecomposition(correlationMatrix);
            var variates = new NArray(location, returnsCount, correlationMatrix.RowCount);

            using (var stream = new RandomNumberStream(location))
            {
                var normal = new Normal(stream, 0, 1);
                variates.FillRandom(normal);
            }
            return(variates * cholesky.Transpose());
        }

Exemplo n.º 6

Arquivo: Work.cs Projeto: joemoorhouse/vector-accelerator

        public void CreateInputs()
        {
            var location = StorageLocation.Host;

            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                var normalDistribution = new Normal(randomStream, 0, 1);

                _a = new NArray(location, 5000);
                _a.FillRandom(normalDistribution);
                _a_array = GetArray(_a);

                _b = new NArray(location, 5000);
                _b.FillRandom(normalDistribution);
                _b_array = GetArray(_b);

                _c = new NArray(location, 5000);
                _c.FillRandom(normalDistribution);
                _c_array = GetArray(_c);
            }
        }

Exemplo n.º 7

Arquivo: Work.cs Projeto: hanshaoqiang/vector-accelerator

        public void CreateInputs()
        {
            var location = StorageLocation.Host;

            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                var normalDistribution = new Normal(randomStream, 0, 1);

                _a = new NArray(location, 5000);
                _a.FillRandom(normalDistribution);
                _a_array = GetArray(_a);

                _b = new NArray(location, 5000);
                _b.FillRandom(normalDistribution);
                _b_array = GetArray(_b);

                _c = new NArray(location, 5000);
                _c.FillRandom(normalDistribution);
                _c_array = GetArray(_c);
            }
        }

Exemplo n.º 8

Arquivo: BasicModelTests.cs Projeto: joemoorhouse/vector-accelerator

 private NArray CalculateSyntheticReturns(NArray correlationMatrix, int returnsCount)
 {
     var location = StorageLocation.Host;
     var cholesky = NMath.CholeskyDecomposition(correlationMatrix);
     var variates = new NArray(location, returnsCount, correlationMatrix.RowCount);
     using (var stream = new RandomNumberStream(location))
     {
         var normal = new Normal(stream, 0, 1);
         variates.FillRandom(normal);
     }
     return variates * cholesky.Transpose();
 }

Exemplo n.º 9

Arquivo: CheckApplicationLevelThreadingMKL.cs Projeto: hanshaoqiang/vector-accelerator

        public void TranscendentalFunctionTest()
        {
            IntelMathKernelLibrary.SetSequential();

            var location = StorageLocation.Host;

            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                var normalDistribution = new Normal(randomStream, 0, 1);

                var a = new NArray(location, 5000);
                a.FillRandom(normalDistribution);

                var watch = new Stopwatch(); watch.Start();

                var options = new ParallelOptions()
                {
                    MaxDegreeOfParallelism = 1
                };

                Parallel.For(0, 100, options, (i) =>
                {
                    DoWork(a, normalDistribution);
                });

                var baseline = watch.ElapsedMilliseconds;
                Console.WriteLine("Base-line");
                Console.WriteLine(baseline);
                watch.Restart();

                Parallel.For(0, 100, (i) =>
                {
                    DoWork(a, normalDistribution);
                });

                var baselineThreaded = watch.ElapsedMilliseconds;
                Console.WriteLine("Base-line threaded");
                Console.WriteLine(baselineThreaded);
                watch.Restart();

                Parallel.For(0, 100, options, (i) =>
                {
                    DoWorkInPlace(a, normalDistribution);
                });

                var oneThread = watch.ElapsedMilliseconds;
                Console.WriteLine("In place");
                Console.WriteLine(oneThread);
                watch.Restart();

                Parallel.For(0, 100, (i) =>
                {
                    DoWorkInPlace(a, normalDistribution);
                });

                var multipleThreads = watch.ElapsedMilliseconds;
                Console.WriteLine("In place threaded");
                Console.WriteLine(multipleThreads);
                Console.WriteLine(oneThread / (double)multipleThreads);
                watch.Restart();

                Parallel.For(0, 100, options, (i) =>
                {
                    DoWorkDeferred(a, normalDistribution);
                });

                var deferred = watch.ElapsedMilliseconds;
                Console.WriteLine("Deferred");
                Console.WriteLine(deferred);
                watch.Restart();

                Parallel.For(0, 100, (i) =>
                {
                    DoWorkDeferred(a, normalDistribution);
                });

                var deferredMultipleThreads = watch.ElapsedMilliseconds;
                Console.WriteLine("Deferred threaded");
                Console.WriteLine(deferredMultipleThreads);
                watch.Restart();
            }
        }

Exemplo n.º 10

Arquivo: CheckApplicationLevelThreadingMKL.cs Projeto: hanshaoqiang/vector-accelerator

        public void VectorFundamentalsTest()
        {
            var location = StorageLocation.Host;

            using (var randomStream = new RandomNumberStream(location, RandomNumberGeneratorType.MRG32K3A, 111))
            {
                var normalDistribution = new Normal(randomStream, 0, 1);

                var a      = new NArray(StorageLocation.Host, 5000);
                var b      = new NArray(StorageLocation.Host, 5000);
                var c      = new NArray(StorageLocation.Host, 5000);
                var d      = new NArray(StorageLocation.Host, 5000);
                var result = NArray.CreateLike(a);
                a.FillRandom(normalDistribution);
                b.FillRandom(normalDistribution);
                c.FillRandom(normalDistribution);
                d.FillRandom(normalDistribution);
                var aArray      = GetArray(a);
                var bArray      = GetArray(b);
                var cArray      = GetArray(c);
                var dArray      = GetArray(d);
                var resultArray = GetArray(result);

                Console.WriteLine(); Console.WriteLine("In place vector Exp MKL");
                TestHelpers.Timeit(() =>
                {
                    IntelMathKernelLibrary.Exp(aArray, 0, resultArray, 0, result.Length);
                }, 20, 50);

                Console.WriteLine(); Console.WriteLine("In place vector Exp C sharp");
                TestHelpers.Timeit(() =>
                {
                    for (int i = 0; i < 5000; ++i)
                    {
                        resultArray[i] = Math.Exp(aArray[i]);
                    }
                }, 20, 50);

                Console.WriteLine(); Console.WriteLine("In place vector aX + Y MKL");
                TestHelpers.Timeit(() =>
                {
                    IntelMathKernelLibrary.ConstantAddMultiply(aArray, 0, 3, 0, resultArray, 0, 5000);
                    //IntelMathKernelLibrary.Multiply(bArray, 0, resultArray, 0, resultArray, 0, result.Length);
                    IntelMathKernelLibrary.Add(bArray, 0, resultArray, 0, resultArray, 0, result.Length);
                    //IntelMathKernelLibrary.Exp(resultArray, 0, resultArray, 0, result.Length);
                    // 3 reads and 2 writes
                }, 20, 50);

                Console.WriteLine(); Console.WriteLine("In place vector aX + Y C sharp");
                TestHelpers.Timeit(() =>
                {
                    for (int i = 0; i < 5000; ++i)
                    {
                        resultArray[i] = 3 * aArray[i] + bArray[i]; // 2 reads and a write
                        //resultArray[i] = Math.Exp(3 * aArray[i] + bArray[i]); // 2 reads and a write
                    }
                }, 20, 50);

                Console.WriteLine(); Console.WriteLine("Immediate mode; creating storage");
                TestHelpers.Timeit(() =>
                {
                    //var result2 = NMath.Exp(3 * a + b);
                    var result2 = 3 * a + b;
                }, 20, 50);

                var result3 = NArray.CreateLike(a);

                Console.WriteLine(); Console.WriteLine("Deferred mode; storage passed in");
                TestHelpers.Timeit(() =>
                {
                    NArray.Evaluate(() =>
                    {
                        //return NMath.Exp(3 * a + b);
                        return(3 * a + b);
                    }
                                    , new List <NArray>(), Aggregator.ElementwiseAdd, new List <NArray> {
                        result3
                    });
                }, 20, 50);

                return;

                Console.WriteLine(); Console.WriteLine("Deferred mode; storage passed in");
                TestHelpers.Timeit(() =>
                {
                    NArray.Evaluate(() =>
                    {
                        return(3 * a + b);
                    }
                                    , new List <NArray>(), Aggregator.ElementwiseAdd, new List <NArray> {
                        result
                    });
                }, 20, 50);
            }
        }