Exemple #1
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 /// <summary>Initializes a new instance of the <see cref="SapMatrixDecomposer" /> class.
 /// </summary>
 /// <param name="maximalRank">The maximal rank of the resulting matrix.</param>
 /// <param name="multiDimOptmizer">The multi-dimensional </param>
 /// <param name="infoOutputDetailLevel">The info-output level of detail.</param>
 public SapMatrixDecomposer(int maximalRank, OrdinaryMultiDimOptimizer multiDimOptmizer, InfoOutputDetailLevel infoOutputDetailLevel = InfoOutputDetailLevel.Middle)
     : base(infoOutputDetailLevel)
 {
     if (multiDimOptmizer == null)
     {
         throw new ArgumentNullException("multiDimOptimizer");
     }
     m_MultiDimOptimizer = multiDimOptmizer;
     m_InitialDecomposer = new EznMatrixDecomposer(maximalRank);
     m_Name = new IdentifierString(String.Format("SAP Decomposer; max. rank: {0}", maximalRank));
 }
Exemple #2
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 /// <summary>Initializes a new instance of the <see cref="SapMatrixDecomposer" /> class.
 /// </summary>
 /// <param name="multiDimOptmizer">The multi-dimensional </param>
 /// <param name="infoOutputDetailLevel">The info-output level of detail.</param>
 public SapMatrixDecomposer(OrdinaryMultiDimOptimizer multiDimOptmizer, InfoOutputDetailLevel infoOutputDetailLevel = InfoOutputDetailLevel.Middle)
     : base(infoOutputDetailLevel)
 {
     if (multiDimOptmizer == null)
     {
         throw new ArgumentNullException("multiDimOptmizer");
     }
     m_MultiDimOptimizer = multiDimOptmizer;
     m_InitialDecomposer = new EznMatrixDecomposer();
     m_Name = new IdentifierString("SAP Decomposer");
 }
        public void Create_RebonatoJaeckelExample2_BenchmarkResult()
        {
            int n = 3;
            var rawCorrelationMatrix = new DenseMatrix(n, n, new[] { 1.0, 0.9, 0.7, 0.9, 1.0, 0.3, 0.7, 0.3, 1.0 });

            var matrixDecomposer = new EznMatrixDecomposer(BasicComponents.Containers.InfoOutputDetailLevel.Full);

            PseudoSqrtMatrixDecomposer.State state;
            var actual = matrixDecomposer.Create(rawCorrelationMatrix, out state);

            int expectedRank = 2;

            Assert.That(state.Rank, Is.EqualTo(expectedRank), String.Format("Rank should be {0}, but was {1}.", expectedRank, state.Rank));

            var expected = new DenseMatrix(n, state.Rank, new[] { // the values taken from the reference are re-ordered and with a negative sign
                -0.06238, -0.50292, 0.67290,
                -0.99805, -0.86434, -0.73974
            });

            Assert.That(actual.Data.Take(actual.RowCount * actual.ColumnCount).ToArray(), Is.EqualTo(expected.Data).AsCollection.Within(1E-4));
        }
        public void CreateSymmetric_RebonatoJaeckelExample2_BenchmarkResult()
        {
            int n = 3;
            var rawCorrelationMatrix = new SymmetricMatrix(n, new[] { 1.0, 0.9, 0.7, 1.0, 0.3, 1.0 });

            var matrixDecomposer = new EznMatrixDecomposer();
            int rank;

            var actual = matrixDecomposer.Create(rawCorrelationMatrix, out rank);

            int expectedRank = 2;

            Assert.That(rank, Is.EqualTo(expectedRank), String.Format("Rank should be {0}, but was {1}.", expectedRank, rank));

            var expected = new DenseMatrix(n, rank, new[] { // the values taken from the reference are re-ordered and same(!) columns are with a negative sign
                -0.06238, -0.50292, 0.67290,
                0.99805, 0.86434, 0.73974
            });

            Assert.That(actual.Data.Take(actual.RowCount * actual.ColumnCount).ToArray(), Is.EqualTo(expected.Data).AsCollection.Within(1E-4));
        }
        public void Create_RebonatoJaeckelExample1_BenchmarkResult()
        {
            int n = 3;
            var rawCorrelationMatrix = new DenseMatrix(n, n, new[] {
                1.0, 0.9, 0.7,
                0.9, 1.0, 0.4,
                0.7, 0.4, 1.0
            });

            var matrixDecomposer = new EznMatrixDecomposer();

            PseudoSqrtMatrixDecomposer.State state;
            var actual = matrixDecomposer.Create(rawCorrelationMatrix, out state);

            Assert.That(state.Rank, Is.EqualTo(n), String.Format("Rank should be {0}, but was {1}.", n, state.Rank));

            var expected = new DenseMatrix(n, n, new[] {  // the values taken from the reference are re-ordered with a negative sign
                0.13192, -0.10021, -0.05389,
                -0.08718, -0.45536, 0.63329,
                -0.98742, -0.88465, -0.77203
            });

            Assert.That(actual.Data, Is.EqualTo(expected.Data).AsCollection.Within(1E-4));
        }