Sqrtm
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Menghitung akar kuadrat matriks dari satu atau lebih matriks persegi:
matmul(sqrtm(A), sqrtm(A)) = A
Matriks masukan harus dapat dibalik. Jika matriks masukannya nyata, maka matriks tersebut tidak boleh memiliki nilai eigen yang nyata dan negatif (pasangan nilai eigen konjugasi kompleks diperbolehkan).
Akar kuadrat matriks dihitung dengan terlebih dahulu mereduksi matriks menjadi bentuk kuasi-segitiga dengan dekomposisi Schur nyata. Akar kuadrat dari matriks kuasi-segitiga kemudian dihitung secara langsung. Rincian algoritma dapat ditemukan di: Nicholas J. Higham, "Menghitung akar kuadrat nyata dari matriks nyata", Linear Algebra Appl., 1987.
Masukannya berupa tensor berbentuk `[..., M, M]` yang 2 dimensi terdalamnya membentuk matriks persegi. Keluarannya berupa tensor yang bentuknya sama dengan masukan yang memuat akar kuadrat matriks untuk semua submatriks masukan `[..., :, :]`.
Konstanta
| Rangkaian | OP_NAME | Nama operasi ini dikenal dengan mesin inti TensorFlow |
Metode Warisan
Dari kelas java.lang.Object | boolean | sama dengan (Objek arg0) |
| Kelas terakhir<?> | dapatkan Kelas () |
| ke dalam | Kode hash () |
| kekosongan terakhir | memberitahu () |
| kekosongan terakhir | beri tahuSemua () |
| Rangkaian | keString () |
| kekosongan terakhir | tunggu (arg0 panjang, int arg1) |
| kekosongan terakhir | tunggu (argumen panjang0) |
| kekosongan terakhir | Tunggu () |
Konstanta
String akhir statis publik OP_NAME
Nama operasi ini dikenal dengan mesin inti TensorFlow
Nilai Konstan: "MatrixSquareRoot"
Metode Publik
Keluaran publik <T> sebagai Keluaran ()
Mengembalikan pegangan simbolik tensor.
Masukan ke operasi TensorFlow adalah keluaran dari operasi TensorFlow lainnya. Metode ini digunakan untuk mendapatkan pegangan simbolis yang mewakili perhitungan input.
Metode pabrik untuk membuat kelas yang membungkus operasi Sqrtm baru.
Parameter
| cakupan | ruang lingkup saat ini |
|---|
| memasukkan | Bentuknya adalah `[..., M, M]`. |
|---|
Keluaran publik <T> keluaran ()
Bentuknya adalah `[..., M, M]`.
Kecuali dinyatakan lain, konten di halaman ini dilisensikan berdasarkan Lisensi Creative Commons Attribution 4.0, sedangkan contoh kode dilisensikan berdasarkan Lisensi Apache 2.0. Untuk mengetahui informasi selengkapnya, lihat Kebijakan Situs Google Developers. Java adalah merek dagang terdaftar dari Oracle dan/atau afiliasinya.
Terakhir diperbarui pada 2025-07-25 UTC.
[null,null,["Terakhir diperbarui pada 2025-07-25 UTC."],[],[],null,["# Sqrtm\n\npublic final class **Sqrtm** \nComputes the matrix square root of one or more square matrices:\n\n\nmatmul(sqrtm(A), sqrtm(A)) = A\n\n\nThe input matrix should be invertible. If the input matrix is real, it should\nhave no eigenvalues which are real and negative (pairs of complex conjugate\neigenvalues are allowed).\n\n\nThe matrix square root is computed by first reducing the matrix to\nquasi-triangular form with the real Schur decomposition. The square root\nof the quasi-triangular matrix is then computed directly. Details of\nthe algorithm can be found in: Nicholas J. Higham, \"Computing real\nsquare roots of a real matrix\", Linear Algebra Appl., 1987.\n\n\nThe input is a tensor of shape \\`\\[..., M, M\\]\\` whose inner-most 2 dimensions\nform square matrices. The output is a tensor of the same shape as the input\ncontaining the matrix square root for all input submatrices \\`\\[..., :, :\\]\\`.\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n### Constants\n\n|--------|----------------------------------------------------------------------|---------------------------------------------------------|\n| String | [OP_NAME](/jvm/api_docs/java/org/tensorflow/op/linalg/Sqrtm#OP_NAME) | The name of this op, as known by TensorFlow core engine |\n\n### Public Methods\n\n|----------------------------------------------------------------------------------------------------------------------------------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| [Output](/jvm/api_docs/java/org/tensorflow/Output)\\\u003cT\\\u003e | [asOutput](/jvm/api_docs/java/org/tensorflow/op/linalg/Sqrtm#asOutput())() Returns the symbolic handle of the tensor. |\n| static \\\u003cT extends [TType](/jvm/api_docs/java/org/tensorflow/types/family/TType)\\\u003e [Sqrtm](/jvm/api_docs/java/org/tensorflow/op/linalg/Sqrtm)\\\u003cT\\\u003e | [create](/jvm/api_docs/java/org/tensorflow/op/linalg/Sqrtm#create(org.tensorflow.op.Scope, org.tensorflow.Operand\u003cT\u003e))([Scope](/jvm/api_docs/java/org/tensorflow/op/Scope) scope, [Operand](/jvm/api_docs/java/org/tensorflow/Operand)\\\u003cT\\\u003e input) Factory method to create a class wrapping a new Sqrtm operation. |\n| [Output](/jvm/api_docs/java/org/tensorflow/Output)\\\u003cT\\\u003e | [output](/jvm/api_docs/java/org/tensorflow/op/linalg/Sqrtm#output())() Shape is \\`\\[..., M, M\\]\\`. |\n\n### Inherited Methods\n\nFrom class [org.tensorflow.op.RawOp](/jvm/api_docs/java/org/tensorflow/op/RawOp) \n\n|----------------------------------------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| final boolean | [equals](/jvm/api_docs/java/org/tensorflow/op/RawOp#equals(java.lang.Object))(Object obj) |\n| final int | [hashCode](/jvm/api_docs/java/org/tensorflow/op/RawOp#hashCode())() |\n| [Operation](/jvm/api_docs/java/org/tensorflow/Operation) | [op](/jvm/api_docs/java/org/tensorflow/op/RawOp#op())() Return this unit of computation as a single [Operation](/jvm/api_docs/java/org/tensorflow/Operation). |\n| final String | [toString](/jvm/api_docs/java/org/tensorflow/op/RawOp#toString())() |\n\nFrom class java.lang.Object \n\n|------------------|---------------------------|\n| boolean | equals(Object arg0) |\n| final Class\\\u003c?\\\u003e | getClass() |\n| int | hashCode() |\n| final void | notify() |\n| final void | notifyAll() |\n| String | toString() |\n| final void | wait(long arg0, int arg1) |\n| final void | wait(long arg0) |\n| final void | wait() |\n\nFrom interface [org.tensorflow.op.Op](/jvm/api_docs/java/org/tensorflow/op/Op) \n\n|-----------------------------------------------------------------------------------------|------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| abstract [ExecutionEnvironment](/jvm/api_docs/java/org/tensorflow/ExecutionEnvironment) | [env](/jvm/api_docs/java/org/tensorflow/op/Op#env())() Return the execution environment this op was created in. |\n| abstract [Operation](/jvm/api_docs/java/org/tensorflow/Operation) | [op](/jvm/api_docs/java/org/tensorflow/op/Op#op())() Return this unit of computation as a single [Operation](/jvm/api_docs/java/org/tensorflow/Operation). |\n\nFrom interface [org.tensorflow.Operand](/jvm/api_docs/java/org/tensorflow/Operand) \n\n|-------------------------------------------------------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| abstract [Output](/jvm/api_docs/java/org/tensorflow/Output)\\\u003cT\\\u003e | [asOutput](/jvm/api_docs/java/org/tensorflow/Operand#asOutput())() Returns the symbolic handle of the tensor. |\n| abstract T | [asTensor](/jvm/api_docs/java/org/tensorflow/Operand#asTensor())() Returns the tensor at this operand. |\n| abstract [Shape](/jvm/api_docs/java/org/tensorflow/ndarray/Shape) | [shape](/jvm/api_docs/java/org/tensorflow/Operand#shape())() Returns the (possibly partially known) shape of the tensor referred to by the [Output](/jvm/api_docs/java/org/tensorflow/Output) of this operand. |\n| abstract Class\\\u003cT\\\u003e | [type](/jvm/api_docs/java/org/tensorflow/Operand#type())() Returns the tensor type of this operand |\n\nFrom interface [org.tensorflow.ndarray.Shaped](/jvm/api_docs/java/org/tensorflow/ndarray/Shaped) \n\n|-------------------------------------------------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------|\n| abstract int | [rank](/jvm/api_docs/java/org/tensorflow/ndarray/Shaped#rank())() |\n| abstract [Shape](/jvm/api_docs/java/org/tensorflow/ndarray/Shape) | [shape](/jvm/api_docs/java/org/tensorflow/ndarray/Shaped#shape())() |\n| abstract long | [size](/jvm/api_docs/java/org/tensorflow/ndarray/Shaped#size())() Computes and returns the total size of this container, in number of values. |\n\nConstants\n---------\n\n#### public static final String\n**OP_NAME**\n\nThe name of this op, as known by TensorFlow core engine \nConstant Value: \"MatrixSquareRoot\"\n\nPublic Methods\n--------------\n\n#### public [Output](/jvm/api_docs/java/org/tensorflow/Output)\\\u003cT\\\u003e\n**asOutput**\n()\n\nReturns the symbolic handle of the tensor.\n\nInputs to TensorFlow operations are outputs of another TensorFlow operation. This method is\nused to obtain a symbolic handle that represents the computation of the input.\n\n\u003cbr /\u003e\n\n#### public static [Sqrtm](/jvm/api_docs/java/org/tensorflow/op/linalg/Sqrtm)\\\u003cT\\\u003e\n**create**\n([Scope](/jvm/api_docs/java/org/tensorflow/op/Scope) scope, [Operand](/jvm/api_docs/java/org/tensorflow/Operand)\\\u003cT\\\u003e input)\n\nFactory method to create a class wrapping a new Sqrtm operation. \n\n##### Parameters\n\n| scope | current scope |\n| input | Shape is \\`\\[..., M, M\\]\\`. |\n|-------|-----------------------------|\n\n##### Returns\n\n- a new instance of Sqrtm \n\n#### public [Output](/jvm/api_docs/java/org/tensorflow/Output)\\\u003cT\\\u003e\n**output**\n()\n\nShape is \\`\\[..., M, M\\]\\`.\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e"]]
