pub struct ArrayFireBackend {}
Expand description

Backend using ArrayFire

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Trait Implementations§

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impl LinAlgBackend for ArrayFireBackend

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type MatrixXc = Array<Complex<f64>>

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type MatrixX = Array<f64>

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type VectorXc = Array<Complex<f64>>

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type VectorX = Array<f64>

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fn new() -> Result<Rc<Self>, HoloError>

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fn generate_propagation_matrix<T: Transducer>( &self, geometry: &Geometry<T>, foci: &[Vector3], filter: &GainFilter<'_> ) -> Result<Self::MatrixXc, HoloError>

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fn alloc_v(&self, size: usize) -> Result<Self::VectorX, HoloError>

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fn alloc_m(&self, rows: usize, cols: usize) -> Result<Self::MatrixX, HoloError>

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fn alloc_cv(&self, size: usize) -> Result<Self::VectorXc, HoloError>

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fn alloc_cm( &self, rows: usize, cols: usize ) -> Result<Self::MatrixXc, HoloError>

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fn alloc_zeros_v(&self, size: usize) -> Result<Self::VectorX, HoloError>

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fn alloc_zeros_cv(&self, size: usize) -> Result<Self::VectorXc, HoloError>

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fn alloc_zeros_cm( &self, rows: usize, cols: usize ) -> Result<Self::MatrixXc, HoloError>

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fn to_host_v(&self, v: Self::VectorX) -> Result<VectorX, HoloError>

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fn to_host_m(&self, v: Self::MatrixX) -> Result<MatrixX, HoloError>

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fn to_host_cv(&self, v: Self::VectorXc) -> Result<VectorXc, HoloError>

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fn to_host_cm(&self, v: Self::MatrixXc) -> Result<MatrixXc, HoloError>

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fn from_slice_v(&self, v: &[f64]) -> Result<Self::VectorX, HoloError>

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fn from_slice_m( &self, rows: usize, cols: usize, v: &[f64] ) -> Result<Self::MatrixX, HoloError>

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fn from_slice_cv(&self, v: &[f64]) -> Result<Self::VectorXc, HoloError>

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fn from_slice2_cv( &self, r: &[f64], i: &[f64] ) -> Result<Self::VectorXc, HoloError>

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fn from_slice2_cm( &self, rows: usize, cols: usize, r: &[f64], i: &[f64] ) -> Result<Self::MatrixXc, HoloError>

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fn copy_from_slice_v( &self, v: &[f64], dst: &mut Self::VectorX ) -> Result<(), HoloError>

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fn copy_to_v( &self, src: &Self::VectorX, dst: &mut Self::VectorX ) -> Result<(), HoloError>

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fn copy_to_m( &self, src: &Self::MatrixX, dst: &mut Self::MatrixX ) -> Result<(), HoloError>

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fn clone_v(&self, v: &Self::VectorX) -> Result<Self::VectorX, HoloError>

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fn clone_m(&self, v: &Self::MatrixX) -> Result<Self::MatrixX, HoloError>

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fn clone_cv(&self, v: &Self::VectorXc) -> Result<Self::VectorXc, HoloError>

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fn clone_cm(&self, v: &Self::MatrixXc) -> Result<Self::MatrixXc, HoloError>

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fn make_complex2_v( &self, real: &Self::VectorX, imag: &Self::VectorX, v: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn get_col_c( &self, a: &Self::MatrixXc, col: usize, v: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn set_cv( &self, i: usize, val: Complex, v: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn set_col_c( &self, a: &Self::VectorXc, col: usize, start: usize, end: usize, v: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn set_row_c( &self, a: &Self::VectorXc, row: usize, start: usize, end: usize, v: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn get_diagonal_c( &self, a: &Self::MatrixXc, v: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn create_diagonal( &self, v: &Self::VectorX, a: &mut Self::MatrixX ) -> Result<(), HoloError>

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fn create_diagonal_c( &self, v: &Self::VectorXc, a: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn get_diagonal( &self, a: &Self::MatrixX, v: &mut Self::VectorX ) -> Result<(), HoloError>

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fn abs_cv( &self, a: &Self::VectorXc, b: &mut Self::VectorX ) -> Result<(), HoloError>

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fn real_cm( &self, a: &Self::MatrixXc, b: &mut Self::MatrixX ) -> Result<(), HoloError>

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fn imag_cm( &self, a: &Self::MatrixXc, b: &mut Self::MatrixX ) -> Result<(), HoloError>

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fn scale_assign_v(&self, a: f64, b: &mut Self::VectorX) -> Result<(), HoloError>

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fn scale_assign_cv( &self, a: Complex, b: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn conj_assign_v(&self, b: &mut Self::VectorXc) -> Result<(), HoloError>

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fn sqrt_assign_v(&self, v: &mut Self::VectorX) -> Result<(), HoloError>

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fn normalize_assign_cv(&self, v: &mut Self::VectorXc) -> Result<(), HoloError>

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fn reciprocal_assign_c(&self, v: &mut Self::VectorXc) -> Result<(), HoloError>

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fn pow_assign_v(&self, a: f64, v: &mut Self::VectorX) -> Result<(), HoloError>

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fn exp_assign_cv(&self, v: &mut Self::VectorXc) -> Result<(), HoloError>

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fn concat_row_cm( &self, a: &Self::MatrixXc, b: &Self::MatrixXc, c: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn concat_col_cv( &self, a: &Self::VectorXc, b: &Self::VectorXc, c: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn concat_col_cm( &self, a: &Self::MatrixXc, b: &Self::MatrixXc, c: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn max_v(&self, m: &Self::VectorX) -> Result<f64, HoloError>

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fn max_eigen_vector_c( &self, m: Self::MatrixXc ) -> Result<Self::VectorXc, HoloError>

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fn hadamard_product_assign_cv( &self, x: &Self::VectorXc, y: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn hadamard_product_cv( &self, x: &Self::VectorXc, y: &Self::VectorXc, z: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn hadamard_product_cm( &self, x: &Self::MatrixXc, y: &Self::MatrixXc, z: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn dot(&self, x: &Self::VectorX, y: &Self::VectorX) -> Result<f64, HoloError>

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fn dot_c( &self, x: &Self::VectorXc, y: &Self::VectorXc ) -> Result<Complex, HoloError>

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fn add_v( &self, alpha: f64, a: &Self::VectorX, b: &mut Self::VectorX ) -> Result<(), HoloError>

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fn add_m( &self, alpha: f64, a: &Self::MatrixX, b: &mut Self::MatrixX ) -> Result<(), HoloError>

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fn gevv_c( &self, trans_a: Trans, trans_b: Trans, alpha: Complex, a: &Self::VectorXc, x: &Self::VectorXc, beta: Complex, y: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn gemv_c( &self, trans: Trans, alpha: Complex, a: &Self::MatrixXc, x: &Self::VectorXc, beta: Complex, y: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn gemm_c( &self, trans_a: Trans, trans_b: Trans, alpha: Complex, a: &Self::MatrixXc, b: &Self::MatrixXc, beta: Complex, y: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn pseudo_inverse_svd( &self, a: Self::MatrixXc, alpha: f64, _u: &mut Self::MatrixXc, _s: &mut Self::MatrixXc, _vt: &mut Self::MatrixXc, _buf: &mut Self::MatrixXc, b: &mut Self::MatrixXc ) -> Result<(), HoloError>

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fn solve_inplace( &self, a: &Self::MatrixX, x: &mut Self::VectorX ) -> Result<(), HoloError>

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fn solve_inplace_h( &self, a: Self::MatrixXc, x: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn reduce_col( &self, a: &Self::MatrixX, b: &mut Self::VectorX ) -> Result<(), HoloError>

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fn cols_c(&self, m: &Self::MatrixXc) -> Result<usize, HoloError>

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fn scaled_to_cv( &self, a: &Self::VectorXc, b: &Self::VectorXc, c: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn scaled_to_assign_cv( &self, a: &Self::VectorXc, b: &mut Self::VectorXc ) -> Result<(), HoloError>

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fn gen_back_prop( &self, _m: usize, n: usize, transfer: &Self::MatrixXc, amps: &Self::VectorXc, b: &mut Self::MatrixXc ) -> Result<(), HoloError>

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