# This file is designed for backward C++ operators associated with # the operator in ops.yaml. - backward_op : acos_grad forward : acos (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : acos_grad inplace : (out_grad -> x_grad) - backward_op : acosh_grad forward : acosh (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : acosh_grad inplace : (out_grad -> x_grad) - backward_op : addmm_grad forward : addmm (Tensor input, Tensor x, Tensor y, float beta=1.0, float alpha=1.0) -> Tensor(out) args : (Tensor input, Tensor x, Tensor y, Tensor out_grad, float alpha, float beta) output : Tensor(input_grad), Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralTernaryGradInferMeta param : [input, x, y] kernel : func : addmm_grad - backward_op : affine_grid_grad forward : affine_grid (Tensor input, IntArray output_shape={}, bool align_corners=true) -> Tensor(output) args : (Tensor input, Tensor output_grad, IntArray output_shape, bool align_corners=true) output : Tensor(input_grad) infer_meta : func : AffineGridGradInferMeta param : [output_grad, output_shape, align_corners] kernel : func : affine_grid_grad param : [output_grad, output_shape, align_corners] - backward_op : angle_grad forward : angle (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : angle_grad - backward_op : argsort_grad forward : argsort (Tensor x, int axis, bool descending) -> Tensor(out), Tensor(indices) args : (Tensor indices, Tensor x, Tensor out_grad, int axis, bool descending) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : argsort_grad data_type : out_grad no_need_buffer : x - backward_op : as_complex_grad forward : as_complex (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) invoke : as_real(out_grad) - backward_op : as_real_grad forward : as_real (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) invoke : as_complex(out_grad) - backward_op : asin_grad forward : asin (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : asin_grad inplace : (out_grad -> x_grad) - backward_op : asinh_grad forward : asinh (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : asinh_grad inplace : (out_grad -> x_grad) - backward_op : atan2_grad forward : atan2 (Tensor x, Tensor y) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out_grad) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : atan2_grad - backward_op : atan_grad forward : atan (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : atan_grad inplace : (out_grad -> x_grad) - backward_op : atanh_grad forward : atanh (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : atanh_grad inplace : (out_grad -> x_grad) - backward_op : bce_loss_grad forward : bce_loss (Tensor input, Tensor label) -> Tensor(out) args : (Tensor input, Tensor label, Tensor out_grad) output : Tensor(input_grad) infer_meta : func : UnchangedInferMeta param : [input] kernel : func : bce_loss_grad inplace : (out_grad -> input_grad) - backward_op : bicubic_interp_grad forward : bicubic_interp (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, str data_layout="NCHW", int out_d=0, int out_h=0, int out_w=0, float[] scale={}, str interp_method="bilinear", bool align_corners=true, int align_mode=1) -> Tensor(output) args : (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, Tensor output_grad, str data_layout, int out_d, int out_h, int out_w, float[] scale, str interp_method, bool align_corners, int align_mode) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] optional: out_size, size_tensor, scale_tensor no_need_buffer : x kernel : func : bicubic_interp_grad data_type : output_grad data_transform : skip_transform : out_size, size_tensor, scale_tensor - backward_op : bilinear_interp_grad forward : bilinear_interp (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, str data_layout="NCHW", int out_d=0, int out_h=0, int out_w=0, float[] scale={}, str interp_method="bilinear", bool align_corners=true, int align_mode=1) -> Tensor(output) args : (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, Tensor output_grad, str data_layout, int out_d, int out_h, int out_w, float[] scale, str interp_method, bool align_corners, int align_mode) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] no_need_buffer : x optional: out_size, size_tensor, scale_tensor kernel : func : bilinear_interp_grad data_type : output_grad data_transform : skip_transform : out_size, size_tensor, scale_tensor - backward_op : bmm_grad forward : bmm (Tensor x, Tensor y) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out_grad) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : BmmGradInferMeta kernel : func : bmm_grad data_type : out_grad - backward_op : broadcast_tensors_grad forward : broadcast_tensors (Tensor[] input) -> Tensor[](out) args : (Tensor[] input, Tensor[] out_grad) output : Tensor[](input_grad) infer_meta : func : UnchangedMultiInferMeta param : [input] kernel : func : broadcast_tensors_grad param : [input, out_grad] data_type : out_grad no_need_buffer : input - backward_op : ceil_grad forward : ceil(Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [out_grad] kernel : func : ceil_grad inplace : (out_grad -> x_grad) - backward_op : celu_double_grad forward : celu_grad(Tensor x, Tensor grad_out, float alpha) -> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad, float alpha) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, x] kernel : func : celu_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : celu_grad forward : celu(Tensor x, float alpha) -> Tensor(out) args : (Tensor x, Tensor out_grad, float alpha) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : celu_grad backward : celu_double_grad inplace : (out_grad -> x_grad) - backward_op : cholesky_grad forward : cholesky (Tensor x, bool upper) -> Tensor(out) args : (Tensor out, Tensor out_grad, bool upper) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : cholesky_grad - backward_op : cholesky_solve_grad forward : cholesky_solve (Tensor x, Tensor y, bool upper) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out, Tensor out_grad, bool upper) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : cholesky_solve_grad - backward_op : clip_double_grad forward : clip_grad (Tensor x, Tensor grad_out, Scalar min = 0., Scalar max = 0.) -> Tensor(grad_x) args : (Tensor x, Tensor grad_x_grad, Scalar min = 0., Scalar max = 0.) output : Tensor(grad_out_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : clip_grad data_type : x - backward_op : clip_grad forward : clip (Tensor x, Scalar min, Scalar max) -> Tensor(out) args : (Tensor x, Tensor out_grad, Scalar min = 0., Scalar max = 0.) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : clip_grad backward : clip_double_grad inplace : (out_grad -> x_grad) - backward_op : complex_grad forward : complex (Tensor real, Tensor imag) -> Tensor(out) args : (Tensor real, Tensor imag, Tensor out_grad) output : Tensor(real_grad), Tensor(imag_grad) infer_meta : func : ComplexGradInferMeta kernel : func : complex_grad data_type : real - backward_op : conj_grad forward : conj (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) invoke : conj(out_grad) - backward_op : cos_double_grad forward : cos_grad (Tensor x, Tensor grad_out) -> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, x] kernel : func : cos_double_grad optional: grad_out backward : cos_triple_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : cos_grad forward : cos (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : cos_grad backward : cos_double_grad composite : cos_grad(x, out_grad, x_grad) inplace : (out_grad -> x_grad) - backward_op : cos_triple_grad forward : cos_double_grad (Tensor x, Tensor grad_out_forward, Tensor grad_x_grad_forward) -> Tensor(grad_x), Tensor(grad_out_grad) args : (Tensor x, Tensor grad_out_forward, Tensor grad_x_grad_forward, Tensor grad_x_grad, Tensor grad_out_grad_grad) output : Tensor(x_grad), Tensor(grad_out_forward_grad), Tensor(grad_x_grad_forward_grad) infer_meta : func : GeneralTernaryGradInferMeta param : [x, x, grad_x_grad_forward] kernel : func : cos_triple_grad optional: grad_out_forward, grad_x_grad_forward, grad_out_grad_grad inplace : (grad_x_grad_forward -> grad_out_forward_grad) - backward_op : cosh_grad forward : cosh (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : cosh_grad inplace : (out_grad -> x_grad) - backward_op : crop_grad forward : crop (Tensor x, IntArray shape, IntArray offsets) -> Tensor(out) args : (Tensor x, Tensor out_grad, IntArray offsets) output : Tensor(x_grad) infer_meta : func : CropGradInferMeta kernel : func : crop_grad data_type : x - backward_op : cross_grad forward : cross (Tensor x, Tensor y, int axis = 9) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out_grad, int axis) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : cross_grad data_type : out_grad - backward_op : cumprod_grad forward : cumprod (Tensor x, int dim) -> Tensor(out) args : (Tensor x, Tensor out, Tensor out_grad, int dim) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : cumprod_grad - backward_op : det_grad forward : det (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : determinant_grad data_type : out_grad - backward_op : diag_grad forward : diag (Tensor x, int offset, float padding_value) -> Tensor(out) args : (Tensor x, Tensor out_grad, int offset) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : diag_grad data_type : out_grad no_need_buffer : x - backward_op : diagonal_grad forward : diagonal (Tensor x, int offset, int axis1, int axis2) -> Tensor(out) args : (Tensor x, Tensor out_grad, int offset = 0, int axis1 = 0, int axis2 = 1) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : diagonal_grad data_type : out_grad no_need_buffer : x - backward_op : digamma_grad forward : digamma (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : digamma_grad - backward_op : dist_grad forward : dist (Tensor x, Tensor y, float p) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out, Tensor out_grad, float p) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : dist_grad - backward_op : dot_grad forward : dot (Tensor x, Tensor y) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out_grad) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : dot_grad data_type : out_grad - backward_op : eig_grad forward : eig (Tensor x) -> Tensor(out_w), Tensor(out_v) args : (Tensor out_w, Tensor out_v, Tensor out_w_grad, Tensor out_v_grad) output : Tensor(x_grad) infer_meta : func : EigGradInferMeta kernel : func : eig_grad data_type : out_v - backward_op : eigh_grad forward : eigh (Tensor x, str UPLO) -> Tensor(out_w), Tensor(out_v) args : (Tensor out_w, Tensor out_v, Tensor out_w_grad, Tensor out_v_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out_v] kernel : func : eigh_grad data_type : out_v - backward_op : eigvalsh_grad forward : eigvalsh (Tensor x, str uplo = "L", bool is_test = false) -> Tensor(eigenvalues), Tensor(eigenvectors) args : (Tensor eigenvectors, Tensor eigenvalues_grad, str uplo, bool is_test) output : Tensor(x_grad) infer_meta : func : EigvalshGradInferMeta kernel : func : eigvalsh_grad data_type : eigenvectors - backward_op : elu_double_grad forward : elu_grad (Tensor x, Tensor out, Tensor grad_out, float alpha)-> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad, float alpha) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, x] kernel : func : elu_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : elu_grad forward : elu (Tensor x, float alpha) -> Tensor(out) args : (Tensor x, Tensor out, Tensor out_grad, float alpha) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : elu_grad backward : elu_double_grad inplace : (out_grad -> x_grad) - backward_op : erf_grad forward : erf (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : erf_grad data_type : out_grad composite : erf_grad(x, out_grad, x_grad) - backward_op : erfinv_grad forward : erfinv (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : erfinv_grad - backward_op : exp_grad forward : exp (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : exp_grad inplace : (out_grad -> x_grad) composite : exp_grad(out, out_grad, x_grad) - backward_op : expm1_grad forward : expm1 (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : expm1_grad inplace : (out_grad -> x_grad) - backward_op : fft_c2c_grad forward: fft_c2c(Tensor x, int64_t[] axes, str normalization, bool forward) -> Tensor(out) args : (Tensor out_grad, int64_t[] axes, str normalization, bool forward) output: Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out_grad] kernel : func : fft_c2c_grad - backward_op : fft_c2r_grad forward: fft_c2r(Tensor x, int64_t[] axes, str normalization, bool forward, int64_t last_dim_size) -> Tensor(out) args : (Tensor out_grad, int64_t[] axes, str normalization, bool forward, int64_t last_dim_size) output: Tensor(x_grad) infer_meta : func : FFTC2RGradInferMeta kernel : func : fft_c2r_grad data_type: out_grad - backward_op : fft_r2c_grad forward: fft_r2c(Tensor x, int64_t[] axes, str normalization, bool forward, bool onesided) -> Tensor(out) args : (Tensor x, Tensor out_grad, int64_t[] axes, str normalization, bool forward, bool onesided) output: Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : fft_r2c_grad data_type: out_grad no_need_buffer: x - backward_op : fill_diagonal_grad forward : fill_diagonal (Tensor x, float value=0, int offset=0, bool wrap=false) -> Tensor(out) args : (Tensor out_grad, float value, int offset, bool wrap) output : Tensor(x_grad) infer_meta : func : FillDiagonalGradInferMeta kernel : func : fill_diagonal_grad - backward_op : fill_diagonal_tensor_grad forward : fill_diagonal_tensor (Tensor x, Tensor y, int64_t offset, int dim1, int dim2) -> Tensor(out) args : (Tensor out_grad, int64_t offset, int dim1, int dim2) output : Tensor(x_grad) infer_meta : func : FillDiagonalTensorGradInferMeta kernel : func : fill_diagonal_tensor_grad inplace : (out_grad -> x_grad) - backward_op : flash_attn_grad forward : flash_attn (Tensor q, Tensor k, Tensor v, float dropout = 0.0, bool causal = false, bool return_softmax = false, bool is_test = false) -> Tensor(out), Tensor(softmax), Tensor(softmax_lse), Tensor(seed_offset) args : (Tensor q, Tensor k, Tensor v, Tensor out, Tensor softmax_lse, Tensor seed_offset, Tensor out_grad, float dropout = 0.0, bool causal = false) output : Tensor(q_grad), Tensor(k_grad), Tensor(v_grad) infer_meta : func : FlashAttnGradInferMeta param : [q, k, v] kernel : func : flash_attn_grad data_type: q - backward_op : flash_attn_unpadded_grad forward : flash_attn_unpadded (Tensor q, Tensor k, Tensor v, Tensor cu_seqlens_q, Tensor cu_seqlens_k, int64_t max_seqlen_q, int64_t max_seqlen_k, float scale, float dropout = 0.0, bool causal = false, bool return_softmax = false, bool is_test = false) -> Tensor(out), Tensor(softmax), Tensor(softmax_lse), Tensor(seed_offset) args : (Tensor q, Tensor k, Tensor v, Tensor cu_seqlens_q, Tensor cu_seqlens_k, Tensor out, Tensor softmax_lse, Tensor seed_offset, Tensor out_grad, int64_t max_seqlen_q, int64_t max_seqlen_k, float scale, float dropout = 0.0, bool causal = false) output : Tensor(q_grad), Tensor(k_grad), Tensor(v_grad) infer_meta : func : FlashAttnGradInferMeta param : [q, k, v] kernel : func : flash_attn_unpadded_grad data_type: q - backward_op : flip_grad forward : flip (Tensor x, int[] axis) -> Tensor(out) args : (Tensor out_grad, int[] axis) output : Tensor(x_grad) invoke : flip(out_grad, axis) - backward_op : floor_grad forward : floor(Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [out_grad] kernel : func : floor_grad composite : floor_grad(out_grad, x_grad) inplace : (out_grad -> x_grad) - backward_op : fold_grad forward: fold (Tensor x, int[] output_sizes, int[] kernel_sizes, int[] strides, int[] paddings, int[] dilations) -> Tensor(out) args: (Tensor x, Tensor out_grad, int[] output_sizes, int[] kernel_sizes, int[] strides, int[] paddings, int[] dilations) output: Tensor(x_grad) infer_meta: func: UnchangedInferMeta param : [x] kernel: func: fold_grad data_type : out_grad no_need_buffer : x - backward_op : frame_grad forward : frame(Tensor x, int frame_length, int hop_length, int axis=-1) -> Tensor(out) args : (Tensor x, Tensor out_grad, int frame_length, int hop_length, int axis) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : frame_grad - backward_op : gather_nd_grad forward : gather_nd (Tensor x, Tensor index) -> Tensor(out) args : (Tensor x, Tensor index, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : GatherNdGradInferMeta kernel : func : gather_nd_grad composite : gather_nd_grad(x, index, out_grad, x_grad) no_need_buffer : x - backward_op : gelu_grad forward : gelu(Tensor x, bool approximate) -> Tensor(out) args : (Tensor x, Tensor out_grad, bool approximate) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : gelu_grad composite: gelu_grad(x, out_grad, approximate, x_grad) - backward_op : grid_sample_grad forward : grid_sample (Tensor x, Tensor grid, str mode, str padding_mode, bool align_corners) -> Tensor(out) args : (Tensor x, Tensor grid, Tensor out_grad, str mode, str padding_mode, bool align_corners) output : Tensor(x_grad), Tensor(grid_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, grid] kernel : func : grid_sample_grad data_type : x - backward_op : gumbel_softmax_grad forward : gumbel_softmax (Tensor x, float temperature, bool hard, int axis) -> Tensor(out) args : (Tensor out, Tensor out_grad, int axis) output : Tensor(x_grad) infer_meta : func : GumbelSoftmaxGradInferMeta kernel : func : gumbel_softmax_grad - backward_op : hardshrink_grad forward : hardshrink (Tensor x, float threshold) -> Tensor(out) args : (Tensor x, Tensor out_grad, float threshold) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : hard_shrink_grad inplace : (out_grad -> x_grad) - backward_op : hardsigmoid_grad forward : hardsigmoid (Tensor x, float slope, float offset) -> Tensor(out) args : (Tensor out, Tensor out_grad, float slope, float offset) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : hard_sigmoid_grad inplace : (out_grad -> x_grad) - backward_op : hardtanh_grad forward : hardtanh (Tensor x, float t_min=0, float t_max=24) -> Tensor(out) args : (Tensor x, Tensor out_grad, float t_min, float t_max) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : hardtanh_grad inplace : (out_grad -> x_grad) - backward_op : huber_loss_grad forward : huber_loss (Tensor input, Tensor label, float delta) -> Tensor(out), Tensor(residual) args : (Tensor residual, Tensor out_grad, float delta) output : Tensor(input_grad), Tensor(label_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [residual, residual] kernel : func : huber_loss_grad - backward_op : imag_grad forward : imag (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) infer_meta : func : RealAndImagGradInferMeta kernel : func : imag_grad data_type : complex(out_grad) - backward_op : index_add_grad forward : index_add(Tensor x, Tensor index, Tensor add_value, int axis=0) -> Tensor(out) args : (Tensor index, Tensor add_value, Tensor out_grad, int axis) output : Tensor(x_grad), Tensor(add_value_grad) infer_meta : func : IndexAddGradInferMeta kernel : func : index_add_grad data_type : out_grad inplace : (out_grad -> x_grad) - backward_op : index_sample_grad forward : index_sample (Tensor x, Tensor index) -> Tensor(out) args : (Tensor x, Tensor index, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : index_sample_grad data_type : out_grad no_need_buffer : x - backward_op : index_select_grad forward : index_select(Tensor x, Tensor index, int axis) -> Tensor(out) args : (Tensor x, Tensor index, Tensor out_grad, int axis) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : index_select_grad data_type : out_grad no_need_buffer : x - backward_op : inverse_grad forward : inverse(Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta: func : InverseGradInferMeta kernel : func : inverse_grad - backward_op : kldiv_loss_grad forward : kldiv_loss(Tensor x, Tensor label, str reduction="mean") -> Tensor(out) args : (Tensor x, Tensor label, Tensor out_grad, str reduction) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : kldiv_loss_grad no_need_buffer : x - backward_op : kron_grad forward : kron (Tensor x, Tensor y) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out_grad) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : kron_grad data_type : out_grad - backward_op : kthvalue_grad forward : kthvalue(Tensor x, int k, int axis, bool keepdim) -> Tensor(out), Tensor(indices) args : (Tensor x, Tensor indices, Tensor out_grad, int k, int axis, bool keepdim) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : kthvalue_grad data_type : out_grad - backward_op : label_smooth_grad forward : label_smooth (Tensor label, Tensor prior_dist, float epsilon) -> Tensor(out) args : (Tensor out_grad, float epsilon) output : Tensor(label_grad) infer_meta : func : UnchangedInferMeta param : [out_grad] kernel : func : label_smooth_grad - backward_op : leaky_relu_double_grad forward : leaky_relu_grad (Tensor x, Tensor grad_out, float negative_slope) -> Tensor(grad_x) args : (Tensor x, Tensor grad_x_grad, float negative_slope) output : Tensor(grad_out_grad) infer_meta : func : UnchangedInferMeta param : [grad_x_grad] kernel : func : leaky_relu_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : leaky_relu_grad forward : leaky_relu (Tensor x, float negative_slope) -> Tensor(out) args : (Tensor x, Tensor out_grad, float negative_slope) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : leaky_relu_grad backward : leaky_relu_double_grad composite: leaky_relu_grad(x, out_grad, negative_slope, x_grad) inplace : (out_grad -> x_grad) - backward_op : lerp_grad forward : lerp (Tensor x, Tensor y, Tensor weight) -> Tensor(out) args : (Tensor x, Tensor y, Tensor weight, Tensor out, Tensor out_grad) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : lerp_grad - backward_op : lgamma_grad forward : lgamma(Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : lgamma_grad - backward_op : linear_interp_grad forward : linear_interp (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, str data_layout="NCHW", int out_d=0, int out_h=0, int out_w=0, float[] scale={}, str interp_method="bilinear", bool align_corners=true, int align_mode=1) -> Tensor(output) args : (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, Tensor output_grad, str data_layout, int out_d, int out_h, int out_w, float[] scale, str interp_method, bool align_corners, int align_mode) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] optional: out_size, size_tensor, scale_tensor no_need_buffer : x kernel : func : linear_interp_grad data_type : output_grad data_transform : skip_transform : out_size, size_tensor, scale_tensor - backward_op : log10_grad forward : log10 (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : log10_grad inplace : (out_grad -> x_grad) - backward_op : log1p_grad forward : log1p (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : log1p_grad inplace : (out_grad -> x_grad) - backward_op : log2_grad forward : log2 (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : log2_grad inplace : (out_grad -> x_grad) - backward_op : log_double_grad forward : log_grad (Tensor x, Tensor grad_out) -> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, x] kernel : func : log_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : log_grad forward : log (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : log_grad backward : log_double_grad composite : log_grad(x, out_grad, x_grad) inplace : (out_grad -> x_grad) - backward_op : log_loss_grad forward : log_loss (Tensor input, Tensor label, float epsilon) -> Tensor(out) args : (Tensor input, Tensor label, Tensor out_grad, float epsilon) output : Tensor(input_grad) infer_meta : func : UnchangedInferMeta param : [input] kernel : func : log_loss_grad - backward_op : log_softmax_grad forward : log_softmax(Tensor x, int axis = -1) -> Tensor(out) args : (Tensor out, Tensor out_grad, int axis) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [out] kernel : func : log_softmax_grad data_type : out_grad - backward_op : logcumsumexp_grad forward : logcumsumexp(Tensor x, int axis=-1, bool flatten=false, bool exclusive=false, bool reverse=false) -> Tensor(out) infer_meta : func : UnchangedInferMeta param : [x] args : (Tensor x, Tensor out, Tensor out_grad, int axis, bool flatten, bool exclusive, bool reverse) output : Tensor(x_grad) kernel : func : logcumsumexp_grad - backward_op : logit_grad forward : logit (Tensor x, float eps = 1e-6f) -> Tensor(out) args : (Tensor x, Tensor out_grad, float eps) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : logit_grad - backward_op : logsigmoid_grad forward : logsigmoid (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : logsigmoid_grad inplace : (out_grad -> x_grad) - backward_op : lu_unpack_grad forward : lu_unpack (Tensor x, Tensor y, bool unpack_ludata = true, bool unpack_pivots = true) -> Tensor(pmat), Tensor(l), Tensor(u) args : (Tensor x, Tensor y, Tensor l, Tensor u, Tensor pmat, Tensor l_grad, Tensor u_grad, bool unpack_ludata, bool unpack_pivots) output : Tensor(x_grad) infer_meta : func : LUUnpackGradInferMeta kernel : func : lu_unpack_grad - backward_op : margin_cross_entropy_grad forward : margin_cross_entropy (Tensor logits, Tensor label, bool return_softmax=false, int ring_id=0, int rank=0, int nranks=1, float margin1=1.0f, float margin2=0.5f, float margin3=0.0f, float scale=64.0f) -> Tensor(softmax), Tensor(loss) args : (Tensor logits, Tensor label, Tensor softmax, Tensor loss_grad, bool return_softmax, int ring_id, int rank, int nranks, float margin1, float margin2, float margin3, float scale) output : Tensor(logits_grad) infer_meta : func : MarginCrossEntropyGradInferMeta kernel : func : margin_cross_entropy_grad data_type : softmax inplace : (softmax -> logits_grad) - backward_op : masked_select_grad forward : masked_select (Tensor x, Tensor mask) -> Tensor(out) args : (Tensor x, Tensor mask, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : masked_select_grad data_type : x no_need_buffer : x - backward_op : matrix_power_grad forward : matrix_power (Tensor x, int n) -> Tensor(out) args : (Tensor x, Tensor out, Tensor out_grad, int n) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : matrix_power_grad - backward_op : maxout_grad forward : maxout(Tensor x, int groups, int axis) -> Tensor(out) args : (Tensor x, Tensor out, Tensor out_grad, int groups, int axis) output : Tensor(x_grad) infer_meta : func : GeneralUnaryGradInferMeta param: [x] kernel : func : maxout_grad - backward_op : memory_efficient_attention_grad forward : memory_efficient_attention (Tensor query, Tensor key, Tensor value, Tensor bias, Tensor cu_seqlens_q, Tensor cu_seqlens_k, Tensor causal_diagonal, Tensor seqlen_k, Scalar max_seqlen_q, Scalar max_seqlen_k, bool causal, double dropout_p, float scale, bool is_test) -> Tensor(output), Tensor(logsumexp), Tensor(seed_and_offset) args : (Tensor query, Tensor key, Tensor value, Tensor bias, Tensor cu_seqlens_q, Tensor cu_seqlens_k, Tensor output, Tensor logsumexp, Tensor seed_and_offset, Tensor output_grad, Scalar max_seqlen_q, Scalar max_seqlen_k, bool causal, double dropout_p, float scale) output : Tensor(query_grad), Tensor(key_grad), Tensor(value_grad), Tensor(bias_grad) infer_meta : func : MemoryEfficientAttentionGradInferMeta kernel : func : memory_efficient_attention_grad data_type : output_grad optional : bias, cu_seqlens_q, cu_seqlens_k - backward_op : meshgrid_grad forward : meshgrid (Tensor[] inputs) -> Tensor[](outputs) args : (Tensor[] inputs, Tensor[] outputs_grad) output : Tensor[](inputs_grad){inputs.size()} infer_meta : func : MeshgridGradInferMeta kernel : func : meshgrid_grad data_type : outputs_grad - backward_op : mode_grad forward : mode(Tensor x, int axis = -1, bool keepdim = false) -> Tensor(out), Tensor(indices) args : (Tensor x, Tensor indices, Tensor out_grad, int axis, bool keepdim) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : mode_grad - backward_op : multi_dot_grad forward : multi_dot (Tensor[] x) -> Tensor(out) args : (Tensor[] x, Tensor out_grad) output : Tensor[](x_grad) {x.size()} infer_meta : func : MultiDotGradInferMeta kernel : func : multi_dot_grad - backward_op : multiplex_grad forward : multiplex (Tensor[] inputs, Tensor index) -> Tensor(out) args : (Tensor[] inputs, Tensor index, Tensor out_grad) output : Tensor[](inputs_grad){inputs.size()} infer_meta : func : MultiplexGradInferMeta param : [index, out_grad] kernel : func : multiplex_grad param : [index, out_grad] data_type : out_grad - backward_op : mv_grad forward : mv (Tensor x, Tensor vec) -> Tensor(out) args : (Tensor x, Tensor vec, Tensor out_grad) output : Tensor(x_grad), Tensor(vec_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, vec] kernel : func : mv_grad - backward_op : nanmedian_grad forward : nanmedian (Tensor x, IntArray axis, bool keepdim) -> Tensor(out), Tensor(medians) args : (Tensor x, Tensor medians, Tensor out_grad, IntArray axis, bool keepdim) output : Tensor(x_grad) infer_meta : func : NanmedianGradInferMeta kernel : func : nanmedian_grad - backward_op : nearest_interp_grad forward : nearest_interp (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, str data_layout="NCHW", int out_d=0, int out_h=0, int out_w=0, float[] scale={}, str interp_method="bilinear", bool align_corners=true, int align_mode=1) -> Tensor(output) args : (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, Tensor output_grad, str data_layout, int out_d, int out_h, int out_w, float[] scale, str interp_method, bool align_corners, int align_mode) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] optional: out_size, size_tensor, scale_tensor no_need_buffer : x kernel : func : nearest_interp_grad data_type : output_grad data_transform : skip_transform : out_size, size_tensor, scale_tensor - backward_op : nll_loss_grad forward : nll_loss (Tensor input, Tensor label, Tensor weight, int64_t ignore_index = -100, str reduction = "mean") -> Tensor(out), Tensor(total_weight) args : (Tensor input, Tensor label, Tensor weight, Tensor total_weight, Tensor out_grad, int64_t ignore_index, str reduction) output : Tensor(input_grad) infer_meta : func : NllLossGradInferMeta kernel : func : nll_loss_grad data_type : input optional : weight - backward_op : overlap_add_grad forward : overlap_add(Tensor x, int hop_length, int axis) -> Tensor(out) args : (Tensor x, Tensor out_grad, int hop_length, int axis) output : Tensor(x_grad) infer_meta : func : OverlapAddGradInferMeta kernel : func : overlap_add_grad data_type : x - backward_op : p_norm_grad forward : p_norm(Tensor x, float porder=2, int axis=-1, float epsilon=1.0e-12f, bool keepdim=false, bool asvector=false) -> Tensor(out) args : (Tensor x, Tensor out, Tensor out_grad, float porder, int axis, float epsilon, bool keepdim, bool asvector) output : Tensor(x_grad) infer_meta : func : GeneralUnaryGradInferMeta param: [x] kernel : func : p_norm_grad - backward_op : pixel_shuffle_grad forward : pixel_shuffle (Tensor x, int upscale_factor=1, str data_format="NCHW") -> Tensor(out) args : (Tensor out_grad, int upscale_factor, str data_format) output : Tensor(x_grad) infer_meta : func : PixelShuffleGradInferMeta kernel : func : pixel_shuffle_grad - backward_op : poisson_grad forward : poisson (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out_grad] kernel : func : poisson_grad - backward_op : pow_double_grad forward : pow_grad(Tensor x, Tensor grad_out, Scalar y) -> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad, Scalar y) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param: [x, grad_out] kernel : func : pow_double_grad data_type : x backward : pow_triple_grad inplace : (grad_x_grad -> x_grad) - backward_op : pow_grad forward : pow(Tensor x, Scalar y=1.0f) -> Tensor(out) args : (Tensor x, Tensor out_grad, Scalar y=-1) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] kernel : func : pow_grad data_type : out_grad backward: pow_double_grad inplace : (out_grad -> x_grad) - backward_op : pow_triple_grad forward : pow_double_grad(Tensor x, Tensor grad_out, Tensor grad_grad_x, Scalar y) -> Tensor(grad_x), Tensor(grad_grad_out) args : (Tensor x, Tensor grad_out, Tensor grad_grad_x, Tensor grad_x_grad, Tensor grad_grad_out_grad, Scalar y) output : Tensor(x_grad), Tensor(grad_out_grad), Tensor(grad_grad_x_grad) infer_meta : func : GeneralTernaryGradInferMeta param: [x, grad_out, grad_grad_x] kernel : func : pow_triple_grad data_type : x - backward_op : prelu_grad forward : prelu(Tensor x, Tensor alpha, str data_format="NCHW", str mode="all") -> Tensor(out) args : (Tensor x, Tensor alpha, Tensor out_grad, str data_format, str mode) output : Tensor(x_grad), Tensor(alpha_grad) infer_meta : func : PreluGradInferMeta param: [x, alpha] kernel : func : prelu_grad data_type : x - backward_op : put_along_axis_grad forward : put_along_axis (Tensor arr, Tensor indices, Tensor value, int axis, str reduce = "assign") -> Tensor(out) args : (Tensor arr, Tensor indices, Tensor out_grad, int axis, str reduce) output : Tensor(arr_grad), Tensor(value_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [arr, indices] kernel : func : put_along_axis_grad - backward_op : qr_grad forward : qr (Tensor x, str mode = "reduced") -> Tensor(q), Tensor(r) args : (Tensor x, Tensor q, Tensor r, Tensor q_grad, Tensor r_grad, str mode) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : qr_grad - backward_op : real_grad forward : real (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) infer_meta : func : RealAndImagGradInferMeta kernel : func : real_grad data_type : complex(out_grad) - backward_op : reciprocal_grad forward : reciprocal (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : reciprocal_grad inplace : (out_grad -> x_grad) - backward_op : relu_double_grad forward : relu_grad (Tensor out, Tensor grad_out) -> Tensor(grad_x) args : (Tensor out, Tensor grad_x_grad) output : Tensor(grad_out_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : relu_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : relu_grad forward : relu (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : relu_grad backward: relu_double_grad composite: relu_grad(out, out_grad, x_grad) inplace : (out_grad -> x_grad) - backward_op : renorm_grad forward : renorm (Tensor x, float p, int axis, float max_norm) -> Tensor(out) args : (Tensor x, Tensor out_grad, float p, int axis, float max_norm) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out_grad] kernel : func : renorm_grad - backward_op : roll_grad forward : roll(Tensor x, IntArray shifts, int64_t[] axis) -> Tensor(out) args : (Tensor x, Tensor out_grad, IntArray shifts, int64_t[] axis) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : roll_grad data_type : x composite : roll_grad(x, out_grad, shifts, axis, x_grad) no_need_buffer : x - backward_op : round_grad forward : round(Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [out_grad] kernel : func : round_grad inplace : (out_grad -> x_grad) - backward_op : rsqrt_double_grad forward : rsqrt_grad (Tensor out, Tensor grad_out) -> Tensor(grad_x) args : (Tensor out, Tensor grad_x, Tensor grad_x_grad) output : Tensor(out_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [out, out] kernel : func : rsqrt_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : rsqrt_grad forward : rsqrt (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : rsqrt_grad backward : rsqrt_double_grad inplace : (out_grad -> x_grad) - backward_op : scale_grad forward : scale (Tensor x, Scalar scale, float bias, bool bias_after_scale) -> Tensor(out) args : (Tensor out_grad, Scalar scale=1.0) output : Tensor(x_grad) invoke : scale(out_grad, scale, 0.0f, true) - backward_op : scatter_grad forward : scatter (Tensor x, Tensor index, Tensor updates, bool overwrite=true) -> Tensor(out) args : (Tensor index, Tensor updates, Tensor out_grad, bool overwrite) output : Tensor(x_grad), Tensor(updates_grad) infer_meta : func : ScatterGradInferMeta param : [index, updates, out_grad, overwrite] kernel : func : scatter_grad no_need_buffer : updates composite: scatter_grad(index, updates, out_grad, overwrite, x_grad, updates_grad) - backward_op : scatter_nd_add_grad forward : scatter_nd_add (Tensor x, Tensor index, Tensor updates) -> Tensor(out) args : (Tensor index, Tensor updates, Tensor out_grad) output : Tensor(x_grad), Tensor(updates_grad) infer_meta : func : ScatterNdAddGradInferMeta param : [index, updates, out_grad] kernel : func : scatter_nd_add_grad no_need_buffer : updates - backward_op : selu_grad forward : selu (Tensor x, float scale=1.0507009873554804934193349852946, float alpha=1.6732632423543772848170429916717) -> Tensor(out) args : (Tensor out, Tensor out_grad, float scale, float alpha) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : selu_grad data_type : out - backward_op : send_u_recv_grad forward : send_u_recv (Tensor x, Tensor src_index, Tensor dst_index, str reduce_op = "SUM", IntArray out_size = {0}) -> Tensor(out), Tensor(dst_count) args : (Tensor x, Tensor src_index, Tensor dst_index, Tensor out, Tensor dst_count, Tensor out_grad, str reduce_op = "SUM") output : Tensor(x_grad) infer_meta : func : GeneralUnaryGradInferMeta param : [x] kernel : func : send_u_recv_grad data_type : out_grad optional: out, dst_count - backward_op : send_ue_recv_grad forward : send_ue_recv (Tensor x, Tensor y, Tensor src_index, Tensor dst_index, str message_op="ADD", str reduce_op="SUM", IntArray out_size={0}) -> Tensor(out), Tensor(dst_count) args : (Tensor x, Tensor y, Tensor src_index, Tensor dst_index, Tensor out, Tensor dst_count, Tensor out_grad, str message_op, str reduce_op) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : send_ue_recv_grad data_type : out_grad optional: out, dst_count - backward_op : send_uv_grad forward : send_uv (Tensor x, Tensor y, Tensor src_index, Tensor dst_index, str message_op = "ADD") -> Tensor(out) args: (Tensor x, Tensor y, Tensor src_index, Tensor dst_index, Tensor out_grad, str message_op = "ADD") output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : send_uv_grad data_type : x - backward_op : sigmoid_cross_entropy_with_logits_grad forward : sigmoid_cross_entropy_with_logits (Tensor x, Tensor label, bool normalize=false, int ignore_index=-100) -> Tensor(out) args : (Tensor x, Tensor label, Tensor out_grad, bool normalize, int ignore_index) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : sigmoid_cross_entropy_with_logits_grad inplace : (out_grad -> x_grad) - backward_op : sigmoid_double_grad forward : sigmoid_grad (Tensor out, Tensor fwd_grad_out) -> Tensor(grad_x) args : (Tensor out, Tensor fwd_grad_out, Tensor grad_x_grad) output : Tensor(out_grad), Tensor(fwd_grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [out, fwd_grad_out] kernel : func : sigmoid_double_grad backward : sigmoid_triple_grad inplace : (grad_x_grad -> fwd_grad_out_grad) - backward_op : sigmoid_grad forward : sigmoid (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : sigmoid_grad backward : sigmoid_double_grad inplace : (out_grad -> x_grad) composite : sigmoid_grad(out, out_grad, x_grad) - backward_op : sigmoid_triple_grad forward : sigmoid_double_grad (Tensor out, Tensor fwd_grad_out, Tensor grad_grad_x) -> Tensor(grad_out), Tensor(grad_grad_out) args : (Tensor out, Tensor fwd_grad_out, Tensor grad_grad_x, Tensor grad_out_grad, Tensor grad_grad_out_grad) output : Tensor(out_grad), Tensor(fwd_grad_out_grad), Tensor(grad_grad_x_grad) infer_meta : func : GeneralTernaryGradInferMeta param : [out, fwd_grad_out, grad_grad_x] kernel : func : sigmoid_triple_grad optional : grad_grad_out_grad inplace : (grad_grad_x -> fwd_grad_out_grad) - backward_op : sign_grad forward : sign (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) invoke : scale(out_grad, 0.0f, 0.0f, true) - backward_op : silu_grad forward : silu (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : silu_grad composite : silu_grad(x, out_grad, x_grad) inplace : (out_grad -> x_grad) - backward_op : sin_double_grad forward : sin_grad (Tensor x, Tensor grad_out) -> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, x] kernel : func : sin_double_grad optional: grad_out backward : sin_triple_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : sin_grad forward : sin (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : sin_grad backward : sin_double_grad composite : sin_grad(x, out_grad, x_grad) inplace : (out_grad -> x_grad) - backward_op : sin_triple_grad forward : sin_double_grad (Tensor x, Tensor grad_out_forward, Tensor grad_x_grad_forward) -> Tensor(grad_x), Tensor(grad_out_grad) args : (Tensor x, Tensor grad_out_forward, Tensor grad_x_grad_forward, Tensor grad_x_grad, Tensor grad_out_grad_grad) output : Tensor(x_grad), Tensor(grad_out_forward_grad), Tensor(grad_x_grad_forward_grad) infer_meta : func : GeneralTernaryGradInferMeta param : [x, x, grad_x_grad_forward] kernel : func : sin_triple_grad optional: grad_out_forward, grad_x_grad_forward, grad_out_grad_grad inplace : (grad_x_grad_forward -> grad_out_forward_grad) - backward_op : sinh_grad forward : sinh (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : sinh_grad inplace : (out_grad -> x_grad) - backward_op : slogdet_grad forward : slogdet (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : GeneralUnaryGradInferMeta param : [x] kernel : func : slogdet_grad data_type : out_grad - backward_op : softplus_double_grad forward : softplus_grad (Tensor x, Tensor grad_out, float beta, float threshold) -> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad, float beta, float threshold) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, x] kernel : func : softplus_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : softplus_grad forward : softplus (Tensor x, float beta, float threshold) -> Tensor(out) args : (Tensor x, Tensor out_grad, float beta, float threshold) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : softplus_grad backward : softplus_double_grad inplace : (out_grad -> x_grad) - backward_op : softshrink_grad forward : softshrink (Tensor x, float threshold) -> Tensor(out) args : (Tensor x, Tensor out_grad, float threshold) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : softshrink_grad inplace : (out_grad -> x_grad) - backward_op : softsign_grad forward : softsign (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : softsign_grad inplace : (out_grad -> x_grad) - backward_op : solve_grad forward : solve (Tensor x, Tensor y) -> Tensor(out) args : (Tensor x, Tensor y, Tensor out, Tensor out_grad) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : solve_grad - backward_op : spectral_norm_grad forward : spectral_norm (Tensor weight, Tensor u, Tensor v, int dim = 0, int power_iters = 1, float eps=1e-12f) -> Tensor(out) args : (Tensor weight, Tensor u, Tensor v, Tensor out_grad, int dim, int power_iters, float eps) output : Tensor(weight_grad) infer_meta : func : SpectralNormGradInferMeta kernel : func : spectral_norm_grad data_type : weight - backward_op : sqrt_double_grad forward : sqrt_grad (Tensor out, Tensor grad_out) -> Tensor(grad_x) args : (Tensor out, Tensor grad_x, Tensor grad_x_grad) output : Tensor(out_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [out, out] kernel : func : sqrt_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : sqrt_grad forward : sqrt (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : sqrt_grad composite : sqrt_grad(out, out_grad, x_grad) backward : sqrt_double_grad inplace : (out_grad -> x_grad) - backward_op : square_double_grad forward : square_grad (Tensor x, Tensor grad_out) -> Tensor(grad_x) args : (Tensor x, Tensor grad_out, Tensor grad_x_grad) output : Tensor(x_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, x] kernel : func : square_double_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : square_grad forward : square (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : square_grad backward : square_double_grad inplace : (out_grad -> x_grad) - backward_op : squeeze_double_grad forward : squeeze_grad(Tensor xshape, Tensor grad_out, IntArray axis) -> Tensor(grad_x) args : (Tensor grad_x_grad, IntArray axis) output : Tensor(grad_out_grad), Tensor(xshape) invoke: squeeze(grad_x_grad, axis) intermediate : xshape - backward_op : squeeze_grad forward : squeeze(Tensor x, IntArray axis) -> Tensor(out), Tensor(xshape) args : (Tensor xshape, Tensor out_grad, IntArray axis) output : Tensor(x_grad) infer_meta : func : KernelWithXShapeInferMeta param: [xshape] kernel : func : squeeze_grad data_type : out_grad inplace : (out_grad -> x_grad) backward: squeeze_double_grad - backward_op : stack_grad forward : stack (Tensor[] x, int axis) -> Tensor(out) args : (Tensor[] x, Tensor out_grad, int axis) output : Tensor[](x_grad){x.size()} infer_meta : func : StackGradInferMeta param: [out_grad, axis] kernel : func : stack_grad param : [out_grad, axis] data_type : out_grad no_need_buffer : x - backward_op : stanh_grad forward : stanh(Tensor x, float scale_a, float scale_b) -> Tensor(out) args : (Tensor x, Tensor out_grad, float scale_a, float scale_b) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : stanh_grad - backward_op : svd_grad forward : svd (Tensor x, bool full_matrices = false) -> Tensor(u), Tensor(s), Tensor(vh) args : (Tensor x, Tensor u, Tensor vh, Tensor s, Tensor u_grad, Tensor vh_grad, Tensor s_grad, bool full_matrices) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : svd_grad optional: u_grad, vh_grad, s_grad - backward_op : take_along_axis_grad forward : take_along_axis (Tensor arr, Tensor indices, int axis) -> Tensor(out) args : (Tensor arr, Tensor indices, Tensor out_grad, int axis) output : Tensor(arr_grad) infer_meta : func : UnchangedInferMeta param : [arr] kernel : func : take_along_axis_grad - backward_op : tan_grad forward : tan (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : tan_grad inplace : (out_grad -> x_grad) - backward_op : tanh_double_grad forward : tanh_grad (Tensor out, Tensor grad_out) -> Tensor(grad_x) args : (Tensor out, Tensor grad_out, Tensor grad_x_grad) output : Tensor(out_grad), Tensor(grad_out_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [out, out] kernel : func : tanh_double_grad composite : tanh_double_grad(out, grad_out, grad_x_grad, out_grad, grad_out_grad) backward : tanh_triple_grad inplace : (grad_x_grad -> grad_out_grad) - backward_op : tanh_grad forward : tanh (Tensor x) -> Tensor(out) args : (Tensor out, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out] kernel : func : tanh_grad composite : tanh_grad(out, out_grad, x_grad) backward : tanh_double_grad inplace : (out_grad -> x_grad) - backward_op : tanh_shrink_grad forward : tanh_shrink (Tensor x) -> Tensor(out) args : (Tensor x, Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : tanh_shrink_grad inplace : (out_grad -> x_grad) - backward_op : tanh_triple_grad forward : tanh_double_grad (Tensor out, Tensor grad_out_forward, Tensor grad_x_grad_forward) -> Tensor(grad_out_new), Tensor(grad_out_grad) args : (Tensor out, Tensor grad_out_forward, Tensor grad_x_grad_forward, Tensor grad_out_new_grad, Tensor grad_out_grad_grad) output : Tensor(out_grad), Tensor(grad_out_forward_grad), Tensor(grad_x_grad_forward_grad) infer_meta : func : GeneralTernaryGradInferMeta param : [out, out, grad_x_grad_forward] kernel : func : tanh_triple_grad inplace : (grad_x_grad_forward -> grad_out_forward_grad) optional : grad_out_new_grad, grad_out_grad_grad - backward_op : thresholded_relu_grad forward : thresholded_relu (Tensor x, float threshold) -> Tensor(out) args : (Tensor x, Tensor out_grad, float threshold) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : thresholded_relu_grad inplace : (out_grad -> x_grad) - backward_op : topk_grad forward : topk (Tensor x, Scalar k, int axis = -1, bool largest = true, bool sorted = true) -> Tensor(out), Tensor(indices) args : (Tensor x, Tensor indices, Tensor out_grad, Scalar k, int axis, bool largest, bool sorted) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : topk_grad data_type : out_grad composite : topk_grad(x, indices, out_grad, k, axis, largest, sorted, x_grad) - backward_op : trace_grad forward : trace (Tensor x, int offset, int axis1, int axis2) -> Tensor(out) args : (Tensor x, Tensor out_grad, int offset, int axis1, int axis2) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : trace_grad data_type : out_grad no_need_buffer : x - backward_op : trilinear_interp_grad forward : trilinear_interp (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, str data_layout="NCHW", int out_d=0, int out_h=0, int out_w=0, float[] scale={}, str interp_method="bilinear", bool align_corners=true, int align_mode=1) -> Tensor(output) args : (Tensor x, Tensor out_size, Tensor[] size_tensor, Tensor scale_tensor, Tensor output_grad, str data_layout, int out_d, int out_h, int out_w, float[] scale, str interp_method, bool align_corners, int align_mode) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param: [x] optional: out_size, size_tensor, scale_tensor no_need_buffer : x kernel : func : trilinear_interp_grad data_type : output_grad data_transform : skip_transform : out_size, size_tensor, scale_tensor - backward_op : trunc_grad forward : trunc (Tensor input) -> Tensor(out) args : (Tensor out_grad) output : Tensor(input_grad) infer_meta : func : UnchangedInferMeta param : [out_grad] kernel : func : trunc_grad - backward_op : unbind_grad forward : unbind (Tensor input, int axis) -> Tensor[](out) args : (Tensor[] out_grad, int axis) output : Tensor(input_grad) invoke : stack(out_grad, axis) - backward_op : unfold_grad forward : unfold (Tensor x, int[] kernel_sizes, int[] strides, int[] paddings, int[] dilations) -> Tensor(out) args : (Tensor x, Tensor out_grad, int[] kernel_sizes, int[] strides, int[] paddings, int[] dilations) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [x] kernel : func : unfold_grad data_type : out_grad no_need_buffer : x - backward_op : unsqueeze_double_grad forward : unsqueeze_grad(Tensor xshape, Tensor grad_out, IntArray axes) -> Tensor(grad_x) args : (Tensor grad_x_grad, IntArray axes) output : Tensor(grad_out_grad), Tensor(xshape) invoke : unsqueeze(grad_x_grad, axes) intermediate : xshape - backward_op : unsqueeze_grad forward : unsqueeze(Tensor x, IntArray axes) -> Tensor(out), Tensor(xshape) args : (Tensor xshape, Tensor out_grad, IntArray axes) output : Tensor(x_grad) infer_meta : func : KernelWithXShapeInferMeta param: [xshape] kernel : func : unsqueeze_grad param : [xshape, out_grad] data_type : out_grad inplace : (out_grad -> x_grad) backward : unsqueeze_double_grad - backward_op : unstack_grad forward : unstack (Tensor x, int axis=0, int num=0) -> Tensor[](out) args : (Tensor[] out_grad, int axis) output : Tensor(x_grad) infer_meta : func : UnStackGradInferMeta kernel : func : unstack_grad - backward_op : warpctc_grad forward : warpctc (Tensor logits, Tensor label, Tensor logits_length, Tensor labels_length, int blank = 0, bool norm_by_times = false) -> Tensor(loss), Tensor(warpctcgrad) args : (Tensor logits, Tensor logits_length, Tensor warpctcgrad, Tensor loss_grad, int blank, bool norm_by_times) output : Tensor(logits_grad) infer_meta : func : UnchangedInferMeta param : [logits] kernel : func : warpctc_grad data_type : loss_grad optional : logits_length no_need_buffer : logits - backward_op : warprnnt_grad forward : warprnnt (Tensor input, Tensor label, Tensor input_lengths, Tensor label_lengths, int blank = 0, float fastemit_lambda = 0.0) -> Tensor(loss), Tensor(warprnntgrad) args : (Tensor input, Tensor input_lengths, Tensor warprnntgrad, Tensor loss_grad, int blank = 0, float fastemit_lambda = 0.0) output : Tensor(input_grad) infer_meta : func : UnchangedInferMeta param : [input] kernel : func : warprnnt_grad no_need_buffer : input - backward_op : where_grad forward : where (Tensor condition, Tensor x, Tensor y) -> Tensor(out) args : (Tensor condition, Tensor x, Tensor y, Tensor out_grad) output : Tensor(x_grad), Tensor(y_grad) infer_meta : func : GeneralBinaryGradInferMeta param : [x, y] kernel : func : where_grad no_need_buffer : x, y