- backward_api : 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_api : 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_api : 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_api : 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_api : 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_api : 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_api : 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_api : 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_api : 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_api : 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 - backward_api : 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_api : 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_api : 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_api : 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_api : graph_send_uv_grad forward : graph_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 : graph_send_uv_grad data_type : x - backward_api : 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_api : 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_api : 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_api : 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_api : 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_api : trunc_grad forward : trunc (Tensor x) -> Tensor(out) args : (Tensor out_grad) output : Tensor(x_grad) infer_meta : func : UnchangedInferMeta param : [out_grad] kernel : func : trunc_grad