# - api : conv3d_transpose
#   backward : conv3d_transpose_grad
#   extra :
#     attrs : [bool use_cudnn = true, bool use_mkldnn = false, int workspace_size_MB = platform::GetDefaultConvWorkspaceSizeLimitMB()]

- api : atan2
  inputs :
    {x : X1, y : X2}
  outputs :
    out : Out

- api : bernoulli
  inputs :
    x : X
  outputs :
    out : Out

- api : cholesky
  inputs :
    x : X
  outputs :
    out : Out

- api : cholesky_solve
  inputs :
    {x : X, y : Y}
  outputs :
    out : Out

- api : conv2d
  backward : conv2d_grad
  extra :
    attrs : [bool use_cudnn = false, bool fuse_relu_before_depthwise_conv = false, bool use_mkldnn = false,
             bool use_quantizer = false, str mkldnn_data_type = "float32", bool fuse_relu = false,
             str fuse_activation = "", float fuse_alpha = 0.0f, float fuse_beta = 0.0f, bool use_addto = false,
             bool fuse_residual_connection = false, float Scale_in = 1.0f, float Scale_out = 1.0f,
             float Scale_in_eltwise = 1.0f, 'float[] Scale_weights = {1.0f}', bool force_fp32_output = false,
             int workspace_size_MB = 512, bool exhaustive_search = false]

- api : conv2d_fusion
  extra :
    attrs : [bool use_cudnn = false, bool fuse_relu_before_depthwise_conv = false, bool use_mkldnn = false,
             bool use_quantizer = false, str mkldnn_data_type = "float32", bool fuse_relu = false,
             str fuse_activation = "", float fuse_alpha = 0.0f, float fuse_beta = 0.0f, bool use_addto = false,
             bool fuse_residual_connection = false, float Scale_in = 1.0f, float Scale_out = 1.0f,
             float Scale_in_eltwise = 1.0f, 'float[] Scale_weights = {1.0f}', bool force_fp32_output = false,
             int workspace_size_MB = 512, bool exhaustive_search = false]

- api : cross
  inputs :
    {x : X, y : Y}
  attrs :
    axis : dim
  outputs :
    out : Out

- api : depthwise_conv2d
  backward : depthwise_conv2d_grad
  extra :
    attrs : [bool use_cudnn = false, bool fuse_relu_before_depthwise_conv = false, bool use_mkldnn = false,
             bool use_quantizer = false, str mkldnn_data_type = "float32", bool fuse_relu = false,
             str fuse_activation = "", float fuse_alpha = 0.0f, float fuse_beta = 0.0f, bool use_addto = false,
             bool fuse_residual_connection = false, float Scale_in = 1.0f, float Scale_out = 1.0f,
             float Scale_in_eltwise = 1.0f, 'float[] Scale_weights = {1.0f}', bool force_fp32_output = false,
             int workspace_size_MB = 512, bool exhaustive_search = false]

- api : diag
  op_name : diag_v2
  grad_op_name : diag_v2_grad
  inputs :
    x : X
  outputs :
    out : Out

- api : diagonal
  inputs :
    x : Input
  outputs :
    out : Out

- api : digamma
  inputs :
    x : X
  outputs :
    out : Out

- api : dist
  inputs :
    {x : X, y : Y}
  outputs :
    out : Out

- api : dot
  inputs :
    {x : X, y : Y}
  outputs :
    out : Out

- api : erf
  inputs :
    x : X
  outputs :
    out : Out

- api : erfinv
  inputs :
    x : X
  outputs :
    out : Out

- api : lgamma
  inputs :
    x : X
  outputs :
    out : Out

- api : mv
  inputs :
    {x : X, vec : Vec}
  outputs :
    out : Out

- api : poisson
  inputs :
    x : X
  outputs :
    out : Out

- api : solve
  inputs :
    {x : X, y : Y}
  outputs :
    out : Out

- api : trace
  inputs :
    x : Input
  outputs :
    out : Out

- api : trunc
  inputs :
    x : X
  outputs :
    out : Out

- api: fft_c2c
  inputs: {x: X}
  outputs: {out: Out}

- api: fft_c2r
  inputs: {x: X}
  outputs: {out: Out}

- api: fft_r2c
  inputs: {x: X}
  outputs: {out: Out}