public NDArray NotEqual(NDArray result, NDArray rhs, NDArray lhs) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "cne", result, rhs, lhs)); }
public NDArray Mod(NDArray result, NDArray rhs, NDArray lhs) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "cmod", result, rhs, lhs)); }
public NDArray LessThan(NDArray result, NDArray rhs, NDArray lhs) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "clt", result, rhs, lhs)); }
public Tensor LessThan(Tensor result, Tensor rhs, Tensor lhs) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "clt", result, rhs, lhs)); }
public Tensor NotEqual(Tensor result, Tensor rhs, Tensor lhs) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "cne", result, rhs, lhs)); }
public Tensor AddTanh(Tensor result, Tensor x, Tensor y) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "addtanh", result, x, y)); }
public Tensor Mod(Tensor result, Tensor rhs, Tensor lhs) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "cmod", result, rhs, lhs)); }
public Tensor SigmoidD(Tensor result, Tensor resW, Tensor resG) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "sigmoidD", result, resW, resG)); }
public Tensor TanhD(Tensor result, Tensor resW, Tensor resG) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "tanhD", result, resW, resG)); }
public Tensor EqualTo(Tensor result, Tensor rhs, Tensor lhs) { return(ElementwiseTTTOp.Invoke(elementwiseOpKernels, "ceq", result, rhs, lhs)); }
public Tensor GreaterOrEqual(Tensor result, Tensor rhs, Tensor lhs) { return(ElementwiseTTTOp.Invoke(elementwiseOpKernels, "cge", result, rhs, lhs)); }
public Tensor Div(Tensor result, Tensor rhs, Tensor lhs) { return(ElementwiseTTTOp.Invoke(elementwiseOpKernels, "cdiv", result, rhs, lhs)); }
public Tensor ReluD(Tensor result, Tensor w, Tensor g) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "relud", result, w, g)); }
public Tensor ExpSub2(Tensor result, Tensor x, Tensor y) { return(ElementwiseTTTOp.Invoke(elementwiseKernels, "expsub2", result, x, y)); }