openvino.runtime.opset1#

Functions

abs(node[, name])

Return node which applies f(x) = abs(x) to the input node element-wise.

absolute(node[, name])

Return node which applies f(x) = abs(x) to the input node element-wise.

acos(node[, name])

Apply inverse cosine function on the input node element-wise.

add(left_node, right_node[, auto_broadcast, ...])

Return node which applies f(A,B) = A+B to the input nodes element-wise.

asin(node[, name])

Apply inverse sine function on the input node element-wise.

atan(node[, name])

Apply inverse tangent function on the input node element-wise.

avg_pool(data_batch, strides, pads_begin, ...)

Return average pooling node.

batch_norm_inference(data, gamma, beta, ...)

Perform layer normalizes a input tensor by mean and variance with appling scale and offset.

binary_convolution(data, filters, strides, ...)

Create node performing convolution with binary weights, binary input and integer output.

broadcast(data, target_shape[, ...])

Create a node which broadcasts the input node's values along specified axes to a desired shape.

ceil(node[, name])

Return node which applies ceiling to the input node element-wise.

ceiling(node[, name])

Return node which applies ceiling to the input node element-wise.

clamp(data, min_value, max_value[, name])

Perform clamp element-wise on data from input node.

concat(nodes, axis[, name])

Concatenate input nodes into single new node along specified axis.

constant(value[, dtype, name])

Create a Constant node from provided value.

convert(data, destination_type[, name])

Return node which casts input node values to specified type.

convert_like(data, like[, name])

Return node which casts data node values to the type of another node.

convolution(data, filters, strides, ...[, ...])

Return node performing batched convolution operation.

convolution_backprop_data(data, filters, strides)

Create node performing a batched-convolution backprop data operation.

cos(node[, name])

Apply cosine function on the input node element-wise.

cosh(node[, name])

Apply hyperbolic cosine function on the input node element-wise.

ctc_greedy_decoder(data, sequence_mask[, ...])

Perform greedy decoding on the logits given in input (best path).

deformable_convolution(data, ...[, ...])

Create node performing deformable convolution.

deformable_psroi_pooling(feature_maps, ...)

Return node performing DeformablePSROIPooling operation.

depth_to_space(node, mode[, block_size, name])

Rearranges input tensor from depth into blocks of spatial data.

detection_output(box_logits, class_preds, ...)

Generate the detection output using information on location and confidence predictions.

divide(left_node, right_node[, ...])

Return node which applies f(x) = A/B to the input nodes element-wise.

elu(data, alpha[, name])

Perform Exponential Linear Unit operation element-wise on data from input node.

equal(left_node, right_node[, ...])

Return node which checks if input nodes are equal element-wise.

erf(node[, name])

Return node which calculates Gauss error function element-wise with given tensor.

exp(node[, name])

Return node which applies exponential function to the input node element-wise.

fake_quantize(data, input_low, input_high, ...)

Perform an element-wise linear quantization on input data.

floor(node[, name])

Return node which applies floor to the input node element-wise.

floor_mod(left_node, right_node[, ...])

Return node performing element-wise FloorMod (division reminder) with two given tensors.

gather(data, indices, axis[, name])

Return Gather node which takes slices from axis of data according to indices.

gather_tree(step_ids, parent_idx, ...[, name])

Perform GatherTree operation.

greater(left_node, right_node[, ...])

Return node which checks if left input node is greater than the right node element-wise.

greater_equal(left_node, right_node[, ...])

Return node which checks if left node is greater or equal to the right node element-wise.

grn(data, bias[, name])

Perform Global Response Normalization with L2 norm (across channels only).

group_convolution(data, filters, strides, ...)

Perform Group Convolution operation on data from input node.

group_convolution_backprop_data(data, ...[, ...])

Perform Group Convolution operation on data from input node.

hard_sigmoid(data, alpha, beta[, name])

Perform Hard Sigmoid operation element-wise on data from input node.

interpolate(image, output_shape, attrs[, name])

Perform interpolation of independent slices in input tensor.

less(left_node, right_node[, ...])

Return node which checks if left input node is less than the right node element-wise.

less_equal(left_node, right_node[, ...])

Return node which checks if left input node is less or equal the right node element-wise.

log(node[, name])

Return node which applies natural logarithm to the input node element-wise.

logical_and(left_node, right_node[, ...])

Return node which perform logical and operation on input nodes element-wise.

logical_not(node[, name])

Return node which applies element-wise logical negation to the input node.

logical_or(left_node, right_node[, ...])

Return node which performs logical OR operation on input nodes element-wise.

logical_xor(left_node, right_node[, ...])

Return node which performs logical XOR operation on input nodes element-wise.

lrn(data, axes[, alpha, beta, bias, size, name])

Return a node which performs element-wise Local Response Normalization (LRN) operation.

lstm_cell(X, initial_hidden_state, ...[, ...])

Return a node which performs LSTMCell operation.

lstm_sequence(X, initial_hidden_state, ...)

Return a node which performs LSTMSequence operation.

matmul(data_a, data_b, transpose_a, transpose_b)

Return the Matrix Multiplication operation.

max_pool(data, strides, pads_begin, ...[, ...])

Perform max pooling operation with given parameters on provided data.

maximum(left_node, right_node[, ...])

Return node which applies the maximum operation to input nodes elementwise.

minimum(left_node, right_node[, ...])

Return node which applies the minimum operation to input nodes elementwise.

mod(left_node, right_node[, auto_broadcast, ...])

Return node performing element-wise division reminder with two given tensors.

multiply(left_node, right_node[, ...])

Return node which applies f(A,B) = A*B to the input nodes elementwise.

negative(node[, name])

Return node which applies f(x) = -x to the input node elementwise.

non_max_suppression(boxes, scores[, ...])

Return a node which performs NonMaxSuppression.

normalize_l2(data, axes, eps, eps_mode[, name])

Construct an NormalizeL2 operation.

not_equal(left_node, right_node[, ...])

Return node which checks if input nodes are unequal element-wise.

one_hot(indices, depth, on_value, off_value, ...)

Create node performing one-hot encoding on input data.

pad(arg, pads_begin, pads_end, pad_mode[, ...])

Return a generic padding operation.

parameter(shape[, dtype, name])

Return an openvino Parameter object.

power(left_node, right_node[, ...])

Return node which perform element-wise exponentiation operation.

prelu(data, slope[, name])

Perform Parametrized Relu operation element-wise on data from input node.

prior_box(layer_shape, image_shape, attrs[, ...])

Generate prior boxes of specified sizes and aspect ratios across all dimensions.

prior_box_clustered(output_size, image_size, ...)

Generate prior boxes of specified sizes normalized to the input image size.

proposal(class_probs, bbox_deltas, ...[, name])

Filter bounding boxes and outputs only those with the highest prediction confidence.

psroi_pooling(input, coords, output_dim, ...)

Return a node which produces a PSROIPooling operation.

range(start, stop, step[, name])

Return a node which produces the Range operation.

reduce_logical_and(node, reduction_axes[, ...])

Logical AND reduction operation on input tensor, eliminating the specified reduction axes.

reduce_logical_or(node, reduction_axes[, ...])

Logical OR reduction operation on input tensor, eliminating the specified reduction axes.

reduce_max(node, reduction_axes[, ...])

Max-reduction operation on input tensor, eliminating the specified reduction axes.

reduce_mean(node, reduction_axes[, ...])

Mean-reduction operation on input tensor, eliminating the specified reduction axes.

reduce_min(node, reduction_axes[, ...])

Min-reduction operation on input tensor, eliminating the specified reduction axes.

reduce_prod(node, reduction_axes[, ...])

Product-reduction operation on input tensor, eliminating the specified reduction axes.

reduce_sum(node, reduction_axes[, ...])

Perform element-wise sums of the input tensor, eliminating the specified reduction axes.

region_yolo(input, coords, classes, num, ...)

Return a node which produces the RegionYolo operation.

relu(node[, name])

Perform rectified linear unit operation on input node element-wise.

reshape(node, output_shape, special_zero[, name])

Return reshaped node according to provided parameters.

result(data[, name])

Return a node which represents an output of a graph (Model).

reverse_sequence(input, seq_lengths, ...[, name])

Return a node which produces a ReverseSequence operation.

select(cond, then_node, else_node[, ...])

Perform an element-wise selection operation on input tensors.

selu(data, alpha, lambda_value[, name])

Perform a Scaled Exponential Linear Unit (SELU) operation on input node element-wise.

shape_of(data[, name])

Return a node which produces a tensor containing the shape of its input data.

sigmoid(data[, name])

Return a node which applies the sigmoid function element-wise.

sign(node[, name])

Perform element-wise sign operation.

sin(node[, name])

Apply sine function on the input node element-wise.

sinh(node[, name])

Apply hyperbolic sine function on the input node element-wise.

softmax(data, axis[, name])

Apply softmax operation on each element of input tensor.

space_to_depth(data, mode[, block_size, name])

Perform SpaceToDepth operation on the input tensor.

split(data, axis, num_splits[, name])

Return a node which splits the input tensor into same-length slices.

sqrt(node[, name])

Return node which applies square root to the input node element-wise.

squared_difference(x1, x2[, auto_broadcast, ...])

Perform an element-wise squared difference between two tensors.

squeeze(data, axes[, name])

Perform squeeze operation on input tensor.

strided_slice(data, begin, end, strides, ...)

Return a node which dynamically repeats(replicates) the input data tensor.

subtract(left_node, right_node[, ...])

Return node which applies f(x) = A-B to the input nodes element-wise.

tan(node[, name])

Apply tangent function on the input node element-wise.

tanh(node[, name])

Return node which applies hyperbolic tangent to the input node element-wise.

tile(data, repeats[, name])

Return a node which dynamically repeats(replicates) the input data tensor.

topk(data, k, axis, mode, sort[, name])

Return a node which performs TopK.

transpose(data, input_order[, name])

Return a node which transposes the data in the input tensor.

unsqueeze(data, axes[, name])

Perform unsqueeze operation on input tensor.

variadic_split(data, axis, split_lengths[, name])

Return a node which splits the input tensor into variadic length slices.

Classes

tensor_iterator

openvino.impl.op.TensorIterator wraps ov::op::v0::TensorIterator