nvidia.dali.fn¶
The following table lists all operations available in nvidia.dali.fn
module:
Function |
Device support |
Short description |
---|---|---|
CPU |
Legacy alias for |
|
CPU, GPU |
Resamples an audio signal. |
|
CPU |
Produces a batch of random integers which can be used as indices for indexing samples in the batch. |
|
CPU, GPU |
Flips bounding boxes horizontaly or verticaly (mirror). |
|
CPU |
Transforms bounding boxes so that the boxes remain in the same place in the image after the image is pasted on a larger canvas. |
|
CPU, GPU |
Encodes the input bounding boxes and labels using a set of default boxes (anchors) passed as an argument. |
|
CPU, GPU |
Adjusts the brightness of the images. |
|
CPU, GPU |
Adjusts the brightness and contrast of the images. |
|
CPU |
Legacy alias for |
|
CPU |
Legacy alias for |
|
CPU, GPU |
Cast a tensor to a different type. |
|
CPU, GPU |
Cast the first tensor to the type of the second tensor. |
|
CPU, GPU |
Joins the input tensors along an existing axis. |
|
CPU |
Legacy alias for |
|
CPU, GPU |
Generates random boolean values following a bernoulli distribution. |
|
CPU, GPU |
Converts between various image color models. |
|
CPU, GPU |
Adjusts hue, saturation, brightness and contrast of the image. |
|
CPU, GPU |
Produces a batch of constant tensors. |
|
CPU, GPU |
Adjusts the contrast of the images. |
|
CPU, GPU |
Transforms vectors or points by flipping (reflecting) their coordinates with respect to a given center. |
|
CPU, GPU |
Applies a linear transformation to points or vectors. |
|
CPU, GPU |
Creates a copy of the input tensor. |
|
CPU, GPU |
Crops the images with the specified window dimensions and window position (upper left corner). |
|
CPU, GPU |
Performs fused cropping, normalization, format conversion (NHWC to NCHW) if desired, and type casting. |
|
CPU, GPU |
Executes a Python function that operates on DLPack tensors. |
|
CPU, GPU |
Save images in batch to disk in PPM format. |
|
CPU, GPU |
Extracts one or more elements from input sequence. |
|
CPU, GPU |
Erases one or more regions from the input tensors. |
|
CPU, GPU |
Insert new dimension(s) with extent 1 to the data shape. |
|
CPU, GPU |
Allows externally provided data to be passed as an input to the pipeline. |
|
CPU |
Performs a fused resize, crop, mirror operation. |
|
CPU |
Legacy alias for |
|
CPU, GPU |
Flips the images in selected dimensions (horizontal, vertical, and depthwise). |
|
CPU, GPU |
Applies a Gaussian Blur to the input. |
|
CPU, GPU |
Returns a property of the tensor passed as an input. |
|
CPU, GPU |
Performs the gridmask augumentation (https://arxiv.org/abs/2001.04086). |
|
CPU, GPU |
Adjusts hue, saturation and value (brightness) of the images. |
|
CPU, GPU |
Changes the hue level of the image. |
|
CPU, Mixed |
Legacy alias for |
|
CPU, Mixed |
Legacy alias for |
|
CPU, Mixed |
Legacy alias for |
|
CPU, Mixed |
Legacy alias for |
|
GPU |
Performs a random Jitter augmentation. |
|
CPU, GPU |
Introduces JPEG compression artifacts to RGB images. |
|
CPU, GPU |
Computes the Laplacian of an input. |
|
CPU, GPU |
Maps the input to output by using a lookup table that is specified by |
|
CPU, GPU |
Converts a spectrogram to a mel spectrogram by applying a bank of triangular filters. |
|
CPU, GPU |
Computes Mel Frequency Cepstral Coefficiencs (MFCC) from a mel spectrogram. |
|
CPU, GPU |
Performs multiple pastes from image batch to each of outputs |
|
CPU |
Legacy alias for |
|
CPU |
Legacy alias for |
|
CPU, GPU |
Performs leading and trailing silence detection in an audio buffer. |
|
CPU, GPU |
Generates random numbers following a normal distribution. |
|
CPU, GPU |
Normalizes the input by removing the mean and dividing by the standard deviation. |
|
CPU, GPU |
Legacy alias for |
|
CPU, GPU |
Produces a one-hot encoding of the input. |
|
GPU |
Calculates the optical flow between images in the input. |
|
CPU, GPU |
Pads all samples with the |
|
GPU |
Pastes the input images on a larger canvas, where the canvas size is equal to |
|
CPU |
Obtains the shape of the encoded image. |
|
CPU, GPU |
Marks the input tensor as a sequence. |
|
CPU, GPU |
Returns a batch of tensors constructed by selecting tensors from the input based on indices given in |
|
CPU |
Calculates power spectrum of the signal. |
|
CPU, GPU |
Applies preemphasis filter to the input data. |
|
CPU, GPU |
Executes a Python function. |
|
CPU |
Applies a prospective random crop to an image coordinate space while keeping the bounding boxes, and optionally labels, consistent. |
|
CPU, GPU |
Performs a crop with a randomly selected area and aspect ratio and resizes it to the specified size. |
|
CPU, GPU |
Treats content of the input as if it had a different type, shape, and/or layout. |
|
CPU, GPU |
Treats content of the input as if it had a different shape and/or layout. |
|
CPU, GPU |
Resize images. |
|
CPU |
Performs a fused resize, crop, mirror operation. Both fixed and random resizing and cropping are supported. |
|
CPU |
Produces a fixed shape cropping window, randomly placed so that as much of the provided region of interest (ROI) is contained in it. |
|
CPU, GPU |
Rotates the images by the specified angle. |
|
CPU, GPU |
Changes the saturation level of the image. |
|
CPU |
Legacy alias for |
|
CPU, GPU |
Rearranges frames in a sequence. |
|
CPU, GPU |
Returns the shapes of inputs. |
|
CPU, GPU |
Extracts a subtensor, or slice. |
|
CPU, GPU |
Produces a spectrogram from a 1D signal (for example, audio). |
|
CPU, GPU |
Performs a sphere augmentation. |
|
CPU, GPU |
Removes the dimensions given as |
|
CPU |
Performs a random crop with bounding boxes where Intersection Over Union (IoU) meets a randomly selected threshold between 0-1. |
|
CPU, GPU |
Joins the input tensors along a new axis. |
|
CPU |
Legacy alias for |
|
CPU, GPU |
Converts a magnitude (real, positive) to the decibel scale. |
|
CPU, GPU |
Transposes the tensors by reordering the dimensions based on the |
|
CPU, GPU |
Generates random numbers following a uniform distribution. |
|
GPU |
Legacy alias for |
|
GPU |
Legacy alias for |
|
CPU, GPU |
Applies an affine transformation to the images. |
|
CPU, GPU |
Performs a water augmentation, which makes the image appear to be underwater. |