Crate concision_core

This crate provides the core implementations for the cnc framework, defining various traits, types, and utilities essential for building neural networks.

• ParamsBase: A structure for defining the parameters within a neural network.
• Backward: This trait establishes a common interface for backward propagation.
• Forward: This trait denotes a single forward pass through a layer of a neural network

Features

The crate is heavily feature-gate, enabling users to customize their experience based on their needs.

• init: Enables (random) initialization routines for models, parameters, and tensors.
• utils: Provides various utilities for developing machine learning models.

Dependency-specific Features

Additionally, the crate provides various dependency-specific features that can be enabled:

• anyhow: Enables the use of the anyhow crate for error handling.
• approx: Enables approximate equality checks for floating-point numbers.
• complex: Enables complex number support.
• json: Enables JSON serialization and deserialization capabilities.
• rand: Enables random number generation capabilities.
• serde: Enables serialization and deserialization capabilities.
• tracing: Enables tracing capabilities for debugging and logging.

Re-exports

pub use rand;

pub use rand_distr;

pub use super::error::ParamsError;

pub use super::params::ParamsBase;

pub use super::Params;

pub use super::ParamsView;

pub use super::ParamsViewMut;

Modules

activate

this module is dedicated to activation function This module implements various activation functions for neural networks.

error

this module provides the base Error type for the library This module implements the core Error type for the framework and provides a Result type alias for convenience.

init

this module establishes generic random initialization routines for models, params, and tensors.

loss

this module focuses on the loss functions used in training neural networks.

ops

This module provides the core operations for tensors, including filling, padding, reshaping, and tensor manipulation.

params

this module provides the ParamsBase type for the library, which is used to define the parameters of a neural network. Parameters for constructing neural network models. This module implements parameters using the ParamsBase struct and its associated types. The ParamsBase struct provides:

tensor

the tensor module provides various traits and types for handling n-dimensional tensors. this module focuses on establishing a solid foundation for working with n-dimensional tensors.

traits

This module provides the core traits for the library, such as Backward and Forward

utils

this module implements various utilities useful for developing machine learning models A suite of utilities tailored toward neural networks.

Structs

LecunNormal

LecunNormal is a truncated normal distribution centered at 0 with a standard deviation that is calculated as $σ = sqrt(1/n_in)$ where $n_in$ is the number of input units.

PadActionIter

An iterator over the variants of PadAction

Padding

TensorBase

the TensorBase struct is the base type for all tensors in the library.

TruncatedNormal

A truncated normal distribution is similar to a normal distribution, however, any generated value over two standard deviations from the mean is discarded and re-generated.

XavierNormal

Normal Xavier initializers leverage a normal distribution with a mean of 0 and a standard deviation (σ) computed by the formula: $σ = sqrt(2/(d_in + d_out))$

XavierUniform

Uniform Xavier initializers use a uniform distribution to initialize the weights of a neural network within a given range.

Enums

Error

The Error type enumerates various errors that can occur within the framework.

PadAction

PadError

PadMode

Traits

Activate

The Activate trait establishes a common interface for entities that can be activated according to some function

ActivateExt

This trait extends the Activate trait with a number of additional activation functions and their derivatives. Note: this trait is automatically implemented for any type that implements the Activate trait eliminating the need to implement it manually.

ActivateMut

A trait for establishing a common mechanism to activate entities in-place.

Affine

apply an affine transformation to a tensor; affine transformation is defined as mul * self + add

ApplyGradient

A trait declaring basic gradient-related routines for a neural network

ApplyGradientExt

This trait extends the ApplyGradient trait by allowing for momentum-based optimization

ArrayLike

AsBiasDim

The AsBiasDim trait is used to define a type that can be used to get the bias dimension of the parameters.

AsComplex

Backward

Backward propagate a delta through the system;

Biased

Clip

A trait denoting objects capable of being clipped between some minimum and some maximum.

ClipMut

This trait enables tensor clipping; it is implemented for ArrayBase

Codex

CrossEntropy

A trait for computing the cross-entropy loss of a tensor or array

Decode

Decode defines a standard interface for decoding data.

DecrementAxis

The DecrementAxis trait defines a method enabling an axis to decrement itself,

DefaultLike

DropOut

[Dropout] randomly zeroizes elements with a given probability (p).

Encode

Encode defines a standard interface for encoding data.

FillLike

FloorDiv

Forward

This trait denotes entities capable of performing a single forward step

Gradient

the Gradient trait defines the gradient of a function, which is a function that takes an input and returns a delta, which is the change in the output with respect to the input.

Heavyside

IncrementAxis

The IncrementAxis trait defines a method enabling an axis to increment itself, effectively adding a new axis to the array.

Init

A trait for creating custom initialization routines for models or other entities.

InitInplace

This trait enables models to implement custom, in-place initialization methods.

Initialize

This trait provides the base methods required for initializing tensors with random values. The trait is similar to the RandomExt trait provided by the ndarray_rand crate, however, it is designed to be more generic, extensible, and optimized for neural network initialization routines. Initialize is implemented for ArrayBase as well as ParamsBase allowing you to randomly initialize new tensors and parameters.

IntoAxis

The IntoAxis trait is used to define a conversion routine that takes a type and wraps it in an Axis type.

IntoComplex

Trait for converting a type into a complex number.

Inverse

The Inverse trait generically establishes an interface for computing the inverse of a type, regardless of if its a tensor, scalar, or some other compatible type.

IsSquare

IsSquare is a trait for checking if the layout, or dimensionality, of a tensor is square.

L1Norm

a trait for computing the L1 norm of a tensor or array

L2Norm

a trait for computing the L2 norm of a tensor or array

LinearActivation

Loss

The Loss trait defines a common interface for any custom loss function implementations. This trait requires the implementor to define their algorithm for calculating the loss between two values, lhs and rhs, which can be of different types, X and Y respectively. These terms are used generically to allow for flexibility in the allowed types, such as tensors, scalars, or other data structures while clearly defining the “order” in which the operations are performed. It is most common to expect the lhs to be the predicted output and the rhs to be the actual output, but this is not a strict requirement. The trait also defines an associated type Output, which represents the type of the loss value returned by the loss method. This allows for different loss functions to return different types of loss values, such as scalars or tensors, depending on the specific implementation of the loss function.

MaskFill

This trait is used to fill an array with a value based on a mask. The mask is a boolean array of the same shape as the array.

MatMul

The MatMul trait defines an interface for matrix multiplication.

MatPow

The MatPow trait defines an interface for computing the exponentiation of a matrix.

MeanAbsoluteError

Compute the mean absolute error (MAE) of the object; more formally, we define the MAE as the average of the absolute differences between the predicted and actual values:

MeanSquaredError

The MeanSquaredError (MSE) is the average of the squared differences between the ($\hat{y_{i}}$) and actual values ($y_{i}$):

NdActivateMut

NdLike

NdTensor

The [Tensor] trait extends the RawTensor trait to provide additional functionality for tensors, such as creating tensors from shapes, applying functions, and iterating over elements. It is generic over the element type A and the dimension type `D

Norm

The Norm trait serves as a unified interface for various normalization routnines. At the moment, the trait provides L1 and L2 techniques.

Numerical

Numerical is a trait for all numerical types; implements a number of core operations

OnesLike

Pad

The Pad trait defines a padding operation for tensors.

PercentDiff

Compute the percentage difference between two values. The percentage difference is defined as:

RawDimension

the RawDimension trait is used to define a type that can be used as a raw dimension. This trait is primarily used to provide abstracted, generic interpretations of the dimensions of the ndarray crate to ensure long-term compatibility.

RawTensor

The RawTensor trait defines the base interface for all tensors,

ReLU

Root

The Root trait provides methods for computing the nth root of a number.

RoundTo

Scalar

The Scalar trait extends the Numerical trait to include additional mathematical operations for the purpose of reducing the number of overall traits required to complete various machine-learning tasks.

ScalarComplex

Sigmoid

Softmax

SoftmaxAxis

SummaryStatistics

This trait describes the fundamental methods of summary statistics. These include the mean, standard deviation, variance, and more.

Tanh

Transpose

The Transpose trait generically establishes an interface for transposing a type

Unsqueeze

The Unsqueeze trait establishes an interface for a routine that unsqueezes an array, by inserting a new axis at a specified position. This is useful for reshaping arrays to meet specific dimensional requirements.

Weighted

ZerosLike

Functions

calculate_pattern_similarity

Calculate similarity between two patterns

clip_gradient

Clip the gradient to a maximum value.

clip_inf_nan

concat_iter

Creates an n-dimensional array from an iterator of n dimensional arrays.

extract_patterns

Extract common patterns from historical sequences

floor_div

divide two values and round down to the nearest integer.

genspace

heavyside

Heaviside activation function

hstack

stack a 1D array into a 2D array by stacking them horizontally.

inverse

is_similar_pattern

Check if two patterns are similar enough to be considered duplicates

layer_norm

layer_norm_axis

linarr

pad

pad_to

randc

Generate a random array of complex numbers with real and imaginary parts in the range [0, 1)

relu

the relu activation function: $f(x) = \max(0, x)$

relu_derivative

round_to

Round the given value to the given number of decimal places.

sigmoid

the sigmoid activation function: $f(x) = \frac{1}{1 + e^{-x}}$

sigmoid_derivative

the derivative of the sigmoid function

softmax

Softmax function: $f(x_i) = \frac{e^{x_i}}{\sum_j e^{x_j}}$

softmax_axis

Softmax function along a specific axis: $f(x_i) = \frac{e^{x_i}}{\sum_j e^{x_j}}$

stack_iter

Creates a larger array from an iterator of smaller arrays.

stdnorm

Given a shape, generate a random array using the StandardNormal distribution

stdnorm_from_seed

tanh

the tanh activation function: $f(x) = \frac{e^x - e^{-x}}{e^x + e^{-x}}$

tanh_derivative

the derivative of the tanh function

tril

Returns the lower triangular portion of a matrix.

triu

Returns the upper triangular portion of a matrix.

uniform_from_seed

Creates a random array from a uniform distribution using a given key

vstack

stack a 1D array into a 2D array by stacking them vertically.

Type Aliases

ArcTensor

a type alias for a TensorBase with an owned representation

PadResult

RawViewMutTensor

a type alias for a TensorBase with an owned representation

RawViewTensor

A type alias for a TensorBase with a raw pointer representation.

Result

a type alias for a Result with a Error

Tensor

a type alias for a TensorBase with an owned representation

TensorView

a type alias for a TensorBase with a view representation

TensorViewMut

a type alias for a TensorBase with a mutable view representation