SameDiff variables documentation (#7949)
* SameDiff variables documentation Signed-off-by: Nikolay Ivankov <kolya.ivankov@gmail.com> * Minor changes in variables.md Signed-off-by: Nikolay Ivankov <kolya.ivankov@gmail.com>master
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# SameDiff variables
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---
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title: Types of variables in SameDiff
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short_title: Variables
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description: What types of variables are used in SameDiff, their properties and how to switch these types.
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category: SameDiff
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weight: 3
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---
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# Variables in `SameDiff`
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## What are variables
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All values defining or passing through each `SameDiff` instance - be it weights, bias, inputs, activations or
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general parameters - all are handled by objects of class `SDVariable`.
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Observe that by variables we normally mean not just single values - as it is done in various online examples describing
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autodifferentiation - but rather whole multidimensional arrays of them.
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## Variable types
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All variables in `SameDiff` belong to one of four *variable types*, constituting an enumeration `VariableType`.
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Here they are:
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- `VARIABLE`: are trainable parameters of your network, e.g. weights and bias of a layer. Naturally, we want them
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to be both stored for further usage - we say, that they are *persistent* - as well as being updated during training.
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- `CONSTANT`: are those parameters which, like variables, are persistent for the network, but are not being
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trained; they, however, may be changed externally by the user.
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- `PLACEHOLDER`: store temporary values that are to be supplied from the outside, like inputs and labels.
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Accordingly, since new placeholders' values are provided at each iteration, they are not stored: in other words,
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unlike `VARIABLE` and `CONSTANT`, `PLACEHOLDER` is *not* persistent.
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- `ARRAY`: are temporary values as well, representing outputs of [operations](./samediff/ops) within a `SameDiff`, for
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instance sums of vectors, activations of a layer, and many more. They are being recalculated at each iteration, and
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therefor, like `PLACEHOLDER`, are not persistent.
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To infer the type of a particular variable, you may use the method `getVariableType`, like so:
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```java
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VariableType varType = yourVariable.getVariableType();
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```
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The current value of a variable in a form of `INDArray` may be obtained using `getArr` or `getArr(true)` - the latter
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one if you wish the program to throw an exception if the variable's value is not initialized.
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## Data types
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The data within each variable also has its *data type*, contained in `DataType` enum. Currently in `DataType` there
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are three *floating point* types: `FLOAT`, `DOUBLE` and `HALF`; four *integer* types: `LONG`, `INT`, `SHORT` and
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`UBYTE`; one *boolean* type `BOOL` - all of them will be referred as *numeric* types. In addition, there is a
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*string* type dubbed `UTF8`; and two helper data types `COMPRESSED` and `UNKNOWN`. The 16-bit floating point format `BFLOAT16` and unsigned integer types (`UINT16`, `UINT32` and `UINT64`) will be available in `1.0.0-beta5`.
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To infer the data type of your variable, use
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```java
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DataType dataType = yourVariable.dataType();
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```
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You may need to trace your variable's data type since at times it does matter, which types you use in an operation. For
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example, a convolution product, like this one
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```java
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SDVariable prod = samediff.cnn.conv1d(input, weights, config);
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```
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will require its `SDVariable` arguments `input` and `weights` to be of one of the floating point data types, and will
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throw an exception otherwise. Also, as we shall discuss just below, all the `SDVariables` of type `VARIABLE` are
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supposed to be of floating point type.
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## Common features of variables
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Before we go to the differences between variables, let us first look at the properties they all share
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- All variables are ultimately derived from an instance of `SameDiff`, serving as parts of its
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[graph](./samediff/graphs). In fact, each variable has a `SameDiff` as one of its fields.
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- Results (outputs) of all operations are of `ARRAY` type.
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- All `SDVariable`'s involved in an operation are to belong to the *same* `SameDiff`.
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- All variables may or may not be given names - in the latter case, a name is actually created automatically. Either
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way, the names need to be/are created unique. We shall come back to naming below.
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## Differences between variable types
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Let us now have a closer look at each type of variables, and what distinguish them from each other.
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### Variables
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Variables are the trainable parameters of your network. This predetermines their nature in `SameDiff`. As we briefly
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mentioned above, variables' values need to be
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both preserved for application, and updated during training. Training means, that we iteratively
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update the values by small fractions of their gradients, and this only makes sense if variables are of *floating
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point* types (see data types above).
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Variables may be added to your `SameDiff` using different versions of `var` function from your `SameDiff` instance.
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For example, the code
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```java
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SDVariable weights = samediff.var("weights", DataType.FLOAT, 784, 10);
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```
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adds a variable constituting of a 784x10 array of `float` numbers - weights for a single layer MNIST perceptron
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in this case - to a pre-existing `SameDiff` instance `samediff`.
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However, this way the values within a variable will be set as zeros. If we wish them to be filled, say, with random
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numbers, we need to add a weight initialization scheme, for instance like that:
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```java
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SDVariable weights = samediff.var("weights", new XavierInitScheme('c', 784, 10), DataType.FLOAT, 784, 10);
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```
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Now, the weights will be randomly initialized using the Xavier scheme. There are other ways to create and
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fill variables, you may see a full reference in our [javadoc](https://deeplearning4j.org/api/latest/).
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### Constants
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Constants hold values that are stored, but - unlike variables - remain unchanged during training. These, for
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instance, may be some hyperparamters you wish to have in your network and be able to access from the outside. Or
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they may be pretrained weights of a neural network that you wish to keep unchanged (see more on that in
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[Changing Variable Type](https://deeplearning4j.org/api/latest/) below). Constants may be of any data type
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- so e.g. `int` and `boolean` are allowed alongside with `float` and `double`.
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In general, constants are added to `SameDiff` by means of `constant` methods. A constant may be created form an
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`INDArray`, like that:
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```java
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SDVariable constant = samediff.constant("constants", Nd4j.create(new float[] {3.1415f, 42f}));
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```
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A constant consisting of a single scalar value may be created using one of the `scalar` methods:
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```java
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INDArray someScalar = samediff.scalar("scalar", 42);
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```
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Again, we refer to the [javadoc](https://deeplearning4j.org/api/latest/) for the whole reference.
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### Placeholders
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The most common placeholders you'll normally have in a `SameDiff` are inputs and, when applicable, labels. You may
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create placeholders of any data type, depending on the operations you use them in. To add a placeholder to a `SameDiff`,
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you may call one of `placeHolder` methods, e.g. like that:
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```java
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SDVariable in = samediff.placeHolder("input", DataType.FLOAT, -1, 784);
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```
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as in MNIST example. Here we specify name, data type and then shape of your placeholder - here, we have
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28x28 grayscale pictures rendered as 1d vectors (therefore 784) coming in batches of length we don't know beforehand
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(therefore -1).
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### Arrays
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Variables of `ARRAY` type appear as outputs of [operations](./samediff/ops) within `SameDiff`.
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Accordingly, the data type of an array-type variable depends on the kind of operation it is produced by and variable
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type(s) ot its argument(s). Arrays are not persistent - they are one-time values that will be recalculated from scratch
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at the next step. However, unlike placeholders, gradients are computed for them, as those are needed to update the values
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of `VARIABLE`'s.
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There are as many ways array-type variables are created as there are operations, so you're better up focusing on
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our [operations section](./samediff/ops), our [javadoc](https://deeplearning4j.org/api/latest/) and [examples](./samediff/exampes).
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## Recap table
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Let us summarize the main properties of variable types in one table:
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| | Trainable | Gradients | Persistent | Workspaces | Datatypes | Instantiated from |
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| ---------- | ----------- | --------- | ---------- | -----------| ---------- | ---------- |
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| `VARIABLE` | Yes | Yes | Yes | Yes | Float only | Instance |
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| `CONSTANT` | No | No | Yes | No | Any | Instance |
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| `PLACEHOLDER` | No | No | No | No | Any | Instance |
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| `ARRAY` | No | Yes | No | Yes | Any | Operations |
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We haven't discussed what 'Workspaces' mean - if you do not know, do not worry, this is an internal technical term that
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basically describes how memory is managed internally.
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## Changing variable types
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You may change variable types as well. For now, there are three of such options:
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### Variable to constant
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At times - for instance if you perform transfer learning - you may wish to turn a variable into a constant. This is
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done like so:
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```java
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samediff.convertToConstant(someVariable);
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```
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where `someVariable` is an instance of `SDVariable` of `VARIABLE` type. The variable `someVariable` will not be trained
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any more.
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### Constant to variable
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Conversely, constants - if they are of *floating point* data type - may be converted to variables. So, for instance, if
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you wish your frozen weights to become trainable again
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```java
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samediff.convertToVariable(frozenWeights); //not frozen any more
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```
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### Placeholder to constant
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Placeholders may be converted to constants as well - for instance, if you need to freeze one of the inputs. There are no
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restrictions on the data type, yet, since placeholder values are not persistent, their value should be set before you
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turn them into constants. This can be done as follows
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```java
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placeHolder.setArray(someArray);
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samediff.convertToConstant(placeHolder);
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```
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For now it is not possible to turn a constant back into a placeholder, we may consider adding this functionality if
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there is a need for that. For now, if you wish to effectively freeze your placeholder but be able to use it again,
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consider supplying it with constant values rather than turning it into a constant.
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## Variables' names and values
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### Getting variables from `SameDiff`
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Recall that every variable in an instance of `SameDiff` has its unique `String` name. Your `SameDiff` actually tracks your
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variables by their names, and allows you to retrieve them by using `getVariable(String name)` method.
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Consider the following line:
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```java
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SDVariable regressionCost = weights.mmul(input).sub("regression_prediction", bias).squaredDifference(labels);
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```
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Here, in the function `sub` we actually have implicitly introduced a variable (of type `ARRAY`) that holds the
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result of the subtraction. By adding a name into the operations's argument, we've secured ourselves the possibility
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to retrieve the variable from elsewhere: say, if later you need to infer the difference between the labels and the
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prediction as a vector, you may just write:
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```java
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SDVariable errorVector = samediff.getVariable("regressionPrediction").sub(labels);
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```
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This becomes especially handy if your whole `SameDiff` instance is initialized elsewhere, and you still need to get
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hold of some of its variables - say, multiple outputs.
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You can get and set the name of an `SDVariable` the methods `getVarName` and `setVarName`
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respectively. When renaming, note that variable's name is to remain unique within its `SameDiff`.
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### Getting variable's value
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You may retrieve any variable's current value as an `INDArray` using the method `eval()`. Note that for non-persistent
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variables, the value should first be set. For variables with gradients, the gradient's value may also be inferred using
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the method `getGradient`.
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