Since Tensor computations compose of graphs then it's better to interpret the two in terms of graphs.

Take for example the simple linear regression

```
WX+B=Y
```

where `W`

and `B`

stand for the weights and bias and `X`

for the observations' inputs and `Y`

for the observations' outputs.

Obviously `X`

and `Y`

are of the same nature (manifest variables) which differ from that of `W`

and `B`

(latent variables). `X`

and `Y`

are values of the samples (observations) and hence need a **place to be filled**, while `W`

and `B`

are the weights and bias, *Variables* (the previous values affect the latter) in the graph which should be trained using different `X`

and `Y`

pairs. We place different samples to the *Placeholders* to train the *Variables*.

We only need to **save or restore** the *Variables* (at checkpoints) to save or rebuild the graph with the code.

*Placeholders* are mostly holders for the different datasets (for example training data or test data). However, *Variables* are trained in the training process for the specific tasks, i.e., to predict the outcome of the input or map the inputs to the desired labels. They remain the same until you retrain or fine-tune the model using different or the same samples to fill into the *Placeholders* often through the dict. For instance:

```
session.run(a_graph, dict = {a_placeholder_name : sample_values})
```

*Placeholders* are also passed as parameters to set models.

If you change placeholders (add, delete, change the shape etc) of a model in the middle of training, you can still reload the checkpoint without any other modifications. But if the variables of a saved model are changed, you should adjust the checkpoint accordingly to reload it and continue the training (all variables defined in the graph should be available in the checkpoint).

To sum up, if the values are from the samples (observations you already have) you safely make a placeholder to hold them, while if you need a parameter to be trained harness a *Variable* (simply put, set the *Variables* for the values you want to get using TF automatically).

In some interesting models, like a style transfer model, the input pixes are going to be optimized and the normally-called model variables are fixed, then we should make the input (usually initialized randomly) as a variable as implemented in that link.

For more information please infer to this simple and illustrating doc.

`Variable`

s, but not`placeholder`

s (whose values must always be provided). – Yibo Yang Jun 6 '17 at 3:56