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javascript - What is the best way to handle large data with Tensorflow.js and tf.Tensor?

Question

I am using tf.Tensor and tf.concat() to handle large training data, and I found continuous using of tf.concat() gets slow. What is the best way to load large data from file to tf.Tensor?

Background

I think it's common way to handle data by array in Javascript. to achieve that, here is the rough steps to go.

steps to load data from file to Array

  1. read line from file
  2. parse line to Javascript's Object
  3. add that object to array by Array.push()
  4. after finish reading line to end, we can use that array with for loop.

so I think I can use tf.concat() in similar way to above.

steps to load data from file to tf.Tensor

  1. read line from file
  2. parse line to Javascript's Object
  3. parse object to tf.Tensor
  4. add tensor to original tensor by tf.concat()
  5. after finish reading line to end, we can use that tf.Tensor

Some code

Here is some code to measure both speed of Array.push() and tf.concat()

import * as tf from "@tensorflow/tfjs"

let t = tf.tensor1d([1])
let addT = tf.tensor1d([2])

console.time()
for (let idx = 0; idx < 50000; idx++) {
    if (idx % 1000 == 0) {
        console.timeEnd()
        console.time()
        console.log(idx)
    }
    t = tf.tidy(() => t.concat(addT))
}


let arr = []
let addA = 1
console.time()
for (let idx = 0; idx < 50000; idx++) {
    if (idx % 1000 == 0) {
        console.timeEnd()
        console.time()
        console.log(idx)
    }
    arr.push(addA)
}

Measurement

We can see stable process on Array.push(), but it gets slow on tf.concat()

For tf.concat()

default: 0.150ms
0
default: 68.725ms
1000
default: 62.922ms
2000
default: 23.199ms
3000
default: 21.093ms
4000
default: 27.808ms
5000
default: 39.689ms
6000
default: 34.798ms
7000
default: 45.502ms
8000
default: 94.526ms
9000
default: 51.996ms
10000
default: 76.529ms
11000
default: 83.662ms
12000
default: 45.730ms
13000
default: 89.119ms
14000
default: 49.171ms
15000
default: 48.555ms
16000
default: 55.686ms
17000
default: 54.857ms
18000
default: 54.801ms
19000
default: 55.312ms
20000
default: 65.760ms

For Array.push()

default: 0.009ms
0
default: 0.388ms
1000
default: 0.340ms
2000
default: 0.333ms
3000
default: 0.317ms
4000
default: 0.330ms
5000
default: 0.289ms
6000
default: 0.299ms
7000
default: 0.291ms
8000
default: 0.320ms
9000
default: 0.284ms
10000
default: 0.343ms
11000
default: 0.327ms
12000
default: 0.317ms
13000
default: 0.329ms
14000
default: 0.307ms
15000
default: 0.218ms
16000
default: 0.193ms
17000
default: 0.234ms
18000
default: 1.943ms
19000
default: 0.164ms
20000
default: 0.148ms
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1 Reply

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While the tf.concat and Array.push function look and behave similar there is one big difference:

  • tf.concat creates a new tensor from the input
  • Array.push adds the input to the first array

Examples

tf.concat

const a = tf.tensor1d([1, 2]);
const b = tf.tensor1d([3]);
const c = tf.concat([a, b]);

a.print(); // Result: Tensor [1, 2]
b.print(); // Result: Tensor [3]
c.print(); // Result: Tensor [1, 2, 3]

The resulting variable c is a new Tensor while a and b are not changed.

Array.push

const a = [1,2];
a.push(3);

console.log(a); // Result: [1,2,3]

Here, the variable a is directly changed.

Impact on the runtime

For the runtime speed, this means that tf.concat copies all tensor values to a new tensor before adding the input. This obviously takes more time the bigger the array is that needs to be copied. In contrast to that, Array.push does not create a copy of the array and therefore the runtime will be more or less the same no matter how big the array is.

Note, that this is "by design" as tensors are immutable, so every operation on an existing tensor always creates a new tensor. Quote from the docs:

Tensors are immutable, so all operations always return new Tensors and never modify input Tensors.

Therefore, if you need to create a large tensor from input data it is advisable to first read all data from your file and merge it with "vanilla" JavaScript functions before creating a tensor from it.

Handling data too big for memory

In case you have a dataset so big that you need to handle it in chunks because of memory restrictions, you have two options:

  1. Use the trainOnBatch function
  2. Use a dataset generator

Option 1: trainOnBatch

The trainOnBatch function allows to train on a batch of data instead of using the full dataset to it. Therefore, you can split your code into reasonable batches before training them, so you don't have to merge your data together all at once.

Option 2: Dataset generator

The other answer already went over the basics. This will allow you to use a JavaScript generator function to prepare the data. I recommend to use the generator syntax instead of an iterator factory (used in the other answer) as it is the more modern JavaScript syntax.

Exampe (taken from the docs):

function* dataGenerator() {
  const numElements = 10;
  let index = 0;
  while (index < numElements) {
    const x = index;
    index++;
    yield x;
  }
}

const ds = tf.data.generator(dataGenerator);

You can then use the fitDataset function to train your model.


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