An easy to use library to speed up computation (by parallelizing on multi CPUs) with pandas.
Project description
# Pandaral·lel
An easy to use library to speed up computation (by parallelizing on multi CPUs) with [pandas](https://pandas.pydata.org/).
| Without parallelisation |  |
| :----------------------: | -------------------------------------------------------------------------------------------------------- |
| **With parallelisation** |  |
<table>
<tr>
<td>Latest Release</td>
<td>
<a href="https://pypi.org/project/pandarallel/">
<img src="https://img.shields.io/pypi/v/pandarallel.svg" alt="latest release" />
</a>
</td>
</tr>
<tr>
<td>License</td>
<td>
<a href="https://github.com/nalepae/pandarallel/blob/master/LICENSE">
<img src="https://img.shields.io/pypi/l/pandarallel.svg" alt="license" />
</a>
</td>
</tr>
</table>
## Installation
`$ pip install pandarallel [--user]`
## Requirements
- [pandas](https://pypi.org/project/pandas/)
- [pyarrow](https://pypi.org/project/pyarrow/)
## Warnings
- The V1.0 of this library is not yet released. API is able to change at any time.
- Parallelization has a cost (instanciating new processes, transmitting data via shared memory, etc ...), so parallelization is efficiant only if the amount of computation to parallelize is high enough. For very little amount of data, using parallezation not always worth it.
- Functions applied should NOT be lambda functions.
```python
from pandarallel import pandarallel
from math import sin
pandarallel.initialize()
# FORBIDDEN
df.parallel_apply(lambda x: sin(x**2), axis=1)
# ALLOWED
def func(x):
return sin(x**2)
df.parallel_apply(func, axis=1)
```
## Examples
An example of each API is available [here](https://github.com/nalepae/pandarallel/blob/master/docs/examples.ipynb).
## Benchmark
For the `Dataframe.apply` example [here](https://github.com/nalepae/pandarallel/blob/master/docs/examples.ipynb), here is the comparative benchmark with "standard" `apply` and with `parallel_apply` (error bars are too small to be displayed).
Computer used for this benchmark:
- OS: Linux Ubuntu 16.04
- Hardware: Intel Core i7 @ 3.40 GHz (4 cores)
- Number of workers (parallel processes) used: 4
For this given example, `parallel_apply` runs approximatively 3.7 faster than the "standard" `apply`.
## API
First, you have to import `pandarallel`:
```python
from pandarallel import pandarallel
```
Then, you have to initialize it.
```python
pandarallel.initialize()
```
This method takes 3 optional parameters:
- `shm_size_mo`: The size of the Pandarallel shared memory in Mo. If the
default one is too small, it is possible to set a larger one. By default,
it is set to 2 Go. (int)
- `nb_workers`: The number of workers. By default, it is set to the number
of cores your operating system sees. (int)
- `progress_bar`: Put it to `True` to display a progress bar.
**WARNING**: Progress bar is an experimental feature. This can lead to a
sensitive performance loss.
Not available for `DataFrameGroupy.parallel_apply`.
With `df` a pandas DataFrame, `series` a pandas Series, `col_name` the name of
a pandas Dataframe column & `func` a function to apply/map:
| Without parallelisation | With parallelisation |
| ---------------------------------- | ------------------------------------------- |
| `df.apply(func)` | `df.parallel_apply(func)` |
| `series.map(func)` | `series.parallel_map(func)` |
| `df.groupby(col_name).apply(func)` | `df.groupby(col_name).parallel_apply(func)` |
An easy to use library to speed up computation (by parallelizing on multi CPUs) with [pandas](https://pandas.pydata.org/).
| Without parallelisation |  |
| :----------------------: | -------------------------------------------------------------------------------------------------------- |
| **With parallelisation** |  |
<table>
<tr>
<td>Latest Release</td>
<td>
<a href="https://pypi.org/project/pandarallel/">
<img src="https://img.shields.io/pypi/v/pandarallel.svg" alt="latest release" />
</a>
</td>
</tr>
<tr>
<td>License</td>
<td>
<a href="https://github.com/nalepae/pandarallel/blob/master/LICENSE">
<img src="https://img.shields.io/pypi/l/pandarallel.svg" alt="license" />
</a>
</td>
</tr>
</table>
## Installation
`$ pip install pandarallel [--user]`
## Requirements
- [pandas](https://pypi.org/project/pandas/)
- [pyarrow](https://pypi.org/project/pyarrow/)
## Warnings
- The V1.0 of this library is not yet released. API is able to change at any time.
- Parallelization has a cost (instanciating new processes, transmitting data via shared memory, etc ...), so parallelization is efficiant only if the amount of computation to parallelize is high enough. For very little amount of data, using parallezation not always worth it.
- Functions applied should NOT be lambda functions.
```python
from pandarallel import pandarallel
from math import sin
pandarallel.initialize()
# FORBIDDEN
df.parallel_apply(lambda x: sin(x**2), axis=1)
# ALLOWED
def func(x):
return sin(x**2)
df.parallel_apply(func, axis=1)
```
## Examples
An example of each API is available [here](https://github.com/nalepae/pandarallel/blob/master/docs/examples.ipynb).
## Benchmark
For the `Dataframe.apply` example [here](https://github.com/nalepae/pandarallel/blob/master/docs/examples.ipynb), here is the comparative benchmark with "standard" `apply` and with `parallel_apply` (error bars are too small to be displayed).
Computer used for this benchmark:
- OS: Linux Ubuntu 16.04
- Hardware: Intel Core i7 @ 3.40 GHz (4 cores)
- Number of workers (parallel processes) used: 4
For this given example, `parallel_apply` runs approximatively 3.7 faster than the "standard" `apply`.
## API
First, you have to import `pandarallel`:
```python
from pandarallel import pandarallel
```
Then, you have to initialize it.
```python
pandarallel.initialize()
```
This method takes 3 optional parameters:
- `shm_size_mo`: The size of the Pandarallel shared memory in Mo. If the
default one is too small, it is possible to set a larger one. By default,
it is set to 2 Go. (int)
- `nb_workers`: The number of workers. By default, it is set to the number
of cores your operating system sees. (int)
- `progress_bar`: Put it to `True` to display a progress bar.
**WARNING**: Progress bar is an experimental feature. This can lead to a
sensitive performance loss.
Not available for `DataFrameGroupy.parallel_apply`.
With `df` a pandas DataFrame, `series` a pandas Series, `col_name` the name of
a pandas Dataframe column & `func` a function to apply/map:
| Without parallelisation | With parallelisation |
| ---------------------------------- | ------------------------------------------- |
| `df.apply(func)` | `df.parallel_apply(func)` |
| `series.map(func)` | `series.parallel_map(func)` |
| `df.groupby(col_name).apply(func)` | `df.groupby(col_name).parallel_apply(func)` |
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