opencl_fdtd/README.md

# opencl_fdtd

**opencl_fdtd** is a python application for running 3D time-domain
electromagnetic simulations on parallel compute hardware (mainly GPUs).

**Performance** highly depends on what hardware you have available:
* A 395x345x73 cell simulation (~10 million points, 8-cell absorbing boundaries)
 runs at around 91 iterations/sec. on my AMD RX480.
* On an Nvidia GTX 580, it runs at 66 iterations/sec
* On my laptop (Nvidia 940M) the same simulation achieves ~12 iterations/sec.
* An L3 photonic crystal cavity ringdown simulation (1550nm source, 40nm
 discretization, 8000 steps) takes about 3 minutes on my laptop.

**Capabilities** are currently pretty minimal:
* Absorbing boundaries (CPML)
* Perfect electrical conductors (PECs; to use set epsilon to inf)
* Anisotropic media (eps_xx, eps_yy, eps_zz, mu_xx, ...)
* Direct access to fields (eg., you can trivially add a soft or hard
 current source with just sim.E[ind] += sin(f0 * t), or save any portion
 of a field to a file)


## Installation

**Requirements:**
* python 3 (written and tested with 3.5)
* numpy
* pyopencl
* jinja2
* [fdfd_tools](https://mpxd.net/code/jan/fdfd_tools)

Optional (used for examples):
* dill (for file output)
* [gridlock](https://mpxd.net/code/jan/gridlock)
* [masque](https://mpxd.net/code/jan/masque)

To get the code, just clone this repository:
```bash
git clone https://mpxd.net/code/jan/opencl_fdtd.git
```

You can install the requirements and their dependencies easily with
```bash
pip install -r requirements.txt
```

## Running
The root directory contains ``fdtd.py``, which sets up and runs a sample simulation
 (cavity ringdown).

```bash
python3 fdtd.py
```
update module name 2016-05-30 22:43:14 -07:00			`# opencl_fdtd`
Initial commit 2016-03-30 15:00:00 -07:00
update module name 2016-05-30 22:43:14 -07:00			`opencl_fdtd is a python application for running 3D time-domain`
clarify 2016-04-13 04:01:45 -07:00			`electromagnetic simulations on parallel compute hardware (mainly GPUs).`
Initial commit 2016-03-30 15:00:00 -07:00
			`Performance highly depends on what hardware you have available:`
			`* A 395x345x73 cell simulation (~10 million points, 8-cell absorbing boundaries)`
Update readme 2017-03-29 01:09:21 -07:00			`runs at around 91 iterations/sec. on my AMD RX480.`
			`* On an Nvidia GTX 580, it runs at 66 iterations/sec`
			`* On my laptop (Nvidia 940M) the same simulation achieves ~12 iterations/sec.`
Initial commit 2016-03-30 15:00:00 -07:00			`* An L3 photonic crystal cavity ringdown simulation (1550nm source, 40nm`
Update readme 2017-03-29 01:09:21 -07:00			`discretization, 8000 steps) takes about 3 minutes on my laptop.`
Initial commit 2016-03-30 15:00:00 -07:00
			`Capabilities are currently pretty minimal:`
			`* Absorbing boundaries (CPML)`
Update readme 2017-03-29 01:09:21 -07:00			`* Perfect electrical conductors (PECs; to use set epsilon to inf)`
update URL to reflect new location 2016-05-30 22:41:06 -07:00			`* Anisotropic media (eps_xx, eps_yy, eps_zz, mu_xx, ...)`
Initial commit 2016-03-30 15:00:00 -07:00			`* Direct access to fields (eg., you can trivially add a soft or hard`
Update readme 2017-03-29 01:09:21 -07:00			`current source with just sim.E[ind] += sin(f0 * t), or save any portion`
Initial commit 2016-03-30 15:00:00 -07:00			`of a field to a file)`

Update readme 2017-03-29 01:09:21 -07:00
Initial commit 2016-03-30 15:00:00 -07:00			`## Installation`

			`Requirements:`
			`* python 3 (written and tested with 3.5)`
			`* numpy`
			`* pyopencl`
Update readme 2017-03-29 01:09:21 -07:00			`* jinja2`
move code to new location 2018-01-15 22:36:40 -08:00			`* [fdfd_tools](https://mpxd.net/code/jan/fdfd_tools)`
doc updates 2017-08-24 11:28:03 -07:00
			`Optional (used for examples):`
Update readme 2017-03-29 01:09:21 -07:00			`* dill (for file output)`
move code to new location 2018-01-15 22:36:40 -08:00			`* [gridlock](https://mpxd.net/code/jan/gridlock)`
			`* [masque](https://mpxd.net/code/jan/masque)`
Initial commit 2016-03-30 15:00:00 -07:00
clarify 2016-04-13 04:01:45 -07:00			`To get the code, just clone this repository:`
add clone instructions 2016-04-13 04:00:08 -07:00			```bash
move code to new location 2018-01-15 22:36:40 -08:00			`git clone https://mpxd.net/code/jan/opencl_fdtd.git`
add clone instructions 2016-04-13 04:00:08 -07:00			```

Initial commit 2016-03-30 15:00:00 -07:00			`You can install the requirements and their dependencies easily with`
			```bash
fix typo 2016-04-13 04:00:27 -07:00			`pip install -r requirements.txt`
Instructions for runnning 2016-03-30 15:06:10 -07:00			```

			`## Running`
			The root directory contains ``fdtd.py``, which sets up and runs a sample simulation
			`(cavity ringdown).`

			```bash
			`python3 fdtd.py`
add clone instructions 2016-04-13 04:00:08 -07:00			```