Set of tools for meshing annotated blocks of data using a master server and a family of workers.
This system uses a master/worker architecture to delegate meshing (via marching-cubes implementation) to worker nodes, and mesh stitching and recombination to the central master node.
Worker nodes are specified in a configuration file, which is passed to the master process as a command-line argument. Because the worker node is an HTTP server, an arbitrary mix of local, remote, and serverless HTTP resources may be used by the same meshing service master node, and multiple master nodes may point to the same worker node.
Clone the repository into a designated local parent directory. Navigate into the directory and construct virtual environments (using either virtualenv or conda) for each of the master and worker nodes.
For each node type (master and worker), navigate into the directory, and use the type-specific requirements.txt file to install the node dependencies.
You will need to define a JSON-formatted configuration file, launch your worker nodes, and then launch your master node.
You will need to construct a config file to point your master to your workers in a list format. The data for the config need only specify the endpoints, allowing for local, remote, or serverless resources to be used. The config object is very simple, containing a single top-level "workers" key which houses a list of objects that each contain the "url" key leading to a particular worker endpoint. The worker endpoint can be found at /mesh/generate/.
A simple local example of a config is as follows.
{
"workers": [
{
"url": "http://localhost:5001/mesh/generate/"
},
{
"url": "http://localhost:5002/mesh/generate/"
},
{
"url": "http://localhost:5003/mesh/generate/"
},
{
"url": "http://localhost:5004/mesh/generate/"
}
]
}To launch the worker nodes on servers, simply log into the server, clone the repo, create the worker virtual environment with the required dependencies, and then call python worker_mesh_server.py <port-number>. If you have a particularly large number of servers, the pssh command should be useful.
A config file for two remote servers looks like this:
{
"workers": [
{
"url": "http://my-secret-server:5000/mesh/generate/"
},
{
"url": "http://my-other-secret-server:5000/mesh/generate/"
}
]
}You can host the worker nodes on AWS Lambda in order to scale the worker pool. For more information, see the AWS Lambda mesh-worker deploy documentation.
To launch the master, load the master virtual environment and then (from within the master directory) call python master_mesh_server.py /path/to/config/file. The master will assign meshing jobs to workers cyclically based on the order specified in the config. At present, the master exposes two endpoints: /mesh/file/ and /mesh/janelia/. The /mesh/file/ endpoint accepts binary mask data encoded as a numpy array saved using np.save. The /mesh/janelia/ endpoint accepts data in the form of binary blocks as specified in Janelia's block streaming format.
Copyright 2018 The Johns Hopkins University Applied Physics Laboratory.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
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