I have a set of tasks that I would like to run in parallel across multiple machines, each with multiple cores. My main challenge is that these tasks require read-only access to a 12GB data set which must be accessed quickly by the worker threads/processes, so keeping that data in memory is a must. Systems that isolate workers into separate processes would need to copy this memory for each worker, which is unacceptable - I don't have machines with 12GB of spare memory per core.

PySpark's "broadcast" function nearly solved my problem, but PySpark serializes the data to a string as it distributes it across the network, and one of Spark's subsystems balks at the huge data size and just quits while serializing the data.

I'm on Linux so I can get my data into shared memory via ramfs, but I still need a way to get machine-level granularity. Setting up the shared memory and distributing a reference to it should happen once per machine, not once per task or once per worker. I'm struggling to find a way to do this on any distributed task library (Celery, ipyparallel, etc). Am I stuck rolling my own task distributor with Python's multiprocessing?

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