Distributed Computing with Workers

Cloudera Data Science Workbench provides basic support for launching multiple engine instances, known as workers, from a single interactive session. Any R or Python session can be used to spawn workers. These workers can be configured to run a script (e.g. a Python file) or a command when they start up.

Workers can be launched using the launch_workers function. Other supported functions are list_workers and stop_workers. Output from all the workers is displayed in the workbench console of the session that launched them. These workers are terminated when the session exits.

Using Workers for Machine Learning

The simplest example of using this feature would involve launching multiple workers from a session, where each one prints 'hello world' and then terminates right after. To extend this example, you can remove the print command and configure the workers to run a more elaborate script instead. For example, you can set up a queue of parameters (inputs to a function) in your main interactive session, and then configure the workers to run a script that pulls parameters off the queue, applies a function, and keeps doing this until the parameter queue is empty. This generic idea can be applied to multiple real-world use-cases. For example, if the queue is a list of URLs and the workers apply a function that scrapes a URL and saves it to a database, CDSW can easily be used to do parallelized web crawling.

Hyperparameter optimization is a common task in machine learning, and workers can use the same parameter queue pattern described above to perform this task. In this case, the parameter queue would be a list of possible values of the hyperparameters of a machine learning model. Each worker would apply a function that trains a machine learning model. The workers run until the queue is empty, and save snapshots of the model and its performance.

Workers API

This section lists the functions available as part of the workers API.

Launch Workers

Launches worker engines into the cluster.

Syntax
launch_workers(n, cpu, memory, nvidia_gpu=0, kernel="python3", script="", code="", env={})
Parameters
  • n (int) - The number of engines to launch.
  • cpu (float) - The number of CPU cores to allocate to the engine.
  • memory (float) - The number of gigabytes of memory to allocate to the engine.
  • nvidia_gpu (int, optional) - The number of GPU's to allocate to the engine.
  • kernel (str, optional) - The kernel. Can be "r", "python2", "python3" or "scala".
  • script (str, optional) - The name of a Python source file the worker should execute as soon as it starts up.
  • code (str, optional) - Python code the engine should execute as soon as it starts up. If a script is specified, code will be ignored.
  • env (dict, optional) - Environment variables to set in the engine.
Example Usage

Python 3

import cdsw
workers = cdsw.launch_workers(n=2, cpu=0.2, memory=0.5, code="print('Hello from a CDSW Worker')")

R

library("cdsw") 
workers <- launch.workers(n=2, cpu=0.2, memory=0.5, env="", code="print('Hello from a CDSW Worker')")

List Workers

Returns all information on all the workers in the cluster.

Syntax
list_workers()

Stop Workers

Stops worker engines.

Syntax
stop_workers(*worker_id)
Parameter
  • worker_id (int, optional) - The ID numbers of the worker engines that must be stopped. If an ID is not provided, all the worker engines on the cluster will be stopped.

Example: Worker Network Communications

Workers are a low-level feature to help use higher level libraries that can operate across multiple hosts. As such, you will generally want to use workers only to launch the backends for these libraries.

To help you get your workers or distributed computing framework components talking to one another, every worker engine run includes an environmental variable CDSW_MASTER_IP with the fully addressable IP of the master engine. Every engine has a dedicated IP access with no possibility of port conflicts.

For instance, the following are trivial examples of two worker engines talking to the master engine.

R

From the master engine, the following master.r script will launch two workers and accept incoming connections from them.

# master.r

library("cdsw")

# Launch two CDSW workers. These are engines that will run in 
# the same project, execute a given code or script, and exit.
workers <- launch.workers(n=2, cpu=0.2, memory=0.5, env="", script="worker.r")

# Accept two connections, one from each worker. Workers will
# execute worker.r.
for(i in c(1,2)) {
  # Receive a message from each worker and return a response.
  con <- socketConnection(host="0.0.0.0", port = 6000, blocking=TRUE, server=TRUE, open="r+")
  data <- readLines(con, 1)
  print(paste("Server received:", data))
  writeLines("Hello from master!", con)
  close(con)
}

The workers will execute the following worker.r script and respond to the master.

# worker.r

print(Sys.getenv("CDSW_MASTER_IP"))
con <- socketConnection(host=Sys.getenv("CDSW_MASTER_IP"), port = 6000, blocking=TRUE, server=FALSE, open="r+")
write_resp <- writeLines("Hello from Worker", con)
server_resp <- readLines(con, 1)
print(paste("Worker received:  ", server_resp))
close(con)

Python 3

From the master engine, the following master.py script will launch two workers and accept incoming connections from them.

# master.py

import cdsw, socket

# Launch two CDSW workers. These are engines that will run in 
# the same project, execute a given code or script, and exit.
workers = cdsw.launch_workers(n=2, cpu=0.2, memory=0.5, script="worker.py")

# Listen on TCP port 6000
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.bind(("0.0.0.0", 6000))
s.listen(1)

# Accept two connections, one from each worker. Workers will
# execute worker.py.
conn, addr = s.accept()
for i in range(2):
    # Receive a message from each worker and return a response.
    data = conn.recv(20)
    if not data: break
    print("Master received:", data)
    conn.send("Hello From Server!".encode())
conn.close()

The workers will execute the following worker.py script and respond to the master.

# worker.py

import os, socket

# Open a TCP connection to the master.
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect((os.environ["CDSW_MASTER_IP"], 6000))

# Send some data and receive a response.
s.send("Hello From Worker!".encode())
data = s.recv(1024)
s.close()

print("Worker received:", data)