A free web-service for solving large-scale systems of nonlinear equations (1 million+) is APMonitor.com. There is a browser interface and an API to Python / MATLAB. The API to Python is a single script (apm.py) that is available for download from the apmonitor.com homepage. Once the script is loaded into a Python code, it gives the ability to solve problems of:

- Nonlinear equations
- Differential and algebraic equations
- Least squares model fitting
- Moving horizon estimation
- Nonlinear model predictive control
- etc.

For the new user, the APM Python software has a Google Groups forum where a user can post questions. There are bi-weekly webinars that showcase optimization problems in operations research and engineering.

Below is an example of an optimization problem (hs71.apm).

```
Model
Variables
x[1] = 1, >=1, <=5
x[2] = 5, >=1, <=5
x[3] = 5, >=1, <=5
x[4] = 1, >=1, <=5
End Variables
Equations
x[1] * x[2] * x[3] * x[4] > 25
x[1]^2 + x[2]^2 + x[3]^2 + x[4]^2 = 40
minimize x[1] * x[4] * (x[1]+x[2]+x[3]) + x[3]
End Equations
End Model
```

The optimization problem is solved with the following Python script:

```
# Import
from apm import *
# Select server
server = 'http://xps.apmonitor.com'
# Application name
app = 'eqn'
# Clear previous application
apm(server,app,'clear all')
# Load model file
apm_load(server,app,'hs71.apm')
# Option to select solver (1=APOPT, 2=BPOPT, 3=IPOPT)
apm_option(server,app,'nlc.solver',3)
# Solve on APM server
solver_output = apm(server,app,'solve')
# Display solver output
print solver_output
# Retrieve results
results = apm_sol(server,app)
# Display results
print '--- Results of the Optimization Problem ---'
print results
# Display Results in Web Viewer
url = apm_var(server,app)
print "Opened Web Viewer: " + url
```