FogTorchPI | probabilistic prototype for deployment of Fog applications

by di-unipi-socc Java Version: Current License: MIT

X-Ray Key Features Code Snippets Community Discussions(3)Vulnerabilities Install Support

kandi X-RAY | FogTorchPI Summary

FogTorchPI is a Java library typically used in Edge Computing applications. FogTorchPI has no bugs, it has no vulnerabilities, it has build file available, it has a Permissive License and it has low support. You can download it from GitHub.

Note: the newest and extended version of FogTorchΠ which estimates monthly deployment cost and runs multiple threads to perform the MonteCarlo simulation is available here.

Support

Quality

Security

License

Reuse

Support

FogTorchPI has a low active ecosystem.

It has 22 star(s) with 15 fork(s). There are 10 watchers for this library.

It had no major release in the last 6 months.

FogTorchPI has no issues reported. There are no pull requests.

It has a neutral sentiment in the developer community.

The latest version of FogTorchPI is current.

Quality

FogTorchPI has 0 bugs and 0 code smells.

Security

FogTorchPI has no vulnerabilities reported, and its dependent libraries have no vulnerabilities reported.

FogTorchPI code analysis shows 0 unresolved vulnerabilities.

There are 0 security hotspots that need review.

License

FogTorchPI is licensed under the MIT License. This license is Permissive.

Permissive licenses have the least restrictions, and you can use them in most projects.

Reuse

FogTorchPI releases are not available. You will need to build from source code and install.

Build file is available. You can build the component from source.

Installation instructions are not available. Examples and code snippets are available.

FogTorchPI saves you 802 person hours of effort in developing the same functionality from scratch.

It has 1843 lines of code, 137 functions and 27 files.

It has medium code complexity. Code complexity directly impacts maintainability of the code.

Top functions reviewed by kandi - BETA

kandi has reviewed FogTorchPI and discovered the below as its top functions. This is intended to give you an instant insight into FogTorchPI implemented functionality, and help decide if they suit your requirements.

Main method for testing
Updates the consumed resources
Get the percentage of the software component
Returns a random sampling function based on the probability
Test program
Main method for testing
Returns a string representation of this equation
Returns a string representation of the configuration
Checks if the deployment is equal to or not
Compute the heuristic
Create a unique hash code
Returns a hash code
Returns a string representation of this object
Compute the heuristic for this software component
Creates a hash code

Get all kandi verified functions for this library.

FogTorchPI Key Features

No Key Features are available at this moment for FogTorchPI.

FogTorchPI Examples and Code Snippets

No Code Snippets are available at this moment for FogTorchPI.

Community Discussions

Trending Discussions on Edge Computing

Skooma input validator

How do I create a Near Edge computing system? (Send sensor data with Raspberry Pi/DHT11 sensor)

What is the time complexity of this peudo code?

QUESTION

Skooma input validator

Asked 2022-Feb-03 at 15:35

I was given a task to implement an input validator with the Skooma library https://github.com/bobfp/skooma#validators

The general concept is pretty clear, but for some inputs I have a list of "legal" words, and I have zero clue on how to implement the validation for this case. Hence why I came here, I wanted to ask if you know any examples / projects that used this library? I googled but didn't find anything. Of if you have any other tipps just let me know! 🙂 This is the example:

my schema:

...

ANSWER

Answered 2022-Jan-31 at 00:05

You need a custom validator function, here's an example:

Source https://stackoverflow.com/questions/70913797

QUESTION

How do I create a Near Edge computing system? (Send sensor data with Raspberry Pi/DHT11 sensor)

Asked 2021-Jan-22 at 10:01

I am working on edge computing for IoT applications and expected to create a system that acts as a near edge computer with the use of a raspberry pi hooked up to a dht11 sensor. How do I send this data over to a computer that is at the edge? Ideally I want to use my PC as this device but I have no clue how to send this data over in real time.

So far I have created the circuit and can view the temperature and humidity readings on the raspberry pi in python. Unsure of what the next steps are - I don't want to send this data over to the cloud just yet.

Side note: I believe i may be missing knowledge regarding this but is the raspberry pi an edge device because it is hooked up to the sensor directly?

Any help is greatly appreciated.

...

ANSWER

Answered 2021-Jan-22 at 10:01

You need to think this through a bit more. What will you do with the temperature and humidity data that you receive?

For example, if you're just experimenting and want to just see the readings in a console on your PC, you can use netcat to send the console output of your Python program from the RPi to PC. No SW development needed, they just have to be in the same network. Not particularly useful for anything else, either.

Otherwise you need to set up some client-server solution between the RPi and your PC. There's a ton of possible solutions, all depending on what you plan to do with the data. You can use MQTT, HTTP, a straight database connection (MySQL, PostgreSQL), etc. You have to supply both sides of the connection. The Python code on client side which connects and sends data; and the server side thing that accepts the samples and stores them somewhere. Plus all the networking, authentication etc.

Or you can just download the Python client libraries for your favourite cloud solution and set that up according to a tutorial. TBH, this sounds a lot less work to me.

Source https://stackoverflow.com/questions/65835920

QUESTION

What is the time complexity of this peudo code?

Asked 2020-Jun-21 at 12:16

I don't have a lot of knowledge computing the complexity. Can you help estimate the complexity of the following pseudo-codes?

Algorithm 1:

...

ANSWER

Answered 2020-Jun-21 at 11:50

Algorithm1

The algorithm1 will first perform simple multiplication and addition on vectors. Assuming that it loops from start to end on each vector and performs some calculations, the number of iterations made would be 3*N which would be considered O(N)

Source https://stackoverflow.com/questions/62497868

Community Discussions, Code Snippets contain sources that include Stack Exchange Network

Vulnerabilities

No vulnerabilities reported

Install FogTorchPI

You can download it from GitHub.
You can use FogTorchPI like any standard Java library. Please include the the jar files in your classpath. You can also use any IDE and you can run and debug the FogTorchPI component as you would do with any other Java program. Best practice is to use a build tool that supports dependency management such as Maven or Gradle. For Maven installation, please refer maven.apache.org. For Gradle installation, please refer gradle.org .

Support

For any new features, suggestions and bugs create an issue on GitHub. If you have any questions check and ask questions on community page Stack Overflow .

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