Frank.PulseFlow 1.0.8-preview

This is a prerelease version of Frank.PulseFlow.
There is a newer version of this package available.
See the version list below for details.
dotnet add package Frank.PulseFlow --version 1.0.8-preview                
NuGet\Install-Package Frank.PulseFlow -Version 1.0.8-preview                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="Frank.PulseFlow" Version="1.0.8-preview" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add Frank.PulseFlow --version 1.0.8-preview                
#r "nuget: Frank.PulseFlow, 1.0.8-preview"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install Frank.PulseFlow as a Cake Addin
#addin nuget:?package=Frank.PulseFlow&version=1.0.8-preview&prerelease

// Install Frank.PulseFlow as a Cake Tool
#tool nuget:?package=Frank.PulseFlow&version=1.0.8-preview&prerelease                

PulseFlow Local Messaging

Overview

PulseFlow Local Messaging is a lightweight, high-performance messaging system that enables seamless communication between different parts of an application. It's designed to be simple, flexible, and scalable, allowing for easy integration into any system architecture.

Key Features

  • Lightweight: PulseFlow is a lightweight messaging system, with a small footprint and minimal resource requirements.
  • High Performance: It's designed for high performance and scalability, capable of handling a vast volume of messages simultaneously.
  • Asynchronous Communication: PulseFlow supports asynchronous data flow, allowing for non-blocking and concurrent message transmissions.
  • Flexible and Adaptable: It's flexible and adaptable, capable of handling various types of messages and adapting its processing logic based on the nature and requirements of each message.
  • Simple and Easy to Use: PulseFlow is simple and easy to use, with a straightforward API and minimal configuration requirements.

Illustration

graph TD
    Pulse[Pulse: Data/Messages] -->|transmitted via| Conduit[Conduit: Message Pathway]
    Conduit -->|delivered to| Nexus[Nexus: Processing Service]
    Nexus -->|processed by| PulseFlow[PulseFlow: Message Handler]
    PulseFlow -->|manipulates| Pulse

In this Mermaid diagram:

  • Pulse is shown as the starting point for data/messages.
  • Conduit is represented as the pathway for transmitting messages.
  • Nexus is the central processing service.
  • PulseFlow is depicted as handling and manipulating the messages.

When you include this in a GitHub Markdown file, GitHub will render the Mermaid diagram as a visual graph. Remember to remove the extra backticks (```) in the beginning and end when adding this to your README.

Use Cases

PulseFlow is a general-purpose messaging system that can be used in a wide variety of applications. It's particularly useful in scenarios where there's a need for asynchronous communication between different parts of the system.

Getting Started

This section provides a quick guide on how to get started with PulseFlow Local Messaging.

Installation

PulseFlow is available as a NuGet package, which can be installed using the following command:

dotnet add package Frank.PulseFlow

Concepts

This section provides an in-depth explanation of the key concepts and components within the system: Nexus, Conduit, Pulse, and PulseFlow. Understanding these concepts is crucial for grasping how the system operates and interacts with data.

Nexus

The Nexus is the central hub of our messaging system, analogous to a neural network's core. It serves as the primary processing service, where all data messages, or 'Pulses', are received, interpreted, and routed to their respective destinations.

  • Role: Nexus acts as the orchestrator within the system, managing the flow of messages and ensuring that each one is processed according to predefined rules and logic.
  • Functionality: It handles various tasks like message validation, transformation, and decision-making on how and where messages should be directed post-processing.
  • Scalability and Performance: Designed for high performance and scalability, Nexus can handle a vast volume of messages simultaneously, ensuring minimal latency and high throughput in data processing.

Conduit

The Conduit represents the pathway through which messages, or 'Pulses', are transmitted within the system. It's the messenger that ensures the delivery of data from one point to another.

  • Mechanism: Conduit facilitates the smooth and efficient transport of messages across different parts of the system.
  • Reliability and Integrity: Ensuring data integrity, Conduit maintains the fidelity of the messages as they traverse through various processes.
  • Asynchronous Communication: It supports asynchronous data flow, allowing for non-blocking and concurrent message transmissions, which is key for a responsive and efficient system.

Pulse

Pulse is the term used to describe the individual units of data or messages that flow through the system.

  • Data Encapsulation: Each Pulse is a packet of information, encapsulating the necessary data in a well-defined format.
  • Types and Variability: Pulses can vary in type and structure, ranging from simple text messages to complex data structures, each tailored to carry specific information relevant to its intended process.
  • Lifecycle: The lifecycle of a Pulse includes its creation, transmission through the Conduit, processing in the Nexus, and final delivery or action as dictated by the system's logic.

PulseFlow

PulseFlow is the sophisticated mechanism responsible for handling and manipulating the Pulses as they move through the system.

  • Message Handling: It's specifically designed to process each Pulse, applying necessary transformations, routing, and any other required operations.
  • Flexibility and Adaptability: PulseFlow is adept at handling various types of Pulses, capable of adapting its processing logic based on the nature and requirements of each message.
  • Integration Point: Acting as a key integration point within the system, it ensures that Pulses are managed efficiently and effectively, readying them for their next phase in the data journey.
Product Compatible and additional computed target framework versions.
.NET net8.0 is compatible.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.

NuGet packages (1)

Showing the top 1 NuGet packages that depend on Frank.PulseFlow:

Package Downloads
Frank.PulseFlow.Logging

This is a ILogger{T} compatible "sink" for logs that can be "hooked into", to allow to listen to logging however you wish. PulseFlow uses Channel -mechanism for internal messaging

GitHub repositories

This package is not used by any popular GitHub repositories.

Version Downloads Last updated
2.0.8-preview 107 3/3/2024
2.0.0 315 2/4/2024
1.7.7-preview 89 2/4/2024
1.7.0 516 1/21/2024
1.6.5-preview 104 1/21/2024
1.6.4-preview 109 1/21/2024
1.6.3-preview 102 1/19/2024
1.6.0 267 1/14/2024
1.5.0 551 12/31/2023
1.4.1-preview 116 12/31/2023
1.4.0 138 12/19/2023
1.3.46-preview 115 12/19/2023
1.3.44-preview 107 12/15/2023
1.3.0 546 12/15/2023
1.2.36-preview 116 12/14/2023
1.2.1.41-preview 114 12/15/2023
1.2.1.39-preview 112 12/15/2023
1.2.1 137 12/14/2023
1.1.0 132 12/14/2023
1.0.28-preview 105 12/14/2023
1.0.15-preview 129 12/14/2023
1.0.10-preview 123 12/14/2023
1.0.8-preview 120 12/14/2023
1.0.0 130 12/14/2023

Initial release