Technologies
The technologies listed here represent core technical areas that support the services offered by NEW-G IT LLC. They are not presented as isolated buzzwords, but as practical tools and engineering domains used to solve concrete problems.
The categories below reflect technical areas that are especially relevant to workflow automation, custom software, modernization work, and technical prototyping.
n8n
n8n is used for workflow automation, orchestration, and system integration. It is particularly useful where information needs to move between email, APIs, cloud platforms, databases, storage systems, messaging tools, and custom business logic. In practice, this supports automation scenarios such as document handling, process routing, notifications, data transformation, AI-assisted decision steps, and multi-stage workflows that would otherwise require repeated manual work. n8n can also be combined with custom services when standard components are not sufficient.
C# / .NET / WPF
C# and .NET provide a strong foundation for robust software development, particularly in desktop and backend environments. WPF is especially relevant for rich desktop applications, internal business tools, engineering software, and specialized interfaces that benefit from structured UI logic and long-term maintainability. This technology area is well suited to custom desktop software, modular application architecture, modernization of older Windows-based systems, internal tools, technical visualization, simulation-oriented interfaces, and software where clarity and maintainability are important.
C++ / Embedded Linux
C++ and Embedded Linux are relevant for systems that operate closer to hardware, need efficient native implementation, or run in embedded and technically constrained environments. This includes lower-level system components, platform logic, communication layers, device-adjacent software, and structured software for infrastructure-oriented systems. This area is particularly useful where software behavior, state-oriented logic, hardware interaction, system control, and runtime reliability matter.
VHDL / PCB Design
VHDL and PCB design reflect experience beyond conventional application software and into digital hardware and electronics-oriented engineering. This is relevant where software and hardware thinking need to meet, especially in prototyping, control logic, embedded concepts, and custom technical systems. Even when a project is primarily software-focused, this broader engineering background can be valuable in technically complex environments where hardware constraints, signal paths, or device behavior influence the software solution.
Broader Technical Range
In addition to the core categories listed above, project work may also involve related technologies depending on the engagement. These can include Python, JavaScript, FastAPI, Docker, cloud deployment, API integration, document parsing, test automation, messaging systems, and architectural refactoring patterns. The emphasis is not on listing every tool ever used, but on applying the right technical approach for the actual problem.
Technology Selection
Technology choices are made based on suitability, maintainability, integration needs, and the expected lifetime of the solution. In some cases, a lightweight automated workflow is the right answer. In others, a custom application, refactored legacy platform, or deeper technical prototype is more appropriate. The objective is to select technologies in a way that serves the real business or engineering need rather than forcing a project into a predefined stack.