With professional LabVIEW consulting as our primary domain of business, we specialise in developing software solutions in National Instruments LabVIEWTM, reducing development times and deliver modern, reliable, modular, and often highly automated systems. With a broad spectrum of experience in developing LabVIEW based software utilising instruments and equipment by NI, as well as other leading manufacturers, we can deliver full lifecycle engineering services, ranging from simple consultancy for your existing LabVIEW projects, to the concept development, design, implementation, integration, as well as continuous development of bespoke turnkey systems gravitating around the LabVIEW programming language.
All our consultants, including our company directors themselves, are certified LabVIEW professionals at Certified LabVIEW Architect (CLA) or Certified LabVIEW Developer (CLD) level, with most able to offer one or more specialst areas of specialist expertise ranging from industrial control, test & measurement, instrumentation, and embedded / real-time systems, to process automation, machine vision, robotics, and cybernetics. In addition to that, we also have skills and in-house tools relating to other programming languages such as C, C++, Matlab, Python, and others, including for embedded microcontroller systems, as well as redeployment from / direct integration of existing scripts into our LabVIEW solutions.
We can deliver LabVIEW projects with a flexible level of on-site attendance, including entirely remotely in many cases, utilising our own equipment exclusively, thus minimising development related downtime. Most of our returning clients typically opt for a combination of both, taking advantage of our flexible approach. We can also work with your team and offer advice to transfer knowledge specific to the project. Let it be a simple sequencing test software or a highly algorithmic and computationally intensive applied industrial image processing solution, we always deliver your software in a structured package, with the underlying code designed for maximum maintainability, optimal modularity, and great scalability.