We're here to help! Find answers to common questions, access our support resources, or contact us directly.
Our comprehensive wiki is currently under development and will be available soon. It will be an interactive platform where you can find:
Stay tuned for updates on the wiki launch!
Thank you for your interest in the UCYNCU Audio IP System. We are currently in the beta testing phase of development, and we are working diligently to refine and perfect our solution. Our goal is to deliver a robust, reliable, and user-friendly system for all your audio and GPIO management needs.
We anticipate having all the kinks and issues completely ironed out by August 2025. While this may seem like a distant target, we believe in setting realistic expectations and prioritizing a quality user experience over a rushed release. We are committed to under-promising and over-delivering.
Our team is working tirelessly to bring this project to fruition. We are passionate about creating an open-source solution that empowers radio professionals, industrial users, and anyone who needs a powerful and flexible audio and GPIO management system. The core of our project is open-source, except for the licensing and encryption components, which are necessary to protect our intellectual property and ensure the sustainability of the project.
We are always looking for enthusiastic volunteers who can contribute their skills and expertise to the project. If you believe you can add value and would like to support our mission, please don't hesitate to contact us.
Currently, we are in the venture capital stage and actively seeking funding to accelerate development. We are confident that we will have a complete working solution by August 2025.
Thank you for your patience, understanding, and support. We are excited about the future of UCYNCU a division of the OSIBytes Group
Here are some answers to commonly asked questions:
The SHD1X protocol is a proprietary communication framework developed by UCYNCU for secure and efficient transmission of audio and GPIO data over IP networks. It utilizes unicast communication to enhance security, optimize bandwidth utilization, and improve throughput compared to traditional multicast methods.
The Wizzlebit application is a cross-platform solution compatible with Linux, Windows, and macOS.
The minimum system requirements for Neutron Server software vary depending on the specific model. Generally, you will need a server-grade processor (Intel Xeon or AMD EPYC), at least 32GB of ECC RAM, and a minimum of 1TB of storage in a RAID configuration. Please refer to the individual product specifications for detailed requirements.