BEAMIDE is born

magnetic loops on the sun

Beamide is an innovative INFN spin-off that experienced researchers from the INFN Section of Perugia founded. The company specializes in developing software packages for simulating the effects of radiation on electronic and electromechanical equipment, which can be used to aid in the design of devices. Their flagship product, MRADSIM (Matter Radiation Interactions SIMulator), is a set of simulation packages developed with the expertise its founders gained in coding and studying radiation interaction and technological equipment.

What sets MRADSIM apart is its high calculation performance combined with a user-friendly graphical interface that allows every user to effectively simulate radiation’s effects on devices. This combination expands the pool of possible users, making it accessible to a broader range of designers and engineers. Beamide’s commercial project is to create different versions of MRADSIM tailored to the needs of specific market segments.

One market segment that has long been known to be affected by radiation is the aerospace sector. However, with the ever-increasing use of commercially available off-the-shelf (COTS) components, radiation effects are also becoming relevant in-ground applications. To address this, Beamide plans to release different versions of MRADSIM, including MRADSIM-SPACE, aimed at the national and international community operating in the aerospace sector, and MRADSIM-EARTH, dedicated to terrestrial applications such as nuclear plant design, radiotherapy facilities, and radioactive waste storage. Additionally, there is also a web-based version accessible online, MRADSIM-WEB, based on feedback received from the user community.

Although a non-commercial version of MRADSIM with reduced functionality is already circulating in the research community, it has received favorable feedback, providing excellent foundations for the subsequent development of commercial arrangements. The birth of Beamide represents an example of technology transfer, where the skills and expertise honed within INFN are transferred to the market, involving both experienced researchers and young scientists.

In summary, Beamide’s innovative MRADSIM software provides an efficient solution for simulating the effects of radiation on electronic and electromechanical equipment. With its user-friendly graphical interface and high calculation performance, MRADSIM can be used by a broader range of designers and engineers. Beamide’s tailored versions of MRADSIM cater to specific market segments, including the aerospace and terrestrial sectors. In contrast, the non-commercial version provides an excellent foundation for developing commercial arrangements. The birth of Beamide is a prime example of technology transfer, transferring the expertise of experienced researchers from the INFN to the market and involving both professional and young scientists in the process.


Revolutionizing Radiation Simulation & Detection: Beamide S.r.l. – The Leading INFN Spin-off for Electron Beam and Proton Irradiation Services

beamide nuova

Beamide is a spin-off company founded by researchers from the INFN Section of Perugia. Thanks to their expertise, Beamide will be responsible for developing MRADSIM, a software package that simulates radiation’s effects on technological equipment. These simulation tools will aid designers in creating radiation-resistant devices more quickly and easily.

The importance of studying how devices react to radiation is increasing in many applications. It is crucial for space and terrestrial systems such as data centers and autonomous driving devices, which utilize an exponentially growing number of electronics. Protecting these units from any external event that could disrupt their operation is vital.

Simulating radiation resistance through computer simulations is essential due to the difficulty and cost of verifying radiation resistance in the laboratory or field. Beamide aims to fill the gap in the market by creating software packages specifically designed for interaction simulations between matter and radiation, including space, terrestrial, and biological applications.

Currently, the market of interaction simulations between matter and radiation is dominated by only two companies. Beamide’s entry into this market presents a significant opportunity for technological advancement and innovation in radiation simulation and detection.