QTREX Wins $1 Million Israel Grant to Build Quantum-Computing Dielectric Material
Updated
Updated · The Quantum Insider · Jun 9
QTREX Wins $1 Million Israel Grant to Build Quantum-Computing Dielectric Material
3 articles · Updated · The Quantum Insider · Jun 9
Summary
$1 million in Israel Innovation Authority funding will back QTREX’s development of a purpose-built dielectric material for superconducting quantum-computing connectivity.
The material is aimed at high-density, low-loss RF and microwave signal routing in cryogenic systems, where moving more signals with less thermal impact has become a key scaling constraint.
QTREX plans to embed the dielectric as a native layer in its additively manufactured electronics platform, engineering dielectric, conductor and 3D geometry together instead of adapting off-the-shelf materials.
The grant supports QTREX’s push to position its monolithic connectivity architecture with quantum hardware companies as processor qubit counts rise and conventional wiring approaches strain to scale.
Facing industry giants, can QTREX's 3D printing technology win the race to solve quantum computing's wiring crisis?
Is a new 3D-printed material the key to unlocking the massive scaling required for fault-tolerant quantum computers?
QTREX Quantum’s $1M Grant Fuels Breakthrough in Cryogenic RF Dielectric for Next-Gen Quantum Processors
Overview
QTREX Quantum Ltd. recently received a $1 million grant from the Israel Innovation Authority to develop a native RF dielectric material, a key step for advancing quantum computing. This funding will help QTREX create high-density, low-loss RF signal routing solutions, directly addressing critical connectivity bottlenecks as quantum systems scale. The grant not only provides financial support but also strengthens QTREX’s technical foundation and validates its innovative Additively Manufactured Electronics (AME) approach. As a result, QTREX is positioned as a leading player in building the essential infrastructure for next-generation quantum computing.