June 14, 2019 –Longueuil, Quebec

Our digital economy depends on keeping data safe from hackers. Cybersecurity is a priority for the Government of Canada. The Canadian Space Agency's Quantum EncrYption and Science Satellite (QEYSSat) mission will test quantum technology that protects communications in space.

The Canadian Space Agency (CSA) is awarding a contract worth $30 million to Honeywell for the design and implementation phases of the QEYSSat mission.

Current encryption methods are expected to be rendered obsolete within the next decade by the exceptional processing power of quantum computers. Slated for launch in 2022, QEYSSat will demonstrate quantum key distribution (QKD) technology in space. This emerging encryption technology will offer Canada a new, more effective method of securing the transfer of information.

Under this contract, Honeywell will build, test, deliver, provide training for and commission the QEYSSat satellite, which will create a link between ground and space to transmit encryption keys. The work is expected to extend until the end of 2022.

The QEYSSat mission is the culmination of a series of research and technology development activities undertaken by the Institute for Quantum Computing, with support from the Government of Canada. It will bring Canada a step closer to an operational quantum communications service from space, and will advance technology to help meet Canada's cybersecurity priorities.

The lessons learned from the QEYSSat mission will be applied to develop future operational systems for government and provide safer, more secure access to services for Canadians. Commercial applications will include enhanced security for internet-based activities, as well as daily financial transactions such as ATM banking.

In addition to the safety and security principle of Canada's Digital Charter, this initiative aligns with the Government of Canada's Innovation and Skills Plan and the new Space Strategy for Canada through enabling future secure communications, as well as enhancing security and sovereignty.