Classiq and ParityQC Partner to Optimize and Streamline Quantum Execution

Classiq Technologies LTD
Classiq Technologies LTD

Joint initiative under the EUREKA Germany–Israel call for projects, bringing together Classiq, ParityQC and academic partners the University of Innsbruck and Bar-Ilan University to promote collaborative, innovative industrial R&D projects with strong commercial potential

HAMBURG, Germany and TEL AVIV, Israel, July 15, 2026 (GLOBE NEWSWIRE) — The quantum software company Classiq and the quantum architecture company ParityQC announced a partnership to integrate ParityQC’s Parity Twine technology with Classiq’s quantum software engineering platform, giving developers and enterprises a more efficient path from quantum algorithm design to execution on quantum hardware.

The collaboration focuses on a key opportunity in quantum computing: translating high-level quantum computing applications into circuits that run efficiently on quantum hardware with limited qubit connectivity. Classiq’s universal optimization protocol and ParityQC’s algorithm-aware techniques are leading, and complementary, innovative optimization techniques that will be combined into an integrated methodology. The companies aim to reduce circuit complexity and costly SWAP operations, a common bottleneck in executing quantum programs on today’s quantum computers.

A Media Snippet accompanying this announcement is available by clicking on this link.

This Germany-Israel cross-border initiative will focus on scalable quantum software infrastructure for current noisy quantum devices as well as future fault-tolerant quantum systems. The joint work is designed to enable developers to move from Classiq’s high-level software engineering platform to highly optimized hardware execution, by leveraging both companies’ technologies. The collaboration will strengthen hardware-agnostic approaches that enable interoperability across multiple quantum platforms, critical as quantum hardware continues to evolve rapidly.

“Quantum computing will only become practical at scale if the software layer can automatically bridge the gap between algorithmic intent and the constraints of real machines,” said Nir Minerbi, co-founder and CEO of Classiq. “By working with ParityQC, we are combining high-level quantum software automation with hardware-aware architecture innovation so that developers can build, optimize and execute quantum applications more efficiently across the evolving hardware ecosystem.”

ParityQC’s Parity Twine technology is designed to address routing and connectivity challenges by improving how quantum information is represented, distributed, and interpreted across hardware layouts. The combination of Parity Twine running on an IBM Quantum Heron processor showed a new world-record benchmark implementation for QFT, nearly doubling the previous benchmark. Integrated with Classiq’s model-first platform, the approach is expected to help quantum teams generate more efficient quantum programs while preserving portability across different quantum computing systems.

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