Algorithmiq and NVIDIA team up to accelerate quantum computing with advanced error mitigation

Quantum software developer Algorithmiq has joined forces with NVIDIA to develop error mitigation techniques for near-term quantum devices using NVIDIA’s accelerated supercomputing technology. 

The collaboration focuses on improving the performance and reliability of quantum computing systems, with initial results demonstrating a 400x improvement in the performance of Algorithmiq’s Tensor Network Error Mitigation (TEM) solution.

The partnership aims to address challenges in quantum error mitigation, a critical issue in quantum computing, by integrating NVIDIA’s computing capabilities into Algorithmiq’s software solutions. 

This integration is expected to speed up progress toward achieving practical quantum advantage, which has applications in sectors such as finance, healthcare, materials science, and cryptography.

NVIDIA’s Director of Quantum Algorithm Engineering, Elica Kyoseva, emphasized the importance of combining quantum computing and AI supercomputing: 

“Quantum computing’s future hinges on its seamless integration with AI supercomputing. NVIDIA technologies, integrated with innovations such as Algorithmiq’s quantum software, are powering the research that’s bringing useful quantum applications closer to reality and showcasing the crucial role AI supercomputing will play in quantum computing.” 

Algorithmiq plans to demonstrate its progress by Q2 2025 and will showcase its applications of GPU-enabled quantum solutions at upcoming industry events.

Sabrina Maniscalco, CEO and co-founder of Algorithmiq, commented:

"Algorithmiq is uniquely positioned to further the development of quantum computing applications across a vast number of industries. The substantial acceleration of our TEM solution with NVIDIA-accelerated supercomputing is a game-changer for quantum error mitigation.

“Working with NVIDIA creates a tremendous synergy that is poised to drive unprecedented advancements in quantum computing. We're not just pushing boundaries but redefining what's possible in the quantum realm."