Quantum computers without good quantum algorithms are dumb machines
As part of our mission to revolutionize life sciences, we recognize that quantum computing requires breakthroughs for efficient use of the hardware. To achieve this, we have developed the necessary innovations to drive this transformation forward. Tools such as our proprietary quantum algorithms, Tensor-Network Error Mitigation, are now available to a wider range of industries, including materials science, optimization, quantum software and machine learning.
Digital Quantum Interface
Introducing DQI, our groundbreaking Digital Quantum Interface, a platform designed to seamlessly connect quantum computers with classical systems. This integration enables us to harness the full potential of both technologies in the most optimal way. Our unique approach utilizes informationally complete measurements, a patented method, allowing us to post- process quantum computation results with cutting-edge classical algorithms like tensor networks on the most advanced HPC platforms.
Experience the future of computing with DQI, where quantum and classical innovations meet.
Measurement Toolbox
Achieving the levels of precision required for certain applications can be challenging for quantum computing. At Algorithmiq, we make the most of informationally complete measurements to reduce errors, save computational resources and ensure we deliver quality and precision.
Error mitigation toolbox
Error mitigation is crucial in quantum computation to ensure accurate and reliable results, as quantum systems are highly susceptible to errors. At Algorithmiq, we develop optimal error mitigation methods that are scalable and effective across various applications, enhancing the performance and dependability of quantum computations.
Circuit optimisation toolbox
Efficient quantum circuits speed up algorithms and reduce errors by minimizing the number of quantum gates and operations. This optimization is crucial for maximizing quantum computers’ potential. At Algorithmiq, circuit optimization is a core focus, ensuring our solutions are powerful and precise.
Aurora
Aurora is our state-of-the-art quantum chemistry platform based on breakthrough quantum software for molecular simulations in chemistry, material sciences, and life sciences. Integrated with our Digital Quantum Interface, it seamlessly combines them with industry-leading chemistry software packages. Aurora enables ab-initio simulations based on quantum mechanics and applies quantum-inspired methods to optimize data-driven solutions in bioinformatics and network biology, pioneering a new framework called quantum network medicine.