Your Gateway to the Quantum Age

Pioneering high-performance and user-friendly software platforms that unlock the full potential of quantum hardware.

What we do

Offerings

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Quantum Benchmarking

Evaluate performance with tailored or open-source application-oriented benchmarks designed to reflect real-world quantum workloads.

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Integrate Applications & Hardware

Maximize your application’s performance through our custom code compilation services

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Quantum Machine Learning Platform

Train quantum models on your data

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Quantum Omics

Use quantum computers to extract insights from biological data

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Quantum Machine Learning Platform

Engage with us

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Build generative and predictive models on real datasets

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Benchmark models, estimate resources, and project performance vs. classical

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Optimize model implementations for execution on current hardware

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Research on abstractions

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Research papers

A Quantum Platform for Multiomics Data ↗︎

Bit-bit encoding, optimizer-free training and sub-net initialization: techniques for scalable quantum machine learning ↗︎

Application-Oriented Performance Benchmarks for Quantum Computing ↗︎

Quantum Algorithm Exploration using Application-Oriented Performance Benchmarks ↗︎

A Comprehensive Cross-Model Framework for Benchmarking the Performance of Quantum Hamiltonian Simulations ↗︎

Blog

Research Themes

Full Stack Quantum Software

What will it take to make quantum computing truly usable? How can we connect high-level application needs with the gritty realities of quantum hardware?

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Building Quantum Intelligence

What will it mean to create a new kind of intelligence – one that relies on quantum superposition and entanglement – which can discover patterns beyond the reach of classical logic?

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Quantum Programming Abstractions

What does it mean to program a quantum computer? Why are we still stuck specifying individual qubit gates by hand? And what would a true quantum programming language look like?

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Founder Profile

Dr. Sonika Johri is Founder & CEO of Coherent Computing, a company focused on building software platforms to enable users to take advantage of the rapidly expanding capabilities of quantum hardware. As a Principal Researcher at IonQ, she led a team working on quantum applications R&D for clients ranging from startups to Fortune 500 companies.

She has authored 40+ peer-reviewed publications, recently focusing on cutting‐edge quantum algorithm demonstrations in the areas of generative and discriminative machine learning, quantum chemistry, optimization, and condensed matter physics across a variety of quantum hardware platforms, as well as developing frameworks for quantum benchmarking.

She has a PhD in theoretical condensed matter physics from Princeton University.