Research Collaborations
APS March Meeting Talks Featuring the Team from Harmoniqs 📚
- Automated calibration of optimal control pulses on a superconducting quantum RAM (QRAM) device, 3:00 pm – 5:48 pm, Tuesday March 18 :: Session MAR-J36
- Engineered quantum interaction of Rydberg atom arrays with quantum optimal control 3:00 pm – 5:24 pm, Monday March 17 :: Session MAR-C36
- Optimally Band-Limited Noise Filtering and Crosstalk Mitigation for Single Qubit Gates in Multi-Qubit Systems, 8:00 am – 11:00 am, Tuesday March 18 :: Session MAR-F36
- Implementation of a Quantum Switch with Superconducting Circuits: Parts I and II 8:00 am – 11:00 am, Monday March 17 :: Session MAR-A18
Enabling Innovation Through Research Partnerships 🚀
At Harmoniqs, we're focused on enabling quantum technology with quantum optimal control, providing fine-tuned solutions for researchers and institutions worldwide. Our technology is used today to optimize quantum operations, enhance error mitigation, and accelerate experimental breakthroughs in quantum control, quantum algorithms, and quantum hardware development.
Future fault-tolerant quantum computing is about making the entire quantum computing stack better and more integrated, whether that's faster automated callibration routines or accelerated control design using NVIDIA Grace Hopper GPUs. We deliver intelligent, adaptive control that can help scientists and engineers maximize classical-quantum processor links.
Join Our Research Network 🤝
Want to work with Harmoniqs for your research? We actively collaborate with universities, research labs, and industry leaders in quantum technology
📩 Get in Touch: [Contact via Email]
Why Researchers Choose Harmoniqs 🎯
✔️ State-of-the-Art Technology – Our software empowers researchers with cutting-edge control technology from robotics 🤖.
✔️ Scalable & Customizable – Our open-source tools take advantage of the high-performance of Julia and are totally customizable. Our Python interface allows for seamless integration with existing research workflows.
✔️ Trusted by Experts – Used at leading institutions like Stanford, UChicago, NYU, and Harvard, as well as companies like Infleqtion and National Labs like Fermilab.
✔️ Open Collaboration – We support open science and open source. We are proud to be supported by the Unitary Foundation.
Featured Research Collaborations 🏛️
➡️ Hamiltonian Engineering in Rydberg Atom Arrays
📍 Collaboration: Abigail McClain Gomez, Hong-Ye Hu, and Susanne Yelin at Harvard University
📜 Overview:
We systematically benchmark the expressivity of neutral atom arrays by engineering effective quantum interactions under various control constraints, including global control and Rydberg blockade interactions.
➡️ Controlling Quantum RAM
📍 Collaboration: Schuster Lab at Stanford University
📜 Overview:
Building and testing new hardware requires design and execution of complex novel controls. We developed new integrated control and callibration solutions to dramatically reduce time spent iterating between designing and testing controls.
➡️ Classical-Quantum Integration with QICK
📍 Collaboration: Fermilab, Chicago, IL
📜 Overview:
Maximizing classical-quantum hardware integration is essential for quantum computers to make the most of classical resources. We are working to develop a new version of the widely-used Quantum Instrumentation Control Kit (QICK), an open-hardware project that is the backbone of many quantum computing research efforts.
➡️ Control primitives for quantum sensors
📍 Collaboration: Infleqtion
📜 Overview:
Our innovative approach to quantum optimal control allowed for the design of novel, integrated approaches to existing sensing protocols, making them fast and increasing their performance.
➡️ Novel bosonic operations
📍 Collaboration: Vrajitoarea Lab at NYU
📜 Overview:
Bosonic encodings offer unique advantages for quantum error correction, but state spaces are large! We help by driving innovation with scalable control solutions.
Innovation thrives in collaboration. Let's build the future together.