Solving problems using quantum computing & natural language
TL;DR Quantum computing won’t scale if every program is a hand-written circuit. Coda lets beginners, domain experts, and engineers describe problems in natural language and run them on real quantum processors, without writing low-level quantum code.
I’m Brandon, co-founder of Conductor Quantum. Today we’re launching Coda, a natural language interface for quantum computers.
Coda lets you design, understand, and run quantum programs in natural language, without writing low-level quantum code. We built it because quantum computing is powerful, but still far too hard to actually use.
Quantum computers offer a new computing paradigm for simulating the world at the atomic level. This opens up new possibilities in chemistry, materials science, and drug discovery that push beyond what the largest classical supercomputers can handle.
The problem is most material scientists or biochemists can't use a quantum computer today - the barrier to entry to learn all the new bespoke tools, and the quantum information science is way too high. This is why we are building Coda.
Our long-term goal is simple: access to a quantum computer from every desk. It’s built for domain experts and technical teams who want to explore real quantum use cases today and prototype faster. Also, it’s built for people new to quantum computing who want a practical, hands-on way to learn.
One of the first quantum computers we’re offering on our platform is Rigetti’s 84-qubit quantum computer, plus IonQ and IQM. We also support qubit simulations via IBM Qiskit and NVIDIA cuQuantum + CUDA-Q.
We’re early and learning fast, and we’d love your feedback.
👋 Hi Product Hunters!
I’m Brandon, co-founder of Conductor Quantum. Today we’re launching Coda, a natural language interface for quantum computers.
Coda lets you design, understand, and run quantum programs in natural language, without writing low-level quantum code. We built it because quantum computing is powerful, but still far too hard to actually use.
Quantum computers offer a new computing paradigm for simulating the world at the atomic level. This opens up new possibilities in chemistry, materials science, and drug discovery that push beyond what the largest classical supercomputers can handle.
The problem is most material scientists or biochemists can't use a quantum computer today - the barrier to entry to learn all the new bespoke tools, and the quantum information science is way too high. This is why we are building Coda.
Our long-term goal is simple: access to a quantum computer from every desk.
It’s built for domain experts and technical teams who want to explore real quantum use cases today and prototype faster. Also, it’s built for people new to quantum computing who want a practical, hands-on way to learn.
One of the first quantum computers we’re offering on our platform is Rigetti’s 84-qubit quantum computer, plus IonQ and IQM. We also support qubit simulations via IBM Qiskit and NVIDIA cuQuantum + CUDA-Q.
We’re early and learning fast, and we’d love your feedback.
Happy to answer any questions 👋