SPHINQ — Quantum Computing for the Questions That Matter

// Why quantum, why now

A new substrate for problems we've stopped trying to solve.

For five decades we've stretched silicon to its limits. The problems that matter most — how molecules fold, how materials behave, how to schedule the world without waste — live in a space classical computation was never built to enter. — The SPHINQ thesis

10²⁰

State space of a 70-qubit system. Classical memory required: more bits than atoms in your body.

100×

Speedup demonstrated on optimization workloads against state-of-the-art classical solvers.

2030

The window where industrially-relevant quantum advantage stops being a research question.

∞

The number of problems we don't yet know quantum can solve. We're here to find them.

// The platform

A full quantum stack — from qubit to API.

SPHINQ is built end-to-end. We control the qubits, the compiler, the error-correction layer, and the developer surface — because real-world quantum advantage isn't a hardware problem or a software problem. It's both, deeply intertwined.

Neutral-atom qubits

Long coherence times, native multi-qubit gates, and a path to thousands of physical qubits in a single trap. The architecture the next decade will be built on.

Hardware

Fault-tolerant compiler

Our compiler treats error correction as a first-class citizen, automatically mapping algorithms onto encoded logical qubits. Write the algorithm; we handle the noise.

Software

Hybrid cloud runtime

Submit a job from a notebook; SPHINQ orchestrates quantum and classical resources, returns calibrated results with provenance. No new toolchain required.

Platform

// Where we go first

Four domains where quantum changes the economics.

We work with partners in each of these areas — design partners get early access to the SPHINQ stack and joint engineering on the algorithms that matter to their business.

01 / Life sciences

Drug discovery

Simulate molecular interactions at exact precision. Compress what takes years of wet-lab iteration into weeks of computation.

02 / Materials

Battery & catalyst design

Discover materials with properties that don't exist yet, by exploring chemistry that classical DFT can only approximate.

03 / Logistics

Combinatorial optimization

Routing, scheduling, portfolio allocation — problems where classical solvers give up at scale and quantum heuristics start to win.

04 / Security

Post-quantum cryptography

Quantum threatens today's encryption. SPHINQ helps governments and enterprises audit, transition, and protect what comes next.

// Who's behind it

A small team. The right people.

SPHINQ was founded by physicists and engineers from leading quantum labs and production infrastructure teams. We're hiring — see open roles below.

Founder

CEO & co-founder

Background in quantum information & building zero-to-one teams. Previously [your background].

Co-founder

CTO & co-founder

PhD in atomic physics; spent the last decade making qubits stay still long enough to do something useful.

Advisors

Scientific advisory board

Quantum computing pioneers from MIT, Caltech, ETH and the labs that started this field.

EARLY ACCESS · LIMITED

Tell us about the problem you can't solve. We'll tell you whether quantum can.

Researchers, R&D teams, and curious technologists welcome. We read every message.

✦ You're in. We'll be in touch within a few days.

Or write us directly: contact@sphinq.org