EigenEase Labs builds the middleware and cloud platform that connects quantum hardware to enterprise applications — delivering compiler optimization, QEC real-time decoding, runtime scheduling, and cloud-native quantum delivery.
The Problem
Today's quantum processors are powerful yet inaccessible. A massive software gap separates cutting-edge qubit hardware from real-world applications.
Physical qubits suffer from gate errors, decoherence, and cross-talk that render raw computation unreliable without sophisticated error correction and mitigation.
Every quantum hardware vendor uses proprietary instruction sets and calibration protocols. Porting algorithms across platforms is a research project in itself.
There is no unified middleware — no real-time decoder, no intelligent scheduler, no cloud abstraction — that bridges hardware to enterprise quantum workloads.
The Solution
EigenEase Labs delivers an integrated middleware platform — from qubit to cloud — so hardware vendors and enterprise teams can focus on outcomes, not plumbing.
Hardware-aware transpilation with a universal intermediate representation. Automatic gate decomposition, routing, and optimization for superconducting, trapped-ion, and photonic backends.
eigenIR · eigenCCSub-microsecond syndrome decoding for surface codes and topological codes. FPGA-accelerated hardware decoder with software fallback, purpose-built for the fault-tolerant regime.
eigenDecode · MWPM++Intelligent job dispatch, qubit-resource arbitration, and latency-aware scheduling for multi-tenant quantum processors. Maximizes utilization while guaranteeing SLA fidelity targets.
eigenSchedulerCloud-native delivery with pay-per-use pricing. Includes a full-fidelity digital twin simulator for noise-aware algorithm development and validation before running on real hardware.
eigenCloud · eigenSimGlobal resource management across multi-processor clusters. Automated calibration feedback loops, error budget tracking, and logical qubit overhead minimization.
eigenOptVision & Roadmap
We deliver immediate value in the NISQ era while building the long-term moats that matter in the fault-tolerant future.
Ship eigenCC v1 with cross-platform IR. File first software patents on qubit routing algorithms and hardware-adaptive optimization passes. Establish B2B partnerships with 2 domestic quantum hardware vendors.
Launch eigenDecode with FPGA acceleration achieving sub-µs latency. Deploy eigenScheduler for multi-tenant processor management. Pilot eigenCloud with first enterprise customers — paid subscription ARR > ¥10M.
Full eigenCloud launch with pay-per-use billing. Digital twin simulator supporting 100+ qubit emulation. QEC licensing to international hardware vendors. Series A fundraising targeting ¥100M+.
As fault-tolerant quantum computers become real, EigenEase becomes the universal compilation and runtime layer — the LLVM of quantum computing. Logical qubit abstraction, cross-vendor portability, and the defining infrastructure of the quantum software stack.
"We're building the LLVM of quantum computing — the universal middleware that lets hardware and applications evolve independently, and makes fault-tolerant quantum power accessible to every developer and enterprise."
The Team
We combine deep academic expertise in quantum computing, compiler theory, and systems engineering with hands-on experience at the world's leading quantum research institutions.
Quantum software researcher specializing in quantum compilation, circuit optimization, and error mitigation. Incoming researcher at Xanadu (photonic quantum computing). Deep expertise in quantum algorithms and hardware-software co-design.
Systems architect with expertise in real-time QEC decoding, FPGA-accelerated syndrome processing, and quantum runtime engineering. Research background spanning superconducting and trapped-ion platforms.
Quantum error correction theorist with publications in leading journals on topological codes and decoder algorithms. Bridges cutting-edge QEC research to production-grade engineering.
Get In Touch
Whether you're a quantum hardware vendor, enterprise exploring quantum advantage, or an investor — we'd love to start a conversation.