2026 computing frontier
Breakthrough 154‑qubit processor built for American research, defense, and enterprise. Stable, scalable, and room‑temperature assisted.
qubits
fidelity
error rate
beyond classical: 2026 quantum advantage
Table of Contents
ToggleNot just more qubits — error‑corrected, cryo‑free operation, and US‑based supply chain. Built for the post‑exascale era.
room‑temp assist
Optical interconnects keep 80% of control electronics at room temperature — drastically reducing footprint and cost.
intrinsic security
Hardware‑level encryption primitives; designed for FedRAMP High and DoD impact levels.
fusion qubits
Combines fluxonium and transmon for 99.7% two‑gate fidelity — best in class.
hybrid cloud
Native integration with AWS, Azure, and on‑prem HPC — deploy anywhere.
haebzhizga‑154 vs previous gen
early 2020s quantum
- ❌ 50‑80 qubits, high noise
- ❌ millikelvin only
- ❌ 95% fidelity at best
- ❌ no error correction
haebzhizga‑154 (2026)
- ✅ 154 qubits (logical 12)
- ✅ room‑temp interface
- ✅ 99.7% fidelity
- ✅ surface‑code ready
⚡ 10,000x speedup on specific optimization problems (NIST 2026 benchmarks)
inside the cryo‑free core
photonic links
Fiber‑coupled control eliminates thousands of coaxial cables — simplifies scaling to 1,000+ qubits.
ASIC controllers
Custom cryoCMOS at 4K — each chip handles 32 qubits, reducing latency and power.
active decoupling
Dynamical decoupling sequences extend coherence beyond 500 µs — ideal for deep circuits.
modular racks
Standard 19″ datacenter form factor — fits existing HPC infrastructure.
trusted by US labs & innovators
“We integrated the haebzhizga‑154 into our materials simulation pipeline. The 154‑qubit access gave us exact solutions for high‑Tc superconductors — something classical supercomputers couldn’t touch.”
— Dr. Elena Voss, Fermilab
“The hybrid cloud API is a game changer. We run quantum chemistry workloads on prem, then burst to haebzhizga when we need more qubits. And it’s all FedRAMP compliant.”
— Marcus Chen, CTO QuantumBiotech
“I’ve worked with every major quantum platform. The haebzhizga team’s focus on error correction and room‑temperature I/O is the most pragmatic path to fault tolerance.”
— Prof. Stephen Greer, MIT
answers for technical leaders
❓ Can we access the haebzhizga‑154 via cloud?
Yes — we provide direct API access through AWS Braket, Azure Quantum, and a dedicated on‑prem appliance for classified work. All data stays within US borders.
❓ What programming framework does it use?
Native support for Qiskit, Cirq, and our own haebzhizga SDK (Python/C++). You can also use OpenQASM 3.0 directly.
❓ How does the room‑temperature assist work?
We use photonic interconnects to bring control signals in and out of the dilution fridge. Only the qubit chip sits at 10mK — most electronics stay outside, reducing complexity.
❓ Is it ITAR / EAR controlled?
haebzhizga‑154 is subject to US export controls. We work with defense and intelligence agencies under strict compliance. Civilian research access is available via approved entities.
reserve your quantum capacity
Early access for US research institutions, Fortune 500 innovation labs, and federal partners. Deployment slots for Q4 2026 are limited.
* NDA required for detailed specifications — national security protocols apply.
