Solutions
Matériel
Appropriez-vous votre pouvoir quantique.
Obtenir une indépendance totale en matière de calcul.
3 kW
REQUIRED, COMPARED TO 1,400+ kW FOR CLASSICAL COMPUTERS
15-20 °C
ROOM TEMPERATURE OPERATION
10,000
MAX QUBITS ACHIEVABLE IN A SINGLE QPU, WITH NEUTRAL ATOMS TECHNOLOGY
Why choose Pasqal
Our Quantum Processing Units
Performance maximale, contrôle total
Orion Beta
Current Generation
100 qubits
Noise level
Analog Mode
Open Source Software
Orion Gamma
pre-order, delivery in 2027
200+ qubits
Noise level
Analog Mode
Open Source Software
Already delivered
Take a look inside our quantum processor
Solutions
About HPC Integration
Pasqal is redefining hybrid quantum computing by seamlessly integrating its neutral-atom Quantum Processing Units into High Performance Computing (HPC) centers, echoing the transformative GPU revolution.
By coupling its QPUs with Tier-0 supercomputers, Pasqal enables researchers to tackle complex computational challenges.
Our QPUs are ready to solve your toughest problems.
Let’s innovate together.
1
Consult
with our experts to align quantum solutions with your business needs.
2
Experiment
on our neutral atom QPUs via the cloud and use our software stack to solve business challenges through quantum algorithms with support from Pasqal or our certified partners.
3
Secure
a QPU and have it delivered to your very own Quantum Computing and commissioned at your facility.
4
Start
your very own Quantum Computing journey.
Learn more
about our Offers
On-Premises deployment
Host an Orion processor directly at your facility, ensuring full computational independence and data security.
Virtual QPU Access
Lease a portion of a shared quantum processor via our Virtual QPU service. This cost-effective model allows you to harness quantum power without the need for physical infrastructure
Cloud Integration
This integration enables you to run jobs remotely, monitor progress in real-time, and retrieve results effortlessly through an intuitive interface
The power of neutral atom technology
Unlock quantum computing for real-world applications