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At Fsas Technologies, we turn the potential of quantum research into practical business solutions. By combining high-performance computing (HPC) platforms, with advanced quantum technologies—such as the Digital Annealer, gate-based quantum computing, and quantum emulation— Fsas Technologies helps organizations tackle challenges that classical systems cannot solve.
Set for release in 2027, the Monaka Supercomputer will deliver unprecedented computational power while maintaining high energy efficiency, enabling quantum technologies to operate at full potential.
Meanwhile, the Digital Annealer has already been applied in over 200 international Proof-of-Concepts, helping businesses optimize operations, solve complex scheduling problems, and accelerate research in areas ranging from logistics to finance.
Quantum is no longer just a future promise—it is practical today, offering organizations faster, smarter, and more efficient solutions to their most complex challenges.
Impacted industries include:
Drug and Material Discovery: Quantum simulations allow researchers to model molecular interactions with exceptional precision, accelerating the development of medicines, materials, and chemicals.
These examples demonstrate that quantum technology is not just theoretical — it is actionable, measurable, and immediately impactful.
Quantum solutions analyze massive datasets to optimize investments, detect patterns, and forecast risks with unmatched speed.
From supply chain and logistics to production scheduling, quantum approaches solve problems faster and more efficiently than classical methods.
Quantum-enhanced models improve weather and climate predictions, enabling earlier detection of extreme events and more accurate risk assessments. These insights support proactive planning, faster response, and more resilient recovery strategies.
Quantum technologies strengthen data protection with Quantum Key Distribution (QKD) for ultra-secure communication, while leveraging quantum annealing to optimize post-quantum cryptographic schemes, ensuring resilience against future quantum-enabled threats.
Quantum approaches enable the design and testing of new materials and energy solutions at a speed and scale that transform research and development.
Fsas Technologies, your trusted partner
Choosing Fsas Technologies means turning quantum innovation into tangible business results. Our approach combines deep technical expertise, real-world experience, and practical application, guiding organizations from research to implementation.
With Fsas Technologies, you can:
Global Experience & Partnerships
Fsas Technologies collaborates with leading technology providers, research institutions, and industry pioneers to deliver high-performance quantum solutions.
These partnerships allow us to:
Key in public-private collaboration to boost quantum tech
At the heart of our quantum capabilities is the Fsas International Quantum Center (IQC), a hub dedicated to research, innovation, and business adoption.
Launched in 2023, the Fsas Technologies IQC serves as Fsas Technologies’ quantum business unit in Europe, working closely with customers and partners to accelerate the adoption of quantum technologies.
Fsas Technologies IQC acts as a catalyst for accelerating the adoption of quantum technologies across Europe, bridging the gap between research and practical business applications.
Development & Commercialization:
Transforming cutting-edge research into solutions that deliver measurable business value.
Knowledge Creation & Talent Attraction:
Attracting top talent and fostering expertise in quantum technologies.
Public-Private Co-Creation:
Building collaborative spaces where research, business, and education intersect to drive breakthroughs.
Quantum Technology Hub:
Offering a central platform for experimentation, innovation, and solution scaling.
Communication & Public Awareness:
Sharing insights, case studies, and best practices to increase understanding of quantum technology’s potential.
2000s – Enterprise Systems and Frequency Scaling
Fujitsu delivered powerful enterprise systems and focused on increasing processor clock speeds to meet growing computational needs.
With systems such as FX-10, Fujitsu enabled large-scale scientific simulations and the rise of data analytics to tackle complex research challenges.
The FX-1000 supercomputer and the A64FX processor powered breakthroughs in solving social and industrial issues, including climate modeling, healthcare, and manufacturing optimization.
To address combinatorial optimization problems in logistics, drug discovery, and finance, Fujitsu introduced the Digital Annealer (DAU) — a classical but quantum-inspired processor delivering quantum-like performance for real-world business problems.
Building on this foundation of HPC and quantum-inspired solutions, Fujitsu is advancing towards practical quantum computers in collaboration with RI
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Digital Annealer is the world's first quantum-inspired digital technology architecture, capable of performing parallel, real-time optimization calculations at speed, with precision and on a scale classical computing cannot.
It is a ground-breaking solution inspired by the key characteristics of quantum computing - superposition, quantum tunneling, and entanglement - to enable the simultaneous evaluation of a staggering number of potential options and the delivery of lightning-fast insights.
The Digital Annealer employs advanced technology to solve large-scale complex combinatorial optimization problems in near real-time.
Delivered as an end-to-end service, it can be deployed anywhere from cloud to on-premises. Digital Annealer is fully compatible with existing architectures and fits into existing business workflows and processes.
Fujitsu Quantum-Inspired Digital Annealer improves precision and drastically reduces the time required to solve combinatorial optimization problems for businesses in a real-world scenario, today.
Fsas Technologies expert engineers work to understand business problems, formulate and convert the problems into QUBOs, and use Digital Annealer to find solutions across many industries, including:
At Fsas Technologies, our work in quantum computing spans real-world implementations, collaborative R&D projects, and proof-of-concepts with leading companies.
From international use cases that demonstrate the impact of quantum solutions, to partnerships with universities and research centers, and successful pilots with major industry players, we bring together expertise, innovation, and strong alliances to turn quantum potential into tangible results.
Quantum Key distribution link Santiago - Vigo
QKD has the advantage to ensure information security based on the fundamental laws of quantum physics.
This project aims to ensure ultra secure data communications through the deployment of a QKD communications line between Vigo Quantum Communications Center (VQCC) and Galicia Supercomputing Center (CESGA) , 120 km apart.
ARQA. Quantum network developing
Fsas Technologies participates in arqa quantum network developing:
Quantum algorithms for computer vision applied to satellite image classification
Hybrid approaches for Quantum-Classical Neural Networks
GRAVITEQA
GRAVITational StoragE, Quantum computing, and AI for enhanced Circularity and Reliability in Clean transition-affected sector-coupled electricity grids Objective: Demonstrate technical feasibility of solutions that enable reliability and circularity of sector-coupled electricity grids affected by clean energy transition, by combining emerging technologies, such as gravitational storage, QC,QIC, trustworthy AI, and edge intelligence.
QUORUM
Objective: The QUORUM project aims to promote a Spanish ecosystem of quantum technologies with the aim of generating knowledge, improving technology transfer, developing local talent, identifying useful use cases for the industry etc.
