IBM Releases a New Blueprint for Quantum-Centric Supercomputing

• New reference architecture outlines a practical, scalable path for combining quantum and classical computing
• Scientific breakthroughs in chemistry, materials science, and molecular simulation are pushing beyond the limit of classical computing driven through quantum-centric approach
• IBM's architecture brings quantum and classical computing together through open software and coordinated workflows

YORKTOWN HEIGHTS, N.Y., March 12, 2026 /PRNewswire/ -- IBM (NYSE: IBM) today unveiled the industry's first published quantum‑centric supercomputing reference architecture, a new blueprint for integrating quantum computing into modern supercomputing environments. The architecture shows how quantum processors (QPUs) can work alongside GPUs and CPUs—across on‑premises systems, research centers, and the cloud—in order to tackle scientific challenges that no single computing approach can solve on its own.

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Designed for today's workloads and built to evolve over time, the architecture brings quantum and classical systems together into a unified computing environment. It combines quantum hardware with powerful classical infrastructure, including CPU and GPU clusters, high‑speed networking, and shared storage, to support computationally intensive workloads and algorithms research.

On top of this foundation, IBM's approach enables coordinated workflows that span quantum and classical computing. Integrated orchestration and open software frameworks, including Qiskit, allow developers and scientists to access quantum capabilities through familiar tools and workflows—making it easier to apply quantum computing to problems in areas such as chemistry, materials science, and optimization.

"More than four decades ago, Richard Feynman envisioned computers that could simulate quantum physics," said Jay Gambetta, Director of IBM Research and IBM Fellow. "At IBM, we've spent years turning that vision into reality. Today's quantum processors are beginning to tackle the hardest parts of scientific problems—those governed by quantum mechanics in chemistry. The future lies in quantum-centric supercomputing, where quantum processors work together with classical high-performance computing to solve problems that were previously out of reach. IBM is building the technology and systems that brings this future of computing into reality today."

Scientists are already using IBM's quantum-centric architecture to deliver accurate results for real experiments. Recent results represent some of the strongest evidence yet that quantum computers combined with classical computing workflows can be used to accelerate scientific discovery:

• Researchers from IBM, the University of Manchester, Oxford University, ETH Zurich, EPFL, and the University of Regensburgcreated a first‑of‑its‑kind half‑Möbius molecule, verifying its unusual electronic structure with a quantum-centric supercomputer published in Science.
• Cleveland Clinic simulated a 303‑atom tryptophan‑cage mini‑protein, one of the largest molecular models ever executed on a quantum-centric supercomputer.
• A team from IBM, RIKEN, and the University of Chicagouncovered the lowest‑energy state of engineered quantum systems, outperforming state-of-the-art classical‑only approaches.
• RIKEN and IBM scientists achieved one of the largest quantum simulations of iron‑sulfur clusters, a fundamental molecule in biology and chemistry, through closed loop data exchange between a co-located IBM Quantum Heron processor and all 152,064 classical compute nodes of RIKEN's Fugaku supercomputer.
• Algorithmiq, Trinity College Dublin, and IBM collaborators published methods in Nature Physics to accurately simulate many-body quantum chaos systems, such as collections of atoms and electrons, using classical compute resources for noise mitigation.

YORKTOWN HEIGHTS, N.Y., March 12, 2026 /PRNewswire/ -- IBM (NYSE: IBM) today unveiled the industry's first published quantum‑centric supercomputing reference architecture, a new blueprint for integrating quantum computing into modern supercomputing environments. The architecture shows how quantum processors (QPUs) can work alongside GPUs and CPUs—across on‑premises systems, research centers, and the cloud—in order to tackle scientific challenges that no single computing approach can solve on its own.

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Designed for today's workloads and built to evolve over time, the architecture brings quantum and classical systems together into a unified computing environment. It combines quantum hardware with powerful classical infrastructure, including CPU and GPU clusters, high‑speed networking, and shared storage, to support computationally intensive workloads and algorithms research.

On top of this foundation, IBM's approach enables coordinated workflows that span quantum and classical computing. Integrated orchestration and open software frameworks, including Qiskit, allow developers and scientists to access quantum capabilities through familiar tools and workflows—making it easier to apply quantum computing to problems in areas such as chemistry, materials science, and optimization.

"More than four decades ago, Richard Feynman envisioned computers that could simulate quantum physics," said Jay Gambetta, Director of IBM Research and IBM Fellow. "At IBM, we've spent years turning that vision into reality. Today's quantum processors are beginning to tackle the hardest parts of scientific problems—those governed by quantum mechanics in chemistry. The future lies in quantum-centric supercomputing, where quantum processors work together with classical high-performance computing to solve problems that were previously out of reach. IBM is building the technology and systems that brings this future of computing into reality today."

Scientists are already using IBM's quantum-centric architecture to deliver accurate results for real experiments. Recent results represent some of the strongest evidence yet that quantum computers combined with classical computing workflows can be used to accelerate scientific discovery:

These results confirm the ability of IBM's quantum computers to deliver value to scientific problems.

As new quantum‑centric algorithms emerge, IBM's global ecosystem of clients and partners will continually evolve this architecture to support sophisticated resources, networks and software capabilities. For example, IBM and Rensselaer Polytechnic Institute are improving how workflows can be seamlessly scheduled and orchestrated across quantum and high-performance computing resources. Deploying new algorithms on top of this maturing architecture will drive the next wave of applications in chemistry, materials science, optimization, and beyond, poising them to scale exponentially.

You can read more about IBM's progress in extending useful quantum computing to HPC centers, here; and more technical detail about the first reference architecture for quantum-centric supercomputing, here.

About IBM

IBM is a leading global hybrid cloud and AI, and business services provider, helping clients in more than 175 countries capitalize on insights from their data, streamline business processes, reduce costs and gain the competitive edge in their industries. Thousands of governments and corporate entities in critical infrastructure areas such as financial services, telecommunications and healthcare rely on IBM's hybrid cloud platform and Red Hat OpenShift to affect their digital transformations quickly, efficiently and securely. IBM's breakthrough innovations in AI, quantum computing, industry-specific cloud solutions and business services deliver open and flexible options to our clients. All of this is backed by IBM's legendary commitment to trust, transparency, responsibility, inclusivity and service.

For more information, visit https://research.ibm.com.

Media Contacts:

Erin Angelini
IBM Communications
edlehr@us.ibm.com

Brittany Forgione
IBM Communications
brittany.forgione@ibm.com

 

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IBM Releases a New Blueprint for Quantum-Centric Supercomputing

VICTORIA, Seychelles, March 12, 2026 /PRNewswire/ -- In the wake of International Women's Day, MEXC, —the fastest-growing global cryptocurrency exchange redefining the user-first approach to digital assets through true zero-fee trading—released its inaugural women in the workforce data. The figures span representation, leadership, hiring growth, technical contribution, and retention.

Women make up 43% of MEXC's total workforce — some 15 percentage points above the global technology industry average of 28%. At the management level, 40% of roles are held by women, with 15 in senior leadership positions. The distance between broad representation and decision-making authority — often where equity commitments quietly dissolve — is narrow at MEXC.

The hiring trajectory reinforces this: female hires have grown 49% year-on-year over three years, across 411 employees spanning APAC, EU, MENA, and LATAM. This is not growth concentrated in any single market or function — it is consistent, global, and accelerating.

Perhaps the most telling figure is the 85% post-maternity return-to-work rate, In an industry where research shows only 13% of mothers consider a full-time return after maternity leave viable, it points less to policy than to infrastructure — an environment where career continuity is the norm, not the exception.

Within the technical workforce, 195 women hold core roles in engineering and product. The platform ties this to the wider shortage of STEM and blockchain education pathways and says it will target the problem with dedicated research and financial literacy programs.

MEXC is committed to going further. Formalising wage equality confirmation and expanding visibility for women at global industry forums are priorities on its active agenda — the next markers on a trajectory that the data published today has begun to chart. The data published today is a baseline, not a verdict, and forms part of a commitment to annual disclosure.

The digital asset industry is still at a stage where its norms are being written. MEXC's view is that equitable access to opportunity, resources, and advancement within that industry should not be contingent on gender. The work that underpins that view is ongoing.

The full Workforce Report is available here.

About MEXC

Founded in 2018, MEXC is committed to being "Your Easiest Way to Crypto." Serving over 40 million users across 170+ countries, MEXC is known for its broad selection of trending tokens, everyday airdrop opportunities, and low trading fees. Our user-friendly platform is designed to support both new traders and experienced investors, offering secure and efficient access to digital assets. MEXC prioritizes simplicity and innovation, making crypto trading more accessible and rewarding.

MEXC Official Website｜ X ｜ Telegram ｜How to Sign Up on MEXC

 

VICTORIA, Seychelles, March 12, 2026 /PRNewswire/ -- In the wake of International Women's Day, MEXC, —the fastest-growing global cryptocurrency exchange redefining the user-first approach to digital assets through true zero-fee trading—released its inaugural women in the workforce data. The figures span representation, leadership, hiring growth, technical contribution, and retention.

Women make up 43% of MEXC's total workforce — some 15 percentage points above the global technology industry average of 28%. At the management level, 40% of roles are held by women, with 15 in senior leadership positions. The distance between broad representation and decision-making authority — often where equity commitments quietly dissolve — is narrow at MEXC.

The hiring trajectory reinforces this: female hires have grown 49% year-on-year over three years, across 411 employees spanning APAC, EU, MENA, and LATAM. This is not growth concentrated in any single market or function — it is consistent, global, and accelerating.

Perhaps the most telling figure is the 85% post-maternity return-to-work rate, In an industry where research shows only 13% of mothers consider a full-time return after maternity leave viable, it points less to policy than to infrastructure — an environment where career continuity is the norm, not the exception.

Within the technical workforce, 195 women hold core roles in engineering and product. The platform ties this to the wider shortage of STEM and blockchain education pathways and says it will target the problem with dedicated research and financial literacy programs.

MEXC is committed to going further. Formalising wage equality confirmation and expanding visibility for women at global industry forums are priorities on its active agenda — the next markers on a trajectory that the data published today has begun to chart. The data published today is a baseline, not a verdict, and forms part of a commitment to annual disclosure.

The digital asset industry is still at a stage where its norms are being written. MEXC's view is that equitable access to opportunity, resources, and advancement within that industry should not be contingent on gender. The work that underpins that view is ongoing.

The full Workforce Report is available here.

About MEXC

Founded in 2018, MEXC is committed to being "Your Easiest Way to Crypto." Serving over 40 million users across 170+ countries, MEXC is known for its broad selection of trending tokens, everyday airdrop opportunities, and low trading fees. Our user-friendly platform is designed to support both new traders and experienced investors, offering secure and efficient access to digital assets. MEXC prioritizes simplicity and innovation, making crypto trading more accessible and rewarding.

MEXC Official Website｜ X ｜ Telegram ｜How to Sign Up on MEXC

 

** This press release is distributed by PR Newswire through automated distribution system, for which the client assumes full responsibility. **

MEXC Women in Workforce Data: Leading with 43% Female Representation and 49% YoY Growth