Quantum Valley Tech Park: Making India’s Quantum Revolution

QVTech Park

IBM and Tata Consultancy Services are working together to enhance quantum computing in Andhra Pradesh's Quantum Valley Tech Park in Amaravati. IBM and the Andhra Pradesh government want an IBM Quantum System Two at the tech park's centre. It would have a 156-qubit Heron quantum processor, making it India's biggest quantum computer.

Additionally, TCS and IBM are working together to develop algorithms and software to help Indian industry and academia solve some of the country's biggest problems. A new TCS-IBM collaboration gives local scientists and engineers access to IBM's cloud-based quantum computers. This project by IBM, TCS, and the Andhra Pradesh government aims to accelerate India's quantum ecosystem.

The article discusses a large quantum computing cooperation involving IBM, Tata Consultancy Services (TCS), and the Government of Andhra Pradesh in India.

The important points are:

What it is

Its major goal is Quantum Valley Tech Park. This new innovation park emphasises quantum computing.

Its location

The tech park is being created in Amaravati, Andhra Pradesh's capital. They think Andhra Pradesh is India's most innovative and futuristic state.

The primary tech

An installation of the next-generation IBM Quantum System Two will anchor Quantum Valley Tech Park. A 156-qubit Heron quantum processor is planned for this device. If all goes well, it will be India's largest quantum computer. Access to this system requires export licenses and agreements.

The IBM Role

IBM provides quantum computing technologies, including the Heron processor-equipped IBM Quantum System Two. The Qiskit software and other resources are also included. IBM is a global leader in AI, hybrid cloud, and consultancy services.

TCS's Role

IBM and Andhra Pradesh are TCS partners. Supporting quantum algorithms and applications is essential to their work. Through a partnership with IBM, TCS is allowing local scientists and technicians to access IBM's cloud-based quantum computers. TCS will create quantum application cases across sectors to advance applied research and innovation in the Quantum Valley Tech Park. TCS partners in digital transformation.

Andhra Pradesh Government Role

The state government is building Amaravati's Quantum Valley Tech Park. They are in negotiations with IBM about anchoring the park with Quantum System Two. The government supports the National Quantum Mission of India, which aims to make India a quantum industrial hub. The government expects the park and its quantum environment to attract top talent, high-end jobs, and foreign investment. Andhra Pradesh Chief Minister N. Chandrababu Naidu is highlighted. L&T is another tech park partner.

Goals and objectives

India's quantum ecosystem's rapid expansion is the goal. The cooperation addresses tough challenges for Indian academia and industry. They develop quantum algorithms and applications to address intractable problems and progress technology and the economy. The goal is to find quantum-advantaged applications that can address real-world commercial problems beyond traditional computing. Jay Gambetta, Vice President, IBM Quantum, suggests merging this effort with India's National Quantum Mission to speed up quantum advantage demonstration.

Focused Industries and Applications

TCS will develop quantum application cases in materials research, life sciences, supply chain resilience, energy optimisation, cryptography, and sustainable manufacturing.

Access to Resources

Quantum Valley Tech Park participants can work with TCS to utilise IBM's cloud-based quantum computers. The IBM Quantum System Two would be available when the park is constructed and agreements are closed. TCS will provide corporate leaders, academic institutions, and researchers access to IBM's quantum computers and resources.

The article highlights quantum computing advancements in India by focussing on a new tech park in Andhra Pradesh that will contain a powerful IBM quantum computer. TCS is developing the applications and algorithms needed to tackle real-world issues and assist India's quantum mission. This announcement is dated May 2, 2025.

Theoretical chemistry

Theoretical chemistry is a branch of chemistry that uses mathematical models and computational techniques to understand, predict, and explain chemical phenomena. By applying quantum mechanics, molecular dynamics, and statistical mechanics, theoretical chemists explore the electronic structure, reactivity, and properties of molecules, materials, and complex biological systems. This field provides insights that aid in the design of new compounds and materials, simulating chemical reactions and understanding molecular behavior in various states of matter. It bridges the gap between experimental chemistry and pure physics, offering a powerful framework for predicting chemical behavior at atomic and molecular scales.

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It takes three to tangle: Long-range quantum entanglement needs three-way interaction | phys.org

It takes three to tangle: Long-range quantum entanglement needs three-way interaction | phys.org

A theoretical study shows that long-range entanglement can indeed survive at temperatures above absolute zero, if the correct conditions are met.   Source: It takes three to tangle: Long-range quantum entanglement needs three-way interaction Very “cool” (errm… or not, actually 🙂 )! A group of researchers from RIKEN Center for Advanced Intelligence Project found that quantum entanglement over long…

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Auterion, Quantum-Systems Partner on Two New VTOL sUAS

#Auterion, #QuantumSystems Partner on Two New #VTOL #sUAS

Auterion Government Solutions Inc (AGS Inc) and Quantum-Systems GmbH announced that they have partnered to bring the Vector and Scorpion small Unmanned Aerial Systems (sUAS) to the U.S. Government Defense and Security markets.

The partnership brings together best-in-class sUAS hardware with a secure, scalable, open-source, operating system, Auterion OS. Auterion OS is currently employed on an…

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#QuantumSystems #Nanotech #Spintronics: researchers developed a technique to manipulate spin and orbital states using electric and magnetic fields. The findings show that quantum dots can be easily manipulated and studied through applied magnetic fields - https://t.co/taRxIeIV7n pic.twitter.com/vOHZW1ZCwd

— The Royal Vox Post (@RoyalVoxPost) December 16, 2019

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Belenos: Quandela’s Photonic Quantum Computing Innovation

Quandela, a European photonic quantum computing company, introduced Belenos, its most advanced quantum computing technology. This 12-qubit photonic quantum processor was a scientific and strategic milestone as the company strives towards scalable, fault-tolerant quantum systems by 2030.

Belenos, named after the Celtic god of light, is a technical and photonic quantum ecosystem milestone. This new system gives academics, developers, and enterprises worldwide unprecedented cloud computing capabilities with a 4,000-fold processing power improvement over Quandela's prior machines.

A Tech Advance

Belenos uses photons as qubits, choosing the stability and room-temperature operation of light-based computing over superconducting or trapped-ion quantum computers. Photonic devices are ideal for scalable, commercial-grade quantum computing due to their low environmental interference and ease of maintenance.

Quandela claims Belenos is cloud-accessible and supports over 1,200 users in 30 countries in a fast-growing global network. These users include government labs, academic organisations, and enterprises studying quantum applications in finance, logistics, chemistry, AI, and machine learning.

Belenos is more than a technical feat—it's a foundation for Quandela's quantum computing efforts. After dismissing quantum computing as a pipe dream, industries are increasingly interested. They can now model, explore, and solve difficult problems.

A 2030 plan

Belenos are essential to Quandela's 2030 roadmap to construct fault-tolerant quantum systems that solve large-scale real-world problems. This program will next implement Canopus, which will double Belenos' qubit count in a year. Quandela expects Canopus to have 16 million times more quantum computing capacity than prior systems, expanding applications and performance limits.

Quandela hopes to reach 50 logical qubits by 2028, which experts think might enable quantum advantage in major industrial applications. Quandela is leading the photonic quantum race with a 2030 objective of hundreds of logical qubits, which matches global goals.

A leading quantum theorist says every discovery helps create fault-tolerant quantum computers. Expanding to meet industry need while preserving strong scientific foundations is the goal.

Industry Partnerships and Funding Support

More than €50 million in funding has helped Quandela scale in the European quantum ecosystem. These funding aim to improve Quandela's integrated photonic chip manufacturing, quantum system production, and international expansion. The company makes all its own photonic chips, distinguishing it in a crowded global market.

Quandela's success has also attracted industry partnerships. Energy businesses are modelling combustion, scientists are reconstructing molecular structures, and AI researchers are creating quantum-enhanced learning models on cloud platforms. Through its partnership with OVHcloud, a leading European cloud provider, Belenos is available to consumers worldwide via low-latency, secure infrastructure.

Quantum Leadership in Europe

European strategy emphasises technical independence and quantum sovereignty, as shown by Quandela's rise. Quandela's engagement in EU quantum flagship programs and France's quantum policy impacts Europe's quantum future.

The French Minister for Digital Transition and Telecommunications, Jean-Noël Barrot, praised the Belenos debut, noting that Quandela represents European innovation. Their advances ensure that no one area will control computing's future and strengthen their quantum technological leadership.

Quandela's selection as a provider for France's first publicly available quantum computing platform shows its commitment to democratising quantum technology and diversifying the talent pool.

Developer-focused and simple

Developer-first strategy makes Belenos appealing. The device integrates with Quandela's open-source software platform Perceval, making photonic quantum circuit simulation easy. Due to its Python-based interface, developers, researchers, and educators from many technological backgrounds can use this framework.

Quandela has invested in workshops, training materials, and relationships with top European institutions to prepare the next generation of quantum engineers.

Making quantum computing accessible requires more than just online gear. Giving people the skills and knowledge to use it effectively.

Anticipating

With Belenos being fully functional and widely available, Quandela can lead a new era of practical quantum experimentation. Its roadmap, technical innovation, strategic investment, and international contacts show its long-term goal of industrial use from the lab.

The forthcoming Canopus system and its exponentially expanded processing power are expected to challenge quantum computers' limitations. The quantum community will closely examine Belenos' effectiveness in consumers' hands and its possible advances in aeronautical engineering and drug research.

Quandela's advances suggest that photonic quantum computing may allow light to tackle the hardest computational problems.

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IBM Quantum Information Science and Fermilab’s SQMS Centre

Fermilab SQMS

IBM Plans to Advance Critical Quantum Information Science Initiatives in Collaboration with Fermilab’s SQMS Centre.

In order to extend quantum workforce development programmes and significantly advance crucial technologies and applications of superconducting quantum systems, IBM intends to join Fermilab’s SQMS Centre.

SQMS Meaning

The U.S. Department of Energy Office of Science, Science Programmes, has authorized IBM’s entry as a new partner in the Superconducting Quantum Materials and Systems Centre, a DOE National Quantum Information Science Research Centre, hosted by Fermilab. SQMS Centre is committed to developing key quantum technologies, with a focus on superconducting quantum systems, as a prominent national and worldwide research centre.

IBM is pioneering superconducting quantum computing. These two organizations hope to tackle major challenges in quantum computing, communication, and superconducting quantum platform use by working together.

Huge cryogenics

IBM and SQMS plan to collaborate on the development of technologies that are essential for the large-scale data centre scaling up of quantum computing. At Fermilab, SQMS is already putting forth innovative ideas for larger-scale, more efficient milli-Kelvin cryogenics. The largest dilution refrigerator in the world, dubbed “Colossus,” will house 3D superconducting radiofrequency (SRF)-based quantum computing and sensor devices.

IBM is going to supply useful data and guidelines to increase the reach of Colossus. Creating a large-scale cooling system based on LHe/N2 plants is one aspect of this, as it would be appropriate for IBM’s upcoming large-scale commercial quantum computing systems.

Superior and abundant quantum interconnects

High-density, high-quality quantum interconnects are being designed and prototyped by SQMS using 3D SRF platforms for quantum computing systems under development at Fermilab. These advancements can also be applied to the expansion of modular systems based on chips. With an emphasis on premium microwave cables, Fermilab and IBM want to investigate the viability and use of quantum links as a component of a commercial quantum system.

Noise reduction in processors and qubits

IBM and SQMS partners plan to collaborate as part of the SQMS Centre to advance scientific knowledge of the factors restricting the performance of superconducting qubits and to create workable solutions for “1/f flux noise” reduction.

SQMS Internship

Creation of quantum computing systems for scientific purposes

The research of physics-based applications of quantum computing systems is going to be furthered by IBM and SQMS partners. For instance, in condensed matter physics, scientists want to investigate how IBM’s utility-scale processors can facilitate a simulation of quantum many-body dynamics with a complexity that gets close to a quantum advantage regime. Partners will investigate lattice quantum field theory simulations for high-energy physics.

Programmes for quantum workforce development

SQMS Centre launched numerous successful workforce development programmes, such as the U.S. Quantum Information Science School, which is shared with the other four National Quantum Information Science Research Centres (NQISRC) sponsored by DOE, in order to recruit and train the future generation of a diverse quantum workforce. With its extensive quantum education programme, IBM has made quantum education possible for millions of students worldwide.

SQMS Quality

By giving Fortune 500 firms, colleges, labs, and startups within the IBM Quantum Network the resources they need to develop their quantum workforce, the programme has also contributed to the provision of industry and domain expertise. IBM and SQMS intend to collaborate in order to enhance national quantum workforce development initiatives.

“IBM need to solve and scale complex challenges, like efficient, large-scale refrigeration and high-density and low-loss quantum interconnects, and advance their understanding of noise sources and how to reduce them,” stated Jay Gambetta, IBM Fellow and Vice President, IBM Quantum. “They are accelerating towards building a large-scale, fault-tolerant quantum computer.”

The intended involvement in the research of the SQMS Centre is a cornerstone in advancing our strategy for large-scale quantum computing. Together with pushing the boundaries of quantum hardware, IBM and Fermilab hope to advance scientific uses of quantum computing and develop a workforce prepared for the future of quantum computing.

A legal agreement between IBM and Fermi Research Alliance, LLC must be approved before the collaboration can commence.

SQMS Standards

One of the five National Quantum Information Science Research Centres of the U.S. Department of Energy is Superconducting Quantum Materials and Systems(SQMS) Centre. Fermi National Accelerator Laboratory leads SQMS, a coalition of over thirty national labs, colleges, and corporations. It aims to revolutionize quantum information science.

Utilising cutting-edge qubits and superconducting technology, the centre designs multiqubit quantum processor platforms by drawing on Fermilab’s experience in creating intricate particle accelerators. SQMS Centre will construct new quantum sensors and a quantum computer at Fermilab in close collaboration with embedded industry partners, creating previously unheard-of computing possibilities.

SQMS Centre

A National Quantum Information Science Research Centre of the Department of Energy

In the direction of the quantum future

As part of a nationwide effort to create and implement the most potent quantum computers and sensors on the planet, the U.S. Department of Energy funds five research centres, including the Fermi National Accelerator Laboratory-led (Superconducting Quantum Materials and Systems) SQMS Centre.

In a mission-driven, multidisciplinary collaboration, SQMS brings together over 500 experts from 34 partner institutions, national laboratories, academia, and industry. This collaboration integrates deep expertise in a variety of fields, including quantum information science, material science, computational science, particle and condensed matter physics, cryogenics, microwave devices and controls engineering, industry applications, and more.

SQMS Quantum Undergraduate Internship

Superfine-Q SRF caverns

With its world-record quality-factor superconducting radio-frequency cavities, the SQMS Centre is investigating the use of these structures as building blocks for quantum computing platforms, which have the potential to scale and increase performance tenfold over the most advanced commercial platforms now available. They are also investigating quantum transducers and memories based on SRF.Image Credit To IBM

Superconducting processors and qubits

SQMS’s goal is to significantly increase these devices’ performance. Collaborating closely with prominent figures in the quantum sector, we have established a nationwide task force focused on nanofabrication, utilising multiple research and production foundries. Their newly designed fabrication procedures have yielded consistent performance enhancements.

Comprehending quantum decoherence

SQMS researchers examine dissected cavities and qubits with different performance levels using a wide range of specialized material characterization techniques. By using these methods, researchers can improve the functionality of quantum devices by learning more about the atomic and nanoscale processes that restrict quantum coherence.

Benchmarking, simulations, and algorithms

Scholars are customizing algorithms to effectively handle data from the SQMS SRF QPUs, investigating the application of commercial quantum platforms, and comparing the computational capacities of various hardware. Applications include finance and MRI, as well as simulations of fundamental physics for high-energy and condensed-matter physics.

Fundamental physics through quantum sensing

Image Credit To IBM

The SQMS Centre‘s high-coherence gadgets, with their extreme sensitivity, open up new platforms that stretch into uncharted regimes. The main areas of research are tests of quantum mechanics, dark matter candidates, gravitational waves, particles beyond the Standard Model, measurements of fundamental properties at the precision frontier, and assessments of the benefits of quantum sensing systems in these experiments.

The quantum ecosystem

The next generation of researchers will be trained and educated by SQMS, which is building a community and a space to further the area of quantum information science. This is achieved by creating possibilities and utilising alliances across the diverse SQMS network in the Chicago region, Illinois as a whole, and beyond. The SQMS Centre wants everyone to have access to quantum information science.

Increasing milli-kelvin cryogenics’ scale

SQMS Centre is utilising Fermilab’s unique resources and cryogenics expertise to construct the largest and highest cooling power dilution refrigerator in the world. Additionally, engineers are creating vital technologies that will enable the scalability of future massive quantum computing data centres.

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— The Royal Vox Post (@RoyalVoxPost) October 10, 2019

via Twitter https://twitter.com/RoyalVoxPost October 10, 2019 at 10:48PM

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— The Royal Vox Post (@RoyalVoxPost) August 1, 2019

via Twitter https://twitter.com/RoyalVoxPost August 01, 2019 at 07:51PM