About BosonQ Psi
BosonQ Psi specializes in quantum simulation solutions for engineering and industrial applications. The company develops quantum algorithms for computational fluid dynamics (CFD), structural analysis, and complex system optimization, serving aerospace, automotive, and manufacturing sectors.
BosonQ Psi is pioneering the application of quantum computing to engineering simulations. The company's platform enables engineers to solve complex computational problems in fluid dynamics, heat transfer, structural mechanics, and electromagnetics using quantum algorithms. BosonQ Psi's solutions provide significant speedups over classical simulations for large-scale engineering problems.
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BQPhy
Quantum simulation platform for physics-based engineering problems
- •CFD simulations
- •Structural analysis
- •Thermal modeling
- •Electromagnetic simulations
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quantum-computingQNu Labs Represents India’s Frontier Tech With 120 Deep Tech Ventures
QNu Labs is collaborating with Eindhoven University of Technology (TU/e) to test and validate the long-term resilience of quantum key distribution (QKD) technology, a partnership announced during the Bharat Innovates event in Nice, France. The collaboration unites TU/e’s quantum networking expertise with QNu Labs’ experience deploying quantum solutions across sectors like defense and banking in India, aiming to advance global quantum security standards. “Europe and India share a common interest in building quantum communication infrastructure that is sovereign, trusted, and standards-compliant,” said Simon Rommel, assistant professor at Eindhoven University of Technology. QNu Labs, one of 120 Indian deep tech ventures selected to showcase the nation’s technological capabilities, is also deploying systems designed to defend against both conventional cyberattacks and emerging threats from agentic AI and future quantum computers. QNu Labs and TU/e Collaborate on Quantum Key Distribution At QNu Labs, we are building and deploying quantum-safe technologies that protect nations, enterprises, and critical infrastructure against threats from agentic AI, traditional cyber, and future quantum computers that are already on the horizon. Sunil Gupta, co-founder & CEO, QNu Labs Hybrid Quantum-Safe Network Demonstrated for BFSI Adoption The convergence of quantum key distribution and post-quantum cryptography is now being actively demonstrated in practical network deployments, moving beyond theoretical security models. This network integrates QKD with post-quantum cryptography to offer layered protection against both present-day attacks and the potential decryption capabilities of future quantum computers, a strategy reflecting a proactive, multi-faceted defense. A research agreement between QNu Labs and Eindhoven University of Technology (TU/e) will concentrate on rigorous security testing, validation, and long-term resilience of QKD systems, ensuring the technology meets glo
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quantum-computingQNu Labs Takes India’s Quantum Cybersecurity to Bharat Innovates 2026, Signs Research Deal with Eindhoven University of Technology
Insider Brief QNu Labs is showcasing its hybrid quantum-safe network and broader quantum-security portfolio at Bharat Innovates 2026 in France as one of 120 Indian deep-tech companies selected to represent India’s frontier technology capabilities. The company formalized a research collaboration with Eindhoven University of Technology under the ACE QKD programme to test, validate and strengthen the long-term resilience of quantum key distribution systems for large-scale deployment. QNu Labs also signed a strategic agreement with SAGA Consultants to expand the adoption of quantum-safe technologies within the banking and financial services sector through international partnerships. Image: Sunil Gupta, QNu Labs (Left Sunil Gupta (QNu Labs) Right- Dr. Simon Rommel, Assistant Professor, Eindhoven University of Technology (left) and Dr. Simon Rommel, Assistant Professor, Eindhoven University of Technology (right). PRESS RELEASE — QNu Labs is in Nice, France this week at Bharat Innovates 2026 a global platform organised by India’s Ministry of Education and the French Ministry to connect deep tech founders with global enterprises, investors, research institutions, and policymakers to showcase their breakthrough innovation to the world. The company is one of 120 Indian deep tech ventures hand-picked by the Governments of India and France to represent the country’s frontier technology capabilities. QNu Labs is exhibiting under the Next Generation Communications track at Booth 02 at IB-01, demonstrating its hybrid quantum-safe network – a system that combines Quantum Key Distribution (QKD) and post-quantum cryptography (PQC) to protect critical communications against both current and future cyber threats and that can scale across countries. It’s also demonstrating its other quantum-security portfolio, including unified key life cycle management. On June 14, QNu Labs formalised a research collaboration with Eindhoven University of Technology (TU/e) in the Netherlands under
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quantum-computingQpiAI Achieves High-Speed Quantum Error Correction on Superconducting Systems with New Decoder Platform
QpiAI has developed a hardware-based quantum error correction decoder that significantly reduces correction time on superconducting quantum systems. The platform cuts error correction latency from tens of microseconds to ~1.5 microseconds using a union-find algorithm on a 64-qubit Kaveri processor. This approach enables real-time, scalable error correction within qubit coherence limits, supporting progress toward fault-tolerant quantum computing. https://thequantuminsider.com/2026/03/25/qpiai-high-speed-quantum-error-correction-decoder/?_bhlid=d05dc23088086dda7dadc01b79a5f56dae5e2b94 submitted by /u/CoherentSystems [link] [comments]
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quantum-computingWho’s News: Strategic Leadership Appointments at Diraq, IQM Quantum Computers, EigenQ, and BosonQ Psi
Who’s News: Strategic Leadership Appointments at Diraq, IQM Quantum Computers, EigenQ, and BosonQ Psi Diraq has announced the appointment of longtime semiconductor executive Scott A. McGregor as its new Chairman of the Board of Directors. McGregor—former CEO and President of Broadcom and Philips Semiconductors (now NXP), and lead developer of Microsoft Windows 1.0—brings vital CMOS technology scale-up experience to Diraq’s silicon-based quantum roadmap. He succeeds the Hon. William Jeffrey, who will remain on the board. The leadership transition coincides with Diraq’s accelerating U.S. expansion, supported by a recent Letter of Intent with the U.S. Department of Commerce for up to $38 million in proposed CHIPS Act funding. The full media release can be found here. IQM Quantum Computers has appointed Barbara Venneman to its Board of Directors as the company prepares for its planned Nasdaq listing via a business combination with Real Asset Acquisition Corp. (Nasdaq: RAAQ). Venneman, a current Vanguard Board Director and the former Global Head of Deloitte Digital, brings over 30 years of enterprise technology, digital transformation, and AI scaling experience to the full-stack superconducting quantum leader. Concurrently, CEO and Co-founder Jan Goetz will step into the Board’s Founder representative seat, succeeding Co-founder Juha Vartiainen. The official filing announcement is available here. EigenQ has named global technology executive Rika Nakazawa as its Chief Growth Officer to guide the company’s worldwide business expansion across North America, Europe, Asia, and the Middle East. Nakazawa, a Princeton-educated venture investor who has held senior go-to-market roles at NVIDIA, Sony, Accenture, and NTT, will lead EigenQ’s commercial partnership ecosystem and sovereign market development. Her appointment comes as the Austin-based company scales its foundational trusted compute fabric and hardware-rooted post-quantum cybersecurity infrastructure. The full executive
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quantum-computingQNu Labs Named Quantum Key Distribution Industry Leader
Insider Brief QNu Labs was recognized as a “Global Established Leader” in the 2026 MarketsandMarkets 360Quadrants Quantum Key Distribution evaluation report. The report assessed more than 170 companies across the global quantum-safe cybersecurity ecosystem, with 17 identified as established leaders. QNu Labs develops quantum-safe communication and encryption technologies for sectors including government, telecom, finance, and critical infrastructure. PRESS RELEASE — QNu Labs (www.qnulabs.com), a global leader in end-to-end hybrid quantum cybersecurity solutions, has been recognised as a ‘Global Established Leader’ in the MarketsandMarkets 360Quadrants Quantum Key Distribution Company Evaluation Report, 2026, a study that assessed over 170 companies across the global quantum-safe security ecosystem, categorizing the top 17 into Established Leaders. The evaluation positions QNu Labs among companies operating in the Quantum Key Distribution market, which is gaining momentum as enterprises and governments prioritize next-generation cybersecurity solutions against emerging quantum computing threats. The report highlights quantum-safe security transitioning from an emerging technology area to a strategic priority, with organisations accelerating adoption of solutions capable of securing long-term data protection. The assessment evaluated over 170 companies across product offering, deployment architecture, transmission medium, revenue, geographic presence, and verticals including BFSI, Government and Defence, Healthcare, and Automotive, with the top 17 recognised as quadrant leaders. Within this evolving landscape, QNu Labs is developing quantum-safe communication and encryption technologies based on Quantum Key Distribution and quantum cryptography frameworks for high-security sectors such as government, defence, BFSI, telecom, and critical infrastructure. As highlighted in the 360Quadrants analysis, the industry is increasingly prioritizing scalable and deployment-ready
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quantum-computingQNu Labs Achieves 8,000 Secure Bits Per Second QKD
QNu Labs has demonstrated secure key generation at a rate of 8,000 bits per second using its ARMOS Quantum Key Distribution (QKD) platform at typical metropolitan distances, a speed capable of supporting real-time encryption for sensitive data. Independent validation by VIAVI Solutions confirms ARMOS can maintain this secure communication over 200 kilometers of standard telecom fiber, achieving 40 decibels of loss without signal amplification, which surpasses limitations of many existing QKD systems. A key finding of the study is the system’s ability to coexist with existing 10 Gbps networks, eliminating the need for costly infrastructure overhauls. “As the industry moves closer to a quantum-driven reality, the need for proven, deployment-ready security solutions becomes critical,” said Sunil Gupta, Co-founder and Chief Executive Officer, QNu Labs, highlighting the significance of this advancement toward scalable quantum-safe communication. ARMOS QKD Achieves 200 KM Range with Sub-4% Error Rates The ARMOS Quantum Key Distribution (QKD) system has demonstrated secure communication across distances up to 200 kilometers of standard telecom fiber, a feat validated by an independent study conducted with VIAVI Solutions. This achievement addresses a significant limitation of many QKD implementations, as the system maintained secure key generation without relying on signal amplification, even with 40 decibels of signal loss. At these extended ranges, ARMOS sustained a key generation rate of approximately 200 secure bits per second, proving reliable operation under varied network conditions. The platform’s operational resilience was further demonstrated through autonomous recovery from simulated fiber cuts within minutes, maintaining stable key generation without manual intervention. Under controlled conditions, ARMOS achieved key generation rates of up to 8,000 secure bits per second at typical metro distances of around 50 kilometers, enabling real-time encryption for high
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quantum-computingIndia’s National Quantum Mission Achieves 1,000-km Milestone via QNu Labs and VIAVI Validation
India’s National Quantum Mission Achieves 1,000-km Milestone via QNu Labs and VIAVI Validation The National Quantum Mission (NQM) has reached a pivotal technical landmark with the successful demonstration of a 1,000-km quantum communication network, one of the longest in the world. Announced by Union Minister for Science & Technology Dr. Jitendra Singh during a review of the Department of Science and Technology (DST), this achievement comes less than two years after the mission’s October 2024 launch. The milestone significantly outpaces the original eight-year roadmap, which aimed for a 2,000-km reach, and establishes a secure national backbone for defense, financial systems, and critical infrastructure using entirely indigenous technology. The 1,000-km network was enabled by QNu Labs, a startup supported under the NQM that specializes in quantum-safe cybersecurity. To ensure the reliability of this infrastructure, QNu Labs conducted an independent validation study with VIAVI Solutions using the industry-standard MAP-300 test platform. This study established that the underlying ARMOS Quantum Key Distribution (QKD) platform can achieve secure key generation over distances of up to 200 km on standard telecom fiber (40 dB loss) without signal amplification. By chaining these high-performance links, the NQM has been able to scale toward its current 1,000-km benchmark. A critical technical breakthrough highlighted in the validation is the ability of the quantum signal to coexist with 10 Gbps classical data traffic on the same fiber. Utilizing a proprietary decoy-state Differential Phase Shift (DPS) protocol, the ARMOS platform effectively doubles the transmission range of conventional QKD systems while maintaining a Quantum Bit Error Rate (QBER) below 4%. At typical metro distances, the system achieves generation rates of 8,000 bits per second, providing the high-speed entropy required to secure real-time, high-value data flows without requiring a costly redesign of
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quantum-computingAlliance University, QpiAI establish quantum computing centre - Evertiq
© Alliance Business | March 30, 2026 Alliance University, QpiAI establish quantum computing centre Evertiq The centre is expected to serve startups, multinational technology companies, academic researchers, and members of the defence and aerospace sectors located in and around Bengaluru. Alliance University, in partnership with QpiAI, has announced the establishment of a commercially accessible quantum computing experience centre at the university’s Electronic City campus in Bengaluru. The facility, called AU QUASAR (Quantum AI School of Advanced Research), will provide hands-on access to an 8-qubit superconducting quantum system, enabling users to work directly with quantum hardware, according to a press release.The centre is expected to serve startups, multinational technology companies, academic researchers, and members of the defence and aerospace sectors located in and around Bengaluru. At the core of the collaboration is QpiAI’s QVidya 8-qubit superconducting quantum system. The platform has been developed indigenously and is paired with the QpiAI Explorer software environment. “This partnership embodies our vision of making quantum computing accessible to every Indian innovator, researcher, and enterprise,” said Dr. Nagendra Nagaraja, Founder & CEO of QpiAI. “By combining QpiAI's indigenous and sovereign quantum technology with Alliance University's academic excellence and strategic location, we are creating a national reference site that will accelerate India's quantum computing adoption and contribute meaningfully to the National Quantum Mission goals.”“AU QUASAR is not merely a reference installation; it is designed as a living model of academic-industry collaboration in its truest sense. It will integrate degree programs, research, enterprise engagement, and Quantum Computing as a Service (QCaaS) under one roof,” said Abhay G Chebbi, Pro-Chancellor of Alliance University.
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quantum-computingQpiAI Achieves High Speed Quantum Error Correction on Superconducting Systems with New Decoder Platform - Business Wire India
QpiAI Gen-1 25 qubit Quantum computer Indus, picture from QpiAI Bangalore centre with CEO Dr Nagendra Nagaraja (Left) and VP of Quantum hardware Dr Manjunath R V (Right). A scalable quantum error correction system has been developed by QpiAI to enable fast, scalable error correction using a rotated surface code architecture. The decoder, based on a union-find algorithm, is designed to operate in real time alongside superconducting qubits and represents a key step toward practical fault-tolerant quantum computing. A scalable quantum error correction system has been developed by QpiAI to enable fast, scalable error correction using a rotated surface code architecture. The decoder, based on a union-find algorithm, is designed to operate in real time alongside superconducting qubits and represents a key step toward practical fault-tolerant quantum computing. QpiAI, a leader in quantum computing and generative AI, announced its maiden external funding of $6.5 million to build Quantum computing and Generative AI products and platforms. QpiAI, a leader in quantum computing and AI today announced QpiAISense™ platform for room temperature qubit control. QpiAISense™ accelerates ML library using discrete FPGA DSPs currently. But in future it would support massive ML compute capability as much as 8000 trillion operations per second per watt (8000 Tops/watt ) using Qpisemi’s (https://www.qpisemi.tech) silicon photonics based AI20P001 to be integrated on QpiAISense™ platform. 5th Floor, 405-B DLF Cyber Park,Tower- B, Sector-20 Udyog Vihar Phase- lll Gurugram Haryana 122016 Copyright © 2026 Business Wire India. All Rights Reserved.
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quantum-computingQpiAI Achieves High-Speed Quantum Error Correction on Superconducting Systems with New Decoder Platform - HPCwire
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quantum-computingQpiAI Implements High-Speed Hardware Decoder for 64-Qubit Kaveri Processor
QpiAI Implements High-Speed Hardware Decoder for 64-Qubit Kaveri Processor QpiAI has reported the implementation of a high-performance quantum error correction (QEC) decoder platform for its 64-qubit Kaveri superconducting quantum processor. The system utilizes a distance-5 rotated surface code (d = 5) requiring 49 physical qubits to encode a single logical qubit. The decoder is based on a union-find algorithm executed on custom hardware rather than traditional CPU or GPU architectures. This design aims to provide a scalable framework for real-time error detection and correction, serving as a technical milestone within the framework of India’s National Quantum Mission (NQM). The custom hardware decoder achieves an end-to-end cycle latency of 1.5 microseconds, with the decoding operation itself completed in less than 1 microsecond (typically within 40 clock cycles). This represents a significant reduction in latency compared to existing software-based decoders, which often require approximately 60 microseconds for distance-5 codes. By maintaining a cycle time of 1.5 microseconds, the platform can perform five rounds of stabilizer measurements per cycle to detect both qubit and measurement errors while remaining well within the coherence window of the Kaveri hardware. The Kaveri QPU reports qubit coherence times of approximately 100 μs for T1 and 95 μs for T2, providing sufficient headroom for multiple consecutive error-correction cycles. The architecture is specifically optimized for surface-code-friendly qubit connectivity to facilitate efficient stabilizer measurements. Supported by investment from the Department of Science and Technology (DST), the development is intended to move India’s quantum infrastructure toward fault-tolerant utility. Future iterations of the roadmap include the support for distance-7 codes and the integration of quantum low-density parity-check (qLDPC) codes to further optimize physical-to-logical qubit ratios. For technical specifications
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quantum-computingQpiAI to Deploy 25-Qubit Superconducting Quantum System at IIIT-Dharwad
QpiAI to Deploy 25-Qubit Superconducting Quantum System at IIIT-Dharwad QpiAI has been awarded a contract to install its QpiAI Indus 25-qubit quantum computing system at the IIIT-Dharwad Quantum and AI Computing Center of Excellence (QAIC). This installation, which will be jointly accessed by IIIT-Raichur, marks the second deployment of a QpiAI quantum system in the state of Karnataka. The initiative is a component of the Karnataka Quantum Roadmap, a strategic framework aimed at establishing a $20 billion quantum economy by 2035. The deployment is intended to provide infrastructure for academic research, curriculum development, and commercial experimentation within India’s indigenous technology ecosystem. The QpiAI Indus is a full-stack superconducting quantum computer utilizing transmon qubits housed in a closed-cycle cryostat at a base temperature of 10 mK. The system reports single-qubit gate fidelities of 99.7% and two-qubit gate fidelities of 96%, with coherence times characterized by T1 ≈ 30μs and T2 ≈ 25μs. It features a vertically integrated stack, including the QpiAISense™ control and readout electronics and the QpiAI Explorer software platform. The hardware is designed for hybrid quantum-classical workflows, integrating directly with classical High-Performance Computing (HPC) nodes equipped with Intel Xeon processors and NVIDIA GPUs. The QAIC at IIIT-Dharwad will utilize the system to support a range of educational and industrial workloads. For academia, the platform will facilitate hands-on student training and faculty-led research in quantum algorithms and error correction. For commercial users, the center will offer Quantum Computing as a Service (QCaaS), allowing enterprises to test and validate use cases in logistics, pharmaceutical discovery, and financial optimization. QpiAI will provide ongoing operational support to assist users in onboarding and transitioning applications from simulated environments to the physical 25-qubit hardware. This deplo
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quantum-computingQpiAI and Alliance University Establish AU QUASAR Experience Center in Bengaluru
QpiAI and Alliance University Establish AU QUASAR Experience Center in Bengaluru QpiAI and Alliance University have established the AU QUASAR (Quantum AI School for Advanced Research) Experience Center at the university’s Electronic City campus in Bengaluru. The facility integrates QpiAI’s QVidya 8-qubit superconducting quantum system with the QpiAI Explorer software platform, providing localized hardware access for quantum research and development. This center serves as a commercial reference site for superconducting quantum technology, targeting engagement from over 200 global technology companies and India’s aerospace and defense sectors. The initiative is designed to align with the technical objectives of India’s National Quantum Mission (NQM) by fostering indigenous quantum infrastructure and a sovereign talent pipeline. AU QUASAR will provide Quantum Computing as a Service (QCaaS) for commercial and strategic clients, allowing for the execution of quantum circuits on a physical 8-qubit processor rather than in purely simulated environments. This service model is intended to facilitate proof-of-concept (PoC) validations and the characterization of superconducting qubit performance in a hybrid quantum-classical context. Academic integration at the center includes undergraduate, postgraduate, and doctoral degree pathways focused on quantum computing and artificial intelligence. By combining physical system access with structured research programs, the facility aims to bridge the gap between theoretical study and industrial application. The center is expected to be operational in the coming months, providing a scalable model for future quantum technology hubs focused on education, research, and commercial engagement within India’s technology corridor. For technical details on the QVidya 8-qubit system and the AU QUASAR research pathways, consult the official QpiAI announcement here. March 25, 2026 Mohamed Abdel-Kareem2026-03-25T10:24:17-07:00 Leave A Comment Cance
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quantum-computingQpiAI Achieves High-Speed Quantum Error Correction on Superconducting Systems with New Decoder Platform
Insider Brief QpiAI has developed a hardware-based quantum error correction decoder that significantly reduces correction time on superconducting quantum systems. The platform cuts error correction latency from tens of microseconds to ~1.5 microseconds using a union-find algorithm on a 64-qubit Kaveri processor. This approach enables real-time, scalable error correction within qubit coherence limits, supporting progress toward fault-tolerant quantum computing. PRESS RELEASE — QpiAI, a leading developer of integrated AI and quantum solutions for enterprises, today announced a major advance in quantum error correction (QEC), unveiling a high-speed decoder hardware platform that dramatically reduces the time required to detect and correct errors in real time on superconducting quantum processors. In research conducted by the company on its 64-qubit Kaveri quantum superconducting processor, the compact decoder hardware, based on a union-find algorithm, reduced the time for error detection and correction from tens of microseconds using conventional software approaches to roughly 1.5 microseconds per correction cycle — addressing a critical barrier to achieving scalable, practical quantum computers. The system implements an industry-leading distance-5 rotated surface code using 49 physical qubits. Each decoder instance runs on a single QpiAI Kaveri QPU, allowing one decoder instance per chip. The architecture is optimized to support efficient decoding and integration with existing quantum hardware. “The performance of our new decoder platform demonstrates a practical pathway toward scalable, hardware-accelerated quantum error correction,” said QpiAI founder and CEO Nagendra Nagaraja, Ph.D. “Compatible with widely used superconducting transmon qubits, the platform limits the need for additional classical support from CPUs and GPUs. QpiAI is also developing next‑generation error‑correction methods tailored to our own fluxonium‑based qubits as well as architectures designed
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quantum-computingIndia’s 1st commercial quantum computer to be installed at IIIT-Dharwad - EdexLive
Karnataka has announced the installation of India’s first commercial quantum computer at the Indian Institute of Information Technology–Dharwad (IIIT-Dharwad), marking a major milestone in the country’s quantum technology journey. State IT and BT Minister Priyank Kharge said on Thursday that the initiative is intended to strengthen Karnataka’s position in the national quantum technology ecosystem, said a report from India Today. The announcement followed separate meetings held by the minister with Bengaluru-based deeptech firm QpiAI and Singapore-based water technology company ZWEEC. According to an official press release, both discussions focused on emerging technologies and infrastructure solutions. Highlighting the state’s progress in advanced technologies, the minister said Karnataka is taking decisive steps in the quantum domain. He noted that the deployment of the country’s first commercial quantum computer at IIIT-Dharwad represents a significant step toward creating a world-class quantum ecosystem. During discussions with QpiAI, Priyank Kharge reviewed plans for deploying India’s first indigenously developed commercial quantum computer at the institute. The state also announced the establishment of a Centre of Excellence in Quantum AI and Computing at IIIT-Dharwad. QpiAI outlined its roadmap to scale its quantum systems from 25 qubits to a 1,000-qubit quantum computer over the next two to three years. These plans were presented during interactions with state officials as part of Karnataka’s broader push to build partnerships in advanced technologies and support local innovation hubs. Officials said the engagements with QpiAI and ZWEEC reflect Karnataka’s continued efforts to collaborate with technology companies for both research-driven and practical solutions. These initiatives align with the state’s vision of leveraging advanced technologies to address existing challenges while building capacity in emerging sectors.
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quantum-computingIndia's first commercial quantum computer comes at IIIT-Dharwad in Karnataka - India Today
Karnataka has taken a significant step in the field of quantum technology by announcing the installation of the country’s first commercial quantum computer at the Indian Institute of Information Technology-Dharwad (IIIT-Dharwad). Minister Priyank Kharge said on Thursday that this initiative is aimed at advancing the state’s position in the national landscape for advanced quantum technologies. The announcement was made following separate meetings between the minister and leaders of Bengaluru-based deeptech company QpiAI and Singapore’s water technology firm ZWEEC. Both meetings focused on new technology and infrastructure solutions, according to an official press release. The minister emphasised, "Karnataka is moving decisively in the quantum space. The deployment of India’s first commercial quantum computer at the Indian Institute of Information Technology – Dharwad marks a significant milestone in building a world-class quantum ecosystem." During discussions with QpiAI, Priyank Kharge reviewed plans for the deployment of the country’s first indigenously built commercial quantum computer at IIIT-Dharwad. The state has also announced the creation of a Centre of Excellence in Quantum AI and Computing at the same institution. QpiAI presented its strategy to enhance its quantum systems by scaling up from 25 qubits to a 1,000-qubit quantum computer over the next two to three years. This plan was outlined during the meetings with state officials. According to the press release, these discussions came as part of Karnataka’s focus on building partnerships in advanced technology and supporting local innovation hubs. In a separate meeting, representatives from ZWEEC showcased their biomonitoring technology for detecting contamination in drinking water and identifying algal blooms at an early stage. The solution was highlighted as a possible way to improve water safety monitoring in the state’s rural areas.
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quantum-computingKarnataka to host India's first commercial quantum computer: Priyank Kharge - Business Standard
Home / India News / Karnataka to host India's first commercial quantum computer: Priyank KhargeKarnataka to host India's first commercial quantum computer: Priyank KhargeThe move is seen as a major step towards positioning Karnataka as a national hub for advanced quantum technologies, Kharge saidAdvertisementPriyank Kharge. (File Photo)Press Trust of India Bengaluru 2 min read Last Updated : Jan 08 2026 | 10:56 PM ISTListen to This Article Karnataka will host India's "first commercial quantum computer", with the state government announcing its deployment at the IIIT-Dharwad, Minister Priyank Kharge said on Thursday. The move is seen as a major step towards positioning Karnataka as a national hub for advanced quantum technologies, the state IT/BT minister said. The announcement followed separate meetings held by Priyank with Bengaluru-based deeptech firm QpiAI and Singapore-based water technology company ZWEEC, focusing on cutting-edge innovation and rural infrastructure solutions, according to a press release. "Karnataka is moving decisively in the quantum space. The deployment of India's first commercial quantum computer at the Indian Institute of Information Technology-Dharwad marks a significant milestone in building a world-class quantum ecosystem," the minister was quoted as saying. During discussions with QpiAI, Priyank reviewed plans to deploy the country's "first indigenously built commercial quantum computer" at IIIT-Dharwad, where the state has announced the establishment of a Centre of Excellence in Quantum AI and Computing.Also Read Hartek Power bags ₹353.
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quantum-computingIndia’s first commercial Quantum Computer to be deployed at IIIT- Dharwad: Minister Priyank Kharge - The Hindu
India’s first commercial Quantum Computer to be deployed at the Indian Institute of Information Technology (IIIT) in Dharwad, said Priyank Kharge, Minister for Rural Development and Panchayat Raj, IT & BT.“Karnataka is moving decisively in the quantum space. The deployment of India’s first commercial Quantum Computer at IIIT-Dharwad marks a significant milestone in our journey to build a world-class quantum ecosystem,” he said.The Minister on Wednesday had meetings with the Bengaluru-based deeptech company QpiAI and Singapore-based ZWEEC, to discuss on advancing Karnataka’s leadership in quantum technologies and strengthening rural water security. AdvertisementPowered by: 00:05 00:00 Ad will close in:3 seconds orclick to close “Through strong collaboration with companies like QpiAI, the State government was committed to advancing the Karnataka Quantum Roadmap while ensuring that cutting-edge technology translates into real impact,” Mr. Kharge said.According to the Minister, the deployment of the country’s first indigenously built Quantum Computer for commercial use at the IIIT-Dharwad, where the State government has recently announced a Centre of Excellence in Quantum AI and Computing, was happening at a quick momentum.The QpiAI team also briefed Mr. Kharge on their ambitious roadmap to scale from a 25-qubit quantum computer to a 1,000-qubit system within the next two to three years, positioning Karnataka as a key hub for advanced quantum research, talent development, and industry collaboration.The discussions reaffirmed the State government’s commitment to working closely with deeptech companies to accelerate innovation, research, and commercial applications in quantum computing, the Minister said.The ZWEEC, a Singapore-based company specialising in advanced water technology solutions, may work with rural water supply and sanitation department, Mr. Kharge said.
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quantum-computingKarnataka to host India’s first commercial quantum computer at IIIT-Dharwad Minister Priyank Kharge - theweek.in
Bengaluru, Jan 8 (PTI) Karnataka will host India's "first commercial quantum computer", with the state government announcing its deployment at the IIIT-Dharwad, Minister Priyank Kharge said on Thursday. The move is seen as a major step towards positioning Karnataka as a national hub for advanced quantum technologies, the state IT/BT minister said. The announcement followed separate meetings held by Priyank with Bengaluru-based deeptech firm QpiAI and Singapore-based water technology company ZWEEC, focusing on cutting-edge innovation and rural infrastructure solutions, according to a press release. "Karnataka is moving decisively in the quantum space. The deployment of India’s first commercial quantum computer at the Indian Institute of Information Technology-Dharwad marks a significant milestone in building a world-class quantum ecosystem," the minister was quoted as saying. During discussions with QpiAI, Priyank reviewed plans to deploy the country’s "first indigenously built commercial quantum computer" at IIIT-Dharwad, where the state has announced the establishment of a Centre of Excellence in Quantum AI and Computing. QpiAI also outlined its roadmap to scale its systems from 25 qubits to a 1,000-qubit quantum computer within the next two to three years. In a separate meeting, ZWEEC presented its advanced biomonitoring solutions for the early detection of drinking water contamination and algal blooms. Priyank said the government would examine the feasibility of piloting the technology in partnership with the Rural Water Supply and Sanitation Department.
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quantum-computingIIIT Dharwad to deploy India's first commercial quantum computer, says Karnataka IT/BT minister Priyank Kh - The Economic Times
SynopsisThe Indian Institute of Information Technology, Dharwad (IIIT-D), will deploy India's first commercial quantum computer at its newly announced Centre for Excellence in Quantum AI and Computing, said Karnataka IT/BT Minister Priyank Kharge.Listen to this article in summarized format ListenETtechThe Indian Institute of Information Technology, Dharwad (IIIT-D), will deploy India's first commercial quantum computer at its newly announced Centre for Excellence in Quantum AI and Computing, said Karnataka IT/BT Minister Priyank Kharge. IIIT-D and QpiAI, a Bengaluru-based deeptech startup, had signed an MoU in July 2025 to deploy quantum computing in IIIT-D. Speaking at a meeting on Wednesday with the startup, the minister said the government is committed to advancing the state's quantum roadmap in collaboration with such companies." The deployment of India's first commercial quantum computer at IIIT-D marks a significant milestone in our journey to build a world-class quantum ecosystem," Kharge said in a statement. "Through collaboration with companies like QpiAI, we commit to advancing Karnataka’s quantum roadmap while ensuring that cutting-edge technology translates into real impact."Founded in 2019 by Nagendra Nagaraja, QpiAI combines quantum computing and AI for enterprise applications in manufacturing, pharma, and transportation, among others. Nagaraja told Kharge in the meeting that the company will scale quantum computing capacity to 1,000-qubits in the next two to three years, from 25 qubits. The company further said that the state will be a key hub for them in advanced quantum research, talent development, and industry collaboration.In July 2025, Karnataka had launched a Rs 1,000 crore quantum mission that aims to support startups and quantum skilling.Masterclasses byAgentic AI Masterclass Learn Agentic AI for 10X Growth.
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