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IBM Targets 2029 For First Commercial Quantum Computer, Promises Major Leap In Business Computing
(MENAFN- The Rio Times) IBM has announced a detailed plan to build the world's first large-scale, fault-tolerant quantum computer by 2029, according to official company statements released June 10, 2025.
The company will construct this system, called IBM Quantum Starling, at a new data center in Poughkeepsie, New York . IBM expects Starling to perform 20,000 times more operations than any current quantum computer.
This leap would mark a turning point for industries that rely on complex calculations, such as pharmaceuticals, logistics, and materials science. Quantum computers use qubits, which can represent multiple states at once, unlike classical computers that use bits.
However, qubits are prone to errors, and most of today's quantum machines must dedicate much of their power to correcting these mistakes.
IBM's researchers say they have solved the key scientific challenge by developing a new error-correction method, known as the Gross code and quantum low-density parity check codes.
These methods reduce the number of physical qubits needed to create one reliable logical qubit by up to 90 percent. The Starling system will use about 10,000 physical qubits to create 200 logical qubits, which IBM says is enough to demonstrate a clear advantage over conventional computers.
IBM Sets Sights on Scalable Quantum Future with 'Blue Jay'
IBM's roadmap does not stop at Starling. The company plans to follow up with a more powerful system, Blue Jay, in 2033. Blue Jay will feature 2,000 logical qubits, scaling up the technology tenfold.
IBM's commitment includes a $150 billion investment in U.S. manufacturing and research over five years, with $30 billion allocated to quantum and mainframe development.
IBM's leadership in quantum computing comes after years of investment and collaboration with global companies and research institutions. The company's cloud-based quantum platform already connects nearly 300 Fortune 500 firms and research labs.
IBM's advances could have broad implications for national security, cryptography, and economic competitiveness. IBM's announcement signals that the main scientific barriers to practical quantum computing have been overcome.
Now, the challenge shifts to engineering and scaling these systems for real-world use. This development could redefine how businesses solve problems and create value, making quantum computing a crucial technology to watch.
The company will construct this system, called IBM Quantum Starling, at a new data center in Poughkeepsie, New York . IBM expects Starling to perform 20,000 times more operations than any current quantum computer.
This leap would mark a turning point for industries that rely on complex calculations, such as pharmaceuticals, logistics, and materials science. Quantum computers use qubits, which can represent multiple states at once, unlike classical computers that use bits.
However, qubits are prone to errors, and most of today's quantum machines must dedicate much of their power to correcting these mistakes.
IBM's researchers say they have solved the key scientific challenge by developing a new error-correction method, known as the Gross code and quantum low-density parity check codes.
These methods reduce the number of physical qubits needed to create one reliable logical qubit by up to 90 percent. The Starling system will use about 10,000 physical qubits to create 200 logical qubits, which IBM says is enough to demonstrate a clear advantage over conventional computers.
IBM Sets Sights on Scalable Quantum Future with 'Blue Jay'
IBM's roadmap does not stop at Starling. The company plans to follow up with a more powerful system, Blue Jay, in 2033. Blue Jay will feature 2,000 logical qubits, scaling up the technology tenfold.
IBM's commitment includes a $150 billion investment in U.S. manufacturing and research over five years, with $30 billion allocated to quantum and mainframe development.
IBM's leadership in quantum computing comes after years of investment and collaboration with global companies and research institutions. The company's cloud-based quantum platform already connects nearly 300 Fortune 500 firms and research labs.
IBM's advances could have broad implications for national security, cryptography, and economic competitiveness. IBM's announcement signals that the main scientific barriers to practical quantum computing have been overcome.
Now, the challenge shifts to engineering and scaling these systems for real-world use. This development could redefine how businesses solve problems and create value, making quantum computing a crucial technology to watch.
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