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At the annual IBM Quantum Summit in New York, IBM debuted 'IBM Quantum Heron,' the first in a new series of utility-scale quantum processors with an architecture engineered over the past four years to deliver IBM's highest performance metrics and lowest error rates of any IBM Quantum processor to date.

IBM also unveiled IBM Quantum System Two, the company's first modular quantum computer and cornerstone of IBM's quantum-centric supercomputing architecture. The first IBM Quantum System Two, located in Yorktown Heights, New York, has begun operations with three IBM Heron processors and supporting control electronics.

With this critical foundation now in place, along with other breakthroughs in quantum hardware, theory, and software, the company is extending its IBM Quantum Development Roadmap to 2033 with new targets to significantly advance the quality of gate operations.

As demonstrated by IBM earlier this year on a 127-qubit 'IBM Quantum Eagle' processor, IBM Quantum systems can now serve as a scientific tool to explore utility-scale classes of problems in chemistry, physics, and materials beyond brute force classical simulation of quantum mechanics.

IBM is also detailing plans for a new generation of its software stack, within which Qiskit 1.0 will be a pivot point defined by stability and speed. Additionally, and with the goal of democratizing quantum computing development, IBM is announcing Qiskit Patterns.

Dario Gil, IBM SVP and Director of Research

We are firmly within the era in which quantum computers are being used as a tool to explore new frontiers of science. As we continue to advance how quantum systems can scale and deliver value through modular architectures, we will further increase the quality of a utility-scale quantum technology stack and put it into the hands of our users and partners who will push the boundaries of more complex problems.

Jay Gambetta, Vice President and IBM Fellow at IBM

Generative AI and quantum computing are both reaching an inflection point, presenting us with the opportunity to use the trusted foundation model framework of watsonx to simplify how quantum algorithms can be built for utility-scale exploration. This is a significant step towards broadening how quantum computing can be accessed and put in the hands of users as an instrument for scientific exploration.

See more here:
IBM Unveils New Series of Utility-Scale Quantum Processors - The Fast Mode

Chinas quantum computing capabilities have made a leap with the first delivery of a domestically developed superconducting quantum chip to an unnamed scientific research institute in the Middle East, according to a state media report.

The sale by SpinQ, a pioneering company based in Shenzhen, comes soon after Chinese quantum chips were sold to the United States and its allies.

It showcases Chinas growing influence in the quantum computing sector, underscoring its role in fostering global collaboration within the industry.

01:50

Chinese researchers claim brain-computer interface breakthrough using monkey brain signal

Chinese researchers claim brain-computer interface breakthrough using monkey brain signal

Founded in 2018, SpinQ has independently established a superconducting quantum computer R&D centre and a production line for superconducting quantum chips. The chip that was delivered, named QPU, represents a successful venture into standardised mass production of the technology, a key achievement for the industry.

We are honoured by this collaboration. Delivering the superconducting quantum chip shows our skill and innovation in quantum computing. It also represents our commitment to worldwide collaboration in this field, founder and chief executive Xiang Jingen said in a report by the state-owned Science and Technology Daily on Tuesday.

Chinese scientists claim record smashing quantum computing breakthrough

This list included entities such as the Hefei National Laboratory for Physical Sciences at Microscale (HFNL), which developed the worlds first quantum science satellite, Micius, and QuantumCTek Co, Ltd, originating from HFNL and specialising in quantum secure communication products, along with its Shanghai subsidiary.

SpinQ is among the fastest in Chinas quantum computing industry to achieve an international market presence. During this trade, the company also engaged in technical exchanges with the buyer.

This was a mutually beneficial learning process, providing us with invaluable global insights and cutting-edge information, SpinQ vice-president Zou Hongyan said on the companys website.

SpinQ has already extended its quantum computing products to five continents with clients across the US, Canada, Australia, Britain, Germany, Switzerland, Norway, Slovenia, Russia, Brazil, Japan and other countries and regions, according to the Science and Technology Daily report.

From a global perspective, the US leads the quantum information industry, with China ranking high in the second tier. However, the technological development gap is not significantly wide, Xiang told 21st Century Business Herald in September.

Quantum chips, which are akin to the CPU in classical computers, are pivotal to quantum computers. They contain multiple quantum bits (qubits) and use pulse sequences sent by quantum measurement and control systems to perform quantum gate operations between qubits, enabling specific quantum computations.

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Apple supplier Foxconn to build AI factories using US hardware leader Nvidias chips and software

Apple supplier Foxconn to build AI factories using US hardware leader Nvidias chips and software

Producing a standard superconducting quantum chip is difficult because of its complex design, the need to ensure the qubits work consistently and remain stable, and challenges in the materials and technologies used for making and controlling them.

Through independent research and development, SpinQ said it had mastered key technologies from chip design to complete machine and algorithm applications. Its proprietary chip production line is capable of producing consistent and stable superconducting quantum chips.

Chinese breakthrough a step towards scalable quantum computation: paper

The company has three major production lines: large superconducting quantum computers for industrial scenarios, small quantum computers for educational purposes and a general-purpose quantum cloud platform.

Looking ahead, SpinQ aims to deepen its internationalisation strategy, driving common prosperity in the global quantum computing industry chain through increased international technical cooperation and exchanges, Xiang said in the report.

Continued here:
China sells quantum chips to Middle East and West in show of growing influence - South China Morning Post

IBM has introduced its latest quantum computing achievement, the "IBM Quantum Heron," at the IBM Quantum Summit 2023 event. This 133-qubit processor, developed over four years, represents a significant leap in quantum computing technology. By incorporating a novel architecture and enhancing gate operation, IBM has managed to achieve a remarkable reduction in errors, up to five times less compared to its previous 127-qubit processor, the "IBM Quantum Eagle."

The "IBM Quantum Heron" is hailed as one of the world's most high-performance quantum processors due to its innovative design and error-reduction capabilities. This milestone reflects IBM's commitment to pushing the boundaries of quantum computing.

Furthermore, IBM has officially launched its inaugural modular quantum computer, the "IBM Quantum System Two." This utility-scale quantum computing system is equipped with three IBM Quantum Heron processors and accompanying control electronics. By linking multiple modules together, this system can execute a single quantum circuit with a capacity of up to 100 million operations. IBM's long-term vision is to expand this capability to achieve an impressive 1 billion operations, marking a significant advancement in the era of quantum utility.

For more detailed information, please visit IBM's official press release: "IBM Debuts Next-Generation Quantum Processor & IBM Quantum System Two, Extends Roadmap to Advance Era of Quantum Utility."

See more here:
IBM Unveils Advanced 133-Qubit Quantum Processor IBM Quantum Heron and Quantum System Two - guru3d.com

IBM also unveiled IBM Quantum System Two, the companys first modular quantum computer and cornerstone of IBMs quantum-centric supercomputing architecture. The first IBM Quantum System Two, located in Yorktown Heights, New York, has begun operations with three IBM Heron processors and supporting control electronics

With this critical foundation now in place, along with other breakthroughs in quantum hardware, theory, and software, the company is extending its IBM Quantum Development Roadmap to 2033 with new targets to significantly advance the quality of gate operations. Doing so would increase the size of quantum circuits able to be run and help to realize the full potential of quantum computing at scale.

We are firmly within the era in which quantum computers are being used as a tool to explore new frontiers of science, said Dario Gil, IBM SVP and Director of Research. As we continue to advance how quantum systems can scale and deliver value through modular architectures, we will further increase the quality of a utility-scale quantum technology stack and put it into the hands of our users and partners who will push the boundaries of more complex problems.

As demonstrated by IBM earlier this year on a 127-qubit IBM Quantum Eagle processor, IBM Quantum systems can now serve as a scientific tool to explore utility-scale classes of problems in chemistry, physics, and materials beyond brute force classical simulation of quantum mechanics.

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IBM Quantum System Two is the foundation of IBMs next generation quantum computing system architecture. It combines scalable cryogenic infrastructure and classical runtime servers with modular qubit control electronics.

The new system is a building block for IBMs vision of quantum-centric supercomputing. This architecture combines quantum communication and computation, assisted by classical computing resources, and leverages a middleware layer to appropriately integrate quantum and classical workflows.

As part of the ten-year IBM Quantum Development Roadmap, IBM plans for this system to also house IBMs future generations of quantum processors. Also, as part of this roadmap, these future processors are intended to gradually improve the quality of operations they can run to significantly extend the complexity and size of workloads they are capable of handling.

IBM is also detailing plans for a new generation of its software stack, within which Qiskit 1.0 will be a pivot point defined by stability and speed. Additionally, and with the goal of democratizing quantum computing development, IBM is announcing Qiskit Patterns.

Qiskit Patterns will serve as a mechanism to allow quantum developers to more easily create code. It is based in a collection of tools to simply map classical problems, optimize them to quantum circuits using Qiskit, executing those circuits using Qiskit Runtime, and then postprocess the results. With Qiskit Patterns, combined with Quantum Serverless, users will be able to build, deploy, and execute workflows integrating classical and quantum computation in different environments, such as cloud or on-prem scenarios. All of these tools will provide building blocks for users to build and run quantum algorithms more easily.

Additionally, IBM is pioneering the use of generative AI for quantum code programming through watsonx, IBMs enterprise AI platform. IBM will integrate generative AI available through watsonx to help automate the development of quantum code for Qiskit. This will be achieved through the finetuning of the IBM Granite model series.

With advanced hardware across IBMs global fleet of 100+ qubit systems, as well as easy-to-use software that IBM is debuting in Qiskit, users and computational scientists can now obtain reliable results from quantum systems as they map increasingly larger and more complex problems to quantum circuits.

Continued here:
133qubit Quantum Heron launched by IBM - Electronics Weekly

About Andrew Kessel

Andrew is a financial journalist with experience covering public companies in a wide breadth of industries, including tech, medicine, cryptocurrency, mining and retail. In addition to Proactive, he has been published in a Financial Times-owned newsletter covering broker-dealer firms and in the Columbia Misourian newspaper as the lead reporter focused on higher education. He got his start with an internship at Rolling Stone magazine. Read more

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IBM showcases quantum computing chip with 2033 target for large computer systems - Proactive Investors USA