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Classiq、量子プログラミングのための初の高水準言語Qmodで量子コンピューティングを変革する
TEL AVIV, Israel | July 23, 2024 08:00 AM Eastern Daylight Time
Classiq today announced the general availability of Qmod (Quantum Modeling Language), the first high-level language (HLL) for quantum coding. Following successful pilot projects with enterprise partners, Qmod is now accessible to developers, researchers and enterprises worldwide and will transform quantum computing with its efficient, approachable method of programming.
Qmod facilitates advanced quantum modeling and enables developers to describe quantum algorithms at a high level of abstraction. It supports unique quantum-computing concepts alongside conventional constructs found in high-level classical programming languages. This innovative approach allows developers to focus on the functional intent of their algorithms while Classiq’s powerful compiler and synthesis engine handle the intricate hardware-aware quantum implementation details.
“To deliver a business or scientific value, quantum computing must be useful and accessible to scientists and engineers seeking to use quantum computing to solve real-world problems, which today it is not,” said Heather West, PhD, Research Manager, Quantum Computing at IDC. “Today, programming a quantum computer happens at the hardware level, making the technology only accessible to quantum physicists and other quantum specialists. As we begin to talk about quantum utility and near-term applications, abstraction-level application programming will become a necessity for wide-spread quantum adoption and usage.”
Why The Qmod Language Is Different
- Declarative programming: Qmod’s declarative nature lets users define what their algorithm should achieve rather than how to achieve it; Classiq’s synthesis engine compiler optimizes for hardware and other constraints automatically.
- Flexibility and interoperability: Whether through native syntax, Python or graphical representation, Qmod descriptions are easily translatable and compatible across different formats and hardware.
- Industry-ready: Qmod is a tool for researchers and industry applications, providing robust scalable solutions for enterprise-grade quantum software development in an era of steadily growing qubit counts and the resulting coding complexity.
“As we go further in building a complete quantum software stack, our groundbreaking Qmod language enables quantum experts to produce sophisticated programs while also allowing developers without a quantum background to innovate and solve complex problems across a variety of industry domains,” said Nir Minerbi, CEO and co-founder of Classiq. “By abstracting the complexities of quantum programming, Qmod delivers the ability to create and deploy dynamic quantum applications effortlessly. In some cases, it’ll use perhaps five lines of code instead of the traditional 100 lines of code. Like Java for the worldwide web or BASIC for PCs, Qmod is intended to open the gates to advanced quantum implementation.”
Classiq’s platform ensures that quantum algorithms designed with Qmod can be seamlessly compiled for a broad range of hardware and simulation environments, as well as supporting seamless HPC integration. The platform's synthesis engine dynamically adapts implementations to different hardware configurations, allowing for rapid benchmarking and ensuring optimal implementations that make the very most of the available hardware.
Classiq について
Classiq 量子ソフトウェアのリーディングカンパニーであるテクノロジーズ社は、アルゴリズム設計から実行まで、量子コンピューティングへの入口を一本化した包括的なプラットフォーム(IDE、コンパイラ、OS)を提供します。開発者の習熟度に合わせた高レベルの記述式量子ソフトウェア開発環境は、量子プログラミングを自動化します。これにより、AI、ML、線形代数のバックグラウンドを持つ人を含む幅広い才能が、量子物理学の深い専門知識を必要とせずに量子コンピューティングを利用できるようになります。Classiq 、量子コンピューティングへのアクセスを民主化し、幅広い量子ハードウェアへのアクセスを含め、量子コンピューティング革命を最大限に活用できるようにします。
Classiq’s core technology, algorithmic quantum circuit compilation, is engineered to power the quantum ecosystem of today and the future. Classiq works closely with quantum cloud providers and advanced computation hardware developers providing software for use with quantum computers, HPC, and quantum simulators.
Backed by investors such as HPE, HSBC, Samsung, Intesa Sanpaolo and NTT, Classiq’s world-class team of scientists and engineers has distilled decades of quantum expertise into its groundbreaking quantum engine. Follow Classiq on LinkedIn, X (formerly Twitter) or YouTube, and visit the Slack community and https://www.classiq.io to learn more.
Contact Details
Rainier Communications
Michelle Allard McMahon
Company Website
TEL AVIV, Israel | July 23, 2024 08:00 AM Eastern Daylight Time
Classiq today announced the general availability of Qmod (Quantum Modeling Language), the first high-level language (HLL) for quantum coding. Following successful pilot projects with enterprise partners, Qmod is now accessible to developers, researchers and enterprises worldwide and will transform quantum computing with its efficient, approachable method of programming.
Qmod facilitates advanced quantum modeling and enables developers to describe quantum algorithms at a high level of abstraction. It supports unique quantum-computing concepts alongside conventional constructs found in high-level classical programming languages. This innovative approach allows developers to focus on the functional intent of their algorithms while Classiq’s powerful compiler and synthesis engine handle the intricate hardware-aware quantum implementation details.
“To deliver a business or scientific value, quantum computing must be useful and accessible to scientists and engineers seeking to use quantum computing to solve real-world problems, which today it is not,” said Heather West, PhD, Research Manager, Quantum Computing at IDC. “Today, programming a quantum computer happens at the hardware level, making the technology only accessible to quantum physicists and other quantum specialists. As we begin to talk about quantum utility and near-term applications, abstraction-level application programming will become a necessity for wide-spread quantum adoption and usage.”
Why The Qmod Language Is Different
- Declarative programming: Qmod’s declarative nature lets users define what their algorithm should achieve rather than how to achieve it; Classiq’s synthesis engine compiler optimizes for hardware and other constraints automatically.
- Flexibility and interoperability: Whether through native syntax, Python or graphical representation, Qmod descriptions are easily translatable and compatible across different formats and hardware.
- Industry-ready: Qmod is a tool for researchers and industry applications, providing robust scalable solutions for enterprise-grade quantum software development in an era of steadily growing qubit counts and the resulting coding complexity.
“As we go further in building a complete quantum software stack, our groundbreaking Qmod language enables quantum experts to produce sophisticated programs while also allowing developers without a quantum background to innovate and solve complex problems across a variety of industry domains,” said Nir Minerbi, CEO and co-founder of Classiq. “By abstracting the complexities of quantum programming, Qmod delivers the ability to create and deploy dynamic quantum applications effortlessly. In some cases, it’ll use perhaps five lines of code instead of the traditional 100 lines of code. Like Java for the worldwide web or BASIC for PCs, Qmod is intended to open the gates to advanced quantum implementation.”
Classiq’s platform ensures that quantum algorithms designed with Qmod can be seamlessly compiled for a broad range of hardware and simulation environments, as well as supporting seamless HPC integration. The platform's synthesis engine dynamically adapts implementations to different hardware configurations, allowing for rapid benchmarking and ensuring optimal implementations that make the very most of the available hardware.
Classiq について
Classiq 量子ソフトウェアのリーディングカンパニーであるテクノロジーズ社は、アルゴリズム設計から実行まで、量子コンピューティングへの入口を一本化した包括的なプラットフォーム(IDE、コンパイラ、OS)を提供します。開発者の習熟度に合わせた高レベルの記述式量子ソフトウェア開発環境は、量子プログラミングを自動化します。これにより、AI、ML、線形代数のバックグラウンドを持つ人を含む幅広い才能が、量子物理学の深い専門知識を必要とせずに量子コンピューティングを利用できるようになります。Classiq 、量子コンピューティングへのアクセスを民主化し、幅広い量子ハードウェアへのアクセスを含め、量子コンピューティング革命を最大限に活用できるようにします。
Classiq’s core technology, algorithmic quantum circuit compilation, is engineered to power the quantum ecosystem of today and the future. Classiq works closely with quantum cloud providers and advanced computation hardware developers providing software for use with quantum computers, HPC, and quantum simulators.
Backed by investors such as HPE, HSBC, Samsung, Intesa Sanpaolo and NTT, Classiq’s world-class team of scientists and engineers has distilled decades of quantum expertise into its groundbreaking quantum engine. Follow Classiq on LinkedIn, X (formerly Twitter) or YouTube, and visit the Slack community and https://www.classiq.io to learn more.
Contact Details
Rainier Communications
Michelle Allard McMahon
