NVIDIA Accelerates Google Quantum AI Processor Design With Simulation of Quantum Device Physics
NVIDIA Accelerates Google Quantum AI Processor Design With Simulation of Quantum Device Physics
Google Quantum AI is using the hybrid quantum-classical computing platform and the NVIDIA Eos supercomputer to simulate the physics of its quantum processors. This will help overcome the current limitations of quantum computing hardware, which can only run a certain number of quantum operations before computations must cease, due to what researchers call "noise."NVIDIA CUDA-Q Platform Enables Google Quantum AI Researchers to Create Massive Digital Model of Its Quantum Computer to Solve Design Challenges
英偉達CUDA-Q平台使谷歌量子人工智能研究人員能夠創建其量子計算機的大規模數字模型,以解決設計挑戰
Google Quantum Computer
谷歌量子計算機
ATLANTA, Nov. 18, 2024 (GLOBE NEWSWIRE) -- SC24 -- NVIDIA today announced it is working with Google Quantum AI to accelerate the design of its next-generation quantum computing devices using simulations powered by the NVIDIA CUDA-Q platform.
亞特蘭大,2024年11月18日(全球新聞網)-- SC24 -- 英偉達今天宣佈正在與谷歌量子人工智能合作,加速其下一代量子計算設備的設計,利用由 英偉達CUDA-Q關於亨廷頓病
Google Quantum AI is using the hybrid quantum-classical computing platform and the NVIDIA Eos supercomputer to simulate the physics of its quantum processors. This will help overcome the current limitations of quantum computing hardware, which can only run a certain number of quantum operations before computations must cease, due to what researchers call "noise."
谷歌量子人工智能正在使用混合量子經典計算平台和英偉達柚子超級計算機來模擬其量子處理器的物理特性。這將有助於克服量子計算硬件當前的限制,該硬件在計算必須停止之前只能運行一定數量的量子操作,因爲研究人員稱之爲「噪聲」。
"The development of commercially useful quantum computers is only possible if we can scale up quantum hardware while keeping noise in check," said Guifre Vidal, research scientist from Google Quantum AI. "Using NVIDIA accelerated computing, we're exploring the noise implications of increasingly larger quantum chip designs."
「如果我們能夠在控制噪音的同時擴大量子硬件的規模,那麼商業上可用的量子計算機的發展才有可能,」谷歌量子人工智能的研究科學家Guifre Vidal說。「利用英偉達加速計算,我們正在探索越來越大量子芯片設計的噪音影響。」
Understanding noise in quantum hardware designs requires complex dynamical simulations capable of fully capturing how qubits within a quantum processor interact with their environment.
理解量子硬件設計中的噪音需要複雜的動態模擬,能夠充分捕捉量子處理器中的量子位如何與環境相互作用。
These simulations have traditionally been prohibitively computationally expensive to pursue. Using the CUDA-Q platform, however, Google can employ 1,024 NVIDIA H100 Tensor Core GPUs at the NVIDIA Eos supercomputer to perform one of the world's largest and fastest dynamical simulation of quantum devices — at a fraction of the cost.
然而,這些模擬傳統上計算成本極高。使用CUDA-Q平台,谷歌可以利用1024個 英偉達H100 Tensor Core gpu芯片-雲計算 在英偉達柚子超級計算機上執行世界上最大和最快的量子設備動態模擬之一——成本僅爲一小部分。
"AI supercomputing power will be helpful to quantum computing's success," said Tim Costa, director of quantum and HPC at NVIDIA. "Google's use of the CUDA-Q platform demonstrates the central role GPU-accelerated simulations have in advancing quantum computing to help solve real-world problems."
"人工智能超級計算能力將有助於量子計算的成功," tim,英偉達量子和高性能計算的董事說。"谷歌對CUDA-Q平台的使用展示了gpu芯片-雲計算加速的模擬在推動量子計算以幫助解決現實世界問題中的核心作用。"
With CUDA-Q and H100 GPUs, Google can perform fully comprehensive, realistic simulations of devices containing 40 qubits — the largest-performed simulations of this kind. The simulation techniques provided by CUDA-Q mean noisy simulations that would have taken a week can now run in minutes.
憑藉CUDA-Q和H100 gpu芯片-雲計算,谷歌可以對包含40個量子比特的設備進行全面、真實的模擬——這是此類模擬的最大規模。CUDA-Q提供的模擬技術意味着,過去需要一週的嘈雜模擬現在可以在幾分鐘內運行。
The software powering these accelerated dynamic simulations will be publicly available in the CUDA-Q platform, allowing quantum hardware engineers to rapidly scale their system designs.
爲這些加速動態模擬提供動力的軟件將在CUDA-Q平台上公開可用,允許量子硬件工程師快速擴展他們的系統設計。
About NVIDIA
NVIDIA (NASDAQ: NVDA) is the world leader in accelerated computing.
關於NVIDIA
英偉達(NASDAQ:英偉達)是加速計算的全球領導者。
For further information, contact:
Cliff Edwards
NVIDIA Corporation
+1-415-699-2755
cliffe@nvidia.com
如需更多信息,請聯繫:
克利夫·愛德華茲
英偉達公司
+1-415-699-2755
cliffe@nvidia.com
Certain statements in this press release including, but not limited to, statements as to: the benefits, impact, and performance of NVIDIA's products, services, and technologies, including NVIDIA CUDA-Q platform, NVIDIA Eos supercomputer, and NVIDIA H100 Tensor Core GPUs; Google using our products and technologies, the benefits and impact thereof, and the features, performance and availability of its offerings; and AI supercomputing power being helpful to quantum computing's success are forward-looking statements that are subject to risks and uncertainties that could cause results to be materially different than expectations. Important factors that could cause actual results to differ materially include: global economic conditions; our reliance on third parties to manufacture, assemble, package and test our products; the impact of technological development and competition; development of new products and technologies or enhancements to our existing product and technologies; market acceptance of our products or our partners' products; design, manufacturing or software defects; changes in consumer preferences or demands; changes in industry standards and interfaces; unexpected loss of performance of our products or technologies when integrated into systems; as well as other factors detailed from time to time in the most recent reports NVIDIA files with the Securities and Exchange Commission, or SEC, including, but not limited to, its annual report on Form 10-K and quarterly reports on Form 10-Q. Copies of reports filed with the SEC are posted on the company's website and are available from NVIDIA without charge. These forward-looking statements are not guarantees of future performance and speak only as of the date hereof, and, except as required by law, NVIDIA disclaims any obligation to update these forward-looking statements to reflect future events or circumstances.
本新聞稿中的某些陳述,包括但不限於關於以下內容的陳述:英偉達產品、服務和技術的好處、影響和性能,包括英偉達CUDA-Q平台、英偉達柚子超級計算機和英偉達H100張量核心gpu芯片-雲計算;谷歌使用我們的產品和技術的情況,相關的好處和影響,以及其產品的特點、性能和可用性;人工智能超級計算能力對量子計算成功的幫助等等,均爲前瞻性陳述,可能面臨風險和不確定性,可能導致實際結果與預期有實質性差異。可能導致實際結果與預期有實質性差異的重要因素包括:全球經濟狀況;我們對第三方在製造、組裝、包裝和測試我們的產品方面的依賴;技術發展和競爭的影響;新產品和技術的開發或對我們現有產品和技術的改進;市場對我們產品或合作伙伴產品的接受度;設計、製造或軟件缺陷;消費偏好或需求的變化;行業標準和接口的變化;我們的產品或技術在系統集成時性能的意外下降;以及不時在英偉達向證券交易委員會(SEC)提交的最新報告中詳細列出的其他因素,包括但不限於其10-k表格年報和10-Q表格季度報告。提交給SEC的報告副本已發佈在公司網站上,並可從英偉達免費獲取。以上前瞻性陳述並不保證未來表現,且僅反映截至本日期的情況,除法律要求外,英偉達未承擔任何更新這些前瞻性陳述以體現未來事件或情況的義務。
Many of the products and features described herein remain in various stages and will be offered on a when-and-if-available basis. The statements above are not intended to be, and should not be interpreted as a commitment, promise, or legal obligation, and the development, release, and timing of any features or functionalities described for our products is subject to change and remains at the sole discretion of NVIDIA. NVIDIA will have no liability for failure to deliver or delay in the delivery of any of the products, features or functions set forth herein.
本文中描述的許多產品和功能仍處於各種階段,將根據可用性提供。上述聲明並非要成爲承諾、承諾或法律義務,我們的產品所描述的任何功能或功能的開發、發佈和定時僅限於NVIDIA的自主決定。NVIDIA不對任何產品、功能或功能的交付失敗或延遲承擔任何責任。
2024 NVIDIA Corporation. All rights reserved. NVIDIA, the NVIDIA logo and CUDA-Q are trademarks and/or registered trademarks of NVIDIA Corporation in the U.S. and other countries. Other company and product names may be trademarks of the respective companies with which they are associated. Features, pricing, availability and specifications are subject to change without notice.
2024 英偉達公司。所有權利保留。英偉達、英偉達標誌和CUDA-Q是英偉達公司在美國及其他國家的商標和/或註冊商標。其他公司和產品名稱可能是其相關公司擁有的商標。功能、定價、可用性和規格如有變更恕不另行通知。
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