惠普实验室

惠普实验室

IT 服务与咨询

Houston,Texas 49,605 位关注者

We see a world where everything connects.

关于我们

At Hewlett Packard Enterprise, we’re innovators at heart, and Hewlett Packard Labs is where some of our most exciting ideas become a reality. Get a peek at the breakthroughs we're working on.

网站
https://labs.hpe.com
所属行业
IT 服务与咨询
规模
超过 10,001 人
总部
Houston,Texas
领域
Research and Development

动态

  • 查看惠普实验室的公司主页,图片

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    For quantum computers to be useful for applications like simulating quantum systems, discovering exotic states of matter or learning new experiment design, researchers have to solve a series of technical problems. Current quantum computers are too small to represent real-world applications. Hewlett Packard Labs is tackling this challenge by developing a distributed quantum simulation framework called adaptive circuit knitting. To find out what this framework entails, read this blog by the Labs quantum team. K. Grace Johnson Masoud Mohseni Xin Zhan Aniello Esposito

    Toward Distributed Quantum Simulation

    Toward Distributed Quantum Simulation

    community.hpe.com

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    Given the recent advances in quantum and high-performance classical computing technologies, the quantum community faces a few important questions. For example: What are the fundamental or technical challenges to build a scalable quantum computer? And is it possible to engineer a quantum-centric supercomputer within the next decade that can solve an industrially useful problem in a cost-effective way? In a new arXiv paper called “How to Build a Quantum Supercomputer: Scaling Challenges and Opportunities,” a team at Hewlett Packard Labs addresses these questions. Read our blog to learn more about this important initiative. Masoud Mohseni K. Grace Johnson Ray Beausoleil

    How to Build a Quantum Supercomputer: Can We Overcome the Scaling Challenges?

    How to Build a Quantum Supercomputer: Can We Overcome the Scaling Challenges?

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    The upcoming International Conference for High Performance Computing, Networking, Storage, and Analysis (SC24) is known as the showcase for all things HPC. And when the conference opens on Sunday in Atlanta, Hewlett Packard Labs will be part of the conversation. Labs will be demonstrating some of our most impactful research into AI, quantum computing and fusion energy. We also will be leading a variety of sessions and workshops on topics ranging from sustainable supercomputing to digital twins to serverless computing and disaggregated memory. https://lnkd.in/eZ594f9W

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    Hewlett Packard Labs is pleased to support the innovative partnership between #HPE and the International Rescue Committee (IRC), launched this week at the Web Summit in Portugal. The many thought-provoking forums at this week’s conference have included a panel session on Combatting Human Trafficking featuring Andrew Wheeler, director, Hewlett Packard Labs.

    The International Rescue Committee and Hewlett Packard Enterprise announce a partnership to use advanced technology against human trafficking

    The International Rescue Committee and Hewlett Packard Enterprise announce a partnership to use advanced technology against human trafficking

    rescue.org

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    In the latest installment of our “Get to Know the Innovator” series, we’re celebrating Nigel Edwards, an HPE Fellow, Vice President and Director of Hewlett Packard Labs’ Security Lab. Here is a look at Nigel’s career and his thoughts on innovation. ?????????? ?????? ?????????????????? Raised in Plymouth, U.K., and with a PhD from the University of Bristol, Nigel joined Hewlett Packard Labs in Bristol in 1988. His career had a major inflection point in the early 1990s when he became acquainted with a project called the World Wide Web at the European Organization for Nuclear Research (known as CERN). He ported CERN’s software to HP’s Unix operating system, HP-UX, providing the patches back to CERN. It quickly became apparent that to unlock the full potential of this new technology, security was going to be really important. Furthermore, industry-wide collaboration would be needed to put in place the foundational software and protocol building blocks. That set the path for the next three decades of Nigel’s career. ???????? ???????????????????? ???????????????? ?????? ?????? ???????????? ???? ??????????? “How do you measure the integrity of a complete IT system, including the hardware software and firmware, to ensure it will behave as intended rather than execute hidden malicious code? That is the problem that drives my work. As an industry, we’ve not paid enough attention to design systems which are measurable and verifiable. We need to take a hardware-software co-design approach. Hardware provides the foundations on which our software is deployed to deliver services. We know how to build hardware which securely initializes itself, so that it starts in a known-good verifiable state. Extending that trust up the stack from the hardware through the complex layers of firmware, hypervisors, operating systems and applications is hard. Attackers are extremely skilled at subverting the linkages in that chain to compromise systems to run malicious code.” ?????? ???? ???????? ???????? ??????????????????? “Our interconnected world gives us benefits that a few decades ago would have been in the realm of science fiction. Unfortunately, it also gives malicious actors in the form of cybercriminals and hostile nation-state agencies a multitude of opportunities or 'attack vectors.' Effectively addressing the threats posed by these actors requires industry-wide collaboration on hardware capabilities, security services and protocols. History demonstrates that fragmentation in which different component providers go in their own direction leads to niche features and services which have minimal impact on improving system security. So my team and I spend a lot of time working with industry partners and suppliers in cross-industry collaborations. We do this in a variety of forums including open-source projects and standards organizations. Our objective is to put in place common hardware capabilities, security services and protocols to make the world more secure.”

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  • 查看惠普实验室的公司主页,图片

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    Neuromorphic computing is emerging as an innovative way for computers to work more efficiently, like human brains, to help systems keep up with demands of #AI. Labs is doing research in this field. In a recent industry article Senior Research Scientist Bassem Tossoun discusses how Labs is using photonics to develop a neuromorphic accelerator. Read the article here in Photonics Focus magazine.

    The rise of brain-like computers and the role of photonics

    The rise of brain-like computers and the role of photonics

    spie.org

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    In the latest episode of the Hewlett Packard Labs podcast “From Research to Reality,” Dejan Milojicic hosts Senior Distinguished Technologist Soumyendu Sarkar. Soumyendu discusses how digital twins can accelerate AI adoption across technology domains, enabling dynamic, holistic control similar to self-driving cars. He reflects on their evolution, explores their potential to revolutionize data center operations, and shares a vision for the future of fully functional digital twins in data centers. He also shares his personal experience of traveling down the #AI path and offers recommendations to technologists pursuing careers in AI. Check out the podcast here. https://lnkd.in/eje-w2hR

    Digital Twins

    https://www.youtube.com/

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