Since 1987 - Covering the Fastest Computers in the World and the People Who Run Them

Since 1987 - Covering the Fastest Computers in the World and the People Who Run Them

BUDAPEST, June 14, 2022 — Lenovo has today officially opened the doors to its first in-house manufacturing facility in Europe. Based in Ullo, Hungary, the factory focuses primarily on building server infrastructure, storage systems and high-end PC workstations used by customers throughout the Europe, Middle East, and Africa region.

Extending Lenovo’s international manufacturing operations, the investment represents significant economic potential for both the private and public sectors in Hungary, with increased production capacity, greater potential for collaboration with local vendors, and the creation of new job openings. The site already employs over 1,000 full-time staff in a variety of engineering, management & operational roles, with numbers continuing to increase as the facility moves towards full capacity.

Strong infrastructure, skilled labor and a location at the center of Europe made Hungary the natural location for Lenovo’s first European in-house manufacturing facility. In addition, part of Lenovo’s investment has been supported with local government incentives through the Hungarian Investment Promotion Agency (HIPA).

Francois Bornibus, Senior Vice President and EMEA President, at Lenovo, commented: “With our manufacturing facility in Hungary officially open, we’ve reached a profound milestone in our global manufacturing network optimization and evolution. Hungary’s well-connected location puts us much closer to our European customers so that we can fulfil and sustain their needs while remaining at the forefront of innovation. As our business continues to grow around the world, this incredible new facility will play a key role in our plans to ensure future success and bring smarter technology for all to Europe more sustainably, quickly and efficiently.”

Róbert Ésik, CEO of the Hungarian Investment Promotion Agency (HIPA), added: “We are delighted that Lenovo, an industry leader with a long-established history in global manufacturing, has chosen to cooperate with us and locate its new facility in Hungary. With the site now officially open, we expect to see new collaboration opportunities for local suppliers contribute towards Hungary’s prosperous economic environment.”

Covering almost 50,000 square meters across two buildings and three floors, the new site is one of Lenovo’s largest manufacturing facilities. The production line can produce more than 1,000 servers and 4,000 workstations a day – each one built specifically to customer requirements. Innovative automation capabilities are equipped throughout, including a first-class building management system operating on the shop floor and logistics area to monitor temperature, humidity, asset conditions and DIMM robotic labeling. This enables Lenovo to maintain optimal quality control of its products.

The new purpose- built building has been fitted with solar panels with a capacity of 0.5 megawatts – enough energy to power the equivalent of a small village. Building devices locally also dramatically reduces the freight miles these products incur, providing more efficient and sustainable transportation options. This combined with innovative manufacturing processes, such as Lenovo’s patented low-temperature solder process, will help Lenovo achieve its science-based climate goals.

The Hungary facility is part of Lenovo’s global manufacturing and supply chain strategy that serves customers in 180 markets from 35+ manufacturing sites around the world – including Argentina, Brazil, China, Germany, Hungary, India, Japan, Mexico and the USA. Lenovo is widely recognized for its global hybrid manufacturing model that includes a mix of both in-house and contract manufacturing. A key source of competitive advantage for the company, it provides greater efficiency and control over product development and supply chain operations, enabling customer needs to be responded to more effectively. In May 2022, Lenovo jumped seven places in a year, and is now ranked #9 in the Gartner Global Supply Chain Top 25 for 2022. The recognition highlights Lenovo’s leadership as a purpose-driven organization and operational center of excellence in the global supply chain community.

In addition to creating new job opportunities in and around Ullo, Lenovo continues its commitment to support the local community through philanthropic activities such as technology donations for local schools and charities.

Lenovo (HKSE: 992) (ADR: LNVGY) is a US$70 billion revenue global technology powerhouse, ranked #159 in the Fortune Global 500, employing 75,000 people around the world, and serving millions of customers every day in 180 markets. Focused on a bold vision to deliver smarter technology for all, Lenovo has built on its success as the world’s leading PC player by expanding into new growth areas of infrastructure, mobile, solutions and services. This transformation together with Lenovo’s world-changing innovation is building a more inclusive, trustworthy, and sustainable digital society for everyone, everywhere. To find out more visit https://www.lenovo.com, and read about the latest news via our StoryHub.

Be the most informed person in the room! Stay ahead of the tech trends with industy updates delivered to you every week!

Quantinuum today announced a significant upgrade to its ion trap quantum computer, H1-1, which now has 20 qubits – up from 12 qubits – and features all-to-all connectivity. At the same time, researchers from JPMorgan Read more…

Looking for more access to quantum computing resources? The National Sciences Foundation (NSF) recently reiterated its support for supplemental funding for access to cloud-based quantum computing resources via Amazon, IB Read more…

Today, the LUMI pre-exascale supercomputer was inaugurated in Kajaani, Finland. LUMI—which currently weighs in around 152 Linpack petaflops, but is expected to soon exceed 375—represents the largest success thus far Read more…

Close to a decade ago, AMD was in turmoil. The company was playing second fiddle to Intel in PCs and datacenters, and its road to profitability hinged mostly on its chips appearing in Microsoft's Xbox One and Sony's Play Read more…

HPCwire presents our interview with Jay Gambetta, IBM Fellow and VP, Quantum, and an HPCwire 2022 Person to Watch. Few companies have tackled as many parts of the complicated quantum computing landscape as IBM. From hard Read more…

This post was contributed by Santhan Pamulapati, Solutions Architect, and Sean Smith, Sr. Solutions Architect at AWS.

GROMACS is a popular open-source software package designed for simulations of proteins, lipids, and nucleic acids. Read more…

How customers use financial services and engage banks is changing. The global pandemic increased frustration for banking customers as they tried to navigate legacy digital applications lacking personalization and waited in long queues to reach a customer service agent. Read more…

Imagine some years hence the HPC landscape, already confusing in its heterogeneity, also includes quantum computing resources. How does a user choose from among those resources the best workflow and computing engines for Read more…

Quantinuum today announced a significant upgrade to its ion trap quantum computer, H1-1, which now has 20 qubits – up from 12 qubits – and features all-to-a Read more…

Today, the LUMI pre-exascale supercomputer was inaugurated in Kajaani, Finland. LUMI—which currently weighs in around 152 Linpack petaflops, but is expected t Read more…

Close to a decade ago, AMD was in turmoil. The company was playing second fiddle to Intel in PCs and datacenters, and its road to profitability hinged mostly on Read more…

Imagine some years hence the HPC landscape, already confusing in its heterogeneity, also includes quantum computing resources. How does a user choose from among Read more…

Back in 2008, the U.S. Defense Advanced Research Projects Agency (DARPA) set an ambitious target: an exascale supercomputer in a 20-megawatt envelope. That targ Read more…

As quantum computing comes closer to mainstream, it's universally agreed that these systems won't replace classical computing. That raises the question: where e Read more…

Supercomputing has been indispensable throughout the Covid-19 pandemic, from modeling the virus and its spread to designing vaccines and therapeutics. But, desp Read more…

The first products out of Intel's new factories in Germany, which will start operations between 2025 and 2027, will be for high-performance computing. “We're eager to have the first products out for the German fab to be servicing or HPC customers. So, we're doing that,” said Jeff McVeigh, vice president and general manager of Intel's supercomputing group... Read more…

Getting a glimpse into Nvidia’s R&D has become a regular feature of the spring GTC conference with Bill Dally, chief scientist and senior vice president of research, providing an overview of Nvidia’s R&D organization and a few details on current priorities. This year, Dally focused mostly on AI tools that Nvidia is both developing and using in-house to improve... Read more…

Intel has shared more details on a new interconnect that is the foundation of the company’s long-term plan for x86, Arm and RISC-V architectures to co-exist in a single chip package. The semiconductor company is taking a modular approach to chip design with the option for customers to cram computing blocks such as CPUs, GPUs and AI accelerators inside a single chip package. Read more…

In April 2018, the U.S. Department of Energy announced plans to procure a trio of exascale supercomputers at a total cost of up to $1.8 billion dollars. Over the ensuing four years, many announcements were made, many deadlines were missed, and a pandemic threw the world into disarray. Now, at long last, HPE and Oak Ridge National Laboratory (ORNL) have announced that the first of those... Read more…

AMD/Xilinx has released an improved version of its VCK5000 AI inferencing card along with a series of competitive benchmarks aimed directly at Nvidia’s GPU line. AMD says the new VCK5000 has 3x better performance than earlier versions and delivers 2x TCO over Nvidia T4. AMD also showed favorable benchmarks against several Nvidia GPUs, claiming its VCK5000 achieved... Read more…

The 59th installment of the Top500 list, issued today from ISC 2022 in Hamburg, Germany, officially marks a new era in supercomputing with the debut of the first-ever exascale system on the list. Frontier, deployed at the Department of Energy’s Oak Ridge National Laboratory, achieved 1.102 exaflops in its fastest High Performance Linpack run, which was completed... Read more…

The first-ever appearance of a previously undetectable quantum excitation known as the axial Higgs mode – exciting in its own right – also holds promise for developing and manipulating higher temperature quantum materials... Read more…

The battle for datacenter dominance keeps getting hotter. Today, Nvidia kicked off its spring GTC event with new silicon, new software and a new supercomputer. Speaking from a virtual environment in the Nvidia Omniverse 3D collaboration and simulation platform, CEO Jensen Huang introduced the new Hopper GPU architecture and the H100 GPU... Read more…

PsiQuantum, founded in 2016 by four researchers with roots at Bristol University, Stanford University, and York University, is one of a few quantum computing startups that’s kept a moderately low PR profile. (That’s if you disregard the roughly $700 million in funding it has attracted.) The main reason is PsiQuantum has eschewed the clamorous public chase for... Read more…

Intel reiterated it is well on its way to merging its roadmap of high-performance CPUs and GPUs as it shifts over to newer manufacturing processes and packaging technologies in the coming years. The company is merging the CPU and GPU lineups into a chip (codenamed Falcon Shores) which Intel has dubbed an XPU. Falcon Shores... Read more…

MLCommons today released its latest MLPerf inferencing results, with another strong showing by Nvidia accelerators inside a diverse array of systems. Roughly fo Read more…

Just a couple of weeks ago, the Indian government promised that it had five HPC systems in the final stages of installation and would launch nine new supercomputers this year. Now, it appears to be making good on that promise: the country’s National Supercomputing Mission (NSM) has announced the deployment of “PARAM Ganga” petascale supercomputer at Indian Institute of Technology (IIT)... Read more…

Intel held its 2022 investor meeting yesterday, covering everything from the imminent Sapphire Rapids CPUs to the hotly anticipated (and delayed) Ponte Vecchio GPUs. But somewhat buried in its summary of the meeting was a new namedrop: “Falcon Shores,” described as “a new architecture that will bring x86 and Xe GPU together into a single socket.” The reveal was... Read more…

A new industry consortium aims to establish a die-to-die interconnect standard – Universal Chiplet Interconnect Express (UCIe) – in support of an open chipl Read more…

Supercomputing has been indispensable throughout the Covid-19 pandemic, from modeling the virus and its spread to designing vaccines and therapeutics. But, desp Read more…

Installation has begun on the Aurora supercomputer, Rick Stevens (associate director of Argonne National Laboratory) revealed today during the Intel Vision event keynote taking place in Dallas, Texas, and online. Joining Intel exec Raja Koduri on stage, Stevens confirmed that the Aurora build is underway – a major development for a system that is projected to deliver more... Read more…

At GTC22 today, Nvidia unveiled its new H100 GPU, the first of its new ‘Hopper’ architecture, along with a slew of accompanying configurations, systems and Read more…

© 2022 HPCwire. All Rights Reserved. A Tabor Communications Publication

HPCwire is a registered trademark of Tabor Communications, Inc. Use of this site is governed by our Terms of Use and Privacy Policy.

Reproduction in whole or in part in any form or medium without express written permission of Tabor Communications, Inc. is prohibited.