TOKYO, September 12, 2025 - (JCN Newswire via SeaPRwire.com) — The University of Osaka D3 Center will begin trial operations of the "Osaka University Compute and sTOrage Platform Urging open Science" (OCTOPUS), a computational and data platform promoting open science built by NEC Corporation (NEC; TSE: 6701), starting this September, with full-scale operations commencing in December.OCTOPUS is a supercomputer with a theoretical computational performance of 2.293 petaflops, centered around 140 computing nodes of the "NEC LX201Ein-1" (*1). Compared to the previous system, it not only offers approximately 1.5 times the performance, but also incorporates a provenance management function (*2), which automatically records and manages processes such as data generation, jointly developed by both parties. This contributes to promoting open science, where research data is shared across society as a whole.NEC LX201Ein-1 used in OCTOPUS OCTOPUS Exterior View(Winning design from a public competition rendered on the rack) Recent academic research involves the daily analysis and generation of vast amounts of data using supercomputers. However, the research process and results are often left to manual recording and management by researchers, raising concerns regarding reproducibility, fairness, and efficiency. Furthermore, from the perspective of promoting open science, there is a demand for greater transparency in the research process and the implementation of an audit trail management system.In response, a research group led by Susumu Date, Director at The Joint Research Laboratory for Integrated Infrastructure of High Performance Computing and Data Analysis —established in 2021 by The University of Osaka D3 Center and NEC—developed SCUP-HPC (*3), a new technology that records and manages the computational provenance executed on supercomputers.SCUP-HPC tracks, records, manages, and visualizes computational provenance—tracking what data is accessed by which programs and what data is generated—in cluster-type supercomputers where multiple high-performance computers are connected via high-speed networks, while minimizing the impact on the supercomputer's performance.This enables "Scientific Computing Unifying Provenance – High Performance Computing," which integrates computational provenance on supercomputers, and is expected to dramatically improve the productivity of researchers using supercomputers for scientific computing tasks such as simulations and AI training.Furthermore, by utilizing the provenance management and search service provided by SCUP-HPC, authorized users will be able to perform searches using history IDs and view visualized computational provenance. This will enable researchers to include the computation history ID in their paper acknowledgments (*4), confirming that the research results were computed using OCTOPUS, thereby helping to ensure the integrity of academic research.NEC plans to commercialize a provenance management system for supercomputers utilizing SCUP-HPC in the future.Conceptual Flow of Recording the Computational Provenance and UtilizationThe University of Osaka D3 Center and NEC will continue to promote the introduction and utilization of next-generation high-performance servers as a foundation for industrial applications and AI/big data utilization, in addition to traditional supercomputer application areas, thereby contributing to cutting-edge technological development.Furthermore, under its value creation model "NEC BluStellar" (*5), NEC will pursue the "NEC BluStellar Scenario" for "Enhancing Research Capabilities through the Advancement of Research Information Infrastructure," centered on research information infrastructure, to realize open science and support research activities in the academic field.(*1) Intel Xeon 6900 P-core series equippedhttps://download.intel.com/newsroom/2024/data-center/Fact-Sheet-Xeon-6-P-Core.pdf(*2) The provenance management function is scheduled to be available starting in December 2025.(*3) System for Constructing and Utilizing Provenance on High-Performance Computing SystemsThis research result was published online in the U.S. scientific journal IEEE Access on August 11, 2025.Title: "SCUP-HPC: System for Constructing and Utilizing Provenance on High-Performance Computing System"Author: Yuta Namiki, Takeo Hosomi, Hideyuki Tanushi, Akihiro Yamashita, and Susumu DateDOI: https://doi.org/10.1109/ACCESS.2025.3597361This research was conducted as part of collaborative work at the Center for High-Performance Computing and Data Analysis Integration established by The University of Osaka D3 Center and NEC.(*4) For example, the following may be included in the acknowledgments section of a paper: "Part of the results of this research were obtained using the OCTOPUS facility at The University of Osaka D3 Center. (Computational history ID=whoami-123456789)"(*5) NEC BluStellar is a value creation model that leverages NEC’s cutting-edge technologies, developed and refined through years of experience and proven cross-industry expertise. It aims to transform business models, address social challenges, resolve management issues faced by customers, and lead them into a brighter future.https://www.nec.com/en/global/necblustellar/index.htmlAbout NEC CorporationNEC Corporation has established itself as a leader in the integration of IT and network technologies while promoting the brand statement of “Orchestrating a brighter world.” NEC enables businesses and communities to adapt to rapid changes taking place in both society and the market as it provides for the social values of safety, security, fairness and efficiency to promote a more sustainable world where everyone has the chance to reach their full potential. For more information, visit NEC at https://www.nec.com.  Copyright 2025 JCN Newswire via SeaPRwire.com. All rights reserved. www.jcnnewswire.com

TOKYO, September 12, 2025 - (JCN Newswire via SeaPRwire.com) - TOYOTA GAZOO Racing (TGR) announced today that it intends to launch the GR Yaris "Aero performance package", which incorporates insights gained from motorsports, at Toyota vehicle dealers across Japan on October 1, 2025.GR Yaris "Aero performance package" (Japan specifications)- The GR Yaris "Aero performance package", which was developed together with professional drivers through an uncompromising approach to achieving targeted performance by addressing every single issue encountered during racing and circuit evaluations, will be available on the RZ "High performance" and RC trim levels of the GR Yaris, with sales set to start on October 1.The GR Yaris "Aero performance package" is now on display at the Toyota Motor Corporation public display space in Midland Square (in Nagoya, Japan). Detailed information on the exhibition period and location can be found on the following special website (in Japanese).https://www.toyota.co.jp/showroom_midlandsquare/EquipmentThe "Aero performance package" maximizes aerodynamic performance enhancement through the combined installation of a total of six items, all of which have been uncompromisingly fine-tuned, resulting in further improving the cooling and aerodynamic performance of the GR Yaris. Competing in the Super Taikyu Series and Japanese Rally Championship enabled the identification and addressing of issues one by one in a shared pursuit of the ideal with professional race drivers. The package will be available on the RZ "High performance" and RC trim levels of the GR Yaris.  1. Ducted aluminum hoodDuring high-speed driving, a ducted aluminum hood, which shares the shape of the carbon-fiber hood used on the GRMN Yaris and which was developed by entering a car installed with it in the Japanese Rally Championship, improves cooling by discharging engine compartment heat.2. Front lip spoilerTo achieve the high level of aerodynamic balance learned by competing in the Super Taikyu Series, a front lip spoiler suppresses the generation of front lift*1 to enhance front ground contact and aerodynamic balance, improving the vehicle's overall lift balance. Initially, five items, excluding the front lip spoiler, were considered for the "Aero performance package". But, based on feedback from professional race driver Oshima, a higher level of balance was sought, ultimately resulting in the addition of this front lip spoiler.3. Fender ductsFender ducts release rearward air that accumulates in the front wheelhouses, improving the steering feel during nose dives*2 and handling stability when entering corners.4. Fuel tank undercoverA fuel tank undercover, drawing inspiration from the flat shape of the bottom of the safety fuel tank of a car entered in the Super Taikyu Series, optimizes the airflow under the vehicle body and improves aerodynamic performance.5. Variable rear wingA large variable rear wing contributes to handling stability at high speeds and suppresses snake-like movement*3 during braking. Because it is adjustable, its angle can be changed depending on the driving situation at hand, such as on a circuit, for enjoyable driving.6. Rear bumper ductsRear bumper ducts suppress the rear bumper's parachute effect*4 and decrease the drag coefficient. Spawning from the case of a rear bumper being detached due to aerodynamic loads while competing in the Super Taikyu Series, in which cars are subjected to severe conditions, the ducts were developed to cope with the uniquely harsh environments of motorsports.For more details, please visit: https://global.toyota/en/newsroom/toyota/43298612.htmlLink to the "GR Yaris" webpage (Japanese only)https://toyota.jp/gryaris/https://toyotagazooracing.com/jp/gr/yaris/Toyota Motor Corporation works to develop and manufacture innovative, safe and high-quality products and services that create happiness by providing mobility for all. We believe that true achievement comes from supporting our customers, partners, employees, and the communities in which we operate. Since our founding over 80 years ago in 1937, we have applied our Guiding Principles in pursuit of a safer, greener and more inclusive society. Today, as we transform into a mobility company developing connected, automated, shared and electrified technologies, we also remain true to our Guiding Principles and many of the United Nations' Sustainable Development Goals to help realize an ever-better world, where everyone is free to move.SDGs Initiatives: https://global.toyota/en/sustainability/sdgs/ Copyright 2025 JCN Newswire via SeaPRwire.com. All rights reserved. www.jcnnewswire.com

Pilot plant for membrane dehydration systemsTOKYO, September 12, 2025 - (JCN Newswire via SeaPRwire.com) - Mitsubishi Heavy Industries, Ltd. (MHI) has achieved the target performance of over 99.5vol% ethanol purity at a pilot plant for membrane dehydration systems (MMDS®: Mitsubishi Membrane Dehydration System) installed at MHI's Nagasaki Carbon Neutral Park within the Nagasaki District Research & Innovation Center, which meets domestic fuel standards.Bioethanol is gaining attention as a clean fuel alternative to gasoline and as a raw material for Sustainable Aviation Fuel (SAF). However, in order to be used as fuel, the removal of moisture contained in bioethanol during the final stage of manufacturing (dehydration) is essential, and the dehydration process consumes a significant amount of energy. MMDS® aims to optimize the process by replacing the conventional method with a molecular sieve separation method(*), thereby achieving high-efficiency manufacturing while significantly reducing energy consumption by over 30%, leading to a substantial reduction in operational costs and stable production. Additionally, since MMDS® enables separation in the liquid phase, it allows for the compact design of the equipment.Moving forward, based on the results of various element tests conducted at the pilot plant, MHI plans to accelerate development toward the construction of a demonstration plant for an early launch.MHI is committed to advancing the development and commercialization of high-efficiency manufacturing processes for hydrogen-free bioethanol, a clean fuel derived from plants. Through these efforts, MHI will strive for early establishment and execution of decarbonization technologies, as a way of contributing to the realization of a sustainable, carbon neutral world.(*) This method utilizes the difference in molecular size to separate substances using membranes.Bioethanol membrane dehydration systems (MMDS®: Mitsubishi Membrane Dehydration System) LOGOINCHEM TOKYO 2025 Exhibition InformationDates: September 17 (Wed) - 19 (Fri), 2025Location: Tokyo Big Sight (Koto City, Tokyo), East Exhibition HallMHI Booth Number: 5-SP03For more details on the exhibition, please visit: https://inchem.jma.or.jp/en/About MHI GroupMitsubishi Heavy Industries (MHI) Group is one of the world’s leading industrial groups, spanning energy, smart infrastructure, industrial machinery, aerospace and defense. MHI Group combines cutting-edge technology with deep experience to deliver innovative, integrated solutions that help to realize a carbon neutral world, improve the quality of life and ensure a safer world. For more information, please visit www.mhi.com or follow our insights and stories on spectra.mhi.com Copyright 2025 JCN Newswire via SeaPRwire.com. All rights reserved. www.jcnnewswire.com

TOKYO, September 12, 2025 - (JCN Newswire via SeaPRwire.com) - Eisai Co., Ltd. (Headquarters: Tokyo, CEO: Haruo Naito, “Eisai”) announced today the release of a concept movie and new content on the dedicated website for its “New Answers to Dementia” campaign, designed to increase corporate awareness.In March 2025, Eisai launched a dedicated website (Japanese only) to share its commitment and ongoing efforts in pursuing “new answers” to dementia with a wider audience.Japan’s “Basic Act on Dementia to Promote an Inclusive Society” designates September as “Dementia Month” and September 21 as “Dementia Day in line with globally recognized World Alzheimer’s Month and World Alzheimer’s Day.” To coincide with Dementia Month, when public awareness of dementia is high, Eisai has released a concept movie and published exclusive content on its designated website. The movie embodies Eisai’s belief in “Science, Courage, and Perseverance” in the ongoing pursuit of “new answers” for dementia. The content highlights the initiatives of companies and organizations across Japan that share Eisai’s commitment to supporting dementia patients.Overview of Dedicated Website and its ContentDedicated Website URLhttps://www.eisai.co.jp/newanswer/New Content1) Concept Movie “History Begins with Belief”Eisai embraces a mindset of having the “courage to step where no one dare go,” “perseverance to believe in our ability to succeed,” and “science that underpins our convictions.” With the principles of “Science, Courage, and Perseverance,” Eisai continues to deliver “new answers” for dementia care. To share this passion, Eisai produced a 120-second movie. More than 30 actual Eisai staff appear in the movie as employees, and it was filmed at Eisai’s own research facilities using genuine laboratory instruments and equipment.Additionally, an interview with Eisai’s COO, Keisuke Naito, in which he shares the passion and idea behind the movie is currently available on Toyo Keizai Online.URL https://toyokeizai.net/articles/-/8959262) Showcase: “Our New Answer”In Japan, countless businesses and organizations are continuously developing various “new answers.” This content highlights the initiatives of Eisai’s like-minded partners who are committed to creating “new answers” and building a society where dementia patients and their families can live their fullest lives.Eisai's corporate concept is "to give first thought to patients and people in the daily living domain, and to increase the benefits that health care provides." Under this Concept (also known as the human health care(hhc) concept), we aim to effectively achieve social good in the form of relieving anxiety over health and reducing health disparities. Within the dementia field, where it has long been focused as a leading pioneer, Eisai is committed not only to developing therapeutic medicines but also to creating a dementia ecosystem in collaboration with various partners, including other industries and local governments, that provides comprehensive support from prevention to care for patients, their families, and the people in the daily living domain, in order to realize a dementia-inclusive society where anyone can live their fullest life.Eisai will continue to pursue “new answers” in partnership with dementia patients, their families, and our partners.Media Inquiries:Public Relations Department,Eisai Co., Ltd.+81-(0)3-3817-5120  Copyright 2025 JCN Newswire via SeaPRwire.com. All rights reserved. www.jcnnewswire.com

TOKYO, Sept 12, 2025 - (JCN Newswire via SeaPRwire.com) - TANAKA PRECIOUS METAL TECHNOLOGIES Co., Ltd. (Head Office: Chuo-ku, Tokyo; Representative Director & CEO: Koichiro Tanaka), a company engaged in the industrial precious metals business of TANAKA, announces the successful development of a palladium (Pd) alloy hydrogen permeable membrane operable in the low temperature range around 300°C. Compared to conventional products, this product features high hydrogen permeation performance while operating at lower temperatures. Provision of this product’s samples is scheduled to start on or after September 15, 2025.An academic presentation regarding this product will be made at The Japan Institute of Metals and Materials’ “2025 Fall Meeting,” which will be held at Hokkaido University from September 17 to 19, 2025.Palladium Alloy Hydrogen Permeable Membrane (PdCu39)Among PdCu alloy membranes, PdCu40 (an alloy with 60% palladium content and 40% copper content) is known to exhibit the highest hydrogen permeation performance. However, hydrogen purification using PdCu40 required operation at high temperatures of around 400°C. TANAKA focused on the palladium content ratio in PdCu-based hydrogen permeable membranes and successfully maximized the performance of PdCu-based hydrogen permeable membranes with PdCu39 (an alloy with 61% palladium content and 39% copper content).Previously, the high hydrogen permeation capability of PdCu39 was not recognized. This was because even a slight fcc phase (*1) presence would significantly reduce hydrogen permeation performance, and achieving a complete bcc phase (*2) was considered difficult. However, by applying proprietary heat treatment methods developed through decades of expertise in precious metal materials research, it became possible to obtain a complete bcc phase, leading to the commercialization of this product.Hydrogen Permeation Mechanism via Palladium-based Hydrogen Permeable MembranesWith recent advances in hydrogen purification technologies, there is increasing demand for hydrogen permeable metal membranes capable of operating at lower temperatures than previously possible. To purify high-purity hydrogen, the most common method involves purifying hydrogen gas generated from methanol-water through modules incorporating hydrogen permeable membranes. However, while hydrogen is generated from methanol-water at temperatures of around 300°C, hydrogen permeable membranes typically exhibit their performance at 400°C or higher, necessitating additional heating equipment and contributing to increased costs. Moreover, the generation of gas impurities due to heating has also posed a challenge.This product can purify hydrogen at a low temperature of approximately 300°C, eliminating the need for additional heating equipment and reducing equipment oxidation more effectively than conventional products. Additionally, it is expected to help reduce energy costs, including electricity and CO₂ emissions.Product FeaturesEffective at low temperatures around 300°CHigh hydrogen permeation performance through achievement of complete bcc phasePinhole-free membraneNo additional heating equipment required, reducing equipment oxidation during the heating processEnables downsizing of hydrogen purification equipment compared to other technologiesPd/Cu Ratio in PdCu Alloys and Hydrogen Permeability Performance @ 300°CTemperature Dependence of Hydrogen Permeation PerformanceDifferences in bcc Phase/fcc Phase Ratio of PdCu39 Depending on Heat Treatment ConditionsDimensions and Shapes Available (Prototype Samples for Evaluation)ThicknessWidthShapeMinimum 10 µmTMaximum 120 mmSheets (square, circular, etc.)*1 fcc phase: Refers to the metallic phase with a face-centered cubic crystal structure.*2 bcc phase: Refers to the metallic phase with a body-centered cubic crystal structure.About TANAKASince its foundation in 1885, TANAKA has built a portfolio of products to support a diversified range of business uses focused on precious metals. TANAKA is a leader in Japan regarding the volume of precious metals it handles. Over many years, TANAKA has manufactured and sold precious metal products for industry and provided precious metals in such forms as jewelry and assets. As precious metals specialists, all Group companies in Japan and worldwide collaborate on manufacturing, sales, and technology development to offer a full range of products and services. With 5,591 employees, the group’s consolidated net sales for the fiscal year ended December 2024 were 846.9 billion yen.TANAKA Industrial Precious Metal Materials Portalhttps://tanaka-preciousmetals.comProduct inquiriesTANAKA PRECIOUS METAL TECHNOLOGIES Co., Ltd.https://tanaka-preciousmetals.com/en/inquiries-on-industrial-products/Press inquiriesTANAKA PRECIOUS METAL GROUP Co., Ltd.https://tanaka-preciousmetals.com/en/inquiries-for-media/Press release: https://www.acnnewswire.com/docs/files/2025912_EN.pdf   Copyright 2025 JCN Newswire via SeaPRwire.com. All rights reserved. www.jcnnewswire.com