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PARIS, April 13, 2023 /PRNewswire/ -- Automotive technology benchmarking leader A2MAC1 has launched operations in Turkey as an important step in its strategic growth. "We are delighted to continue our expansion in the Turkish market with the opening of our new office in Istanbul," said Frank Bunte, CEO of A2MAC1. A2MAC1, an automotive technology leader headquartered in France, has opened its Istanbul office in Turkey. A2MAC1 CEO, Frank Bunte, said at a press conference about the launch of the company's Turkey operations that they have been supporting the Turkish automotive industry and the Turkish economy for nearly 20 years. Explaining that A2MAC1 will support the earthquake victims with the strong social responsibility mission they have undertaken, Bunte said that they will donate up to 20% of revenues generated in Turkey throughout the rest of the year 2023, but at least 100,000 Euros, to earthquake victims and noted that they will contact AFAD for this purpose. Frank Bunte, CEO of A2MAC1, continued his words as follows: "The automotive industry in Turkey has significantly increased its competence in innovation. We are proud to be a trusted partner of more than 500 companies to support the industry's success both in Turkey and internationally. Our motto is to always anticipate market trends and meet the needs of our customers. Therefore, we are delighted to continue our growth in the Turkish market with the opening of our new office in Istanbul. This opening is an important step in our growth strategy. Our staff in our Turkey organization will provide innovative and high value-added solutions to our customers in a smarter, greener and more integrated way than ever before." Bunte said: "For more than a quarter of a century, A2MAC1 has been a strategic partner for its stakeholders. As a global leader, we provide cutting-edge innovative solutions, market trends and growth opportunities for our customers. With an unrivaled database of over 40 million images and 3D models of more than 1,800 analyzed vehicles, we help manufacturers and industrial companies generate ideas, optimize designs and significantly reduce costs." Stating that A2MAC1 was established in 1997, Bunte stated that as a leading company in the field of benchmarking in 18 different locations around the world, they have more than 850 customers and more than 700 employees and that they aim to increase this number to over 1000 and that they will recruit in Turkey, especially in the field of engineering. Frank Bunte stated that they have a platform with over 750 thousand users and that they basically produce solutions for their customers at the point of sustainability and digitalization, and continued his words as follows: "Our platform contains a lot of data about electric vehicles. The platform has the data of over a thousand vehicles and with this data pool, we predict how the future designs of automobiles will be. TOGG in Turkey also benefited from this service and contacted us at the first stage. While we provide service locally here, we will also offer comprehensive data to manufacturers. By showing the technologies inside the vehicles, we provide not only data but also technical support to our customers. We share the data obtained at the end of this comprehensive process with our customers. In addition, we offer our own platform and a digital copy of the vehicle is made on the platform. By clicking on any part on the vehicle on the platform, we can see data about the part. At this point, the costs of the parts can also be calculated. We currently have around 10 customers in Turkey and we aim for this to be over 50 by end of 2023.." About A2MAC1 A2MAC1 is the world's leading provider of competitive benchmarking insights and solutions for the automotive and mobility industry and beyond. From technology trends, cost-performance, sustainability, market opportunities, supply chain options and software cost-value engineering, A2MAC1 is a pioneer in analyzing and transforming data into actionable, mission-critical insights. With more than 700 employees worldwide (Austria, Canada, China, France, Germany, India, Japan, Korea, Mexico, the Netherlands, Thailand, Turkey, the United Kingdom and the United States), the group's services are used by more than 750,000 people. For over 26 years, professionals from the entire automotive and mobility value chain and beyond. Its unique, easy-to-use, proprietary 3D technology platform helps manufacturers optimize the design and materials of their products throughout their lifecycle, with a constant focus on decarbonization and innovation while ensuring continuous cost and value optimization.
MILPITAS, Calif., April 13, 2023 /PRNewswire/ -- Worldwide sales of semiconductor manufacturing equipment increased 5% from $102.6 billion in 2021 to an all-time record of $107.6 billion last year, SEMI, the industry association representing the global electronics design and manufacturing supply chain, reported today. The data is now available in the Worldwide Semiconductor Equipment Market Statistics (WWSEMS) Report. For the third consecutive year, mainland China remained the largest semiconductor equipment market in 2022 despite a 5% slowdown in the pace of investments in the region year over year, accounting for $28.3 billion in billings. Taiwan, the second-largest destination for equipment spending, recorded an increase of 8% to $26.8 billion, marking the fourth straight year of growth for the region. Equipment sales to Korea contracted 14% to $21.5 billion. Annual semiconductor equipment investments in Europe surged 93%, while North America logged a 38% increase. Sales to the Rest of World and Japan increased 34% and 7% year over year, respectively. "The record high for semiconductor manufacturing equipment sales in 2022 stems from the industry's drive to add the fab capacity required to support long-term growth and innovations in key end markets including high-performance computing and automotive," said Ajit Manocha, SEMI president and CEO. "Additionally, the results reflect investments and determination across regions to avoid future semiconductor supply chain constraints like those that surfaced during the pandemic." Global sales of wafer processing equipment rose 8% in 2022, while other front-end segment billings grew 11%. After robust growth in 2021, assembly and packaging equipment sales decreased 19% last year while total test equipment billings contracted 4% year over year. Compiled from data submitted by members of SEMI and the Semiconductor Equipment Association of Japan (SEAJ), the WWSEMS Report is a summary of the monthly billings figures for the global semiconductor equipment industry. Annual Billings by Region in Billions of U.S. Dollars with Year-Over-Year Change Rates Region 2022 2021 % Change Mainland China 28.27 29.62 -5 % Taiwan 26.82 24.94 8 % Korea 21.51 24.98 -14 % North America 10.48 7.61 38 % Japan 8.35 7.80 7 % Europe 6.28 3.25 93 % Rest of World 5.95 4.44 34 % Total 107.64 102.64 5 % Sources: SEMI (www.semi.org) and SEAJ (www.seaj.or.jp), April 2023 Note: Summed subtotals may not equal the total due to rounding. The SEMI Equipment Market Data Subscription (EMDS) provides comprehensive market data for the global semiconductor equipment market. The subscription includes three reports: Monthly SEMI Billings Report, a perspective on equipment market trends Monthly Worldwide Semiconductor Equipment Market Statistics (WWSEMS), a detailed report of semiconductor equipment billings for seven regions and 24 market segments SEMI Semiconductor Equipment Forecast, an outlook for the semiconductor equipment market Download a sample of the EMDS report. For more information about the report or to subscribe, please contact the SEMI Market Intelligence Team at mktstats@semi.org. More details are also available on the SEMI Market Data webpage. About SEMISEMI® connects more than 2,500 member companies and 1.3 million professionals worldwide to advance the technology and business of electronics design and manufacturing. SEMI members are responsible for the innovations in materials, design, equipment, software, devices, and services that enable smarter, faster, more powerful, and more affordable electronic products. Electronic System Design Alliance (ESD Alliance), FlexTech, the Fab Owners Alliance (FOA), the MEMS & Sensors Industry Group (MSIG) and SOI Consortium are SEMI Strategic Technology Communities. Visit www.semi.org, contact one of our worldwide offices, and connect with SEMI on LinkedIn and Twitter to learn more. Association ContactMichael Hall/SEMIPhone: 1.408.943.7988Email: mhall@semi.org
SEONGNAM, South Korea and CAMBRIDGE, Mass., April 13, 2023 /PRNewswire/ -- Bridge Biotherapeutics (KQ288330), a clinical-stage biotech company based in South Korea developing novel drugs for fibrosis, cancer, and inflammation, announced it has dosed the first patient in its Phase 2a clinical study to evaluate the efficacy, safety, and tolerability of BBT-877 in patients with idiopathic pulmonary fibrosis (IPF). In the Phase 1 study in 2019, BBT-877, a potent autotaxin (ATX) inhibitor, demonstrated its ability to inhibit lysophosphatidic acid (LPA) production by as much as 90 percent. LPA is known to bind to cell receptors and induce various physiological activities, such as neovascularization, sclerosis, tumorigenesis and tumor metastasis, leading to the development of various fibrotic diseases, including IPF. The Phase 2, multi-center, randomized, double-blind, placebo-controlled study (NCT05483907) will utilize 200mg, twice daily (BID) regimen of BBT-877 or a placebo. The study will enroll approximately 120 patients who have or have not been treated with current standard treatments, which include pirfenidone or nintedanib. Approximately 50 sites in North America, Europe, and the Asia Pacific region are planned to be activated for the study. The Company maintains its guidance that it expects to announce topline data in the second half of 2023. James Lee, founder and CEO of Bridge Biotherapeutics, said: "The first patient dosing of BBT-877 marks an important milestone in our efforts to develop innovative treatments for patients suffering from idiopathic pulmonary fibrosis. We are dedicated to the advancement of this novel drug candidate, which we believe has the potential to make a meaningful impact in the lives of IPF patients and their families." The National Institutes of Health in the U.S. estimates that more than 30,000 new cases of IPF are diagnosed in the U.S. alone each year, and as many as 3 million patients are affected worldwide. About Bridge Biotherapeutics, Inc. Bridge Biotherapeutics Inc., based in the Republic of Korea, the U.S., and China, is a publicly-traded, clinical-stage biotech company founded in 2015. Bridge Biotherapeutics is engaged in the discovery and development of novel therapeutics, focusing on therapeutic areas with high unmet needs including ulcerative colitis, fibrotic diseases, and cancers. The company is developing BBT-401, a first-in-class Pellino-1 inhibitor for the treatment of ulcerative colitis, BBT-877, a novel autotaxin inhibitor for the treatment of fibrotic diseases including idiopathic pulmonary fibrosis (IPF), and BBT-176, a potent targeted cancer therapy for non-small cell lung cancer (NSCLC) with C797S triple EGFR mutations, and has several drug candidates in preclinical development. Learn more at https://www.bridgebiorx.com/en/. About BBT-877 BBT-877 is an orally administered autotaxin enzyme inhibitor which is under development as a treatment for various fibrotic diseases such as idiopathic pulmonary fibrosis (IPF). During the Phase 1 Clinical trial, the experimental autotaxin inhibitor demonstrated lysophosphatidic acid (LPA) inhibition of up to 90 percent in multiple-ascending dose cohorts. The topline data of the Phase 2a Clinical Trial is expected to be announced in the second half of 2023. About Autotaxin Autotaxin (ATX), a protein of approximately 900 amino acids discovered in the early 1990s, is an important enzyme for generating the lipid-signaling molecule, lysophosphatidic acid (LPA). Autotaxin's lysophospholipase D activity converts lysophosphatidylcholine (LPC) into LPA, which engages in signaling via LPA receptors. LPA signaling results in cell proliferation, migration, secretion of cytokines and chemokines, and reduction of cell apoptosis. Ultimately, autotaxin has a pathogenic role in processes of inflammation and fibrosis, making it an attractive drug target. About idiopathic pulmonary fibrosis (IPF) IPF is a rare, debilitating and fatal lung disease which affects approximately 3 million people worldwide. Progression of IPF is variable and unpredictable. Over time, the lung function of an IPF patient gradually and irreversibly declines.
NEW YORK, April 13, 2023 /PRNewswire/ -- Denali Capital Acquisition Corp. (NASDAQ: DECA) ("Denali" or the "Company") announced today that it has deposited into the Company's trust account an aggregate of $825,000 to extend the period of time the Company has to consummate its initial business combination by an additional three months, from the current deadline of April 11, 2023 to July 11, 2023. This is the first of the two three-month extensions permitted under the Company's governing documents. About Denali Capital Acquisition Corp. Denali Capital Acquisition Corp. is a blank check company incorporated as a Cayman Islands exempted company for the purpose of effecting a merger, share exchange, asset acquisition, share purchase, reorganization, or similar business combination with one or more businesses or entities. Forward-Looking Statements This press release includes forward looking statements that involve risks and uncertainties. Forward-looking statements are subject to numerous conditions, risks and changes in circumstances, many of which are beyond the control of the Company, including those set forth in the "Risk Factors" section of the Company's most recent annual report on Form 10-K and quarterly reports on Form 10-Q filed with the Securities and Exchange Commission. The Company expressly disclaims any obligations or undertaking to release publicly any updates or revisions to any forward-looking statements contained herein to reflect any change in the Company's expectations with respect thereto or any change in events, conditions or circumstances on which any statement is based.
靠著超過十年的 PayPal 付款經驗,Pahuja 將以 Nium 在東南亞的成功為基礎,在中東及非洲提升該品牌的地位。 新加坡2023年4月13日 /美通社/ -- 隨選經濟的全球付款基礎架構企業 Nium 今日宣佈任命 Anupam Pahuja 為亞太區、中東及非洲的執行副總裁兼總經理。Pahuja 將以 Nium 在東南亞(這間金融科技獨角獸創立之地)的成功為基礎,快速將 Nium 的影響力擴展到亞太地區、中東及非洲的其他市場。 Nium continues to strengthen leadership team with appointment of Anupam Pahuja to EVP and General Manager of Asia Pacific, Middle East and Africa. 他將在 Nium 的新加坡總部工作,向 Nium 的創辦人兼行政總裁 Prajit Nanu 報告。 「東南亞是我們創業開始的地方,這個地區對我們的全球成功依然非常關鍵。亞太區佔我們總收入的 40%,增長軌跡強勁,預計將成為我們未來幾年收入的重要驅動力,營收有潛力達到數億元。」Nanu 說。 「Anupam 曾經協助不同的企業快速擴大規模,像我一樣,對 Nium 的持續成功以及亞太區和其他地區的客戶承諾有著同樣堅定不移的願景。」 Pahuja 是付款行業的顛覆者,有著超過二十年的全球工作經驗,最近曾擔任越南第二大電子錢包 ZaloPay 的行政總裁。在他任期內,他成功地與多個著名全球品牌成為戰略合作夥伴,例如 Meta、TikTok、Grab、Netflix 及 Starbucks。 在加入 ZaloPay 之前,Pahuja 在 PayPal 工作了十多年,負責管理和發展公司在東南亞、印度、中東及非洲的業務。他在構思及執行 PayPal 的國內業務上擔任重要角色,成為該公司當時最大的用戶增長引擎。在他之前的工作中,Pahuja 曾為 PayPal 建立及管理各個橫跨亞洲的技術中心,包括清奈、班加羅爾、新加坡及上海。 「Prajit 的領導能力以及 Nium 在過去幾年的成功旅程令人佩服。」Pahuja 說。「世界在改變,世界各地的人及企業的支付收款方式同樣在改變。有機會成為如此優秀的企業及領導團隊的一員,為這種改變作出貢獻,實在令人振奮。」 Pahuja 是個天生的企業家,他擁有五項專利,加入 PayPal 前創辦過三間新興小型企業。Pahuja 持有美國華盛頓喬治城大學的工商管理碩士學位,以及賓夕凡尼亞州賓州滑石大學的工程學士學位。 關於 Nium Nium 成立的使命是立足現在建立未來的全球付款基礎架構。隨著隨選經濟的發展,其用於全球付款及卡片發行的單一平台正在為銀行、金融科技及各地企業的即時跨境支付及收取資金方式塑型。其付款網絡支援 100 種貨幣,涵蓋 190+ 個國家/地區,其中 100 個可實時付款。資金可以支付到帳戶、錢包及信用卡,並在 35 個市場本地收款。 Nium 不斷增長的發卡業務已在 34 個國家/地區推行。Nium 在 40 多個國家/地區持有規管許可證及授權,支持無縫登記、快速整合及守規,而且不受地域限制。公司在三藩市及新加坡設有雙總部,地區辦事處分別位於倫敦、阿姆斯特丹、香港、孟買、班加羅爾及清奈。
Over 200TB of NASA climate data is now accessible through the collaboration between Seal Storage Technology and the University of Utah's Scientific Computing and Imaging Institute (SCI), enabling researchers around the world to access and visualize the data with zero egress fees. TORONTO and SALT LAKE CITY, April 13, 2023 /PRNewswire/ -- In an effort to democratize data access, decentralized cloud storage provider Seal Storage Technology and the University of Utah's Scientific Computing and Imaging Institute (SCI) announced today that over 200 terabytes (TB) of OpenViSUS IDX NASA atmospheric wind velocity and ocean current datasets are now openly available to researchers globally. The data will be accessible via a Jupyter notebook, which is a digital document that makes it easy to access and visualize data by combining text, code, and visualizations in a single medium. This project is part of SCI's participation in The National Science Data Fabric (NSDF), a trans-disciplinary approach to integrated data delivery and access, democratizing data-driven scientific discovery through shared storage, networking, computing, and educational resources. NASA climate data visualization from NSDF "The democratization of data is essential to scientific progress, and we are thrilled to partner with the University of Utah to make this possible," said Seal Storage Technology COO Alex Altman. "Seal's decentralized cloud storage platform ensures that this valuable data is accessible to researchers around the world, without barriers. We are excited to see the future discoveries and insights that will be made possible by making this important data available and by supporting the mission of NSDF." Researchers around the globe will now be able to access the NASA OpenVisus data with zero egress fees as the data is stored on Seal's decentralized cloud storage platform, which is powered by the Filecoin network. Egress fees are typically charged by centralized cloud storage providers when users want to move or access their data. In contrast, decentralized cloud storage leverages distributed ledger technology to store data at centers across the globe, offering a novel way to store data and remove egress fees. This global distribution ensures that the NASA data is immutable, verifiable, and has a chain of custody. The data democratization partnership will provide researchers with new ways to access and utilize NASA's climate data, including navigation via timestamps, fields, and other dimensions. This is made possible by transferring the data from NASA supercomputers to Seal's platform, which then enables the data to be accessed via a Jupyter notebook. "The NSDF project is making significant progress towards more open access to critical cyberinfrastructure," said Manish Parashar, Director of the Scientific Computing and Imaging (SCI) Institute. "Having shared data cyberinfrastructure at scale, such as what NSDF envisions, can accelerate scientific discovery across a broad range of disciplines. It can also broaden access to the data by new groups of researchers." This dataset is an output of a simulation that combines two models to provide high-resolution data on atmospheric and oceanic variables. The first model is a C1440 configuration of Goddard Earth Observing System (GEOS) atmospheric model, whereas the second model is a LLC2160 configuration of the MITgcm model. There are over 10000 timesteps in each output, and each of them has multiple scalar fields such as temperature, snow thickness, east-west velocity, etc. With the help of Jupyter notebooks, researchers are now able to navigate across all timesteps and dimensions of certain fields (e.g. East-west velocity 'U') of both the atmospheric dataset and LLC2160 ocean dataset. "This is a major milestone of the National Science Data Fabric (NSDF) that gives all scientists, engineers, and regular citizens direct access to massive data of major societal importance without needing expensive hardware resources," said Valerio Pascucci, NSDF Principal Investigator, Professor at Kahlert School of Computing, and Director of the Center for Extreme Data Management and Visualization (CEDMAV) at the University of Utah. "This partnership between academia and industry shows how anyone with a laptop and an internet connection can now visualize and analyze data that until now has been the sole monopoly of a selected few with the special access and training needed to use some of the largest supercomputers in the world." Researchers can access the NASA data on the following web dashboard http://chpc1.nationalsciencedatafabric.org:10888/nasa or visualize the data locally by downloading the Jupyter notebook here: http://bit.ly/3MkpVBa. The current 200TB of data constitutes the first installation of this ambitious multi-petabyte project demonstrating the feasibility of the NSDF-SEAL data democratization initiative. About Seal Storage TechnologySeal Storage Technology is a decentralized cloud storage platform that provides immutable, affordable, and sustainable data storage. Seal serves universities, research institutes, and enterprises using the highest standards for data security and protection. All data centers are enterprise-grade and powered by renewable energy. sealstorage.io | Twitter | LinkedIn About Scientific Computing and Imaging Institute (SCI) at the University of UtahThe Scientific Computing and Imaging Institute at the University of Utah is an international leader in solving complex, transdisciplinary research problems having broad societal impact through innovation in computer, computational and data science. Media Contact: Kelly Clark, Director of Communications | kelly.clark@sealstorage.io
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