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第一个Chipp(快速)AI/ML&Computing WS -Indico Global
感谢Thea和Mauro Donega,Teresa Montaruli,Steven Schramm,Anna Sfyrla启动此研讨会!
CHIPS for America - Creating Inclusive Opportunities for ...
Components: • Attract large-scale investments in advanced technologies such as leading-edge logic and memory • Incentivize expansion of manufacturing capacity for mature and other types of semiconductors
神经链接大脑芯片
1. 简介 2015 年,Pedram Moheseni 和 Randolph Nudo 发明并获得专利。一年后的 2016 年,埃隆·马斯克创立了一家美国公司并购买了这项专利,截至 2019 年 7 月,已获得 1.58 亿美元。 Neuralink 大脑芯片融合了两种智能(技术和人类),实现了人与人工智能的互动。它与具有重要科学技术价值的 BMI 技术相结合。这是一个革命性的项目,可以帮助患有瘫痪、帕金森氏症等疾病的人。在不断发展的神经科学和技术领域,Neuralink 大脑芯片作为一项突破性的创新应运而生,有望彻底改变我们与人脑互动和理解人脑的方式。Neuralink 由一支有远见的工程师和神经科学家团队开发,代表了尖端神经技术与人工智能无限潜力的融合。 Neuralink 脑芯片的核心是一种复杂的神经接口设备,旨在建立人脑与外部技术之间的无缝通信。通过复杂的电极和传感器网络,该芯片直接与大脑的神经元连接,实现双向通信,精度和速度都令人惊叹。Neuralink 脑芯片最引人注目的方面之一是它能够以前所未有的精度解码神经信号,为各个领域的无数应用打开了大门。从恢复丢失的
NIST 超额完成了 CHIPS 的招聘目标,但未制定全面的劳动力计划
《CHIPS法案》为商务部提供了500亿美元。其中390亿美元用于激励对美国设施和设备的投资。剩余的110亿美元用于建立强大的国内研发生态系统,并监督一系列旨在加强和振兴美国在半导体研发和制造领域地位的项目。此外,《CHIPS法案》还授权商务部长发放高达750亿美元的直接贷款和贷款担保。商务部正在通过国家标准与技术研究所(NIST)实施这些要求,该研究所推动测量科学、标准和技术的发展,以促进美国创新、提高工业竞争力并提高经济安全和生活质量。
微芯片科技公布 2024 年第四季度及财年财务业绩
• 3 月份季度,通过派发 2.425 亿美元股息和回购 3.874 亿美元(相当于 450 万股普通股,平均每股 85.38 美元)的方式,向股东返还了创纪录的 6.299 亿美元,这符合我们之前宣布的 40 亿美元股票回购计划。过去 10 个季度累计回购 23.54 亿美元(相当于 3040 万股)。
芯片互连测试与维修
征集参与第一届 IEEE 国际芯片互连测试与修复研讨会 (CITaR) 专注于基于芯片的三维堆叠 IC 的互连测试与修复,以及实现这一点的片上基础设施。这些 IC 包括所谓的 2.5D、3D 和 5.5D 堆叠 IC。芯片到芯片互连可能包含微凸块对、混合键合、中介层导线和硅通孔 (TSV)。虽然这些堆叠 IC 在异构集成、小尺寸、高带宽和性能以及低功耗方面具有许多吸引人的优势,但在测试和修复其芯片间互连方面仍有许多未解决的问题。CITaR 研讨会为研究人员和从业人员提供了一个独特的论坛,可供展示和讨论这些挑战和(新兴)解决方案。诚邀您参加 CITaR 研讨会。 CITaR 研讨会将与 IEEE 欧洲测试研讨会 (ETS) 一起在荷兰海牙万豪酒店举行,并由 IEEE 计算机学会测试技术委员会 (TTTC) 提供技术赞助。研讨会计划 – 研讨会计划包含以下内容。
CHIPS for America:支持美国半导体供应链和劳动力的联邦计划
国防部:美国国防基金的 CHIPS 国防部正在管理 20 亿美元来实施微电子公共项目,这是一个由 CHIPS 和科学法案资助的国家网络,用于在岸、微电子硬件原型设计、半导体技术从实验室到晶圆厂的过渡以及半导体劳动力培训。国防部于 2023 年 9 月宣布了第一批奖项:向全国八个区域“创新中心”提供近 2.4 亿美元。这些中心将成为国防部和美国推动国内微电子制造业发展的努力的一部分。国防部牵头的微电子公共项目旨在实现大规模商业可行性的展示,这对于缩小目前大学、小企业和其他实验室创新与市场采用之间的差距是必需的,这种差距阻碍了最好的技术创意进入市场。
CHIPS Act and its Impact on the Compound Semiconductor Industry Melissa Grupen-Shemansky, PhD 1 1 CTO and VP of Technology Communities, SEMI, megsh
CHIPS Act and its Impact on the Compound Semiconductor Industry Melissa Grupen-Shemansky, PhD 1 1 CTO and VP of Technology Communities, SEMI, megshemansky@semi.org Keywords: CHIPS, Manufacturing, Workforce, Supply Chain, Compound Semiconductor, Government Abstract SEMI, in their 50+ years of operation, has been a trade organization supporting the semiconductor manufacturing industry with a strong membership population consisting of materials and equipment suppliers from its onset. In the mid 90's, membership jumped and SEMI broadened their scope to include member companies from across the semiconductor manufacturing supply chain, such as IDMs (integrated device manufacturers), foundries (outsource fabrication service suppliers), and EDA (electronic design automation) suppliers. We have not deviated from our base, but have added membership from across the supply chain recognizing the increasing complexity of the microelectronics ecosystem and the increasing demand for co-design and cross-collaboration of the various semiconductor disciplines at the earliest stages of development. The semiconductor industry has experienced various inflection points over the last several decades, but perhaps none so disruptive as the present. We will look into how the semiconductor industry in general has captured the attention of the person on the street and how the industry disruptions will lead to opportunities for compound semiconductors. The U.S. CHIPS and Science Act will accelerate More than Moore technologies which in turn will further enable the integration of compound semiconductors to capitalize on the unique properties of these materials. Breakthrough opportunities will emerge with the emerging technologies developed in the Microelectronics Commons as well as the priorities of the National Semiconductor Technology Center (NSTC) and closely coupled National Advanced Packaging Manufacturing Program (NAPMP) in the CHIPS Act R&D office. A rapid focus on those technologies essential to U.S. market leadership will ensue. We will examine the emerging priorities within the CHIPS Act programs and discuss the critical role compound semiconductors play in the leap ahead technologies as well as the potential supply chain vulnerabilities that need to be addressed. I NTRODUCTION As the semiconductor industry prepared to navigate a dramatic change to the traditional linear shrink roadmap that had affirmed Moore's Law for the last 40 years, the COVID pandemic hit. Most people, companies, and countries were caught off guard and ill-prepared. In a rush to save lives,