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肥胖和癌症交叉处的免疫代谢......
Mirsoian, A., Minnar, CM, Stoffel, KM, Sturgill, IR, Grossenbacher, SK, Withers, SS, Rebhun, RB, Hartigan-O'connor, DJ, Méndez- Lagares, G., Tarantal, AF, Isseroff, RR, Griffith, TS, & Schalper, KA (2019). 肥胖对肿瘤进展和 PD-1 检查点阻断过程中 T 细胞功能的矛盾影响。《自然医学》,25,141–151。4. Dudzinski, SO, Bader, JE, Beckermann, KE, Young, KL, Hongo, R.,
项目概述 - 创新十字路口
• Brendan Abolins,伊士曼化学公司 • Coleman Adams,清洁能源风险投资集团 • Jason Blumberg,Energy Foundry • Doug Buerkle,LTM Ventures • Aaron Chockla,True North Ventures • Jonathan Goldman,佐治亚理工学院 VentureLab • Alison Gotkin,联合技术研究中心 • Paul Leggett,Mithril Capital Management • Sanjiv Malhotra,SPARKZ Inc. • Eric McFarland,加州大学圣巴巴拉分校 • Stacey Patterson,田纳西大学 • Vig Sherrill,General Graphene • Mary Anne Sullivan,霍金路伟 • Van Tucker,Launch Tennessee • Grady Vanderhoofven,Three Roots Capital • Peter Winter,In-Q-Tel • Johanna Wolfson,PRIME Impact Fund • Jetta Wong,洛杉矶清洁技术孵化器
创新十字路口计划简介
Brendan Abolins – 伊士曼化学公司 Coleman Adams – 清洁能源风险投资集团 Jason Blumberg – Earth Foundry Brandon Bruce – Market Square Ventures John Bruck – Market Square Ventures Doug Buerkle – LTM Ventures Lindsey Cox – Launch Tennessee Eric Dobson – Community Equity Partners Jonathan Goldman – 佐治亚理工学院 VentureLab Alison Gotkin – 雷神技术研究中心 Maha Krishnamurthy – 田纳西大学研究基金会 Paul Leggett – Mithril Capital Management Vig Sherrill – General Graphene Lilly Tench – Spark Innovation Center Grady Vanderhoofven – Three Roots Capital Peter Winter – In-Q-Tel Johanna Wolfson – Prime Impact Fund
iv.具体规划温彻斯特十字路口
住宅 – 温彻斯特十字路口建成后将由多种住宅用途组成,包括中高密度(5-8 户/英亩);高密度(8-14 户/英亩);和超高密度(14-20 户/英亩)。具体规划的七个规划区指定用于住宅开发:规划区 1、6、7、10、11、14 和 16。项目内的整体住宅密度相当于每英亩 3.7 个住宅单元(户/英亩)。该密度与温彻斯特十字路口具体规划附近的具体规划一致,包括梅尼菲北区(采用 SP 260)、梅尼菲东区(采用 SP 247)、温彻斯特山(采用 SP 293)和梅尼菲牧场(采用 SP 301)。单户独立地块面积建议不少于 2,000 平方英尺(参见第 III 部分,分区条例)。温彻斯特十字路口拟定的产品类型范围如下:
MedTech在十字路口:挑战和机遇
尽管MedTech多年来促进了医疗服务的重大进展,但某些医疗保健挑战仍然存在。尤其是启用AI的MEDTECH,以及其他技术,带宽和计算能力的进步,是有助于改善访问和护理质量的前所未有的机会。仍然,鉴于在平衡效率和压力方面面临的挑战范围,Medtech公司将明智地策略性地选择机会。最成功的公司将重点关注整体体验,而不仅仅是医生工作流程中的空白,以及真正差异化的护理范式以及从最特权到最脆弱的所有患者带来护理的方法。最终状态将是MedTechs与提供商之间的发展关系,其中MedTech的功能更多地是战略合作伙伴而不是供应商。
波多黎各的太阳能发展处在十字路口
本报告记录了联邦未能实现立法规定的可再生能源目标的情况,该目标要求到 2025 年可再生能源占比达到 40%。波多黎各需要扩大可再生能源供应(目前占消费的 9%),这一点得到了岛民的广泛认可,他们正在安装太阳能电池板,以便在岛上危险的不稳定电力系统面前提供弹性。飓风玛丽亚过后近 7 年,波多黎各的电网仍然陈旧,无法提供可靠的服务。正如本报告所记录的,过去七年来,数以万计的家庭和企业一直在安装带有电池备份的太阳能,以获得可靠的电力供应,而基本上没有任何直接补贴。这也代表了人们对电力系统管理者的压倒性不信任。
Silicon Crossroads Microelectronics Commons
FOR IMMEDIATE RELEASE Silicon Crossroads Microelectronics Commons Marks Milestone Year CRANE, Ind. – As 2024 comes to a close, the Silicon Crossroads Microelectronics Commons (SCMC) Hub has emerged as a powerful catalyst for innovation and growth in the Midwest's microelectronics ecosystem. Under the leadership of Applied Research Institute (ARI), the hub has made substantial strides in fostering collaboration, driving technological advancements, and nurturing talent. SCMC is poised to help shape the future of microelectronics, strengthening America's global competitiveness and driving economic and national security. In its first year, SCMC focused on standing up its internal operations, and established a robust and diverse membership base spanning academia, small businesses, industry leading commercial companies and defense industrial base system integrators. This vibrant community was integral to driving ideation, advancing technologies through prototyping, and positioning projects for efficient transition to production. SCMC innovation processes and framework has made significant strides to accelerate microelectronics technology advancements through the proven innovation architecture. The nucleus of this framework incorporates collaborative ideation sessions, networking collisions, innovation templates/best practices, and the convergence of project teams. For example, SCMC's collaborative ideation sessions, such as the one held in June 2024, are designed to reduce innovation barriers. SCMC implemented a suite of tools, revolutionizing the operational capabilities. With these tools, the SCMC Hub can communicate efficiently, ensuring clear and timely information exchange among all members. This improved communication has resulted in better teaming opportunities, enabling more cohesive and strategic collaborations. The online member engagement platform houses all hub engagement, outreach, communications, event calendar, teaming profiles, member resources, data calls, and membership data. By utilizing this platform, SCMC members can interact with other hub members, receive pertinent Hub communications, partner with new innovative companies, share noteworthy news/articles, view announcements, and explore upcoming events. Upon the launch of this platform, our membership base consisted of 136 members, but saw significant and constant growth each quarter, bringing us to over 250 members, an 83% increase. Members can utilize the newly opened Silicon Crossroads Collaboration Center (SC3), which serves as a state-of-the-art hub for the SCMC, providing a modern and flexible space to foster collaboration, innovation, and knowledge sharing among the hub's diverse membership. The center's modular design accommodates a variety of events, workshops, and meetings, and already hosted over 36 activities that brought in more than 800 members and ecosystem partners. As a central gathering place for the three-state hub coalition, the SC3 plays a vital role in enabling the rich engagement and community-building that are critical to the hub's success. One of the most notable in 2024 was the establishment of the R1 Nucleus (R1N), an unprecedented collaboration between four prestigious regional universities: Purdue University, University of Notre Dame, University of Michigan, and University of Illinois Champaign- Urbana.
人工智能处于自然语言处理和神经科学的交叉点
HAL 是一个多学科开放存取档案库,用于存放和传播科学研究文献,无论这些文献是否已出版。这些文献可能来自法国或国外的教学和研究机构,也可能来自公共或私人研究中心。
Caballero太阳能项目
•该项目包括1,189英亩的BLM土地和1,188英亩的私人土地。•并非所有区域都在栅栏内。初步设计包括项目区域内的10个围栏区域。围栏内仅约1,600英亩。•在亚利桑那州和私人土地上提议的500 kV生成搭接线连接到项目西南2.5英里的吉拉河变电站。•用于建筑和运营的水将来自现有的,允许的水权。•主要用途是施工过程中的防尘;在操作面板上洗涤过程中很少(比每年少)。•30 - 35年的操作时间范围。
集成电路产业处在十字路口
集成电路 (IC) 行业是数字化进程的基础,是当前和未来应用最重要的使能技术。这得益于摩尔定律预测的 IC 工艺的巨大微型化和性能改进,从 1970 年第一款英特尔 4004 微处理器上的约 103 个晶体管开始,到 2022 年 3 月(Apple M1 Ultra)达到 1011 个晶体管 [1],这是前所未有、无与伦比的改进速度,它推动了互联网、移动通信以及现在的智能汽车等发明的诞生。简而言之,每个引入 IC(微芯片或简称芯片)的行业都受益于更高的效率、智能化和扩展的功能。由于这一成功,芯片如今已成为全球第四大交易产品(2021 年出货了 115 万个半导体单元),仅次于原油、机动车及其零部件和成品油。2021 年,芯片市场价值为 0.6 万亿美元,销售额同比增长 26%,预计到 2035 年将达到 1 万亿美元 [2]。一些分析人士甚至将芯片称为新石油,因为芯片为应用提供“动力”,使能够利用尖端技术生产出最高性能芯片的国家在计算和通信能力方面以及从纯粹的军事角度来看都比其他国家更强大。到目前为止,俄乌战争强调的一个概念是,乌克兰军队使用了小型且相对便宜的武器,例如标枪和毒刺防空导弹,它们采用先进的半导体作为制导系统。一颗“标枪”导弹约有 250 块芯片 [3]。西方国家禁止向俄罗斯出口半导体,而俄罗斯自己没有先进的芯片生产能力;没有进口,俄罗斯军方就无法为自己提供精确制导弹药。令人惊讶的是,芯片在全球经济中的关键作用直到最近才得到各国政府的认可和公众辩论。近几十年来,全球经济更多地关注软件和第三产业,而芯片则成为纯粹的商品。然而,新冠疫情和乌克兰战争凸显了芯片短缺(芯片产量不足以满足需求)的问题、全球供应链的脆弱性以及芯片价格的波动性。