Quartz
์ค๋ ์ฑํฅ
IT/๊ธฐ์
Google is pledging to replenish more water than its data centers consume by 2030
The company announced $17 million in new stewardship projects and a $500 million commitment to public water infrastructure
๐บ๐ธ ๋ฏธ๊ตญ ยท "LENI" ยท ์ด 13๊ฑด
ํํฐ ๋ณด๊ธฐํ์ฌ ์ง์
50.0
0 = ๋ถ์ ์ฐ์ธ
50 = ์ค๋ฆฝ
100 = ๊ธ์ ์ฐ์ธ
์ต๊ทผ 7์ผ ๊ธฐ์ค 11,627๊ฑด์ ๋ถ์ํ ๊ฒฐ๊ณผ, ๋ด์ค ์ฌ๋ฆฌ์ง์๋ 50.0(๊ท ํ)์ ๋๋ค. ๊ธ์ 1๊ฑด(0.0%)ยท์ค๋ฆฝ 11,625๊ฑด(100.0%)ยท๋ถ์ 1๊ฑด(0.0%)์ด๋ฉฐ, ์ค๋ฆฝ ๋น์ค์ด ๋๋ ทํ๊ฒ ๋์ต๋๋ค. ์ฑํฅ ์ง์๋ ์ข ํฉ 18.5(์ค๋ ๊ท ํ)์ ๋๋ค.
The company announced $17 million in new stewardship projects and a $500 million commitment to public water infrastructure
New factory orders data released Wednesday confirm an extraordinary surge in American defense manufacturing, with orders for defense capital goods running 53 percent above last yearโs pace through the first four months of 2026 as the military works to replenish The post Defense Orders Surge 53 Percent in 2026 as Iran War Drives Weapons Demand appeared first on Breitbart.
In the face of widespread backlash to the AI data center buildout throughout the US, Google is touting its efforts to minimize the environmental impact by actually increasing water for local communities. The company laid out five commitments around water use in a new blog post published Wednesday, including a goal to replenish more water [โฆ]
This week on The Break Out, we look at how long it might take to restock thousands of US munitions used against Iran.
Keanu Reeves urged leniency this week for longtime friend and colleague Carl Rinsch, who is facing the possibility of several years in prison after being found guilty of scamming $11 million from Netflix.
Chevron has filed a request to buy 70% in an oil and gas exploration block offshore southwest Greece in what would be another step in the U.S. supermajorโs expansion in the Eastern Mediterranean. Chevron wants to buy 70% in an exploration block, whose concession rights are currently 100% owned by Helleniq Energy, the Greek Energy Ministry said on Thursday. The U.S. energy giant and Helleniq Energy are partners in several other offshore exploration blocks that Greece has recently awarded. Now Chevron seeks to expand its footprint and becomeโฆ
This article is part of Upstream, The Daily Wireโs new home for culture and lifestyle. Real human insight and human stories โ from our featured writers to you. *** Vladimir Lenin quoted Karl Marx as saying, โThe oppressed are allowed once every few years to decide which particular representatives of the oppressing class are to represent and ...
"The United States has enough munitions for any plausible scenario in the Iran war, but the depleted inventories have created a window of vulnerability for a potential Western Pacific conflict," the Center for Strategic and International Studies said in its new report, provided to The Associated Press. "The time needed to rebuild those inventories has thus become a major concern."
Keanu Reeves asked a federal judge to show leniency to Carl Rinsch, saying that the director who defrauded Netflix can sometimes "self-sabotage."
The OnCampus program, administered by IEEE Educational Activities, last year expanded its engineering experiences from two to seven universities. Part of TryEngineering, the program is held at universities around the world, offering preuniversity students hands-on opportunities to solve engineering problems. The IEEE Innovation Committee provided funding for the additional locations. New participating institutions The electrical engineering and computing faculty at the University of Zagreb, in Croatia, hosted a two-day program in June. Twenty-five children ages 10 to 14 participated in lectures and workshops on artificial intelligence, computer science, robotics, and astronomy. Tomislav Jaguลกt, an IEEE senior member and the chair of the IEEE preuniversity coordinating committee, led the program. In September the Arab Academy for Science, Technology, and Maritime Transportโs engineering college held a two-day session at its Abu Kir, Egypt, campus. Fifty students participated in hands-on activities on Ohmโs law, radio communications, and circuit building. They also learned from professors about engineering careers and job opportunities. Also in September, the Majan University College, in Muscat, Oman, hosted 40 high school students who competed in six challenges to design and build circuits. These include an IoT design and an LED brightness control using a potentiometer, a three-terminal, manually adjustable resistor that functions as a variable voltage divider. The program also highlighted AI and quantum computing technologies and introduced students to job opportunities in the fields. The workshop transformed curiosity into creation, empowering students with technical skills and confidence in emerging technologies. In November at the Universiti Malaysia Perlis, in Arau, 50 students explored the fundamentals of quantum computational intelligence and AI through hands-on activities and interactive simulations. IEEE Senior Member Mohd Hafiz Ismail, a professor of electronic engineering and technology, gave an introduction about quantum computing intelligence technology. The Hellenic Robotics Center of Excellence at the National Technical University of Athens hosted a two-day session in December. Twenty-five students explored robotics and AI through hands-on design challenges such as TryEngineeringโs AI and machine learning methods. They also toured the universityโs research facilities. Hong Kong and Greek universities participate again The City University and St. Francis University in Hong Kong, and the University of Ioannina, Arta campus, Greece, participated in the program for a second year. Under the leadership of IEEE Senior Member Paulina Chan and volunteers from the IEEE Hong Kong Section, the City and St. Francis universities jointly held the program in July. They welcomed 55 students ages 12 to 18 from 41 schools. The students attended tutorials on foundational concepts and theories of AI. They worked in small teams on projects using AI-generated images, voice, and music manipulations. They were coached by students from St. Francis and Imperial College London. The participants presented their projects to judges, teachers, and parents. The students also visited a nearby semiconductor equipment manufacturer to learn about technology careers from engineers working there. The results of a post-program survey showed strong satisfaction with OnCampus, with nearly 75 percent of participants giving it a rating of 4 or higher out of 5. โI enjoyed getting to know about deep learning and its application,โ one student participant said. โThe content of the activity matched my interest, and I gained new knowledge.โ โOnCampus is led by a strong team with lots of experts in the field,โ another said. โItโs a rare chance for students to use software, learn about the theory behind how deep learning works, and get a glance at future possibilities.โ The University of Ioannina hosted the program in Arta in July with support from IEEE Senior Member Stamatis Dragoumanos and IEEE members Nikos Giannakeas and Eleftheria Kallinikou. Nearly 50 students, ages 12 to 16, attended the seven-day event, supported by 17 instructors and six volunteers from the universityโs IEEE student branch. The students learned about AI, augmented reality, microchip design, microcontrollers, and 3D printing. They also attended presentations by engineers from the industry. To give the students exposure to real-world engineering, they visited two hydroelectric power plants and a green data center. At the end of the program, students presented their projects and showcased the technical skills they had developed. Those involved in the TryEngineering OnCampus program are proud of the impactful experiences students have gained. The opportunities are possible because universities open their doors, share their expertise, and invest in the next generation of innovators. The University of Zagreb, the Arab Academy for Science, Technology, and Maritime Transport, the Majan University College, and The City University and St. Francis University will be participating again this year. To learn how you can bring the OnCampus program to your educational institution, send a request to tryengineering@ieee.org.
The district court had departed downward from the Sentencing Guidelines' recommended sentence of 30 to 50 years.
The Tomahawk Land Attack Missiles the U.S. military fired during Operation Epic Fury take months to put on contract and years to produce.Whether driven by U.S. military operations or support to partners, the challenge of quickly replenishing U.S. munitions is not new. Exquisite munitions often take an exquisite amount of time to manufacture and deliver. Defense officials, in turn, frequently want to compress that time as much as possible, seeking to restock fast and mitigate future risks.The Russo-Ukrainian War has illuminated the challenge of accomplishing this feat. It also offers lessons for how the U.S can accelerate munitions production timelines The post The Pentagon Needs a Playbook for Munitions Surge Production appeared first on War on the Rocks.
Quantum computing is a devilishly complex technology, with many technical hurdles impacting its development. Of these challenges two critical issues stand out: miniaturization and qubit quality. IBM has adopted the superconducting qubit road map of reaching a 1,121-qubit processor by 2023, leading to the expectation that 1,000 qubits with todayโs qubit form factor is feasible. However, current approaches will require very large chips (50 millimeters on a side, or larger) at the scale of small wafers, or the use of chiplets on multichip modules. While this approach will work, the aim is to attain a better path toward scalability. Now researchers at MIT have been able to both reduce the size of the qubits and done so in a way that reduces the interference that occurs between neighboring qubits. The MIT researchers have increased the number of superconducting qubits that can be added onto a device by a factor of 100. โWe are addressing both qubit miniaturization and quality,โ said William Oliver, the director for the Center for Quantum Engineering at MIT. โUnlike conventional transistor scaling, where only the number really matters, for qubits, large numbers are not sufficient, they must also be high-performance. Sacrificing performance for qubit number is not a useful trade in quantum computing. They must go hand in hand.โ The key to this big increase in qubit density and reduction of interference comes down to the use of two-dimensional materials, in particular the 2D insulator hexagonal boron nitride (hBN). The MIT researchers demonstrated that a few atomic monolayers of hBN can be stacked to form the insulator in the capacitors of a superconducting qubit. Just like other capacitors, the capacitors in these superconducting circuits take the form of a sandwich in which an insulator material is sandwiched between two metal plates. The big difference for these capacitors is that the superconducting circuits can operate only at extremely low temperaturesโless than 0.02 degrees above absolute zero (-273.15 ยฐC). Superconducting qubits are measured at temperatures as low as 20 millikelvin in a dilution refrigerator.Nathan Fiske/MIT In that environment, insulating materials that are available for the job, such as PE-CVD silicon oxide or silicon nitride, have quite a few defects that are too lossy for quantum computing applications. To get around these material shortcomings, most superconducting circuits use what are called coplanar capacitors. In these capacitors, the plates are positioned laterally to one another, rather than on top of one another. As a result, the intrinsic silicon substrate below the plates and to a smaller degree the vacuum above the plates serve as the capacitor dielectric. Intrinsic silicon is chemically pure and therefore has few defects, and the large size dilutes the electric field at the plate interfaces, all of which leads to a low-loss capacitor. The lateral size of each plate in this open-face design ends up being quite large (typically 100 by 100 micrometers) in order to achieve the required capacitance. In an effort to move away from the large lateral configuration, the MIT researchers embarked on a search for an insulator that has very few defects and is compatible with superconducting capacitor plates. โWe chose to study hBN because it is the most widely used insulator in 2D material research due to its cleanliness and chemical inertness,โ said colead author Joel Wang, a research scientist in the Engineering Quantum Systems group of the MIT Research Laboratory for Electronics. On either side of the hBN, the MIT researchers used the 2D superconducting material, niobium diselenide. One of the trickiest aspects of fabricating the capacitors was working with the niobium diselenide, which oxidizes in seconds when exposed to air, according to Wang. This necessitates that the assembly of the capacitor occur in a glove box filled with argon gas. While this would seemingly complicate the scaling up of the production of these capacitors, Wang doesnโt regard this as a limiting factor. โWhat determines the quality factor of the capacitor are the two interfaces between the two materials,โ said Wang. โOnce the sandwich is made, the two interfaces are โsealedโ and we donโt see any noticeable degradation over time when exposed to the atmosphere.โ This lack of degradation is because around 90 percent of the electric field is contained within the sandwich structure, so the oxidation of the outer surface of the niobium diselenide does not play a significant role anymore. This ultimately makes the capacitor footprint much smaller, and it accounts for the reduction in cross talk between the neighboring qubits. โThe main challenge for scaling up the fabrication will be the wafer-scale growth of hBN and 2D superconductors like [niobium diselenide], and how one can do wafer-scale stacking of these films,โ added Wang. Wang believes that this research has shown 2D hBN to be a good insulator candidate for superconducting qubits. He says that the groundwork the MIT team has done will serve as a road map for using other hybrid 2D materials to build superconducting circuits.