Pac Man Advanced

[Marieta Reeks]

TheAdvanced Light Source is a U.S. Department of Energy scientific user facility at Lawrence Berkeley National Laboratory. Our mission is to advance science for the benefit of society by providing our world-class synchrotron light source capabilities and expertise to a broad scientific community.

In the superhard material, rhenium diboride, smaller grain size leads to greater yield strength (i.e., the amount of stress tolerated before permanent deformation). Because such transition-metal borides are extremely hard, metallic, and can be synthesized at ambient pressure, they have exciting potential for use in next-generation cutting tools. Read more

In this work, researchers demonstrated a macromolecular scaffold that combines an 8-coordinate synthetic ligand and a mammalian protein to characterize the solution and solid-state behavior of the longest-lived actinium isotope. The information could help design better cancer treatments. Read more

Recent protein-structure studies conducted at the ALS provided mechanistic insights into the function of a protein (σNS) involved in viral replication. Understanding these mechanisms will foster the development of therapeutic strategies against viruses that use σNS-like proteins to replicate. Read more

The ALS computing team is developing tools to help users make the most of their beamtime and eliminate bottlenecks that currently exist. They have been traveling around the world and collaborating across facilities to develop advanced data processing solutions that will yield more meaningful data. Read more

The Institutes for Advanced Topics in the Digital Humanities (IATDH) program supports national or regional (multistate) training programs for scholars, humanities professionals, and advanced graduate students to broaden and extend their knowledge of digital humanities. Through this program, NEH seeks to increase the number of humanities scholars and practitioners using digital technology in their research and to broadly disseminate knowledge about advanced technology tools and methodologies relevant to the humanities.

This program aims to bring together humanities scholars, advanced graduate students, librarians, archivists, museum staff, computer scientists, information specialists, and others to learn about new tools, approaches, and technologies, and to foster relationships for future collaborations in the humanities. NEH encourages you to develop proposals for multidisciplinary teams that include the necessary range of intellectual, technical, and practical expertise. You may draw partners and collaborators from the private and public sectors and may include appropriate specialists from within and outside the United States. You should consider not only the practical applications of the institute topic, but also address ethical implications of its subject for humanities research, teaching, or public programming.

There is wide latitude in the form and content of institutes. They may focus on a particular computational method, such as network or spatial analysis, or target the needs of a particular humanities discipline or audience. You could offer it only once or multiple times to different audiences or cohorts. They may be as short as a few days or as long as six weeks. You may host it at a single site, multiples sites, or virtually, but the format and duration should allow for full and thorough treatment of the topic and be appropriate for the intended audience and all participants must be engaged in the same format simultaneously unless modifications are needed for accessibility accommodations.

Submit draft materials to @email by December 15, 2023, 11:59 p.m. Eastern Time to receive feedback from program officers before the final deadline. You do not need to have a complete application to submit materials for review and feedback. More information about submitting a draft may be found in the Notice of Funding Opportunity.

Designed to fit most vertical wall trellis systems, our apple harvester provides you an alternative harvesting solution that is cost competitive to manual labor today. Schedule a demo with our team today!

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Experience unparalleled efficiency with our advanced Robotic Strawberry Harvester, a cutting-edge solution designed to revolutionize strawberry farming. Combining advanced robotics and AI-driven automation, it ensures gentle handling and providing opportunity for 24/7 harvest.

The NRC refers to non-light water reactor (non-LWR) designs as advanced reactors. These reactors will use different technologies from existing operating reactors such as passive safety features, using different fuel or coolant, or scaling the entire reactor smaller.

This grant provides funding to help Colorado research institutions speed up applied research in advanced industries and commercialize products and services with the private sector. The grant funds pre-commercial research and commercialization preparation. Projects can receive up to $150,000.

This grant helps Colorado-based advanced industries technology businesses develop and commercialize advanced technologies that will be created or manufactured in Colorado. Projects can receive up to $250,000.

This grant helps teams of Colorado-based advanced industries technology businesses and nonprofits develop new large-scale projects. Projects need to cover gaps in the advanced industries and identify a matching fund of 2-to-1 non-State funding to State funding.

This grant helps Colorado-based advanced industries technology businesses who want to export or are currently exporting. This grant is for small- and medium-sized businesses. It reimburses for international business development and marketing costs. Businesses can apply for up to $15,000 and up to 50% of the approved expenses.

Faculty, professional research staff, and postdoctoral researchers may request Principle Investigator (PI) eligibility for their account. PIs are responsible for requesting system allocations and managing their team.

TACC's documentation provides a detailed and comprehensive resource for our high-performance computing systems. Find information on hardware, software, tutorials, and best practices. Discover how TACC can help advance your research and computational goals.

Frontera RTX queues will not be available from 8:00 AM to 12:00 PM (CDT) on Tuesday, 23 July 2024. System maintenance will be performed during this time.Please submit any questions you may have via the TACC User Portal.

Stampede3 will not be available from 6 AM to 7:30 PM (CDT) on Tuesday, 16 July 2024. System maintenance will be performed during this time.Please submit any questions you may have via the TACC User Portal.

The annual TACC Symposium for Texas Researchers is a meeting of scientists, engineers, scholars, and students from across the state of Texas who use, and would like to use, the Texas Advanced Computing Center (TACC) to advance their research goals.

The Texas Advanced Computing Center is part of the Office of the Vice President for Research at The University of Texas at Austin. Since its founding in 2001, TACC has been committed to facilitating open science research across a robust ecosystem of advanced computing resources, truly powering discoveries that change the world.

Advanced Manufacturing uses cutting-edge science and innovative technology including 3D printing, augmented reality, virtual reality, artificial intelligence, Internet of Things (IoT), machine learning, and robotics to improve manufacturing production processes. Advanced Manufacturing requires professionals with advanced skills who are creative, critical thinkers, and problem-solvers.

The Scottsdale Water Campus is home to the Advanced Water Treatment Facility (AWT), one of the most sophisticated recycled water facilities in the world and the first permanent facility in Arizona - and only the third in the nation - permitted as a pilot program for advanced water purification (AWP).

The AWT is one of the largest potable water purification facilities in the world and can treat up to 20 million gallons of recycled water a day to a water quality standard that exceeds that of bottled water.

The finished water, often referred to as RO permeate or advance water purification (AWP), is then injected into a series of dry wells where it flows through an additional 400 feet of natural filtration, before reaching our drinking water aquifer, or sent to the Reclaimed Water Distribution System.

Scottsdale recharges nearly two-billion gallons of purified recycled water to replenish our drinking water annually. Due primarily to the AWT, Scottsdale has recharged over 70 billion gallons into regional aquifers since 1988.

In 2019, Scottsdale partnered with the state of Arizona to create criteria for monitoring and regulation of advanced water purification. This resulted in Scottsdale Water being issued the state's first permit for direct consumption of ultra-purified water.

Scottsdale is not sending the highly-purified (AWP) water into the drinking water system at this time, but continues to work with the State to finalize the next steps in the permitting process. In the meantime, Scottsdale will continue to meet customer needs through its diverse water supply portfolio, which includes putting this purified water into the aquifer for future use. Other Arizona cities recognize the value in this additional water resource and are actively pursuing AWP as a long-term water source.

Since the early 1990s, the city of Scottsdale has been providing non-potable water to 23 golf courses in north Scottsdale through a public-private partnership known as the Reclaimed Water Distribution System (RWDS). The RWDS is a complex system of pipelines, booster pump stations and reclaimed and advanced water treatment facilities capable of delivering 20 million gallons a day of non-potable water for turf irrigation specifically to RWDS member clubs.

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