Current Computer Model News and Events

Current Computer Model News and Events, Computer Model News Articles.
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Blueprint for fault-tolerant qubits
Building a quantum computer is a challenging task because of the fragility of quantum bits. To deal with this problem, various types of active error correction techniques have been developed. In contrast, researchers from Jülich and Aachen together with partners from Basel and Delft have now proposed a design for an inherently fault protected circuit with passive error correction that could significantly accelerate the construction of a quantum computer with a large number of qubits. (2021-02-18)

Quickly identify high-performance multi-element catalysts
Catalysts consisting of at least five chemical elements could be the key to overcoming previous limitations in the production of green hydrogen, fuel cells, batteries or CO2 reduction. However, finding the optimal composition of these multi-element catalysts is like looking for a needle in a haystack: testing thousands to millions of possible combinations cannot be realized. (2021-02-17)

Skoltech's recent achievement takes us one step closer to Mars
Scientists have developed an artificial intelligence (AI) system that enables processing images from autonomous greenhouses, monitoring plant growth, and automating the cultivation process. In their article, they share the experience in the scope of controlled-environment agriculture automation in the Antarctic station greenhouse facility called EDEN ISS. (2021-02-17)

Cloud simulations get a dose of realism
A focus on the fundamental physics of cloud formation leads to highly realistic simulations of different types of clouds. (2021-02-15)

New tool predicts the success of extubating patients on intensive mechanical ventilation
A mathematical model predicts the success of extubating patients on intensive mechanical ventilation. The results of the study by a research team from the Universitat Rovira i Virgili (Tarragona-Spain) and the Institute of Health Research Pere Virgili show a potential reduction of the current rate of reintubation from 9% to 1% by using machine learning tools. Data from a thousand intensive-care patients with respiratory difficulties has been processed and analysed to create this tool (2021-02-15)

Applying quantum computing to a particle process
A team of researchers at Lawrence Berkeley National Laboratory (Berkeley Lab) used a quantum computer to successfully simulate an aspect of particle collisions that is typically neglected in high-energy physics experiments, such as those that occur at CERN's Large Hadron Collider. (2021-02-12)

RUDN University mathematician suggested a scheme for solving telegraph equations
A mathematician from RUDN University suggested a stable difference scheme for solving inverse problems for elliptic-telegraph and differential equations that are used to describe biological, physical, and sociological processes. (2021-02-11)

A new way of forming planets
Scientists of the Universities of Zurich and Cambridge, associated with the Swiss National Centre of Competence in Research PlanetS, suggest a new explanation for the abundance in intermediate-mass exoplanets - a long-standing puzzle of Astronomy. (2021-02-11)

Really random networks
New mathematical method for generating random connected networks (2021-02-10)

Solar awnings over parking lots help companies and customers
Michigan Tech engineers look into the untapped potential of parking lots in a study that investigates the energy-related benefits of developing charging stations powered with solar canopies built into the parking infrastructure of large-scale retailers like Walmart. (2021-02-10)

Samara Polytech chemists simplify crystal structures
Samara Polytech scientists have developed new methods of modelling the crystal structure of chemical substances, which makes it possible to obtain additional information about the object under study, unknown in the initial experimental data, and also to find regularities determining its structure and properties. (2021-02-09)

Quantum computing enables simulations to unravel mysteries of magnetic materials
A multi-institutional team became the first to generate accurate results from materials science simulations on a quantum computer that can be verified with neutron scattering experiments and other practical techniques. (2021-02-09)

Geisinger researchers find AI can predict death risk
Researchers at Geisinger have found that a computer algorithm developed using echocardiogram videos of the heart can predict mortality within a year. The algorithm--an example of what is known as machine learning, or artificial intelligence (AI)--outperformed other clinically used predictors, including pooled cohort equations and the Seattle Heart Failure score. (2021-02-08)

Deepfake detectors can be defeated, computer scientists show for the first time
Systems designed to detect deepfakes --videos that manipulate real-life footage via artificial intelligence--can be deceived, computer scientists showed for the first time at the WACV 2021 conference which took place online Jan. 5 to 9, 2021. Researchers showed detectors can be defeated by inserting inputs called adversarial examples into every video frame. The adversarial examples are slightly manipulated inputs which cause artificial intelligence systems such as machine learning models to make a mistake. (2021-02-08)

New AI tool can thwart coronavirus mutations
USC computer scientists used AI to create a new tool that rapidly identifies potential solutions to coronavirus mutations and screens vaccines much faster to give humans an advantage over the contagion. (2021-02-05)

Computer can determine whether you'll die from COVID
Using patient data, artificial intelligence can make a 90 percent accurate assessment of whether a person will die from COVID-19 or not, according to new research at the University of Copenhagen. Body mass index (BMI), gender and high blood pressure are among the most heavily weighted factors. The research can be used to predict the number of patients in hospitals, who will need a respirator and determine who ought to be first in line for a vaccination. (2021-02-05)

Machine learning generates realistic genomes for imaginary humans
Machines, thanks to novel algorithms and advances in computer technology, can now learn complex models and even generate high-quality synthetic data such as photo-realistic images or even resumes of imaginary humans. A study recently published in the international journal PLOS Genetics uses machine learning to mine existing biobanks and generate chunks of human genomes which do not belong to real humans but have the characteristics of real genomes. (2021-02-05)

Story of COVID's mental health impact - a thread
Data scientists have analysed 94 million tweets from the first months of the pandemic to track COVID-19's effect on mental health in NSW. (2021-02-03)

Improved model estimates impact of ozone on soy crops
The impact of ozone on soybean production can be predicted more accurately thanks to improvements to a computer modelling system. (2021-02-01)

Computer model makes strides in search for COVID-19 treatments
A new deep-learning model that can predict how human genes and medicines will interact has identified at least 10 compounds that may hold promise as treatments for COVID-19. (2021-02-01)

Ions in molten salts can go 'against the flow'
In a new article published in the scientific journal Communications Chemistry, a research group at Uppsala University show, using computer simulations, that ions do not always behave as expected. In their research on molten salts, they were able to see that, in some cases, the ions in the salt mixture they were studying affect one another so much that they may even move in the ''wrong'' direction - that is, towards an electrode with the same charge. (2021-01-27)

Turbulence model could enhance rotorcraft, munitions performance
Design of Army aerial vehicles and weapon systems relies on the ability to predict aerodynamic behavior, often aided by advanced computer simulations of the flow of air over the body. High-fidelity simulations assist engineers in maximizing how much load a rotorcraft can lift or how far a missile can fly, but these simulations aren't cheap. A new turbulence model could change that (2021-01-25)

To find the right network model, compare all possible histories
Scientists rarely have the historical data they need to see exactly how nodes in a network became connected. But a new paper in Physical Review Letters offers hope for reconstructing the missing information, using a new method to evaluate the rules that generate network models. (2021-01-25)

Scientists improved eye tracking technology in VR systems
The tracking of eye movement is one of the key elements of virtual and amplified reality technologies (VR/AR). A team from MSU together with a professor from RUDN University developed a mathematical model that helps accurately predict the next gaze fixation point and reduces the inaccuracy caused by blinking. The model would make VR/AR systems more realistic and sensitive to user actions. (2021-01-22)

Climate and carbon cycle trends of the past 50 million years reconciled
In a study published today in Science Advances, University of Hawai'i at Mānoa oceanographers fully reconciled climate and carbon cycle trends of the past 50 million years--solving a controversy debated in the scientific literature for decades. (2021-01-22)

Tree rings and the Laki volcano eruption: A closer look at climate
When Iceland's Laki volcano erupted in 1783, its effects rippled around the world. UArizona researchers have analyzed Alaskan tree rings to understand how climate responded in northwestern North America. The work will aid in fine-tuning future climate models. (2021-01-20)

Students returning home may have caused 9,400 secondary COVID-19 infections across UK
A student infected with COVID-19 returning home from university for Christmas would, on average, have infected just less than one other household member with the virus, according to a new model devised by mathematicians at Cardiff University and published in Health Systems. (2021-01-17)

A new tool to facilitate quicker, error-free software design
The tool permits the early detection of errors at any point during the modelling process, not just on completion, as is the case now (2021-01-15)

Simulating evolution to understand a hidden switch
Some organisms evolve an internal switch that can remain hidden for generations until stress flicks it on. (2021-01-15)

Scientists' discovery is paving the way for novel ultrafast quantum computers
Scientists at the Institute of Physics of the University of Tartu have found a way to develop optical quantum computers of a new type. Central to the discovery are rare earth ions that have certain characteristics and can act as quantum bits. These would give quantum computers ultrafast computation speed and better reliability compared to earlier solutions. The University of Tartu researchers Vladimir Hizhnyakov, Vadim Boltrushko, Helle Kaasik and Yurii Orlovskii published the results of their research in the scientific journal Optics Communications. (2021-01-15)

New videos show RNA as it's never been seen
Using data from RNA-folding experiments, the researchers generated the first-ever data-driven movies of how RNA folds as it is made by cellular machinery. By watching their videos of this folding occur, the researchers discovered that RNA often folds in surprising, perhaps unintuitive ways, such as tying itself into knots. (2021-01-15)

Scientists discover the secret of Galápagos' rich ecosystem
New research has unlocked the mystery of how the Galápagos Islands, a rocky, volcanic outcrop, with only modest rainfall and vegetation, is able to sustain its unique wildlife habitats. (2021-01-14)

Model analyzes how viruses escape the immune system
MIT researchers have devised a way to computationally model viral escape, using models that were originally developed to model language. The model can predict which sections of viral surface proteins, including those of influenza, HIV, and SARS-CoV-2, are more likely to mutate in a way that allows the virus to evade the human immune system. It can also identify sections that are less likely to mutate, making them good targets for new vaccines. (2021-01-14)

SUTD develops new model of influence maximization
The model will enhance the robustness of networks to adversarial attacks and will benefit both practitioners and organizations. (2021-01-12)

Researchers find wildfire smoke is more cooling on climate than computer models assume
Many of the most advanced climate models simulate smoke that is darker, or more light absorbing, than what researchers see in observations. (2021-01-12)

No-till practices in vulnerable areas significantly reduce soil erosion
Soil erosion is a major challenge in agricultural production. It affects soil quality and carries nutrient sediments that pollute waterways. While soil erosion is a naturally occurring process, agricultural activities such as conventional tilling exacerbate it. Farmers implementing no-till practices can significantly reduce soil erosion rates, a new University of Illinois study shows. (2021-01-12)

Machine learning accelerates discovery of materials for use in industrial processes
Research led by scientists at the University of Toronto and Northwestern University employs machine learning to craft the best building blocks in the assembly of reticular framework materials for use in a targeted application. The findings demonstrate that the use of artificial intelligence approaches can help in proposing novel materials for diverse applications such as clean energy, sensoring and biomedicine, by accelerating the design cycle for materials. (2021-01-11)

Ferrofluid surface simulations go more than skin deep
Computer models efficiently and accurately simulate the magnetic responses of ferrofluids by considering only the fluid's surface. (2021-01-10)

A bit too much: reducing the bit width of Ising models for quantum annealing
Quantum annealers are devices that physically implement a quantum system called the 'Ising model' to solve combinatorial optimization problems. However, the coefficients of the Ising model often require a large bit width, making it difficult to implement physically. Now, scientists from Japan demonstrate a method to reduce the bit width of any Ising model, increasing the applicability and versatility of quantum annealers in many fields, including cryptography, logistics, and artificial intelligence. (2021-01-06)

Using artificial intelligence to find new uses for existing medications
Scientists have developed a machine-learning method that crunches massive amounts of data to help determine which existing medications could improve outcomes in diseases for which they are not prescribed. (2021-01-04)

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