Artificial intelligence to make medicines!
Artificial intelligence to make medicines!
In Greek epithets, the center is shown as a witch,
half of which is human, and the other half of the horse. According to Professor
Hopkins, artificial intelligence will make science stronger like Centers.
In Greek epithets, the center is shown as a witch,
half of which is human, and the other half of the horse. According to Professor
Hopkins, artificial intelligence will make science stronger like Centers.
Drugs are now quite big industries. Large sums of
investment are needed, if the results are not obtained from the study, the
amount of loss is also bigger. Investing in the stock market becomes more
risky. That is why scientists want to make effective medicines in the fastest
time.
Large companies like Glaxo-SmithKline (GSK), Johnson
& Johnson, have been grapple with this goal. With the help of artificial
intelligence, they want to create the most rapid drug at the moment.
Professor Andrew Hopkins recently signed a $ 33
million penny contract with GSK, the chief of the artificial intelligence drug
inventor, Xiansiae. He thinks, this 'joint effort' is possible to get the
desired result at quarter-fourth.
This collective effort of people and artificial
intelligence has been named 'Centrally Team'. In Greek epithets, the center is
shown as a witch, half of which is human, and the other half of the horse.
According to Professor Hopkins, artificial intelligence will make science
stronger like Centers.
The cost of drug discovery may come down to half.
The cost of drug discovery may come down to half.
Scientists often address the disease as 'target' and
atomic atoms as 'weapon'. Drugs were used by several potential targets in
different targets. But this process took longer, success rate was not good
either.
Pamela Spence, an adviser to consultant Ernst &
Young, believes that with the help of artificial intelligence 'this process
will be made more accessible. It can be known by any supercomputers of
artificial intelligence, which can work and which none can do. Once the
potential atoms are found, it is possible to reduce the cost of research and
waste. They can then carry out intensive research. Thus, the success rate will
also increase a few times. '
Professor Hopkins said, "We are not trying to
throw the uncertainty, but it is very big and difficult to work ... maybe a few
pennies of the production company have to be spent to create a single drug. But
finding that medicine is a great cost.
Professor Andrew Hopkins
Professor Andrew Hopkins
Artificial intelligence will work in this discovery
area. It is expected that up to $ 1.7 billion is spent in the middle process
till the drug 'target' is created, it takes about 5 years. Using artificial
intelligence, the cost can be reduced to 33 percent. It will take one year.
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