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In terms of quantum use cases, the development of broad spectrum antiviral medication will see direct benefits.
What are the realistic quantum benefits for life sciences?
A core activity of pharmaceutical companies is the development of therapeutics that will treat or cure challenging diseases.
Classical computers are limited in calculation power, and predicting accurate molecular behavior could take years to accurately compute.
Meaning the quality of compounds designed computationally will improve.
Ensuring the input molecules are of better quality is therefore paramount.
Head of Strategic Alliances at Kvantify.
The potential to cut costs is huge.
What are the barriers?
Firstly, integrating quantum computing with the existingIT infrastructureis a complex task.
Despite being more advanced, quantum computers are developed separately from classical computers, which makes integration more difficult.
Secondly is the lack of talent.
Talent is limited in the quantum space, and the supply chain is too narrow to meet demand.
The development of new methods and algorithms that account for current noise and error will help mitigate measurement overheads.
When to invest in quantum computing?
The life science sector is among the industries who will likely see early quantum impact and record investment.
Taking this into consideration, it is important for businesses to invest into quantum as early as possible.
Getting past barriers such as recruiting relevant talent and integrating systems takes time.
Taking action now will give early adopters a head start for tackling these complex problems.
Additionally, quantum research is constantly evolving and demonstrates many long-term benefits in the life science sector.
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