A powerful quantum chemistry engine is now available that can help scientists tackle complex chemical problems. The new technology could drastically speed up research in drug discovery, materials science and other fields, the system’s developer, QDX, claims.
The Extreme-scale Electronic Structure System (EXESS) can perform more than 1 quintillion calculations per second to address questions in quantum chemistry, QDX representatives said in a statement.
But traditionally, the modeling of quantum chemistry “takes up an absolutely mammoth amount” of computing power, Loong Wang, CEO of QDX, told Live Science. “It’s actually, in many situations, genuinely faster to synthesize a compound and test it over the course of several weeks than to try and do a calculation on that compound.”
The amount of computing power needed scales exponentially with the number of atoms in the system. Accurately solving problems with large molecules such as proteins, which can contain thousands of atoms, quickly becomes untenable. The purpose of EXESS, Wang said, is to “make quantum chemistry actually fast enough to use in practice.”
EXESS operates 3,000 to 4,000 times faster than many other quantum chemistry software packages, QDX says, opening up calculations with large molecules like proteins. There’s no single innovation driving that huge increase, and it runs on conventional hardware — so no quantum computing is needed. Instead, Wang and his colleagues optimized many individual components of the software, which together increase the speed and scale of the computations.
“There are calculations that would, in principle, take about a month that actually take closer to 12 minutes”
Loong Wang, CEO of QDX
One way the team sped up calculations was by finding ways to run multiple operations at the same time. Many quantum chemistry algorithms are designed to operate in sequential steps. But even with extraordinary computing power, “nine chefs can’t cook a recipe in one-ninth of the time,” Wang said. The team found ways to alter the algorithms or theoretical approaches to enable more processes to be run in tandem, like “an industrial kitchen where you’re just cranking out recipes,” Wang added.
For example, the team implemented a technique known as molecular fragmentation, which breaks down a problem into smaller fragments, computes those fragments at the same time, and then stitches those pieces back together. That enabled them to speed up large calculations by running many smaller calculations at once.
“There are calculations that would, in principle, take about a month that actually take closer to 12 minutes” when run using EXESS, Wang told Live Science.
QDX is currently focused on using EXESS for drug discovery, finding and optimizing interactions between medicines and the body or better understanding how existing drugs function and why people develop resistances to them. But the company is offering free access for approved research projects. A limited version of the software is also available to the general public.
“I hope that people do stuff that we’re not presently doing, and I don’t mean that from a competitive standpoint,” Wang said. “We have a couple of problems that we’re choosing to focus on that we think are really interesting. But what we really want to see is people focus on the other 99% of problems that exist, and see what they do with it, and see whether in some of those areas, we might be surprised at how quantum chemistry can help make a difference.”
