"While quantum hardware remains immature, companies say they found another way to put complex quantum algorithms to work: running them on the same chips used for powering artificial intelligence.
This process, known as simulation, has in recent years received a boost from the growing scale of computing power that graphics-processing units and other advanced chips offer.
"Nobody thought this was possible," said Jack Hidary, chief executive of quantum-software company SandboxAQ, which spun off from Google in 2022. "We don't have to wait for a quantum computer. We're not using a quantum computer, but we're using quantum equations, quantum software on GPUs. And that's a big breakthrough."
GPUs are specialized chips designed to support the heavy load of training and running AI algorithms. Their key role in supporting generative AI propelled GPU maker Nvidia to a trillion-dollar valuation earlier this year, although other companies, including Amazon.com and Google, make specialized AI chips.
Quantum algorithms are well suited to GPUs thanks to their ability to handle dense math and high bandwidth memory, among other things, said Nvidia's director of HPC & quantum computing Timothy Costa. "It's a workload which is a great fit for GPUs for the same reasons that AI is a great fit for GPUs," he said.
Quantum algorithms have fundamentally different approaches to problem-solving than classical algorithms, but work for certain use cases, including simulating the behavior of natural materials, such as molecules, and optimization problems. It is possible to run some of these algorithms on the small-scale quantum computers that exist today, which run on quantum processing units, or QPUs -- but the technology is in its early stages and the error rate of these machines remains high.
In the past couple of years there has been an explosion of adoption of GPUs for quantum simulation use cases, said Costa.
"Corporates have played around with pure play quantum algorithms on pure play native quantum chips," said Markus Pflitsch, founder, chairman and CEO of quantum tech provider Terra Quantum. "Now, they are really interested in: How do I enhance business performance with this stuff?"
Simulation can accelerate research and sometimes return results better than traditional computing setups can, Hidary said.
SandboxAQ this month said it was working with battery materials and technology company Novonix to use quantum simulation to model the behavior of ions, the charged particles in lithium ion batteries. Novonix, which is based in Brisbane, Australia, said the collaboration would allow them to develop new machine-learning models that can accurately predict lithium-ion cell lifetime.
Using that knowledge, the ultimate goal, Hidary said, is to envision and realize new battery chemistry -- a much-needed innovation since electric cars are pushing lithium-ion battery supply to its limits.
Simulations have limitations in terms of the complexity of algorithms they can run, and future fault-tolerant quantum computers could add better performance and scalability than simulation, Pflitsch said." [1]
1. AI Chips Support Quantum Software. Bousquette, Isabelle.
Wall Street Journal, Eastern edition; New York, N.Y.. 22 Sep 2023: B.4.
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