When the US Department of Energy (DOE) boots up the worlds first generation of exascale supercomputers next year, researchers hope to find some of the most elusive questions of modern science suddenly closer to being solved.
The two machinesFrontier at Oak Ridge National Laboratory (ORNL) in Tennessee and Aurora at Argonne National Laboratory (ANL) in Chicagopromise the fastest computing horsepower in history of more than 1.5 exaflops apiece. Theyll represent the culmination of a 5 year effort across six national laboratories with a price tag of roughly $1.8 billion.
The quest for exascale officially began in 2015, when the White House laid out marching orders for the National Strategic Computing Initiative, a whole-of-government effort designed to create a cohesive, multi-agency strategic vision and Federal investment strategy, executed in collaboration with industry and academia, to maximize the benefits of HPC for the United States.
That Initiative gave rise to the DOEs Exascale Computing Initiative, focused on making the computing leap, and theExascale Computing Project (ECP), focused on building a comprehensive software ecosystem consisting oftarget applications, anexascale computing software stack, andaccelerated hardware technologyinnovations primed to take full advantage of the newfound processing power.
To prepare the nations first exascale-ready applications, two dozen teams of scientists and engineers have worked around the clock since, stringing together computer code and writing new algorithms to tackle everything fromenergy science and productiontoinvestigating cures for cancertopredicting natural disasters.
Were on track, and well be ready to go on Day One, said Doug Kothe, the ECPs director. I think these applications were developing are going to be the scientific and engineering tools of the trade for decades to come.
An exaflop amounts to 1 quintillionthats 1018or a billion billioncalculations per second, five times faster than the highest speeds available on todays top-performing supercomputer Summit at ORNL, which clocks in at 200 petaflops200 quadrillion calculations per second, or 1015.
For perspective, the average human brain consists of about 100 billion neurons. Multiply those brain cells by 15 million, and theyll approach the problem-solving muscle of one such exascale machine.
Fire up those circuits, and the eureka moments cant help but follow, said Kothe.
Its a real game-changer, he said. I think its going to be a translational moment once we pick up that extra computing speed and capacity that gets us over the remaining obstacles. You cant plan for scientific breakthroughs, but if you have that tremendous technology at your fingertips, they will happen.
Those breakthroughs could include new ways to appease the worlds ravenous hunger for energytobuild cleaner-burning combustion engines,harness wind poweron an unprecedented scale, evenshrink a nuclear reactorto the size of a desktop. Insights gained could help slash pollution and double or triple the efficiency of existing fossil-fuel resources to ease the transition to a greener energy economy.
Its about leap-frogging, said Tom Evans, a distinguished researcher at ORNL. In some of these fields, the leap could be very large. Were not machining screws in any of these projects. These are ambitious questions. Our need for energy is only going to grow, so lets go where the existing science cant take us.
Exascale computings promise rests on the ability to synthesize massive amounts of data into detailed simulations so complex previous generations of computers couldnt handle the calculations. The faster the computer, the more possibilities and probabilities that can be plugged into the model to be tested against whats already knownhow a satellite might react under various conditions in space over time, how cancer cells might respond to new treatments, how a3D-printed designmight hold up under strain.
The process helps researchers target their experiments and fine-tune designs while saving the time and expense of real-world testing. Scientists at ORNL, for example, recently used simulations on Summit to trim a list of more than 8,000 potential drug compounds that mightfight the coronavirusdown to the 77 likeliest candidates.
I wouldnt call it a crystal ball, but its almost like a time machine, said Steve Hamilton, an ORNL scientist working on an application todesign smaller, modular nuclear reactors. Think of it as a virtual experiment. Were learning in minutes, hours, or days what might otherwise take years to discover.
Hamilton hopes to use that virtual laboratory to perfect designs for the next generation of nuclear fission reactors, big enough to power a small community but small enough to fit inside the average living room with such built-in safety features as auto-shutoff or a removable core. The designs could be modular, built out of 3D-printed parts and assembled onsite.
If we can build a virtual reactor and run simulations of how it would behave if it were built, we dont have to do as many physical experiments, Hamilton said. But because these are new designs, we dont have as much experimental data to fall back on, and we want the modeling to be as accurate as possible.
The details of that modeling extend to mapping the behavior of radioactive isotopes constantly colliding and to tracing the steady flow of coolant through the reactor core, for simulations that add up to half a million or more lines of computer code.
If something is meters across, we want to simulate it down to the millimeter, Hamilton said. What we can do right now on Summitthe fastest computer in the worldis along the lines of modeling a single state of the reactor, basically a snapshot of a moment in time. With exascale, we hope to simulate an entire reactor cycleabout a couple years of usein the space of about 24 hours of wall-clock time. Were talking about the difference between a snapshot and a timeline.
The work wont stop when the model is finished.
This is a demo, Hamilton said. Were just setting the table. Its going to be up to the private players to take these tools and lessons and then apply them. We wont be building the reactors, but we want to build tools that will help us assess how these designs work in the real world.
Fission reactors typically take decades to build and receive permits due to the massive designs employed by previous generations to power cities and chunks of states. Going smaller could shrink those costs and speed the time from blueprints to reality.
The current reactors use these giant stainless-steel components made at only one or two facilities in the world, things that typically have to be imported, Hamilton said. By going with a smaller design, were hoping to decrease manufacturing costs by making something that can be manufactured in a variety of places. The reactor could be maybe the size of an office or living room, minus the containment structure and all the other components.
Success could pave the way for even smaller reactors, micro-powerplants with nuclear cores that could power a remote military base or a mobile disaster response. Modular cores could be added and removed like batteries. An earthquake, tidal wave or other natural disaster threatens the reactor as in Fukushima, Japan, in 2011? Pop out the core and haul it to safety.
Some companies are already exploring those possibilities. NuScale Power plans to bring a modular reactor capable of generating up to 720 megawatts online in Utah as early as 2026. Idaho National Laboratory plans to provide low enriched uranium to fuel a 1.5 megawatt reactor being built by the company Oklo that could begin operation by 2024.
From the perspective of these companies, they need to manage to their own timelines and not be completely dependent on a project that DOEs scientists are managing, Hamilton said. Theyre moving ahead. If were able to work with them, we can use the exascale modeling to evaluate the improvements and improve the economic viability of these reactors. Nuclear fission provides about 20 percent of our power nationwide right now. If these reactors become more viable, maybe we can increase that share.
At the other end of the nuclear spectrum, researchers hold out similar hopes ofmodeling a reactorthat could generate the power of a star from a few drops of seawater.
After a half-century of study, trial and error has yet to yield a successful commercially controlled thermonuclear fusion reaction. Scientists joke that the big breakthrough is always 20 years away.
The power and speed of exascale could make the difference through 3D modeling and evaluation aided by artificial intelligence, said Amitava Bhattacharjee, a professor of astrophysical sciences at the Princeton Plasma Physics Laboratory.
I can think of no higher aspiration, he said. The fuel for fusion is virtually limitless. The energy released would be clean and sustainable and much greater than the amount needed to get the nuclear reactions going. The challenge is that were trying to duplicate the nuclear reaction of the sun under controlled laboratory conditions and within a confined device. These are complex and expensive experiments. It is important to develop high-fidelity and predictive computer simulations that can optimize the design and performance of such experimentsand even choose between them through careful validation studies.
The simulated approach has worked for other industries. Aircraft manufacturers once relied on hands-on testing to try out new designs before adopting virtual models.
We previously used wind tunnels all over the country to design and test airframes, Evans said. Now we use them much more sparingly and efficiently. Well still need ground experiments, but well need far fewer of them to validate the designs because the simulations have gotten us 80 percent of the way there.
The bigger the idea, the bigger the simulation. Humans learned centuries ago how to harness the energy of a passing breeze to cross the ocean or power a grist mill.
But the idea of the modern wind farm came about only recently, and it is an ideal challenge for exascale, said Mike Sprague, a senior scientist at the National Renewable Energy Laboratory.
The industry knows how to build a single turbine, Sprague said. Thats based on experience and hands-on knowledge. What we dont have yet are computer models that can predict accurately what wind turbines are going to do when you put them together in a wind-farm setting where these blades are rotating, turning, yawing, and creating a wake that affects turbines downwind. We dont really understand the complex dynamics that are going on and how they interplay.
Spragues project means breaking every inch of each turbine, every potential movement of each blade, and every gust of wind at each potential speed into bricks of equations andbuilding a virtual wind farmthat could be applied to all circumstances. Offshore wind farms of floating turbines at sea add even more variables to the mix.
The most recent simulation by Sprague and his team of an operating turbine took 6 billion equations. It lasted about 17 seconds.
He believes a full exascale simulation could reveal how to position turbines to maximize energy production, cut costs, and make the best use of available terrain.
We want to be able to build up a grid in a virtual wind plant and basically watch a wind front move through at 10 miles per second, for example, and see how the turbines react, Sprague said. We need to understand exactly whats going on, and I think were definitely going to get there with exascale. Then we can walk into the ground experiment to validate what we think we know.
Wind generated about 7.3 percent of the electricity in the United States last year, according to the US Energy Information Administration. Sprague believes exascale could lead to innovations that could push wind to a greater share of that market.
Its not going to be the lightbulbnot on its own, Sprague said. But its a gateway to reducing the cost of energy and making wind competitive with fossil fuels. The private players can take this foundation and build on it to try to make that vision a reality.
Even if breakthroughs in nuclear and wind power materialize, dependence on fossil fuels wont disappear overnight. Other exascale projects focus on finding cleaner approaches to the internal combustion engines that have powered the world for the past century.
Exascale simulations could enable improvements to fossil-fuel engines that would bridge the gap and reduce pollution during the transition, said Jacqueline Chen, a senior scientist at Sandia National Laboratories. She hopes todevelop science-based combustion modelsthat can be used to design high-efficiency, low-emission engines based on the unprecedented level of detail provided by exascale.
Its a stopgap, Chen said. Combustions going to be around for quite some time still, especially for aviation. These models could be used by the fuel and trucking industries to develop clean-burning, fuel-efficient combustion engines that would be competitive for the next 2030 years while were still trying to electrify the powertrain. Even a couple points of increased fuel efficiency go a long way, and efficiencies of 50 percent or higher equate to a huge amount of savings.
But some of the dynamics of the fossil-fuel combustion process, which generated more than 60 percent of the electricity in the United States last year, remain as slippery as those of the atomic fuel cycle. Modeling an engine, like modeling a nuclear reactor, requires mapping legions of moving, reacting particles.
These can be sorbent or oxygen carrier particles, said Madhava Syamlal, a senior fellow for computational engineering at the National Energy Technology Laboratory. As theyre moving around inside the reactor, there are chemical reactions, heat and mass transfer, happening the whole time. We want to capture all those processes and model them, but there are some very complex reactor geometries involved. We need to track where those particles are and get a complete picture at the scale of each of the individual particles.
Syamlals work of the past 30 years focuses onmodeling gas-solid reactors, also known as fluidized bed reactors or chemical looping reactors, that avoid direct contact between fossil fuels and air in an effort to capture carbon from emissions and avoid pumping hydrocarbon pollutants into the atmosphere. Current technology cant accommodate the number of calculations needed to model a pilot-scale chemical-looping reactor.
If were able to do this simulation, it will be incredible, Syamlal said. Well be able to move technology development ahead at least 5 years, and we can apply the capability to a whole variety of industrial processes. Today on a state-of-the-art computer, we can model about 5million particles. Weve been able to run simulations on Summit at about 40 million particles. Our goal is to simulate a reactor that contains 5 billion particles by the end of this project.
Existing codes would take 2 or more years to run such a simulation. We hope to develop a code that can use an exascale machine to increase the speed and resolution by a thousand-fold and get the results in a couple of days.
The possibilities dont stop there. Some researchers hope to use exascale simulations toexplore foundational principles of science, from designing enhanced particle accelerators to reenacting the Big Bang.
Weve never observed a supernova directly, Evans said. We can simulate that with exascale and see if it correlates or matches with what weve observed from earth. Some questions will still be too complex.
And not everyone expects exascale to provide all the answers.
Designing a fusion reactor is so complicated, with so many layers of science and engineering, a whole-device model could easily go beyond resources offered at the exascale level, Bhattacharjee said. Our hunger for more powerful computers is not likely to stop. But exascale will get us a long way there. Things are hard to predict. We need to understand all the pieces of the puzzle and how they come together, because there will be surprises in the wholewhich will be more than the sum of the parts. Be prepared for surprises.
Some of those surprises could be long in coming. Others might come quicker.
Exascales computing speed could deliver immediate benefits in such sectors asthe nations utility grid. Simulations could predict scenarios for massive power failures like those seen during the California wildfires, balance demand, pinpoint weak spots in the delivery system and devise workarounds to keep the electric currents flowing to consumers. Power companies could build parallel digital models to run alongside the grid in real time and help promptly identify the cause when the wires stop humming and the lights blink out.
You could think of it as a digital twin, said Kothe. We want to be able to ask what-if scenarios to prepare for emergencies and manage the delivery. Solar and wind power are going to be more intermittent. We need to plan for ebbs and flows of those energy sources on the grid and be able to counter with other sources. What if we lose 1020 sources at once? This is where the efficacy of exascale simulation comes in.
The average power plant wont have the luxury of an exascale computer onsite. But the apps built to run on machines likeFrontierat ORNL andAuroraat ANL will be designed to scale down to the industrial and consumer level, eliminating the shortcuts relied on by simpler models and drawing on exascale findings to close the circuit and produce reliable conclusions.
When you need to talk about operational decisions, youre talking about a matter of minutes or seconds, Kothe said. This will give answers you can bank on when you need them.
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