Researchers have spent decades breeding better potatoes for chips, and their work isn't done

EAST LANSING, Mich. (AP) — There’s a surprising amount of science in a bag of potato chips.

Researchers have spent decades developing potatoes for chip makers that can grow in all kinds of climates, avoid diseases and pests, sit in storage for months and still deliver a satisfying crunch. They've also kept an eye on consumer trends; a shift to snack-size portions has increased the demand for smaller chipping potatoes, for example.

“The potato industry is dynamic," said David Douches, a Michigan State University professor who leads the school’s Potato Breeding and Genetics Program. “The needs change, the costs, the pressures that they have, and the markets change. So we have to adapt to that with our varieties.”

Douches has developed five new potato varieties for chips in the the last 15 years. His latest breakthrough is a bioengineered potato that can maintain a proper sugar balance when stored at colder temperatures, which can help keep potatoes from rotting. He is currently growing seeds for commercial testing of the potato, which is not yet on the market.

Douches' work helps fight world hunger; he has developed disease-resistant varieties for farmers in Nigeria, Kenya, Rwanda and Bangladesh. But he's also helping U.S. chip makers, grateful snackers and Michigan's $2.5 billion potato industry. While Idaho leads the U.S. in potato production, Michigan is the top producer of potatoes for chips.

There are around 50 unique potato varieties grown for chips in the U.S. right now, according to the National Chip Program, a cooperative that brings together Michigan State and 11 other university breeding programs with growers, companies that make chips, and the U.S. Department of Agriculture.

Efforts to improve those varieties are constant. The National Chip Program evaluates around 225 new potato varieties each year and selects 100 for further trials, said Tim Rendall, the director of production research at Potatoes USA, a trade group that oversees the chip program.

The close partnership between researchers, farmers and potato chip companies is unusual in the food industry, said Phil Gusmano, the vice president of purchasing at Better Made Snack Foods, which has produced potato chips in Detroit since 1930. Better Made worked closely with Douches when he was developing two of the varieties the company uses now, Gusmano said.

“We were able talk about size profile and different needs that make a really good chip,” Gusmano said. “And the great thing is, they’re willing to listen to what we have to say, because if they put together a potato that doesn’t really meet the needs for the end processor, it doesn’t do them any good.”

Breeding a new type of potato can take up to 15 years, Douches said. The simple potato has a surprisingly complicated genetic structure, with four chromosomes in each cell compared to two in most species, including humans. That makes it harder to predict which traits that cross-bred plants will inherit, he said.

“We’re never able to fix a trait and carry that over to the next generation, so it’s very difficult to find a potato that has all the traits that we want,” Douches said.

Douches became fascinated with potato breeding and genetics while in graduate school. At Michigan State, he focuses on chipping potatoes, since Michigan is a leading producer. Around 70% of the state’s potato crop is destined for chip processing, according to the Michigan Ag Council. The trade group estimates that one of every four bags of potato chips produced in the U.S. contains Michigan potatoes.

Breeding potatoes that can sit in storage for nearly a year has been one of the biggest challenges in Douches' 40-year career. Historically, farmers harvested potatoes and then stored them in huge piles at around 50 degrees Fahrenheit (10 degrees Celsius). Temperatures any colder cause sugar levels to rise in the root vegetables, and higher sugar content leads to darker potato chips. But warmer storage conditions can lead to rot.

“You think they’re just these inanimate objects, but they actually are respiring and breathing,” Douches said. “When you do that to them, you’ve got, like, a two- to three-day window where they’re happy.”

His Manistee variety, which was released in 2013, can be safely stored until July at 45 F (7.2 C) degrees. His new bioengineered potato can be stored at 40 F (4.4 C).

Gusmano said Better Made used to source potatoes from outside of Michigan for half the year because the Michigan potatoes it harvested in the fall only could be stored until February. The company now uses newer varieties, like Douches' Mackinaw potato, which can be stored until July and is resistant to several common diseases.

“We’re not shipping potatoes from all over the country to be fried here in Michigan,” Gusmano said. “Instead, they’re being shipped from an hour and a half away all year long.”

David Douches, a Michigan State University professor who leads the school's Potato Breeding and Genetics Program, inspects some items at a campus greenhouse in East Lansing, Mich., on Tuesday, March 24, 2026 (AP Photo/Mike Householder)

Potato chips move along a conveyor at a Better Made Snack Foods processing facility in Detroit, on Thursday, April 2, 2026 (AP Photo/Mike Householder)

Better Made Snack Foods worker Tonya Tinsleydoes quality control checks on potatoes at a processing facility in Detroit, on Thursday, April 2, 2026 (AP Photo/Mike Householder)

David Douches, a Michigan State University professor who leads the school's Potato Breeding and Genetics Program, holds a potato chip in his hand during a taste testing in East Lansing, Mich., on Tuesday, March 24, 2026 (AP Photo/Mike Householder)

HANGZHOU, China--(BUSINESS WIRE)--Apr 22, 2026--

Ant Group today officially announced the release of Ling-2.6-flash, a new large language model designed to prioritize efficiency and real-world application. Leveraging a sparse Mixture-of-Experts (MoE) architecture, the model utilizes 104 billion total parameters with only 7.4 billion active, delivering high intelligence at a fraction of the cost and latency of its peers.

This press release features multimedia. View the full release here: https://www.businesswire.com/news/home/20260422256825/en/

Unlike many models that rely on generating excessive tokens to achieve higher benchmark scores, Ling-2.6-flash focuses on token efficiency.

According to data from Artificial Analysis, Ling-2.6-flash demonstrates a significant advantage in efficiency. It achieved an Intelligence Index of 26 while generating only 15 million output tokens. Unlike some models that rely on excessively long outputs to achieve higher scores, Ling-2.6-flash strikes an optimal balance between intelligent performance and output cost.

In the complete Artificial Analysis Intelligence Index evaluation, Ling-2.6-flash consumed a total of 15 million tokens to complete tasks, whereas comparable models like Nemotron-3-Super consumed over 110 million tokens. For developers and enterprises, this equals an 86% reduction in inference cost, faster response times and a smoother user experience.

Built on a hybrid linear Mixture-of-Experts (MoE) architecture, the model delivers significant speed advantages. Under 4-card H20 conditions, it achieves inference speeds of up to 340 tokens per second, with a Prefill throughput 2.2 times that of Nemotron-3-Super. In Output Speed evaluations, Ling-2.6-flash ranks in the top tier of its size class with a stable output speed of 215 tokens per second.

Ling-2.6-flash has been specifically enhanced for AI agent applications, demonstrating state-of-the-art (SOTA) performance for its size on benchmarks such as BFCL-V4, TAU2-bench, SWE-bench Verified, Claw-Eval, and PinchBench. It maintains strong capabilities in general knowledge, mathematical reasoning, and long-text analysis while strictly controlling token consumption.

The official launch confirms that Ling-2.6-flash is the previously anonymous "Elephant Alpha." Prior to this release, the model was available for testing on OpenRouter under that codename, where it saw a significant surge in adoption. Over the past week, it topped the "Trending" charts for consecutive days, with daily token calls reaching the 100 billion level.

With pricing set at 0.1 USD for input and 0.3 USD for output per million tokens, the Ling-2.6-flash API is officially open. It includes a one-week free trial and is accessible through OpenRouter and the Alipay Tbox. A commercial version, LingDT, will be available through Ant Digital Technologies to support global developers and SMEs.

About Ant Group

Ant Group is a global digital technology provider and the operator of Alipay, a leading internet services platform in China, connecting over one billion users to more than 10,000 types of consumer services from partners. Through innovative products and solutions powered by AI, blockchain and other technologies, Ant Group supports partners across industries to thrive through digital transformation in an ecosystem for inclusive and sustainable development. For more information, visit www.antgroup.com.

OpenRouter LLM Leaderboard showing the "Elephant" model topping the Trending list on April 16, 2026.

Ant Group Unveils Ling-2.6-Flash: A Major Leap in AI Efficiency