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Ushering In The Super Materials Age

 

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OUR MISSION

Less than 1% of the potentially useful materials in our universe have been discovered. Tracy’s goal is to compute the properties of every possible super material in our known universe.

ABOUT

The Super Materials Age

Building on a history of breakthroughs, the world of material science is imagining super materials that still only exist in theory. The next giant step will be to actually start discovering and producing them. That’s where Tracy comes in.

THE SOLUTION

Super Materials + Machine Learning

The Problem

Less than 1% of the potentially useful materials in our universe have been discovered. Tracy’s goal is to compute the properties of every possible super material in our known universe. The world has the science and research to do this, but there is a bottleneck in computing data.

The Solution

The solution to discovering previously impossible super materials is Tracy’s patented machine learning system. We take elements from the periodic table, mix them, then predict their theoretical super properties using machine learning. One of the revolutionary parts of Tracy is that users can access the system easily, even from a smartphone!

ABOUT

The Super Materials Age

Building on a history of breakthroughs, the world of material science is imagining super materials that still only exist in theory. The next giant step will be to actually start discovering and producing them. That’s where Tracy comes in.

Here is a brief history of where we are in the timeline of technological and materials ages.

THE SOLUTION

Super Materials + Machine Learning

The Problem

Less than 1% of the potentially useful materials in our universe have been discovered. Tracy’s goal is to compute the properties of every possible super material in our known universe. The world has the science and research to do this, but there is a bottleneck in computing data.

The Solution

The solution to discovering previously impossible super materials is Tracy’s patented machine learning system. We take elements from the periodic table, mix them, then predict their theoretical super properties using machine learning. One of the revolutionary parts of Tracy is that users can access the system easily, even from a smartphone!

HOW IT WORKS

Quickly Discovering Super Materials

It’s simple. If we take every possible combination of four elements, there are 30 trillion possible materials…. Many of these will be super materials! With Tracy’s machine learning system, these discoveries happen in just days and weeks, instead of years and decades.

Here’s a quick example. If you take Iron, Carbon, Tungsten, and Copper, the Tracy machine learning system can quickly run through trillions of possible materials. 

HOW IT WORKS

Quickly Discovering Super Materials

It’s simple. If we take every possible combination of four elements, there are 30 trillion possible materials…. Many of these will be super materials! With Tracy’s machine learning system, these discoveries happen in just days and weeks, instead of years and decades.

Here’s a quick example. If you take Iron, Carbon, Tungsten, and Copper, the Tracy machine learning system can quickly run through trillions of possible materials. 

EXAMPLES

What Is Possible?

Jet Engines

Jet engines have turbine blades made of super alloys. Finding new super allows to run jet engines just 1% hotter would save billions in fuel costs.

Solar Cells

Current materials are not efficient enough yet to profitably harness the sun’s energy. New super materials would revolutionize energy production, and solve energy problems.

Thermoelectric Materials

Thermoelectric Materials make energy from heat. With new super materials, electricity can be created from heat in our roads.

Steel

Recent advances have produced steel with the same strength as traditional steel, but at with only one-third the weight. However, the new steel gets brittle after just eight hours. At Tracy, we are searching for super materials that will solve this problem.

EXAMPLES

What Is Possible?

Jet Engines

Jet engines have turbine blades made of super alloys. Finding new super allows to run jet engines just 1% hotter would save billions in fuel costs.

Solar Cells

Current materials are not efficient enough yet to profitably harness the sun’s energy. New super materials would revolutionize energy production, and solve energy problems.

Thermoelectric Materials

Can create the possibility to make electricity when put in roads, but we don’t have a super material yet that can do it.

Steel

Recent advances have produced steel with the same strength as traditional steel, but at with only one-third the weight. However, the new steel gets brittle after just eight hours. At Tracy, we are searching for super materials that will solve this problem.

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Have a Question?

Interested in working with Tracy? Want more info about how to get involved with our machine learning team? Leave us a message, and we’ll get back to you shortly.