building the

Future of Cooling

Data centers today are dirty and expensive. If nothing changes, data centers could consume up to 9% of U.S. electricity generation by 2030. Roughly 40% of emissions from data centers will be due to inefficient cooling, which is incredibly expensive for companies. Our technology eliminates this waste of money and the associated emissions.

Data generated is only increasing

Graph showcases data generated in zettabytes. A single zettabyte is over 1 billion terabytes.

Sources via Science Daily and HDFS.

Data generated

is increasing

Projected growth of data generated in zettabytes. A single zettabyte is 1 billion terabytes.

Sources via Science Daily and HDFS.

Carbon emissions will follow

Projected total worldwide emissions of data centers. This correlation between data and carbon emissions is evident and growing.

Sources via Computer World and The Guardian.

Carbon emissions

will follow

Projected total worldwide emissions of data centers. This correlation between data and carbon emissions is evident and growing.

Sources via Computer World and The Guardian.

Our Solution

Different applications
Same incredible efficiency

96%

Less energy wasted

40%

Smaller footprint

~2X

CPU & GPU  performance

Technology enabled by subcooled boiling

Ferveret uses subcooled boiling which allows for exceptionally high heat fluxes to be removed from processors and other heat generating components.

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Data Centers

The demand for efficient machines and infrastructure is more important than ever. Electricity usage in particular is overbearing with current air and once-through water cooling machines.

Artificial Intelligence

A mechanical arm reaching outward

With the rise of AI applications and platforms like ChatGPT, increased computation power is critical. Ferveret makes that a possibility with its cooling technology.

Crypto Mining

Ferveret takes full advantage of chip performance by overclocking miners, reducing noise pollution, electricity consumption, and the physical footprint of mining facilities.

Autonomous Vehicles

Illuminating car lights on the highway

Today, the average automobile has between 1,000 and 3,000 chips inside it. We are addressing problems associated with battery cooling and sensors to enable self-driving capabilities.

Executive Team

Dr. Azizian completed his post-doctoral research and a portion of his Ph.D. at MIT. He has over 10 years of experience in the cooling industry. Before starting Ferveret, he designed a thermal solution for the Microsoft HoloLens, and also worked as a Senior Thermal Engineer at NVIDIA and Cruise.

Dr. Reza Azizian

Co-Founder & CEO

Dr. Bucci is a faculty member at MIT and previously worked as a Research Scientist at CEA Paris for nearly a decade. Outside of his core work, he is also a nuclear energy consultant and editor of Applied Thermal Engineering.

Dr. Matteo Bucci

Co-Founder & CTO

Andrea is a B2B executive with over two decades of experience. He has held leadership positions in Dell Technologies, Genesys, EMC, and led consulting engagements with McKinsey & Co; earlier in his career he was in the technical team of two startups. He is a graduate of the Chicago Booth School of Business (MBA) and Scuola Sant'Anna di Pisa (MSEE, BSEE).

Andrea Marini

Chief Revenue Officer (CRO)

Our Investors
Y CombinatorMIT E14 FundClimate CapitalCathexis VenturesVerso CapitalValkyrie FundY CombinatorMIT E14 FundClimate CapitalCathexis VenturesVerso CapitalValkyrie Fund