COMPUTATIONAL MODELING CAN GET CULTIVATED MEAT TO THE TABLE SOONER
Cultivated meat promises to feed ten-billion people by 2050, preserve ocean ecosystems, and reduce animal agriculture’s impact on the climate. Yet, to fulfill this promise requires that the cultivated meat field first develop efficient processes that create desirable products.
OUR SERVICES
At the Cultivated Meat Modeling Consortium (CMMC), we are committed to providing a comprehensive suite of services designed to
empower your journey towards excellence. Our array of offerings include:
Customized Computational Modeling Solution
Accessibility to funds and research
Advisory Services
Partnerships with industry experts
VISION
The CMMC is a non-profit org, aiming to educate and build a Global Research & Development ecosystem for computational modeling to accelerate cultivated meat innovation in a sustainable and economic manner.
MISSION
To promote the development and application of computational methods to accelerate progress in the cultivated and cellular agriculture fields.
Develop commercially applicable technologies to accelerate the production of cultured meat
To de-risk investment in practical pre- competitive technology applications
Expand computational expertise in the cultivated meat space
OUR RECENT PROJECTS
We're setting new standards and making a positive impact that resonates far and wide.
Here's to many more successful projects and a future filled with continued achievements.
CMMC Membership
Join a diverse team of industry, academic and non-profit members dedicated to bringing
cultivated meat to the consumers table faster through computer modeling innovation.
Reach us at info@thecmmc.org for more details
OUR PARTNERS
Your unwavering support, expertise, and collaborative spirit have been instrumental in driving our shared mission forward.
Together, we are shaping the future, pushing boundaries, and achieving milestones that were once deemed impossible.
About
Find out about our organization,
mission, methods, and recent results.
Testimonials
“Computer modeling…enables us to understand how all of these environmental and intracellular intricacies work together”
“If we understand the limits of shear forces or impacts that fluid dynamics have on the cells and we couple that with modeling to predict how vessel geometry impacts particle flow [we can] really help maximize [cell] growth and viability”
GET IN TOUCH WITH US
Ready to take the next step?
Contribute to our cause or participate yourself.
Email us at info@thecmmc.org