ISLAMABAD -- Government is planning to establish a National Materials Science Research Institute with a centralized supercomputing facility for computational materials science or condensed matter physics.
What does CMS stand for?
CMS stands for Computational Materials Science
This definition appears very frequently and is found in the following Acronym Finder categories:
- Science, medicine, engineering, etc.
See other definitions of CMS
We have 1152 other meanings of CMS in our Acronym Attic
- Completions Management System
- Compliance Management Services (various organizations)
- Component Maintenance Squadron
- Component Monitoring System
- Composant Monté en Surface (French: Surface Mounted Component)
- Composite Multiplex Signal
- Composites Machines Systèmes (French industrial tool distributor)
- Compound Mitre Saw
- Comprehensive Medical Solutions (Florida)
- Compressed Media Solutions
- Computational Molecular Science
- Computer Mail Services, Inc.
- Computer Management System (Unisys)
- Computer/Mathematical Sciences (various universities)
- Computerized Medical Systems, Inc.
- Computerized Monitoring System
- Computing & Management Sciences
- Computing and Media Services
- COMSEC Material System
- Concept Mécano Soudure (French construction company)
Samples in periodicals archive:
Callaway Chair and director of the Center for Computational Materials Science (CCMS) at Georgia Tech.
The volume's 44 paper, which have not necessarily been edited or reviewed by conference organizers, are presented in sections on applicable computing technologies in heat treating; computational thermodynamics and kinetics; global innovations in photovoltaics and thermoelectrics; manufacturing issues in fuel cells; materials in clean coal technologies, hydrogen based technologies, and fuel cells; progress in computational materials science and engineering education; production and recycling of solar cell silicon; and synergies of computational and experimental materials science.
Today, computational materials science is a rapidly developing discipline, and NIST is developing tools incorporating predictive models aided by empirical studies.
This is a novel way of controlling friction," maintains Uzi Landman, director of the Center for Computational Materials Science, Georgia Institute of Technology, Atlanta.
Director of the Center for Computational Materials Science at the Georgia Institute of Technology in Atlanta, Landman explores the interactions that define tribology - the science of friction, wear and lubrication - on an atomic scale.