The importance of computer modeling in magnetic fusion (MFE) and energy research (ER) programs is discussed. The need for the most advanced supercomputers is described, and the role of the National Magnetic Fusion Energy Computer Center in meeting these needs is explained
Brief discussions are given on research work at the National CTR Computer Center at Livermore, high-...
An integral part of magnetic fusion energy research is the development of the technologies necessary...
This report summarizes the work of the National Fusion Collaboratory (NFC) Project to develop a pers...
The application of computers to magnetic fusion energy research is essential. In the last several ye...
The scientific base of magnetic fusion research comprises three capabilities: experimental research,...
This report surveys the need for large computers in analyzing the properties of magnetically confine...
This report summarizes the work of the National Fusion Collaboratory (NFC) Project funded by the Uni...
Numerical calculations have had an important role in fusion research since its beginning, but the ap...
Nuclear fusion - the process that powers the sun - offers an environmentally benign, intrinsically s...
The principal objective of the Computational Physics Group is to develop advanced numerical models f...
National Energy Research Scientific Computing Center (NERSC) provides researchers with high-performa...
The computational physics group is involved in several areas of fusion research. One main area is th...
The computational physics group is ivolved in several areas of fusion research. One main area is the...
Department of Energy (DOE) and other Government research laboratories depend on high-performance com...
The role of superconducting magnets in Magnetic Fusion Energy Research and Development is assessed f...
Brief discussions are given on research work at the National CTR Computer Center at Livermore, high-...
An integral part of magnetic fusion energy research is the development of the technologies necessary...
This report summarizes the work of the National Fusion Collaboratory (NFC) Project to develop a pers...
The application of computers to magnetic fusion energy research is essential. In the last several ye...
The scientific base of magnetic fusion research comprises three capabilities: experimental research,...
This report surveys the need for large computers in analyzing the properties of magnetically confine...
This report summarizes the work of the National Fusion Collaboratory (NFC) Project funded by the Uni...
Numerical calculations have had an important role in fusion research since its beginning, but the ap...
Nuclear fusion - the process that powers the sun - offers an environmentally benign, intrinsically s...
The principal objective of the Computational Physics Group is to develop advanced numerical models f...
National Energy Research Scientific Computing Center (NERSC) provides researchers with high-performa...
The computational physics group is involved in several areas of fusion research. One main area is th...
The computational physics group is ivolved in several areas of fusion research. One main area is the...
Department of Energy (DOE) and other Government research laboratories depend on high-performance com...
The role of superconducting magnets in Magnetic Fusion Energy Research and Development is assessed f...
Brief discussions are given on research work at the National CTR Computer Center at Livermore, high-...
An integral part of magnetic fusion energy research is the development of the technologies necessary...
This report summarizes the work of the National Fusion Collaboratory (NFC) Project to develop a pers...
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