Computer Science
Supercomputer
83%
Best Practice
66%
Case Study
66%
Graphics Processing Unit
66%
Performance Improvement
55%
Fortran
44%
Microbenchmarks
38%
Performance Characteristic
33%
Performance Issue
33%
Installed System
33%
Sparse Matrix-Vector Multiplication
33%
Performance Portability
33%
Application Code
33%
Representative Workload
33%
Developing Application
33%
Software Testing
33%
Programmability
33%
Exascale Computing
33%
Computing Facility
33%
Scientific Application
33%
Internal Data Structure
33%
Performance Vector
33%
Application Performance
33%
Solution Method
33%
Vectorized Version
33%
Global Address Space
33%
Community Climate System Model
33%
Technical Detail
33%
Remote Memory Access
33%
Performance Evaluation
33%
Atmospheric Research
33%
Computation Rate
33%
Implementation Challenge
33%
Software Interface
33%
Spatial Parallelism
33%
Shared Memory Architecture
33%
discontinuous galerkin method
33%
Maintainability
33%
Parallel Computer
33%
Computer Hardware
33%
Shared Memory
33%
Grained Parallelism
22%
Data Locality
22%
Single Processor
16%
Temporal Dimension
16%
Spatial Resolution
16%
Computational Efficiency
16%
Impact Assessment
16%
Mitigation Strategy
16%
Assessment Strategy
16%
Engineering
Discontinuous Galerkin
66%
Model System
66%
Oak Ridge
50%
Step Size α
38%
Climate Change
33%
John Wiley
33%
Temperature Increase
33%
Global Temperature
33%
High Resolution
33%
Earth System
33%
Acceleration Method
33%
Courant Number
33%
Solution Algorithm
33%
Modeling Environment
33%
Maintainability
33%
Performance Improvement
33%
Technical Detail
33%
Internal Data Structure
33%
Japan
33%
Climatic Change
33%
Advection
33%
Solution Method
27%
Spatial Resolution
27%
Computational Efficiency
19%
Test Standard
19%
Temporal Dimension
19%
Spatial Dimension
19%
Scale Structure
19%
Adaptation Measure
16%
Common Perception
16%
Illustrates
16%
Constrains
16%
Explicit Method
16%
Numerical Stability
16%
Lagrangian Method
16%
Production Code
16%
Greenhouse Gas
16%
Adaptation Strategy
11%
Steady-State Model
11%
Explicit Scheme
11%
Mitigation Strategy
11%
Split Semi
11%
Implicit Time
11%
Component Model
11%
Numerical Methods
8%
Parallelism
5%
Fine Resolution
5%
Prototype
5%
Fine Scale
5%
Earth and Planetary Sciences
Atmospherics
100%
State of the Art
66%
Spatial Resolution
50%
Climate Change
44%
Climate Modeling
44%
CMIP
33%
Climate Change Mitigation
33%
Precipitation Intensity
33%
Heat Wave
33%
Sea Level Rise
33%
Japan
33%
Galerkin Method
33%
Numerical Stability
33%
Advection
33%
Earth System Model
33%
Ice Sheet
16%
Shallow-Water Equation
16%
Greenhouse Gas
11%
Sea Level
11%
Emissions
11%
Physical Process
5%