Skip to main navigation
Skip to search
Skip to main content
Istanbul Technical University Home
English
Türkçe
Home
Profiles
Research units
Projects
Research output
Prizes
Student theses
Press/Media
Search by expertise, name or affiliation
A GPU application for high-order compact finite difference scheme
Bulent Tutkun
*
,
Firat Oguz Edis
*
Corresponding author for this work
Department of Astronautical Engineering
Istanbul Technical University
Research output
:
Contribution to journal
›
Article
›
peer-review
27
Citations (Scopus)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'A GPU application for high-order compact finite difference scheme'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Graphics Processing Unit
100%
High-order Compact Difference Scheme
100%
High-order
20%
Numerical Methods
20%
Tesla
20%
Time Integration
20%
Fluid Flow Problems
20%
Solution Scheme
20%
Advection
20%
Linear Systems
20%
Fourth-order Runge-Kutta Method
20%
Calculation Time
20%
Filtering Scheme
20%
Low-pass Filter
20%
Mesh Size
20%
Coefficient Matrix
20%
Compute Unified Device Architecture
20%
Scientific Computing
20%
NVIDIA
20%
Compact Solutions
20%
Memory Feature
20%
Tridiagonal System
20%
LAPACK
20%
CuBLAS
20%
Compact Scheme
20%
Shared Memory
20%
Temporal Mixing Layer
20%
Layer Two
20%
Mathematics
Finite Difference Method
100%
Time Integration
50%
Fourth-Order
50%
Linear System
50%
Runge-Kutta Method
50%
Low-Pass Filter
50%
GPU Computing
50%
Coefficient Matrix
50%
Mathematical Method
50%
Computer Science
Processing Unit
100%
Difference Scheme
100%
Linear Systems
20%
Shared Memories
20%
Tridiagonal System
20%
Calculation Time
20%
compute unified device architecture
20%
Coefficient Matrix
20%
Time Integration
20%
Graphics Processing Unit
20%
Mathematical Method
20%
Natural Sciences Computing
20%
Engineering
Processing Unit
100%
Lowpass Filter
20%
Filtration
20%
Fluid Flow Problem
20%
Fourth Order
20%
Kutta Method
20%
Mixing Layer
20%
Mesh Size
20%
Tesla Roadster
20%
Graphics Processing Unit
20%
Coefficient Matrix
20%
Natural Sciences Computing
20%
Advection
20%
Material Science
Finite Difference Method
100%
Fluid Flow
50%