Scientists continually require additional processing power, as this enables them to compute larger problem sizes, use more complex models and algorithms, and solve problems previously thought computationally impractical. General-purpose computation on graphics processing units (GPGPU) can help in this regard, as there is great potential in using graphics processors to accelerate many scientific models and algorithms. However, some problems are considerably harder to accelerate than others, and it may be challenging for those new to GPGPU to ascertain the difficulty of accelerating a particular problem or seek appropriate optimisation guidance. Through what was learned in the acceleration of a hydrological uncertainty ensemble model, large n...
The Computational Fluid Dynamics code OVERFLOW includes as one of its solver options an algorithm wh...
To optimize the exploitation of oil and gas reservoirs both on- and offshore, Biodentfiy has develop...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
Scientists continually require additional processing power, as this enables them to compute larger p...
As the processing power available in computers grows, so do the applications for using that power fo...
Graphical processing units (GPUs) have recently attracted attention for scientific applications such...
The graphics processing unit (GPU) has become an integral part oftoday's mainstream computing system...
In recent years, GPGPUs have experienced tremendous growth as general-purpose and high-throughput co...
This thesis explores the possibility of utilizing Graphics Processing Units (GPUs) to address the co...
GPGPUs offer significant computational power for programmers to leverage. This computational power i...
Graphic processors are becoming faster and faster. Computational power within graphic processing uni...
The use of graphical processing units (GPUs) for general purpose calculations has gained a lot of at...
The computational speed on microprocessors is increasing faster than the communication speed, especi...
Faster and more efficient hardware is needed to handle the rapid growth of Big Data processing. Appl...
Data analysis is a rising field of interest for computer science research due to the growing amount ...
The Computational Fluid Dynamics code OVERFLOW includes as one of its solver options an algorithm wh...
To optimize the exploitation of oil and gas reservoirs both on- and offshore, Biodentfiy has develop...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...
Scientists continually require additional processing power, as this enables them to compute larger p...
As the processing power available in computers grows, so do the applications for using that power fo...
Graphical processing units (GPUs) have recently attracted attention for scientific applications such...
The graphics processing unit (GPU) has become an integral part oftoday's mainstream computing system...
In recent years, GPGPUs have experienced tremendous growth as general-purpose and high-throughput co...
This thesis explores the possibility of utilizing Graphics Processing Units (GPUs) to address the co...
GPGPUs offer significant computational power for programmers to leverage. This computational power i...
Graphic processors are becoming faster and faster. Computational power within graphic processing uni...
The use of graphical processing units (GPUs) for general purpose calculations has gained a lot of at...
The computational speed on microprocessors is increasing faster than the communication speed, especi...
Faster and more efficient hardware is needed to handle the rapid growth of Big Data processing. Appl...
Data analysis is a rising field of interest for computer science research due to the growing amount ...
The Computational Fluid Dynamics code OVERFLOW includes as one of its solver options an algorithm wh...
To optimize the exploitation of oil and gas reservoirs both on- and offshore, Biodentfiy has develop...
Design optimization relies heavily on time-consuming simulations, especially when using gradient-fre...