Conventionally, to speed up scientific or engineering (S&E) computation programs on general-purpose computers, one may elect to use faster CPUs, more memory, systems with more efficient (though complicated) architecture, better software compilers, or even coding with assembly languages. With the emergence of Field Programmable Gate Array (FPGA) based Reconfigurable Computing (RC) technology, numerical scientists and engineers now have another option using FPGA devices as core components to address their computational problems. The hardware-programmable, low-cost, but powerful “FPGA-enhanced computer” has now become an attractive approach for many S&E applications. A new computer architecture model for FPGA-enhanced computer systems and its ...
Numerical simulation with partial differential equations is an important discipline in high performa...
Nowadays, we can easily carry out heavy numerical simulation by using cheep and pow-erful computers....
Many computationally intensive scientific applications involve repetitive floating point operations ...
This research undergone is an inter-disciplinary project with the Civil Engineering Department, whic...
Differential equations play a significant role in many disciplines of science and engineering. Solvi...
Field Programmable Gate Arrays (FPGAs) have become highly attractive as accelerators due to their lo...
With the continued development of computation and communication technologies, we are overwhelmed wit...
dissertationPartial differential equations (PDEs) are widely used in science and engineering to mode...
Processor technology is dramatically advancing and promises enormous improvements in processing data...
The long computation times required to simulate complete aircraft con¯gurations re- main as the main...
An implementation of seismic wave simulation on a platform consisting of a conventional host process...
This book is concerned with the emerging field of High Performance Reconfigurable Computing (HPRC), ...
In image processing operations, each pixel is often treated independently and operated upon by using...
GPGPUs have firmly earned their reputation in HPC (High Performance Computing) as hardware for massi...
Application-driven processor designs are becoming increasingly feasible. Today, advances in field-pr...
Numerical simulation with partial differential equations is an important discipline in high performa...
Nowadays, we can easily carry out heavy numerical simulation by using cheep and pow-erful computers....
Many computationally intensive scientific applications involve repetitive floating point operations ...
This research undergone is an inter-disciplinary project with the Civil Engineering Department, whic...
Differential equations play a significant role in many disciplines of science and engineering. Solvi...
Field Programmable Gate Arrays (FPGAs) have become highly attractive as accelerators due to their lo...
With the continued development of computation and communication technologies, we are overwhelmed wit...
dissertationPartial differential equations (PDEs) are widely used in science and engineering to mode...
Processor technology is dramatically advancing and promises enormous improvements in processing data...
The long computation times required to simulate complete aircraft con¯gurations re- main as the main...
An implementation of seismic wave simulation on a platform consisting of a conventional host process...
This book is concerned with the emerging field of High Performance Reconfigurable Computing (HPRC), ...
In image processing operations, each pixel is often treated independently and operated upon by using...
GPGPUs have firmly earned their reputation in HPC (High Performance Computing) as hardware for massi...
Application-driven processor designs are becoming increasingly feasible. Today, advances in field-pr...
Numerical simulation with partial differential equations is an important discipline in high performa...
Nowadays, we can easily carry out heavy numerical simulation by using cheep and pow-erful computers....
Many computationally intensive scientific applications involve repetitive floating point operations ...