Add to ORKGPerformance results are presented for the design and implementation of parallel pipelined space-time adaptive processing (STAP) algorithms on parallel computers. In particular, the issues involved in parallelization, our approach to parallelization, and performance results on an Intel Paragon are described. The process of developing software for such an application on parallel computers when latency and throughput are both considered together is discussed and tradeoffs considered with respect to inter and intratask communication and data redistribution are presented. The results show that not only scalable performance was achieved for individual component tasks of STAP but linear speedups were obtained for the integrated task performance, b...
The move to more parallel computing architectures places more responsibility on the programmer to ac...
It is well known that synchronization and communication delays are the major sources of performance ...
As technology reaches its limits of improvements in microprocessor processing speeds, scientists and...
This dissertation presents a parallel pipelined computational model for radar signal processing appl...
AbstractÐSpace-time adaptive processing (STAP) refers to a class of methods for detecting targets us...
Network based parallel computing using personal computers is currently a popular choice for concurre...
Space–time adaptive processing (STAP) is a well-known technique in the area of air borne surveillanc...
Space-time adaptive processing (STAP) refers to a class of methods for detecting targets using an ar...
■ This article examines the suitability of the Mesh synchronous processor (MeshSP) architecture for ...
Presently, massively parallel processors (MPPs) are available only in a few commercial models. A seq...
The various approaches to improving the speeds of computers by exploiting parallelism is briefly de...
We assess the state-of-the-art technology in massively parallel processors (MPPs) and their variatio...
This dissertation presents the culmination of research performed over six years into developing a pa...
Languages and tools currently available for the development of parallel applications are difficult t...
Space-Time Adaptive Processing (STAP) enables very high performance radar processing but comes at a ...
The move to more parallel computing architectures places more responsibility on the programmer to ac...
It is well known that synchronization and communication delays are the major sources of performance ...
As technology reaches its limits of improvements in microprocessor processing speeds, scientists and...
This dissertation presents a parallel pipelined computational model for radar signal processing appl...
AbstractÐSpace-time adaptive processing (STAP) refers to a class of methods for detecting targets us...
Network based parallel computing using personal computers is currently a popular choice for concurre...
Space–time adaptive processing (STAP) is a well-known technique in the area of air borne surveillanc...
Space-time adaptive processing (STAP) refers to a class of methods for detecting targets using an ar...
■ This article examines the suitability of the Mesh synchronous processor (MeshSP) architecture for ...
Presently, massively parallel processors (MPPs) are available only in a few commercial models. A seq...
The various approaches to improving the speeds of computers by exploiting parallelism is briefly de...
We assess the state-of-the-art technology in massively parallel processors (MPPs) and their variatio...
This dissertation presents the culmination of research performed over six years into developing a pa...
Languages and tools currently available for the development of parallel applications are difficult t...
Space-Time Adaptive Processing (STAP) enables very high performance radar processing but comes at a ...
The move to more parallel computing architectures places more responsibility on the programmer to ac...
It is well known that synchronization and communication delays are the major sources of performance ...
As technology reaches its limits of improvements in microprocessor processing speeds, scientists and...