Graphics processing is an application area with high level of parallelism at the data level and at the task level. Therefore, graphics processing units (GPU) are often implemented as multiprocessing systems with high performance floating point processing and application specific hardware stages for maximizing the graphics throughput. In this paper we evaluate the suitability of Transport Triggered Architectures (TTA) as a basis for implementing GPUs. TTA improves scalability over the traditional VLIW-style architectures making it interesting for computationally intensive applications. We show that TTA provides high floating point processing performance while allowing more programming freedom than vector processors. Finally, one of the main ...
This diploma shows how to solve a compute-intensive problem using a graphics processing unit. Curre...
GPUs have emerged as a powerful tool for accelerating general-purpose applications. The availability...
We present an efficient model to analyze and improve the performance of general-purpose computation ...
In this paper we propose the usage of Transport Triggered Architectures (TTAs) as a template for the...
Thanks to the nature of the graphics processing, the newly released products offer highly parallel p...
Recent years have witnessed tremendous growth for programmable graphics hardware (GPU), both in term...
The evolution of GPUs (graphics processing units) has been enormous in the past few years. Their cal...
General purpose graphics processing units (GPGPUs) have recently been explored as a new computing pa...
With discovering capabilities of Graphic Processors to solve complicated mathematical problems and p...
As superscalar processors are becoming more and more complex due to dynamic scheduling of instructio...
Graphic processors are becoming faster and faster. Computational power within graphic processing uni...
GPGPU stands for General-Purpose computation on GPUs. With the in-creasing programmability of commod...
Many applications with regular parallelism have been shown to benefit from using Graphics Processing...
Nowadays, processors alone cannot deliver what computation hungry image processing applications dema...
In this presentation we will describe transport triggered architecture (TTA) related sequential proc...
This diploma shows how to solve a compute-intensive problem using a graphics processing unit. Curre...
GPUs have emerged as a powerful tool for accelerating general-purpose applications. The availability...
We present an efficient model to analyze and improve the performance of general-purpose computation ...
In this paper we propose the usage of Transport Triggered Architectures (TTAs) as a template for the...
Thanks to the nature of the graphics processing, the newly released products offer highly parallel p...
Recent years have witnessed tremendous growth for programmable graphics hardware (GPU), both in term...
The evolution of GPUs (graphics processing units) has been enormous in the past few years. Their cal...
General purpose graphics processing units (GPGPUs) have recently been explored as a new computing pa...
With discovering capabilities of Graphic Processors to solve complicated mathematical problems and p...
As superscalar processors are becoming more and more complex due to dynamic scheduling of instructio...
Graphic processors are becoming faster and faster. Computational power within graphic processing uni...
GPGPU stands for General-Purpose computation on GPUs. With the in-creasing programmability of commod...
Many applications with regular parallelism have been shown to benefit from using Graphics Processing...
Nowadays, processors alone cannot deliver what computation hungry image processing applications dema...
In this presentation we will describe transport triggered architecture (TTA) related sequential proc...
This diploma shows how to solve a compute-intensive problem using a graphics processing unit. Curre...
GPUs have emerged as a powerful tool for accelerating general-purpose applications. The availability...
We present an efficient model to analyze and improve the performance of general-purpose computation ...