GPUs critically rely on a complex system software stack comprising kernel- and user-space drivers and JIT compilers. Yet, existing GPU simulators typically abstract away details of the software stack and GPU instruction set. Partly, this is because GPU vendors rarely release sufficient information about their latest GPU products. However, this is also due to the lack of an integrated CPU-GPU simulation framework, which is complete and powerful enough to drive the complex GPU software environment. This has led to a situation where research on GPU architectures and compilers is largely based on outdated or greatly simplified architectures and software stacks, undermining the validity of the generated results. Making the situation even more di...
We introduce M2S-CGM a detailed architectural simulator that models the interactions between CPUs an...
The acceleration of P system simulations is required increasingly, since they are at the core of mo...
[Abstract] This work deals with the new programming paradigm that exploits the benefits of modern G...
Graphics Processing Units (GPUs) critically rely on a complex system software stack comprising kerne...
Graphics processing units (GPU), due to their massive computational power with up to thousands of co...
This Master's thesis project aims to explore the possibility of a mixed simulation environment in wh...
Architecture simulation is an important performance modeling approach. Modeling hardware components ...
Abstract—Graphics processing units (GPU), due to their massive computational power with up to thousa...
With increasing complexity and performance demands of emerging compute-intensive data-parallel workl...
The objective of this project is to redesign the shader cores in TEAPOT, a cycle-accurate simulator ...
Emerging massively parallel architectures such as a general-purpose processor plus many-core program...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
In this paper we present TEAPOT, a full system GPU simulator, whose goal is to allow the evaluation ...
Abstract—Emerging massively parallel architectures such as a general-purpose processor plus many-cor...
—Emerging massively parallel architectures such as a general-purpose processor plus many-core progra...
We introduce M2S-CGM a detailed architectural simulator that models the interactions between CPUs an...
The acceleration of P system simulations is required increasingly, since they are at the core of mo...
[Abstract] This work deals with the new programming paradigm that exploits the benefits of modern G...
Graphics Processing Units (GPUs) critically rely on a complex system software stack comprising kerne...
Graphics processing units (GPU), due to their massive computational power with up to thousands of co...
This Master's thesis project aims to explore the possibility of a mixed simulation environment in wh...
Architecture simulation is an important performance modeling approach. Modeling hardware components ...
Abstract—Graphics processing units (GPU), due to their massive computational power with up to thousa...
With increasing complexity and performance demands of emerging compute-intensive data-parallel workl...
The objective of this project is to redesign the shader cores in TEAPOT, a cycle-accurate simulator ...
Emerging massively parallel architectures such as a general-purpose processor plus many-core program...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
In this paper we present TEAPOT, a full system GPU simulator, whose goal is to allow the evaluation ...
Abstract—Emerging massively parallel architectures such as a general-purpose processor plus many-cor...
—Emerging massively parallel architectures such as a general-purpose processor plus many-core progra...
We introduce M2S-CGM a detailed architectural simulator that models the interactions between CPUs an...
The acceleration of P system simulations is required increasingly, since they are at the core of mo...
[Abstract] This work deals with the new programming paradigm that exploits the benefits of modern G...