High performance computing platform is moving from homogeneous individual unites to heterogeneous systems where each unit is a combination of homogeneous cores and accelerator devices. Accelerators such as GPUs, FPGAs, DSPs, are usually designed for specific and intensive type of computing tasks. The presence of these devises have created fresh and attractive development platforms for developers and designers as well as novel performance analysis frameworks and optimization tools. This is the cutting edge in performance of some accelerator devices like: GPUs and Intel’s Xeon Phi. We outline some of the existing heterogeneous systems and their development frameworks. The core of this study is a review of performance modeling of these devices
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
Emerging computer architectures and advanced computing technologies, such as Intel’s Many Integrated...
<p>The design of microprocessor technology has hit several "walls" in recent decades. These limits o...
High performance computing platform is moving from homogeneous individual unites to heterogeneous sy...
The high performance computing landscape is shifting from collections of homogeneous nodes towards h...
With the computing industry\u27s recent adoption of the Heterogeneous System Architecture (HSA) stan...
The performance of a platform is evaluated based on its ability to deal with the processing of multi...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Advanced accelerator simulations have played a prominent role in the design and analysis of modern a...
High energy colliders are essential to study the inner struc-ture of nuclear and elementary particle...
The design of heterogeneous system-on-chip platforms is complex with many possible combinations. Det...
Recent trends in computing architecture development have focused on exploiting task- and data-level ...
In order to reach exascale computing capability, accelerators have become a crucial part in developi...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
Emerging computer architectures and advanced computing technologies, such as Intel’s Many Integrated...
<p>The design of microprocessor technology has hit several "walls" in recent decades. These limits o...
High performance computing platform is moving from homogeneous individual unites to heterogeneous sy...
The high performance computing landscape is shifting from collections of homogeneous nodes towards h...
With the computing industry\u27s recent adoption of the Heterogeneous System Architecture (HSA) stan...
The performance of a platform is evaluated based on its ability to deal with the processing of multi...
This contribution presents the performance modeling of a super desktop with GPU and FPGA accelerator...
Advanced accelerator simulations have played a prominent role in the design and analysis of modern a...
High energy colliders are essential to study the inner struc-ture of nuclear and elementary particle...
The design of heterogeneous system-on-chip platforms is complex with many possible combinations. Det...
Recent trends in computing architecture development have focused on exploiting task- and data-level ...
In order to reach exascale computing capability, accelerators have become a crucial part in developi...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
Low-power, high-performance computing nowadays relies on accelerator cards to speed up the calculati...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
Emerging computer architectures and advanced computing technologies, such as Intel’s Many Integrated...
<p>The design of microprocessor technology has hit several "walls" in recent decades. These limits o...