| Title | Date | Views | Brief Description |
|---|
| PYDAC: A DISTRIBUTED RUNTIME SYSTEM AND PROGRAMMING MODEL FOR A HETEROGENEOUS MANY-CORE ARCHITECTURE |
2014 |
241 |
Heterogeneous many-core architectures that consist of big, fast cores and small, energy-efficient cores are very promising for future high-performance computing (HPC) systems. These architectures offer a good balance between single-threaded perfor- m... |
| Best practices for building hardware designs for living computational science applications |
2013 |
1640 |
Scientific computing or Computational science, is a field of study where engineers and scientists use computer simulations to solve equations that model the physical world. In some cases, these equations come from the first principles of physics. I... |
| PRODUCTIVELY SCALING HARDWARE DESIGNS OVER INCREASING RESOURCES USING A SYSTEMATIC DESIGN ANALYSIS APPROACH |
2011 |
1247 |
As processor development shifts from strict single core frequency scaling to het- erogeneous resource scaling two important considerations require evaluation. First, how to design systems with an increasing amount of heterogeneous resources, and seco... |
| Design and validation of a scalable Digital Wireless Channel Emulator using an FPGA computing cluster |
2013 |
2140 |
A Digital Wireless Channel Emulator (DWCE) is a system that is capable of emulating the RF environment for a group of wireless devices. The use of digital wireless channel emulators with networking radios is hampered by the inability to efficiently s... |
| HARDWARE DESIGN OF MESSAGE PASSING ARCHITECTURE ON HETEROGENEOUS SYSTEM |
2013 |
2076 |
Heterogeneous multi/many-core chips are commonly used in today’s top tier supercomputers. Similar heterogeneous processing elements — or, computation ac- celerators — are commonly found in FPGA systems. Within both multi/many-core chips and FPGA sy... |