Performance of HPC systems has risen steadily. While the 10 Petaflop/s barrier has been breached in the year 2011 the next large step into the exascale era is expected sometime between the years 2018 and 2020. The EXTOLL project will be an integral part in this venture. Originally designed as a research project on FPGA basis it will make the transition to an ASIC to improve its already excelling performance even further. This transition poses many challenges that will be presented in this thesis. Nowadays, it is not enough to look only at single components in a system. EXTOLL is part of complex ecosystem which must be optimized overall since everything is tightly interwoven and disregarding some aspects can cause the whole system either to ...
Modern embedded compute platforms increasingly contain both microprocessors and field-programmable g...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
Abstract—Modern scientific discovery is driven by an in-satiable demand for computing performance. T...
Performance of HPC systems has risen steadily. While the 10 Petaflop/s barrier has been breached in ...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
The ASC Exascale Hardware Architecture working group is challenged to provide input on the following...
The deployment of the next generation computing platform at ExaFlops scale requires to solve new tec...
EuroEXA is a major European FET research initiative that aims to deliver a proof-of-concept of a nex...
Includes bibliographical references (pages 51)In today???s technological advancements in VLSI indust...
© 2016 IEEE. To handle the stringent performance requirements of future exascale-class applications,...
ExaNest is one of three European projects that support a ground-breaking computing architecture for ...
While the HPC community is working towards the development of the first Exaflop computer (expected a...
Using FPGAs to accelerate High Performance Computing (HPC) applications is attractive, but has a hug...
Abstract—While the HPC community is working towards the development of the first Exaflop computer (e...
A variety of factors is making it increasingly difficult and expensive to design and manufacture tra...
Modern embedded compute platforms increasingly contain both microprocessors and field-programmable g...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
Abstract—Modern scientific discovery is driven by an in-satiable demand for computing performance. T...
Performance of HPC systems has risen steadily. While the 10 Petaflop/s barrier has been breached in ...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
The ASC Exascale Hardware Architecture working group is challenged to provide input on the following...
The deployment of the next generation computing platform at ExaFlops scale requires to solve new tec...
EuroEXA is a major European FET research initiative that aims to deliver a proof-of-concept of a nex...
Includes bibliographical references (pages 51)In today???s technological advancements in VLSI indust...
© 2016 IEEE. To handle the stringent performance requirements of future exascale-class applications,...
ExaNest is one of three European projects that support a ground-breaking computing architecture for ...
While the HPC community is working towards the development of the first Exaflop computer (expected a...
Using FPGAs to accelerate High Performance Computing (HPC) applications is attractive, but has a hug...
Abstract—While the HPC community is working towards the development of the first Exaflop computer (e...
A variety of factors is making it increasingly difficult and expensive to design and manufacture tra...
Modern embedded compute platforms increasingly contain both microprocessors and field-programmable g...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
Abstract—Modern scientific discovery is driven by an in-satiable demand for computing performance. T...