Abstract. We present preliminary results of an investigation into the suitability of virtualised hardware – in particular clouds – for running computational experiments. Our main concern was that the reported CPU time would not be reliable and reproducible. The results demonstrate that while this is true in cases where many virtual machines are running on the same physical hardware, there is no inherent variation introduced by using virtualised hardware compared to non-virtualised hardware.
Computer science is also an experimental science. This is particularly the case for par-allel comput...
In recent years, there have been a number of papers comparing the performance of different virtualiz...
Comunicação apresentada no 3rd Workshop on Desktop Grids and Volunteer Computing Systems, Rome, 2009...
The simulations used in the field of high energy physics are compute intensive and exhibit a high le...
The simulations used in the field of high energy physics are compute intensive and exhibit a high le...
The simulations used in the field of high energy physics are compute intensive and exhibit a high le...
In this paper, we revisit the approach to empirical experiments for combinatorial solvers. We provid...
The proliferation of highly-configurable FPGA technology has allowed the implementation of dedicated...
The use of virtualization technologies has become widespread with the advent of cloud computing. The...
The last decade revealed the vast economical and societal potential of Cyber-Physical Systems (CPS) ...
Combining high-speed network accesses and powerful computer virtualization, cloud computing provides...
Experimental evaluation is key to systems research. Because mod-ern systems are complex and non-dete...
The virtual computing is often run to satisfy different needs: reduce costs, reduce resources, simpl...
Abstract Hardware errors are no longer the exceptions in modern cloud data centers. Although virtual...
Results of benchmarking tests on gate-based quantum computers and quantum annealers are compared to ...
Computer science is also an experimental science. This is particularly the case for par-allel comput...
In recent years, there have been a number of papers comparing the performance of different virtualiz...
Comunicação apresentada no 3rd Workshop on Desktop Grids and Volunteer Computing Systems, Rome, 2009...
The simulations used in the field of high energy physics are compute intensive and exhibit a high le...
The simulations used in the field of high energy physics are compute intensive and exhibit a high le...
The simulations used in the field of high energy physics are compute intensive and exhibit a high le...
In this paper, we revisit the approach to empirical experiments for combinatorial solvers. We provid...
The proliferation of highly-configurable FPGA technology has allowed the implementation of dedicated...
The use of virtualization technologies has become widespread with the advent of cloud computing. The...
The last decade revealed the vast economical and societal potential of Cyber-Physical Systems (CPS) ...
Combining high-speed network accesses and powerful computer virtualization, cloud computing provides...
Experimental evaluation is key to systems research. Because mod-ern systems are complex and non-dete...
The virtual computing is often run to satisfy different needs: reduce costs, reduce resources, simpl...
Abstract Hardware errors are no longer the exceptions in modern cloud data centers. Although virtual...
Results of benchmarking tests on gate-based quantum computers and quantum annealers are compared to ...
Computer science is also an experimental science. This is particularly the case for par-allel comput...
In recent years, there have been a number of papers comparing the performance of different virtualiz...
Comunicação apresentada no 3rd Workshop on Desktop Grids and Volunteer Computing Systems, Rome, 2009...