AbstractIn this paper we take a look at what the new Intel instruction extensions - Intel Advance Vector Extensions (AVX) brings to high performance computing. We compare two configurations of Intel CPU based systems (one enabled with AVX and a second without AVX enabled) and present a performance evolution of these two platforms. We compare the same generation of CPU utilizing a single socket platform across a number of HPC benchmarks and macrocodes focused on different performance criteria, compare the results and discuss the implications for HPC
Three different INTEL based HPC systems are used to benchmark an application of the LifeV library fo...
Three different INTEL based HPC systems are used to benchmark an application of the LifeV library fo...
peer reviewedDue to growth of energy consumption by HPC servers and data centers many research effor...
AbstractIn this paper we take a look at what the new Intel instruction extensions - Intel Advance Ve...
In this paper we discuss new Intel instruction extensions - Intel Advance Vector Extensions 2 (AVX2)...
AbstractIn this paper we will present a detailed study on tuning double-precision matrix-matrix mult...
In this paper we report on a set of benchmark results recently obtained by CERN openlab when compari...
We present a performance evaluation conducted on a production supercomputer of the Intel Xeon Proces...
Marvell’s ThunderX2 has been the first Arm-based processor with deployments in large-scale HPC produ...
High performance computing (HPC) has often benefited from special-purpose hardware. This paper exami...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code namedNehalem-EX, bri...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
High performance computing is a topic that has risen to the top in the era ofdigitalization, AI and ...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
Three different INTEL based HPC systems are used to benchmark an application of the LifeV library fo...
Three different INTEL based HPC systems are used to benchmark an application of the LifeV library fo...
peer reviewedDue to growth of energy consumption by HPC servers and data centers many research effor...
AbstractIn this paper we take a look at what the new Intel instruction extensions - Intel Advance Ve...
In this paper we discuss new Intel instruction extensions - Intel Advance Vector Extensions 2 (AVX2)...
AbstractIn this paper we will present a detailed study on tuning double-precision matrix-matrix mult...
In this paper we report on a set of benchmark results recently obtained by CERN openlab when compari...
We present a performance evaluation conducted on a production supercomputer of the Intel Xeon Proces...
Marvell’s ThunderX2 has been the first Arm-based processor with deployments in large-scale HPC produ...
High performance computing (HPC) has often benefited from special-purpose hardware. This paper exami...
In this paper we take a look at what the Intel Xeon Processor 7500 family, code namedNehalem-EX, bri...
One of the emerging architectures in HPC systems is Intel’s Knights Landing (KNL) many core chip, wh...
High performance computing is a topic that has risen to the top in the era ofdigitalization, AI and ...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
In recent years the designs of High Performance Computing (HPC) clusters have become more complex. T...
Three different INTEL based HPC systems are used to benchmark an application of the LifeV library fo...
Three different INTEL based HPC systems are used to benchmark an application of the LifeV library fo...
peer reviewedDue to growth of energy consumption by HPC servers and data centers many research effor...