... E5-2680 V4 Processor (Broadwell-EP, 14 cores, 2.4 GHz) and four NVIDIA TESLA P100 processors. We measured the performance of our LBM code on TSUBAME 3.0. Table 3. TSUBAME 3.0 specification of a node. Architecture Bandwidth/node (GB/s) ...
... E5-2680 v4 14-core processors Dell PowerEdge R420 server with two 2.1 GHz Intel Xeon E5-2450 eight-core processors Dell PowerEdge R420 server with two 2.1 GHz Intel Xeon E5-2450 eight-core processors Dell PowerEdge R720 server with four ...
... E5-2680 v4 @ 2.40 GHz 8 x Intel Xeon CPU E5-2680 v4 @ 2.40 GHz Memory 8 GB 8 GB Disk space 4 GB 20 GB Section 3.3 presents a description of obtained log file messages and monitoring metrics, which then refer to as features of our ...
... E5-2680 v4 Processor with 8 vCPU and 16 GB of RAM. In contrast, as the search operations are performed by SP which is supposed to have a large computation power, we run search experiments on an Amazon EC2 instance (m5.24xlarge) running ...
... E5-2680 v4 (2x14 cores, 2.4GHz) without hyperthreading, with a vectorization ratio of 91%. Vectorization is not straight forward when we apply the box model to the nuclear spins as in Sect.2.3 because there is no long loop which ...
... E5-2680 v4 sockets, with 14 cores each) partition, we used the Intel RAPL counters with 75W baseline5 to estimate the energy consumption of not only the CPUs but the whole node similar to HDEEM. The following text presents the energy ...