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Full-Text Articles in Engineering
Linear Electromagnetic Energy Scavenging Device Designed In Low Temperature Co-Fired Ceramics, Hope A. Bateman
Linear Electromagnetic Energy Scavenging Device Designed In Low Temperature Co-Fired Ceramics, Hope A. Bateman
Boise State University Theses and Dissertations
For a soldier deployed in a remote location on the earth or a recreational hiker in the wilderness or a wild land firefighter battling a destructive wildfire, access to a power source is problematic. Local and regional communication systems, navigation, lights, imaging: all of these require a power source. For short time periods, batteries may be sufficient but with extended time periods the weight of the batteries and cost of replacement becomes a problem. Energy scavenging devices could fill this need and be used as a secondary power source when solar or batteries are not available.
A linear electromagnetic generator …
Variability Of Strain And Strain Rate In The Human Tibial Diaphysis During Walking, Tyler Franklin Rooks
Variability Of Strain And Strain Rate In The Human Tibial Diaphysis During Walking, Tyler Franklin Rooks
Boise State University Theses and Dissertations
With the prevalence of stress fractures in the military and athletes of all levels, research into the pathology of this injury has taken flight in recent years. One area of research has focused on the role bone strain, which is known to be a factor in bone remodeling, has on stress fracture development. It has been difficult to perform studies in this area of research due to the invasiveness of in vivo measurements of the bone strain. Recently, a methodology for approximating the bone strain using a computational model was proposed by Al Nazer et al. (Al Nazer et al., …
Lower Extremity Biomechanics During Weightlifting Exercise Vary Across Joint And Load, Kristof Kipp, Chad Harris, Michelle B. Sabick
Lower Extremity Biomechanics During Weightlifting Exercise Vary Across Joint And Load, Kristof Kipp, Chad Harris, Michelle B. Sabick
Mechanical and Biomedical Engineering Faculty Publications and Presentations
The purpose of this study was to determine the effect of load on lower extremity biomechanics during the pull-phase of the clean. Kinematic and kinetic data of the three joints of the lower extremity were collected while participants performed multiple sets of cleans at three percentages: 65, 75, and 85% of 1-Reptition maximum (RM). General linear models with repeated measures were used to assess the influence of load on angular velocities, net torques, powers, and rates of torque development at the ankle, knee, and hip joint. The results suggest that the biomechanical demands required from the lower extremities change with …
Scalability Of Incompressible Flow Computations On Multi-Gpu Clusters Using Dual-Level And Tri-Level Parallelism, Dana A. Jacobsen, Inanc Senocak
Scalability Of Incompressible Flow Computations On Multi-Gpu Clusters Using Dual-Level And Tri-Level Parallelism, Dana A. Jacobsen, Inanc Senocak
Mechanical and Biomedical Engineering Faculty Publications and Presentations
High performance computing using graphics processing units (GPUs) is gaining popularity in the scientific computing field, with many large compute clusters being augmented with multiple GPUs in each node. We investigate hybrid tri-level (MPI-OpenMP-CUDA) parallel implementations to explore the efficiency and scalability of incompressible flow computations on GPU clusters up to 128 GPUS. This work details some of the unique issues faced when merging fine-grain parallelism on the GPU using CUDA with coarse-grain parallelism using OpenMP for intra-node and MPI for inter-node communication. Comparisons between the tri-level MPI-OpenMP-CUDA and dual-level MPI-CUDA implementations are shown using computationally large computational fluid dynamics …
A Full-Depth Amalgamated Parallel 3d Geometric Multigrid Solver For Gpu Clusters, Dana A. Jacobsen, Inanc Senocak
A Full-Depth Amalgamated Parallel 3d Geometric Multigrid Solver For Gpu Clusters, Dana A. Jacobsen, Inanc Senocak
Mechanical and Biomedical Engineering Faculty Publications and Presentations
Numerical computations of incompressible flow equations with pressure-based algorithms necessitate the solution of an elliptic Poisson equation, for which multigrid methods are known to be very efficient. In our previous work we presented a dual-level (MPI-CUDA) parallel implementation of the Navier-Stokes equations to simulate buoyancy-driven incompressible fluid flows on GPU clusters with simple iterative methods while focusing on the scalability of the overall solver. In the present study we describe the implementation and performance of a multigrid method to solve the pressure Poisson equation within our MPI-CUDA parallel incompressible flow solver. Various design decisions and algorithmic choices for multigrid methods …