A full GPU implementation of a numerical method for simulating capsule suspensions
スポンサーリンク
概要
- 論文の詳細を見る
Although boundary element (BE) based methods are highly accurate for simulating capsule suspensions in Stokes flows, computational time has been a major issue, even when only a few capsules are simulated. We propose a full graphics processing unit (GPU) implementation of a numerical method coupling the BE method of fluid mechanics with the finite element method of membrane mechanics. In single GPU computing, the performance achieves 0.12 TFlop/s when computing one capsule (2562 nodes and 5120 elements) and 0.29 TFlop/s for two capsules. The performance increases with the number of capsules, achieving a maximum of 0.59 TFlop/s. We also implement a multi-GPU method with the data communication overlapping the computation. A weak scaling test shows perfect scalability for any number of computational nodes per GPU, indicating that the communication time is completely hidden. For a practical use of the present results, we estimate the computational time required for 10000 time steps. When we simulate one capsule and two capsules on one GPU, only 2.0 and 9.1 minutes are required to complete the simulation, respectively, and a simulation with 256 capsules on 16 GPUs takes 3.8 days.
- 一般社団法人 日本機械学会の論文
著者
-
Imai Yohsuke
Department of Bioengineering and Robotics, Graduate School of Engineering, Tohoku University
-
Omori Toshihiro
Department Of Materials Science Graduate School Of Engineering Tohoku University
-
ISHIKAWA Takuji
Department of Bioengineering & Robotics, Graduate School of Engineering, Tohoku University
-
YAMAGUCHI Takami
Department of Bioengineering & Robotics, Graduate School of Engineering, Tohoku University
-
Yamaguchi Takami
Department of Biomedical Engineering, Tohoku University
-
MATSUNAGA Daiki
Department of Bioengineering and Robotics, Tohoku University
関連論文
- Computational Flow Dynamics in Abdominal Aortic Aneurysm Using Multislice Computed Tomography
- Is the Virtual Reality a Gentle Technology for Humans? : An Experimental Study of the Safety Features of a Virtual Reality System (Special Issue on Networked Reality)
- Proposal of a Deformable Erythrocyte Model and Numerical Analysis of Shear Flow of Blood
- Numerical Simulation of Stress Fiber Orientation in Cultured Endothelial Cells under Biaxial Cyclic Deformation Using the Strain Limit Hypothesis(Proceedings of the Switzerland-Japan Workshop on New Directions in Cellular and Tissue Biomechanics)(Special
- Development of a wearable system for monitoring health condition(1E2 Human Dynamics & Stability)
- NUMERICAL SIMULATION OF MALARIA-INFECTED BLOOD FLOW USING A PARTICLE METHOD(3D2 Biorheology & Microcirculation I)
- Phase Equilibria and Microstructure on γ' Phase in Co-Ni-Al-W System
- Superplasticity of Cu-Al-Mn-Ni Shape Memory Alloy
- Effect of Alloying Elements on fcc/hcp Martensitic Transformation and Shape Memory Properties in Co-Al Alloys
- FCC/HCP Martensitic Transformation and High-Temperature Shape Memory Properties in Co-Si Alloys
- Effects of Aging and Co Addition on Martensitic and Magnetic Transitions in Ni-Al-Fe β-based Shape Memory Alloys
- Influence of Co Addition on Martensitic and Magnetic Transitions in Ni-Fe-Ga β Based Shape Memory Alloys
- Damping Properties of Ductile Cu-Al-Mn-Based Shape Memory Alloys
- Martensitic Transformation and Magnetic Properties of Cu-Ga-Mn β Alloys
- Ferromagnetic Co-Ni-Al Shape Memory Alloys with β+γ Two-Phase Structure
- Shape Memory Effect Associated with FCC-HCP Martensitic Transformation in Co-Al Alloys
- Magnetocrystalline Anisotropy in a Single Crystal Fe-Ni-Ga Ferromagnetic Shape Memory Alloy
- Magnetic and Martensitic Phase Transformations in a Ni_Ga_Fe Alloy
- A Rule-Based Computational Study on the Early Progression of Intracranial Aneurysms Using Fluid-Structure Interaction: Comparison between Straight Model and Curved Model
- Simulation Study on Effects of Hematocrit on Blood Flow Properties Using Particle Method
- Effect of non-Newtonian property of blood on flow through a stenosed tube
- Quantitative Measurements on the Human Ascending Aortic Flow Using 2D Cine Phase-Contrast Magnetic Resonance Imaging(Bioengineering)
- P-15 Monitoring physical and mental workloads by a wearable computer
- Mass Transport in Pulsatile Flow through Asymmetric Stenosis
- Vortex enhancement in blood flow through stenosed and locally expanded tubes
- Effect of isokinetic resistance training under a condition of restricted blood flow with pressure
- A Parallel Numerical Method for Bio-Flow Analysis
- MEASUREMENT OF RESPIRATION BY A HYPER DIAPER WITH CONDUCTIVE RUBBER(3C1 Cardiopulmonary & Respiratory Mechanics)
- Activation of Phospholipase A_2 and Acylation of Lysophospholiplds: The Major Regulators for Platelet Activating Factor Production in Rat Neutrophils^1
- CFD STUDY ON MASS TRANSPORT TO SACCULAR ANEURYSMS AT ARTERIAL BEND(1D1 Cardiovascular Mechanics I)
- 2TA4-07 ダイニンの力発生に伴う構造変化(分子モーター,第47回日本生物物理学会年会)
- Effects of Pulsation and Geometry on Post-Stenotic Oscillatory Flow
- Computational Simulation of Flow in the Aortic Arch : Influence of the 3-D Distortion on Flows in the Ordinary Helix Circular Tube
- P-45 Biomedical education systems for engineers : REDEEM and ESTEEM projects
- Growth of Intracranial Aneurysms Arised from Curved Vessels under the Influence of Elevated Wall Shear Stress : A Computer Simulation Study(Bioengineering)
- A Particle Method Computer Simulation of the Blood Flow(Micro- and Nano-biomechanics)
- A Computer Simulation on the Growth of Intracranial Aneurysms Arising From a Straight Artery(Cardiovascular flow Simulation)
- Two-Way Shape Memory Effect Induced by Bending Deformation in Ductile Cu-Al-Mn Alloys
- Phase Equilibria and Phase Transformations in New B2-type Ferromagnetic Shape Memory Alloys of Co-Ni-Ga and Co-Ni-Al Systems
- Modeling of the Human Aortic Arch with Its Major Branches for Computational Fluid Dynamics Simulation of the Blood Flow(Reviewed Papers Accepted for Publication in this Special Issue)(Special Issue on Bioengineering)
- Superelasticity at Low Temperatures in Cu-17Al-15Mn (at%) Shape Memory Alloy
- Formation of Saccular Cerebral Aneurysms May Require Proliferation of the Arterial Wall: Computational Investigation
- Experimental and Thermodynamic Studies of the Fe–Si Binary System
- Parallel Simulation of Cellular Flow in Microvessels Using a Particle Method
- Experimental and Thermodynamic Studies of the Fe-Si Binary System
- Patient-specific Morphological and Blood Flow Analysis of Pulmonary Artery in the Case of Severe Deformations of the Lung due to Pneumothorax
- A full GPU implementation of a numerical method for simulating capsule suspensions