Galerkin-least-squares FEM on a GPU architecture for viscoelastic fluids / Mahmoud Mohamed Mohamed Ahmed Ayyad ; Supervised Maha Amin Hassanein , Amr Gamal Guaily

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Mahmoud Mohamed Mohamed Ahmed Ayyad

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TextLanguage: English Publication details: Cairo : Mahmoud Mohamed Mohamed Ahmed Ayyad , 2017Description: 93 P. : facsimiles ; 30cmOther title:

للسوائل ذات اللزوجة-المرنة GPU طريقة العنصر المحدود جالركن / اقل-التربيعات باستخدام وحدة معالجة الرسومات [Added title page title]

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Dissertation note: Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Mathematics and Physics Summary: The Galerkin-least-squares finite element method (FEM) is used to simulate the flow of blood, modeled as viscoelastic fluid, in abdominal aorta with two aneurysms. Discrete elastic-viscous stress-splitting (DEVSS) is used to overcome the instability that arises from considering the blood as a viscoelastic fluid. The solution is accelerated by implementing the FEM on graphics processing unit (GPU). The problem is implemented on CPU and GPU architectures. Experimental results find that the proposed algorithm on the GPU architecture shows a significant speed-up over the CPU architecture implementations

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Item type	Current library	Home library	Call number	Copy number	Status	Barcode
Thesis	قاعة الرسائل الجامعية - الدور الاول	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.13.10.M.Sc.2017.Ma.G (Browse shelf(Opens below))		Not for loan	01010110073820000
CD - Rom	مخـــزن الرســائل الجـــامعية - البدروم	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.13.10.M.Sc.2017.Ma.G (Browse shelf(Opens below))	73820.CD	Not for loan	01020110073820000

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Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Mathematics and Physics

The Galerkin-least-squares finite element method (FEM) is used to simulate the flow of blood, modeled as viscoelastic fluid, in abdominal aorta with two aneurysms. Discrete elastic-viscous stress-splitting (DEVSS) is used to overcome the instability that arises from considering the blood as a viscoelastic fluid. The solution is accelerated by implementing the FEM on graphics processing unit (GPU). The problem is implemented on CPU and GPU architectures. Experimental results find that the proposed algorithm on the GPU architecture shows a significant speed-up over the CPU architecture implementations

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