Keywords: محاسبات ترکیبی; Active noise control; System identification; Backtracking search algorithm; Sequential quadratic programming; Hybrid computing;
مقالات ISI محاسبات ترکیبی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: محاسبات ترکیبی; Evolutionary computing; Hybrid computing; Multiple objective programming; Algorithm diversity; Shuffled frog leaping algorithm; Extremal optimization;
Keywords: محاسبات ترکیبی; Singularly perturbed systems; Boundary value problems; Artificial neural networks; Hybrid computing; Genetic algorithms; Sequential quadratic programming;
Keywords: محاسبات ترکیبی; Heartbeat dynamics; Artificial Neural Networks; Nonlinear systems; Genetic algorithms; Interior point methods; Hybrid computing;
Keywords: محاسبات ترکیبی; Hybrid computing; Heterogeneous computing; Hardware acceleration; Power-efficient linear system solving; GPU; Field programmable gate arrays;
Keywords: محاسبات ترکیبی; Spectral element methods; Power and energy evaluation; Performance benchmarking; Exascale; Hybrid computing;
Keywords: محاسبات ترکیبی; Computational fluid dynamics; GPU-accelerated multicore system; Performance modeling; Hybrid computing; Data partitioning
Intelligent computing for Mathieu's systems for parameter excitation, vertically driven pendulum and dusty plasma models
Keywords: محاسبات ترکیبی; Artificial neural networks; Genetic algorithm; Interior-point algorithm; Parameter excitation; Dusty plasma; Oscillatory systems; Hybrid computing;
Neuro-heuristics for nonlinear singular Thomas-Fermi systems
Keywords: محاسبات ترکیبی; Singular systems; Bioinspired computing; Artificial neural network; Hybrid computing; Thomas-Fermi model;
Fast Genome-Wide Third-order SNP Interaction Tests with Information Gain on a Low-cost Heterogeneous Parallel FPGA-GPU Computing Architecture
Keywords: محاسبات ترکیبی; GWIS; epistasis; three-way SNP interactions; information gain; mutual information; entropy; information theory; hybrid computing; heterogeneous architectures; FPGA; GPU;
Bio-inspired computational heuristics to study the boundary layer flow of the Falkner-Scan system with mass transfer and wall stretching
Keywords: محاسبات ترکیبی; Falkner-Skan system; Artificial neural networks; Genetic algorithms; Active-set method; Bio-inspired computing; Hybrid computing;
Parallel computation of Entropic Lattice Boltzmann method on hybrid CPU–GPU accelerated system
Keywords: محاسبات ترکیبی; Parallel computation; Computational fluid dynamics; Entropic Lattice Boltzmann Method (ELBM); Hybrid computing; CUDA; OpenMP; GPU
An efficient parallel algorithm: Poststack and prestack Kirchhoff 3D depth migration using flexi-depth iterations
Keywords: محاسبات ترکیبی; Kirchhoff depth migration; Traveltime computation; Multicore systems; Hybrid computing; Optimization techniques; SEG/EAGE 3D Overthrust model
A coarse-grained parallel approach for seismic damage simulations of urban areas based on refined models and GPU/CPU cooperative computing
Keywords: محاسبات ترکیبی; Urban regional seismic damage simulation; Graphics processing unit; Refined model; Parallel computing; Multi-story concentrated-mass shear model; Hybrid computing
Hybrid computing: CPU+GPU co-processing and its application to tomographic reconstruction
Keywords: محاسبات ترکیبی; CPU; GPU; Hybrid computing; CPU-GPU co-processing; High performance computing; Electron tomography; Tomographic reconstruction;
A new era in scientific computing: Domain decomposition methods in hybrid CPU–GPU architectures
Keywords: محاسبات ترکیبی; Hybrid computing; Multi-core processing; Many-core processing; Graphics processing units; Domain decomposition methods; FETI method
Towards dense linear algebra for hybrid GPU accelerated manycore systems
Keywords: محاسبات ترکیبی; Hybrid computing; Dense linear algebra; Parallel algorithms; Multicore processors; Graphics processing units
Accelerating the reduction to upper Hessenberg, tridiagonal, and bidiagonal forms through hybrid GPU-based computing
Keywords: محاسبات ترکیبی; Hessenberg reduction; Tridiagonalization; Bidiagonalization; Two-sided factorizations; Dense linear algebra; Hybrid computing; GPUs