Keywords: اکتشاف فضای طراحی; Suborbital vehicles; Conceptual design; Design space exploration; Multi-disciplinary framework;
مقالات ISI اکتشاف فضای طراحی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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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: اکتشاف فضای طراحی; Benchmarking; Cloud applications; QoS; Model driven design; Performance prediction; Design space exploration;
Keywords: اکتشاف فضای طراحی; Ontology; Decision-based design; Design space exploration; Process template; Reuse;
Keywords: اکتشاف فضای طراحی; Microstrip patch antennas; FDTD; Design space exploration; Simulated annealing; Multithreaded parallelization;
The Potential of Decision Support Systems for More Sustainable and Intelligent Constructions: A Short Overview
Keywords: اکتشاف فضای طراحی; performance-based design; construction industry; decision support tool; optimization; sensitivity analysis; design space exploration;
Keywords: اکتشاف فضای طراحی; Synchronous program; SystemJ; Guaranteed reaction time; Design space exploration; Evolutionary algorithm; Scheduling; Multi-core architecture;
Keywords: اکتشاف فضای طراحی; Isogeometric analysis; Design space exploration; Parametric partial differential equations; Sparse quadrature; Structural mechanics;
Keywords: اکتشاف فضای طراحی; Design space exploration; Architecture decision viewpoints; Technical action research;
Keywords: اکتشاف فضای طراحی; Scheduling; Mapping; Resource management; Design space exploration; Machine learning;
Keywords: اکتشاف فضای طراحی; Design space exploration; Data streaming; Embedded systems; Performance; Energy
Keywords: اکتشاف فضای طراحی; Conceptual design; Structural design; Structural optimization; Design space exploration; Evolutionary algorithms
Keywords: اکتشاف فضای طراحی; Design space exploration; High-level method; MPSoC platform; Adaptive embedded systems
Keywords: اکتشاف فضای طراحی; Multi cycle; Fault tolerant; Design space exploration; Power; Execution time; Bacterial foraging
Keywords: اکتشاف فضای طراحی; Soft error; Design space exploration; Many-core processors; Non-uniform cache access; Temporal vulnerability factor
Keywords: اکتشاف فضای طراحی; Gearbox architecture; Design Space Exploration; Configuration design; Variant design; Computational design synthesis; Embodiment design
Keywords: اکتشاف فضای طراحی; Extensible processor; Design space exploration; Hardware/software codesign; Application specific instruction set processors; Microarchitecture
Keywords: اکتشاف فضای طراحی; Fault-tolerance; Heterogeneous MPSoCs; Design space exploration; Task mapping; Mixed integer quadratic programming;
Keywords: اکتشاف فضای طراحی; Design space exploration; Stigmergic systems; Human–computer interaction; Collective knowledge
Keywords: اکتشاف فضای طراحی; High-Level Synthesis; Design Space Exploration; FPGA; Hardware accelerators; Resource constraints
Keywords: اکتشاف فضای طراحی; Metamodelling; Surrogate models; Response Surface Method; Building energy performance simulation; Design Space Exploration;
Estimating dynamic power consumption for memristor-based CiM architecture
Keywords: اکتشاف فضای طراحی; Computing-in-Memory architecture; Power estimation; Memristor; Design space exploration; Boolean functions; Circuit synthesis;
Design space exploration of multi-core RTL via high level synthesis from OpenCL models
Keywords: اکتشاف فضای طراحی; Design space exploration; Data center; FPGA; GPU; OpenCL; High-level synthesis; Low-power low-energy computations; Parallel computing;
Tuning synthesis flags to optimize implementation goals: Performance and robustness of the LEON3 processor as a case study
Keywords: اکتشاف فضای طراحی; Synthesis options; Implementation goals optimization; Design space exploration; Multiple regression analysis; Multiple-criteria decision making;
Fast and efficient power estimation model for FPGA based designs
Keywords: اکتشاف فضای طراحی; Design space exploration; High-level synthesis; Power estimation; Field programmable gate array (FPGA); Low level virtual machine intermediate representation (LLVM IR); Artificial neural network (ANN);
CaFPGA: An automatic generation model for CNN accelerator
Keywords: اکتشاف فضای طراحی; Convolution neural networks; FPGA; Automatic generation model; Layer-folding pipeline structure; Design space exploration;
Exploring the relationship between architectures and management policies in the design of NUCA-based chip multicore systems
Keywords: اکتشاف فضای طراحی; Multicore architecture; Sub-banked last level cache structure; Layout; Design space exploration; Data replication; Profile-based memory layout optimizations;
Optimization of a novel programmable data-flow crypto processor using NSGA-II algorithm
Keywords: اکتشاف فضای طراحی; Programmable crypto processor; Data-flow crypto processor; NSGA-II Genetic Algorithm; Multi-objective optimization; FPGA implementation; Design space exploration;
Multi-level energy/power-aware design methodology for MPSoC
Keywords: اکتشاف فضای طراحی; Power modeling; MPSoC; DVFS; Design space exploration; Transactional level; Functional level;
Prenaut: Design space exploration for embedded symmetric multiprocessing with various on-chip architectures
Keywords: اکتشاف فضای طراحی; Design space exploration; Symmetric multiprocessing; Machine learning; Clustering;
Real-Time neural signal decoding on heterogeneous MPSocs based on VLIW ASIPs
Keywords: اکتشاف فضای طراحی; Neural signal decoding; MPSoCS; ASIPs; Design space exploration; Low power;
LP-HLS: Automatic power-intent generation for high-level synthesis based hardware implementation flow
Keywords: اکتشاف فضای طراحی; High-level synthesis; RTL; Design space exploration; Common power format; Low power designs; Design automation; EDA methodologies;
Performance evaluation metrics for ring-oscillator-based temperature sensors on FPGAs: A quality factor
Keywords: اکتشاف فضای طراحی; Quality factor; Performance evaluation metrics; Ring oscillator; Temperature sensor; Design space exploration; Field programmable gate array (FPGA);
A SystemC Based Framework for Cycle Accurate Processor Simulation and Parameter Analysis
Keywords: اکتشاف فضای طراحی; Design Tools; Application Software; Emulators; Simulators; Microprocessor Based Control Systems; Cycle Accurate Processor Simulator; Design Space Exploration;
A processor for IoT applications: An assessment of design space and trade-offs
Keywords: اکتشاف فضای طراحی; Configurable processor cores; Low power; ASIP; Design space exploration; IoT
Fuzzy logic based energy and throughput aware design space exploration for MPSoCs
Keywords: اکتشاف فضای طراحی; Design space exploration; Multicore processing; Fuzzy logic; Energy efficiency
Scenario-based run-time adaptive MPSoC systems
Keywords: اکتشاف فضای طراحی; Embedded systems; Multiprocessor system-on-chip (MPSoC); Design space exploration; Task mapping; Adaptive systems; Reconfiguration
A two-tier design space exploration algorithm to construct GPU performance model
Keywords: اکتشاف فضای طراحی; Statistical performance model; Plackett–Burman design; GPU; Design space exploration
A design space exploration methodology for customizing on-chip communication architectures: Towards fractal NoCs
Keywords: اکتشاف فضای طراحی; System-on-Chip; Design space exploration; On-chip interconnect customization; Simulation; Performance evaluation;
Automatic synthesis of embedded SW for evaluating physical implementation alternatives from UML/MARTE models supporting memory space separation
Keywords: اکتشاف فضای طراحی; System on chip; Software synthesis; UML; MARTE; Design space exploration; Heterogeneity
ASP-based optimized mapping in a simulink-to-MPSoC design flow
Keywords: اکتشاف فضای طراحی; Simulink; Electronic system-level design; Design space exploration; ASP; FPGA
On the design space exploration through the Hellfire Framework
Keywords: اکتشاف فضای طراحی; Design space exploration; MPSoC; OS; Framework
MO-PSE: Adaptive multi-objective particle swarm optimization based design space exploration in architectural synthesis for application specific processor design
Keywords: اکتشاف فضای طراحی; Particle swarm optimization; Design space exploration; Power; Execution time; Mutation; High level synthesis; Application specific processor; Adaptive perturbation
Processor architecture exploration and synthesis of massively parallel multi-processor accelerators in application to LDPC decoding
Keywords: اکتشاف فضای طراحی; Massively parallel MPSoCs; Processors’ micro-/macro-architecture design; Design space exploration; EDA tools; Highly-demanding applications; 4G communication systems; LDPC decoding
Design space exploration for partially reconfigurable architectures in real-time systems
Keywords: اکتشاف فضای طراحی; Reconfigurable architecture; Design space exploration; Real-time systems; Partial reconfiguration; Field programmable gate arrays
Microarchitectural design space exploration made fast
Keywords: اکتشاف فضای طراحی; Design space exploration; Microarchitecture; Predictive models; Model tree
High-level power and performance estimation of FPGA-based soft processors and its application to design space exploration
Keywords: اکتشاف فضای طراحی; Design space exploration; Modeling; Soft processors; Performance estimation; Power estimation; Regression tree; Image compression
Design space exploration for high-level synthesis of multi-threaded applications
Keywords: اکتشاف فضای طراحی; Electronic system-level design; OpenMP; Design space exploration; High-level synthesis; FPGA
Design space exploration of on-chip ring interconnection for a CPU–GPU heterogeneous architecture
Keywords: اکتشاف فضای طراحی; Heterogeneous architecture; On-chip interconnection network; Design space exploration
Early-phase performance exploration of embedded systems with ABSOLUT framework
Keywords: اکتشاف فضای طراحی; Performance exploration; Virtual system model; Workload model; Platform model; Design space exploration; Model generation
ARTE: An Application-specific Run-Time managEment framework for multi-cores based on queuing models
Keywords: اکتشاف فضای طراحی; Multi-cores; Application specific platform; Run-time management; Queuing theory; Design space exploration