3D Model Open Concept GPU Mini Itx Case
Concept developed for contest. Designed by GalaxyRobotics.
Contest Skeletal open-concept computer case (GPU focused)
Hello. We're looking for skeletal open-concept computer case designs with emphasis on showing-off the GPU component. 'Less is more' to achieve minimal footprint during manufacturing - ideally restricted
Service Real-Time Ray Tracing (RTX)
recently, ray tracing was far too slow to use for real-time applications, but a new line of NVIDIA GPUs is changing all that. NVIDIA introduced its new Turing line of graphics cards in 2018. These cards
3D Model Nvidia Geforce GTX 1080
This is a model of Nvidia 1080 GPU, for the ungoing contest "Mini-ITX Computer Case"
Designer andro_EU
PhD CFD Engineer | Aerodynamics, Turbulence & HPC Simulation Expert | OpenFOAM · Ansys Fluent · Py
end-to-end simulation support — from 3D modeling and mesh generation to RANS, LES, and LBM execution on CPU/GPU high-performance computing (HPC) architectures. Strong expertise in turbulence modeling, external aerodynamics
2D & 3D Modeling 3D Modeling Aerospace Engineering ANSYS Ansys cfd ansys fluent ANSYS Fluent Applied Aerodynamics CAD Design CFD Computational Fluid Dynamics Design Optimization Experimental Methods FreeCAD Lattice Optimization Mechanical Engineering OpenFoam OpenFOAM Paraview Python Programming Siemens STAR-CCM+ Simulation SolidWorks Tecplot Water Treatment
Blog Post Real-Time Ray Tracing Insights: Complete Costs, Pricing and Rates Companies Considering RTX
tracing has been the buzzword in the computer hardware market, especially the graphics processing unit (GPU) department. Your gamer friends probably said you should upgrade the months-old desktop to feel the
3D Design 3d rendering 3D visualization
3D Model Precision 3D Logo Prototype & Mechanical Toy Assembly
interlocking part tolerances. Hardware: Rendered and optimized on a high-performance Lenovo LOQ (RTX GPU) workstation. Design Intent: Created with Design for Manufacturing (DfM) principles, ensuring the model
Designer Steven Minichiello
Chief Electrical Engineer
Systems, Motion-Control (Robotics), Digital Logic (FPGAs) and State Machines, Embedded (MCU, CPU, GPU, DSP, SoC), Electro-Magnetics (EMC), Electro-Optical (Video delivery, Displays, High Resolution Visible
3D Design Services 3D Modeling 3D Models of Machine Parts 3D Printing Design 3D Product Demo 3D Product Modeling 3D Product Rendering and Design 3D Solid Modeling Aerospace Engineering Agilent Technologies Altium CircuitStudio Altium Designer Altium Protel PCB Analog Electronics Design ANSYS HFSS ANSYS Maxwell Antenna Design Antenna Engineering Automotive Electrical Design AWR MWO Beam-Forming CAD Design Cadence Allegro Cadence PSpice CAM Circuit Design Concept Design CST Studio Design Engineering Services Design for Assembly Services Design for Manufacture and Assembly (DFMA) Design for X (DfX) Design Integration DFMEA Design Digital Electronics Digital Signal Processing Display Design DO-160 DO-178B DO-254 Drone Design Drones & UAV Design Electric Motor Design Electric Power System Electrical Circuit Design Services Electrical Drafting Electrical Engineering Electrical Instrumentation Services Electrical Schematic Drawing Services Electromagnetic Analysis and D Electromagnetics Electromechanical Design Electromechanical Engineering Electronic Device Design Electronic Devices Electronic Enclosures Design Electronic Hardware Design Electronic Product Design Electronic Prototyping and Design Services Electronics Design Electronics Design Service Electronics Packaging Electronics Schematics Design EMI/EMC Design Testing EMI/EMC PCB Design Engineering Design FMEA General Design Genesys Hourly Services Hyperlynx IEC 60601-1 Industrial Design Services Integrated Product Design Interface Design Intergration of Electronics Internet of Things (IoT) JMAG Keysight ADS LASERs LiDAR Transceiver Design Locomotive Electronics Marine Electronics Marine Engineering Design Services Mechanical 3D Rendering Mechanical CAD Design Mechanical Design Services Mechanical Engineering Medical Devices Design Mentor Graphics PADS Microcontrollers Microwave Studio Mixed-Signal Mixed-Signal Electronics New Invention Development NI Multisim Open Innovation OrCAD Packaging Concept Design Packaging Design PADS Mentor Graphics Paper to CAD Conversion Part-to-CAD Modeling Pathwave PCB Design Services Performance Engineering Phased Arrays Photorealistic Rendering Power Electronics Power Supply Design Power System Analysis Product Engineering Services Prototype Design Engineering Rack Piping Radar Radio Frequency Engineering and Design Services Rapid Prototyping Services Reverse Engineering RF (Radio-Frequency) Engineering RF (Radio-Frequency) Optimization RF (Radio-Frequency) Planning Robotics Robotics Design Services Sensor Design Signal Integrity SolidWorks SolidWorks CircuitWorks SolidWorks Design Services SolidWorks Engineering Services SolidWorks PCB Spacecraft UL / CSA Wearables Wearables Design Yacht & Marine
Blog Post Choosing Optimal Hardware and Software for Your Company's 3D Architectural Renderings
the CPU and the GPU. The Central Processing Unit (CPU) is your processor. This option is for lower-end rendering software because the CPU doesn’t have the same rendering power as the GPU. On the other hand
3d architectural rendering 3d rendering architectural CAD
Designer over1ord_1804
Mechanical Engineering Graduate with Solidworks Experience
spans designing liquid cooling systems for LFP battery modules, performing FEA/CFD simulations for GPU thermal management, and executing thermodynamic and structural analysis for high-performance ICE engines
2D CAD Design Services 2D to 3D Conversion Services 2D to 3D Modeling 3D Modeling 3D Modeling ANSYS AutoCAD Autodesk Inventor CAD Design CAM Fatigue Analysis FEA FEA Finite Element Analysis Heat Transfer MATLAB Mechanical CAD Design Mechanical Design Mechanical Engineer Mechanical Engineering Paper to CAD Conversion Programming Simulation SolidWorks SolidWorks Design Services SolidWorks Engineering Services Structural Analysis