Products & Services
- Ansys Siwave Software
- Ansys Q3D Extractor Software
- Ansys Ncode Design Software
- Ansys SpaceClaim Direct Modeler CAE Software
- Ansys Simplorer Software
- Ansys AutoDYN Simulate Software
- ANSYS HFSS 3D Electromagnetic Field Simulator Software
- Finite Element Analysis Services
- Computation Fluid Dynamics Analysis Service
- ANSYS RMxprt CAE Software
- Ansys High Performance Computing Software
- Ansys CFD Fluid Simulation Software
- Ansys Fluent Software
- Ansys Maxwell 2D And 3D Software Service
- Ansys Polyflow Fluid Dynamics Software Service
- Ansys Mechanical Enterprise Software
- Ansys Blademodeler Software
- ANSYS CFX CFD Software Service
- ANSYS ICEPAK CFD Software
- ANSYS CFD Enterprise Software
ANSYS Software
Service Type | Ansys SIwave |
Service Location/City | Pan India |
Service Duration | 1 Day |
Service Mode | Online |
Country of Origin | Made in India |
Brand | Ansys |
ANSYS SIwave:
- ANSYS simulation technology enables you to predict with confidence that your products will thrive in the real world. Customers trust our software to help ensure the integrity of their products and drive business success through innovation.
Power integrity, signal integrity and EMI:
- SIwave is a dedicated tool for electrical analysis of full PCB and complex electronic packages. SIwave solves interrelated PI, SI, and EMI challenges to deliver predictive analysis for your design. It provides solutions in both the Time & Frequency domains.
3D Power Integrity Electronic Package Design:
- Access a streamlined 3D design flow that enables complete package system analysis using sign-off verification for package power integrity.
Integrated with layout tools:
- Seamless integration with EDA layout tools to create customized signal integrity, power integrity and EMI design flows
SIwave:
- LSI Corporation used ANSYS Chip Signal Model and ANSYS SIwave to show that voltage swings on the signal network of a DDR parallel interface circuit were coupling to the power supply of the PLL, resulting in phase error between the PLL reference clock and output clock.
- Additionally fast PCB and PKG characteristic impedance scanning was performed to quickly determine problems due to routing and stackup
ANSYS Multiphysics solutions:
- Help cross-functional engineering organizations predict the perfor-mance of complex products in-fluenced by multiple physics and improve their designs through simulations of the interactions between physics.
Solver Technology:
- Hybrid (MoM) 2.5D AC Electromagnetic solver
- Finite Element based DC resistance solver
Geometry Entry and Import:
- SIwave GUI & Electronics Desktop 3D Layout GUI
- ECAD Translation (Altium, Cadence,Mentor, & Zuken)
- MCAD (.sat) Generation from ECAD
Electromagnetic Analysis:
- DC Voltage, Current and Power Analysis for PKG/PCB
- DC Joule Heating with ANSYS Icepak
- Passive Excitation Plane Resonance Analysis
- Driven Excitation Plane Resonance Analysis
- Automated Decoupling Analysis
- Capacitor Loop Inductance Analysis; AC SYZ Analysis
- Near-Field EMI Analysis
- Far-Field EMI Analysis
- Characteristic Impedance (Zo) PKG/PCB Scan
- TDR Analysis
- Steady State AC (LNA) Analysi
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Brand | Ansys |
Compatible With | Windows |
Service Type | Q3D Extractor Software |
Service Location/City | Pan India |
Service Duration | 1-2 Days |
Service Mode | Online |
Software Category | Electromagnetic FEA FEM |
Usage/Application | Aerospace electrical network, Electric vehicle, Power systems, Electromagnetic Design & Motor Design |
ANSYS Q3D Extractor:
- ANSYS simulation technology enables you to predict with confidence that your products will thrive in the real world. Customers trust our software to help ensure the integrity of their products and drive business success through innovation.
Parasitic extraction tool for electronics design:
- Calculates the parasitic parameters of frequency-dependent resistance, inductance, capacitance and conductance (RLCG) for electronic products.
3-D solid modeling:
- A full-featured 3-D solid modeling tool can import or create arbitrary 3-D electronic structures, such as connectors, vias, wire bonds, solder balls,signal traces, and power and ground planes.
Power- and signal-integrity analysis:
- Apply extracted data in studying crosstalk, ground bounce, interconnect delays and ringing, as well as to understand performance of high-speed electronic designs — such as multi-layer printed circuit boards, advanced electronic packages and 3-D on-chip passive components. Review the per bump R, L, G, & C parasitics of a package or die along with per cell R, L, G, & C of a Touch Panel/Screen.
- Q3D Extractor is ideal for designing advanced electronics packages and connectors used in high-speed electronic equipment or high-power bus bars and power converter components used in electrical power distribution, power electronics and electric drive systems.
Solver Technology:
- Quasi-static 3D electromagnetic field analysis using Method of Moments accelerated by Fast Multipole Method
- DCRL, ACRL & CG Solver
- Quasi-static 2D electromagnetic field analysis using Finite Element Method
Extraction Types:
- IC Packaging RLCG IBIS Extraction for Signals & Power
- Touch panel RLCG Unit Cell Extraction
- Bus Bar RLCG Extraction
- Power Inverter & Converter Component Extraction
- Specialized Thin Plane Solver for Touch Panel Extraction
Meshing Technology:
- Automatic, Adaptive Mesh Refinement
Automation:
- SPICE Equivalent Modeling Export
- 2D Transmission Line Modeling Toolkit
- 2D Cable Modeling Toolkit
- 3D Component Library
- Macro-modeling (Network Data Explorer)
High Performance Computing:
- HPC Acceleration for DCRL, ACRL, and CG.
Multiphysics:
- DCRL & ACRL Joule Heating Analysis with Icepak
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Location/City | Pan India |
Type Of Technology | Simulation - Fatigue Analysis |
Service Include | Support and Implementation |
Suitable For | Durability analysis,Gives you a comprehensive diagnostic fatigue process to predict your product's |
Brand | Ansys |
Service Mode | Online |
Service Duration | 1-2 Days |
Service Type | Ncode Design Software |
Ensure product integrity by designing for durability with ANSYS fatigue software:
- Understanding if and when a product can fail reduces product — and organizational — risk and cost
- The ultra-competitive nature of today’s economy has steered product development organizations to reduce costs, improve time to market, build in innovation and design for sustainability. And now there’s a new push: prolonging product life and ensuring durability.
- Recent headlines highlight the massive costs of product recalls, warranties, environmental remediation and regulatory penalties. But these pale compared to the impact on corporate brand image and consumer confidence
- As a result, making informed design decisions to improve your product’s durability is increasingly important. Product failure can result in recalls, high repair costs, legal liabilities, and damaged brand and corporate reputations
- Designs that are too conservative are costly to manufacture, and they may not be competitive. On the other hand, designs that are not conservative enough may fail under normal — let alone unanticipated — usage. Reaching the right product integrity balance is critical to your success.
- Fatigue is a major source of product failure. Most products exposed to repeated cyclic loadings will eventually fail. Caused by repeated or otherwise varying loads, fatigue is a result of repetitive stress over time, as microscopic changes become cracks that cause malfunction. Optimizing a product’s shape, size and material via simulation is the most cost-effective way to arrive at the desired product life.
Beyond Structural Mechanics Analysis:
- Engineers design today’s products using structural mechanics solutions that compute the response to applied forces and displacements. Fatigue simulation expands on structural analysis to account for extended real-life loadings. To determine when failure will occur, you can use the structural results that define maximum stress in conjunction with fatigue material properties anda loading history.
- The combination of reliable ANSYS structural mechanics technology and industry-leading simulation software with time-tested durability capabilities from HBM delivers a product that is ideal for predicting product life. ANSYS nCode DesignLife™ enables you to evaluate product life using a complete fatigue simulation progression. The process includes interfaces to CAD geometry, materials selection from engineering data in the ANSYS Workbench™ material library, automatic meshing, convenient application of initial conditions, simulation of the response of the structure, and transfer of this information to the ANSYS nCode DesignLife module, where product life is determined and optimization can occur.
- Apply our accurate, reliable technology to a wide range of fatigue scenarios Reliable Durability Technology ANSYS nCode DesignLife software delivers modern, industry-proven fatigue capabilities.
You can simulate all types of exposure to damage from fatigue, including:
- Stress life (SN) for high-cycle fatigue
- Strain life (EN) for low- and high-cycle fatigue
- Crack growth
- Safety factor (Dang Van) for predicting endurance limit under complex loadings
- Weld analysis for spot and seam welds
- Enhanced vibration analysis including PSD
- Hybrid loading to combine loads (constant, transient, time series, etc.)
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Area of Usage | for Engineers & Architect |
License Duration | 1 Year |
Suitable Platforms | 64-bit Microsoft Windows |
Application | Industrial Product Design |
Download Option | Free demo available |
Key Features | 2D & 3D Design, Modelling |
Training Support | Online Training |
Deployment | Online / Cloud-based |
Edition | Multi User |
Min System Requirements | 4 GB RAM |
Country of Origin | Made in India |
Ansys SpaceClaim is the perfect modeling solution for engineers who want access to 3D answers but don’t have the time or inclination to learn complex traditional CAE systems. It provides you with tools to accelerate geometry preparation and get to simulation sooner while eliminating delays between design teams.
Design the way you think:
- Our vision from the beginning was to bring 3-D to everyone by providing a simple, fast, flexible design tool. We believe a 3-D tool should be so simple, anyone can learn it quickly and have fun while doing so.
Imagine, design, make and realize your ideas faster with ANSYS Space Claim Design Faster with:
- Full part and assembly modeling
- Detailed drawings including full 2-D/3-D GD&T
- Photorealistic rendering capabilities with Keyshot
- Open/edit files from neutral and native CAD systems
- Complete help guide and tutorials for a rapid start.
Reverse Engineering:
- For reverse engineering, SpaceClaim is unmatched in terms of power, ease of use and flexibility. You can quickly build complex solids or use direct modeling commands while referencing an STL model. Space-Claim automatically fits surfaces to complex shapes while still enabling you to edit the fine details. These same intuitive tools can be used to build fixtures or construct mating components as needed.
Why Leverage SpaceClaim for Reverse Engineering:
- Automatic surface fitting along facets of any STL file
- Create and modify highly organic skinned surfaces
- Sketch curves along the facets of an STL file
- Easily create fixtures around faceted data
- Rapid blending of period loops in recreating complex geometry
Simulation:
- Use ANSYS SpaceClaim for all Fluids, Structures and Electronics model preparation to remove geom-etry bottlenecks and get your models to analysis faster. You can open data from any CAD system, edit designs and prepare them for simulation without relying on CAD export, no matter where the model was created.
Use SpaceClaim to:
- Repair dirty geometry and restore model integrity
- Construct simplified representations of models, such as volume extractions, enclosures, beams, and midsurfaces
- Remove rounds and small, irrelevant features or components
- Edit and modify imported models
- Accurately wrap electric traces to any substrate shape
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Location/City | Pan India |
Location | India |
Service Mode | Online |
Service Type | Simplorer Software |
Service Duration | 1-2 Days |
Brand | Ansys |
ANSYS Simplorer® enables engineers to accurately and quickly design complex power electronic and electrically controlled systems. It is an intuitive, multidomain, multitechnology simulation program used to simulate, analyze, and optimize complex systems, including electromechanical, electromagnetic, power and other mechatronic designs. In industries such as automotive, aerospace and industrial automation, organizations use Simplorer to identify problems in the early design stages that other simulation or build-and-test methods cannot detect. Today’s rapidly evolving products include complex interactions between components, subassemblies and systems. With seamless integration of multiple system-based modeling techniques (including circuits, block diagrams, state machines and equations) and modeling languages within the same schematic, Simplorer is the ideal tool for accurate systems modeling. Simplorer’s unique simulator coupling and cosimulation technologies employ a data exchange backbone; its numerical algorithms are specifically tuned for the multidomain nature of dynamic systems. Embedded tools allow you to create high-fidelity models across multiple domains at different levels of abstraction, leading to simulation of an entire complex system.
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Service Type | AutoDYN Simulate |
Service Location/City | Pan India |
Service Duration | 2 Days |
Service Mode | Online |
Location | India |
Country of Origin | Made in India |
Brand | Ansys |
ANSYS Autodyn Simulate short duration, severe loadings:
- ANSYS Autodyn simulates the response of materials to short duration severe loadings from impact, high pressure or explosions. It is best suited for simulating large material deformation or failure. Autodyn provides advanced solution methods without compromising ease of use. Complex physical phenomena such as the interaction of liquids, solids and gases; the phase transitions of materials; and the propagation of shock waves can all be modeled within Autodyn. Integrated within ANSYS Workbench with its own native user interface, this program has for decades led the industry in ease of use, enabling you to produce accurate results with the least amount of time and effort.
- Autodyn’s range of technologies means that you can model solids with Lagrangian elements, and liquids with Eulerian and SPH (smooth particle hydrodynamics), so you can capture every type of event with the most appropriate technology. Multiple solvers can be used in one model, and the interactions between the various domains can be modeled for efficient, accurate results.
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Service Type | 3D Electromagnetic Field Simulator |
Service Mode | Online |
Service Duration | 2 Days |
Service Location | Pan India |
Brand | Ansys |
Engineering Domain | Electrical and Electromagnetic |
ANSYS HFSS:
- ANSYS simulation technology enables you to predict with confidence that your products will thrive in the real world. Customers trust our software to help ensure the integrity of their products and drive business success through innovation.
Industry Standard Full Wave, Electromagnetic Field Simulation:
- HFSS sets the gold-standard for accuracy, advanced solver and high-perfor-mance computing technology, making it the ‘go to’ tool for engineers de-signing high-frequency and high-speed electronics found in communication systems, radar systems, satellites, smart phones and tablet devices.
Rigorous Validation:
- Sign-off quality high-frequency EM results that allow customers to simulate and go straight to manufacturing. With HFSS, engineers can extract parasitic parameters (S, Y, Z), visualize 3D electromagnetic fields (near- and far-field) and generate Full-Wave SPICE™ models that link to circuit simulations.
Easy to Use, Versatile and Fast:
- Features such as automatic adaptive meshing, versatile design entry and advanced high-performance computing technology put analyst-quality solvers in the hands of the designer.
- Synapse Product Development used HFSS and the ANSYS human body model to evaluate the performance of various antenna designs by modeling the complete system, including the wireless device and antenna and their interac-tions with the human body.
- ANSYS Multiphysics solutions help cross-functional engineering organizations predict the perfor-mance of complex products in-fluenced by multiple physics and improve their designs through simulations of the interactions between physics
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Mode Of Service | Online |
Analysis Methods | Force |
Industry Type | Power & Process |
Analysis Type | Linear & Non-Linear |
Location | Pan India |
Service Type | Finite Element Analysis |
We offer ANSYS Finite Element Analysis services - PAN India. With a rich experience in various domains of engineering simulation, we have worked with many industrial clients for Computational Fluid Dynamics (CFD), Finite Element Analysis (FEA) and Discrete Element Modelling (DEM) projects. We have significant expertise in using commercial software tools for performing complex simulations across varied industry domains such as automotive, aerospace, chemicals, oil and gas, electronics and semiconductor etc. We can complement your in-house teams by accelerating project progress and bringing in expertise which may not be easily available. We provide fixed price, time and material as well as deployment of dedicated on-site staff.
Finite Element Analysis Services-Tamilnadu-Chennai-Karnataka-Bengaluru-Telengana-Hyderabad-Kerala
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Service Location | Pan India |
Service Type | Online |
Service Location/City | Karnataka |
Service Mode | Online via E-mail |
Analysis Type | 2D & 3D |
Analysis Methods | Static and Dynamics |
Brand | Ansys |
With a rich experience in various domains of engineering simulation, we have worked with many industrial clients for Computational Fluid Dynamics (CFD), Finite Element Analysis (FEA) and Discrete Element Modelling (DEM) projects. We have significant expertise in using commercial software tools for performing complex simulations across varied industry domains such as automotive, aerospace, chemicals, oil and gas, electronics and semiconductor etc. We can complement your in-house teams by accelerating project progress and bringing in expertise which may not be easily available. We provide fixed price, time and material as well as deployment of dedicated on-site staff. This service is available for organisations only.
Computation Fluid Dynamics Analysis Service Pune(Maharashtra)- Gujarat- Delhi- Chennai-Karnataka
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Service Location | Pan India |
Software Version | Latest |
Service Mode | Online |
Service Type | RMxprt CAE |
Service Duration | 2 Days |
Brand | Ansys |
Designers of electrical machines and generators can enhance ANSYS Maxwell with ANSYS RMxprt, a template-based design tool. Together Maxwell and RMxprt create a truly customized machine design flow to meet market demand for higher efficiency, lower cost machines. Using classical analytical motor theory and equivalent magnetic circuit methods, RMxprt can calculate machine performance, make initial sizing decisions and perform hundreds of "what if" analyses in a matter of seconds.
A key benefit of RMxprt is its ability to automatically set up a complete Maxwell project (2-D/3-D) including geometry, materials and boundary conditions. The set up includes the appropriate symmetries and excitations with coupling circuit topology for rigorous electromagnetic transient analysis. RMxprt automatically generates a reduced order model, considering the nonlinearities and eddy effects, and transmits it to Simplorer, where further electric drive analysis can be achieved. In similar manner, RMxprt sets up the customized driving circuit topology as a stand-alone component in Simplorer to be coupled with the corresponding electric machine reduced order model.
ANSYS RMxprt Features
Design Templates:
- RMxprt offers numerous machine-specific, template-based interfaces for induction, synchronous, and electronically and brush-commutated machines. These templates allow you to easily enter design parameters and to evaluate design trade-offs early in the process.
- Machine-specific template editor
- Rotor Editor
- Winding Editor
- Slot EditorRunning strategies
- Drive circuits
Machine Types:
- Induction machines:Single-phase motors, Three-phase motors
- Wound-rotor motors and generators
- Synchronous machines
- Line-start PM motors
- Salient-pole motors and generators
- Non-salient pole motors and generators
- Brush commutated machines
- DC motors and generators
- Permanent magnet DC motors
- Universal motors
- Electronically commutated machines
- Brushless DC motors
- Adjustable-speed PM motors and generators
- Switched reluctance motors
- Claw-pole generators
- Axial-flux machine
Performance Metrics:
- Critical performance data, such as torque versus speed, power loss, flux in the air gap, power factor and efficiency can be quickly calculated.
Output waveforms include:
- Current
- Cogging torque
- Flux in the air gap
Design Sheet Output:
- Design sheets list all the relevant input parameters and calculated parameters, and graphically display waveforms including current, voltage, torque and back EMF. A detailed winding layout is also produced. RMxprt can output Excel-format design sheets based on the user-defined template.
Powerful Scripting:
- RMxprt can be integrated with third party development programs through scripting languages such as VB script, IronPython, Tcl/TK, JavaScript™, Perl™, Excel and MATLAB®. This allows you to customize the design flow and leverage internally developed programs and historical data.
Auto Synthesizing Design:
- RMxprt includes convenient features that can guide your design process by automatically determining slot size, coil turns and wire diameter, starting capacitance and winding arrangement from your given design parameters.
Model Pre-Processor for Electromagnetic Analysis:
- In addition to providing classical motor performance calculations, RMxprt can automatically generate a complete transfer of the 3-D or 2-D geometry, motion and mechanical setup, material properties, core loss, and winding and source setup.
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Duration | 1-2 Day |
Country of Origin | Made in India |
Service Type | High Performance Computing |
Service Location | Pan India |
Service Mode | Online |
Brand | Ansys |
ANSYS High Performance Computing Simulate larger designs with more parameters in far less time:
- With the ANSYS HPC software suite, you can use today’s multicore computers to perform more simulations in less time.These simulations can be bigger, more complex and more accurate than ever using HPC. The various ANSYS HPC licensing options let you scale to whatever computational level of simulation you require, from single-user or small user group options for entry-level parallel processing up to virtually unlimited parallel capacity. For large user groups, ANSYS facilitates highly scalable, multiple parallel processing simulations for the most challenging projects when needed. Apart from parallel computing, ANSYS also offers special product solutions for parametric computing, which enables you to more fully explore the design parameters (size, weight, shape, materials, mechanical properties, etc.) of your product early in the development process.
- HPC enhances your engineering productivity by accelerating your simulation throughput. Building on a sustained investment in HPC software innovation and development, ANSYS solutions are engineered for scalability, so you can apply simulation at the appropriate level of detail, whether for simple initial design studies or highly detailed optimization work.
- HPC also gives you higher-fidelity insight into product performance — insight that cannot be gained any other way because HPC allows you to simulate larger, more complex models (and even systems) so that more accurate design decisions can be made throughout the development process.
- HPC also enables you to consider more design ideas and make efficient product development decisions based on enhanced understanding of performance trade-offs. Using the combination of ANSYS Workbench with parallel and parametric HPC solutions from ANSYS, you can simultaneously evaluate multiple, automated parametric design variations over a range of operating conditions within an industrially acceptable time. Combining our design of experiments (DOE), Six Sigma and optimization tools with HPC solutions from ANSYS, you can determine which design parameters require the tightest quality control, and reach an optimal design that works across a range of operating conditions.
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Service Type | CFD Fluids Simulation Software |
Service Location/City | Pan India |
Service Duration | 1-2 Days |
Service Mode | Online |
Location | India |
Brand | Ansys |
Computational Fluid Dynamics (CFD) is a numerical solutions methodology to solve governing equations of fluid flow. Fluid flow equations, in most practical situations, tend to be highly nonlinear and require specialized numerical techniques depending on the dominating physics (compressible flows, viscous flows, reactions, presence of fluids in gaseous and liquid phase etc.)
ANSYS has been in the business of developing specialized CFD Solvers for almost last four decades and has developed one of the worlds??? most comprehensive CFD solution available today. Rapid advances in high performance computing and next generation software technologies have been utilized to their highest potential in these solvers. Over last few years ANSYS has been at the forefront of making CFD solutions more accessible to engineering designers along with the traditional analysts and scientists. This is enabling the designers to anticipate issues early in product development cycle there by reducing costs and time to market.
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Service Type | Ansys Fluent |
Service Location/City | Pan India |
Service Duration | 1-2 Day |
Service Mode | Online |
Location | India |
Country of Origin | Made in India |
ANSYS Fluent:
- Fluent software contains the broad, physical modeling capabilities needed to model flow, turbulence, heat transfer and reactions for industrial applications. These range from air flow over an aircraft wing to combustion in a furnace, from bubble columns to oil platforms, from blood flow to semiconductor manufacturing and from clean room design to wastewater treatment plants. Fluent spans an expansive range, including special models, with capabilities to model in-cylinder combustion, aero-acoustics, turbomachinery and multiphase systems.
- Fluent also offers highly scalable, high-performance computing (HPC) to help solve complex, large-model computational fluid dynamics (CFD) simulations quickly and cost-effectively. Fluent set a world supercomputing record by scaling to 172,000 cores.
New Fluent Experience:
A whole new way to enjoy CFD simulations
Fluent already solves the toughest design challenges with well-validated results across the widest range of CFD and multiphysics applications. But today, engineers need to accomplish more, in less time and with less training than ever before. Introducing the New Fluent Experience, a whole new way to enjoy CFD simulations.
Built on top of the proven Fluent solver, this new experience:
- Provides a complete, single-window solution within Fluent.
- Streamlines the Fluent workflow for generating a mesh from imported CAD.
- Removes barriers for common tasks that frustrate users.
A new look
- Fluent has a new look that’s easy on the eyes. Users can pick from several themes or choose the new, Japanese language localization.
Task-based workflow:
- Fluent’s task-based workflow guides you through an organized simulation process offering the most accurate results in less time. At each step in the process, the software provides the most relevant design options or defaults to a best-practice option. Benchmark data show that users complete the watertight geometry workflow with 70 percent fewer clicks and 50 percent less hands-on time.
- A fault-tolerant workflow speeds meshing for non-watertight (“dirty”) geometries with use of a “wrapper” — a layer of mesh that covers surface imperfections in the geometry. Complex models that previously took days or even weeks can now be meshed in hours with minimal sacrifice to simulation accuracy.
Mosaic Meshing Technology:
- Fluent meshing now includes a unique patent-pending technology that delivers higher quality results at faster speeds. This Mosaic meshing technology uses a high-quality boundary layer mesh to automatically combine a variety of boundary layer meshes, for fast and accurate flow resolution. In a benchmark simulation of a Formula One wing, the Mosaic mesh had fewer, better quality cells, required 34 percent less memory and achieved a 47 percent faster solve time. Parallel processing quickly generates Mosaic-enabled meshes up to 10X faster.
Speed and simplicity:
- Thoughtful changes permeate every screen, every step, making simulation a joy. Users will encounter fewer clicks, simplified data entry, enabled drag and drop, embedded smart interactions and more.
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Location | Pan India |
Country of Origin | Made in India |
Service Mode | Online |
Brand | Ansys |
Service Duration | 1-2 Days |
Service Type | Maxwell 2D and 3D |
ANSYS simulation technology enables you to predict with confidence that your products will thrive in the real world. Customers trust our software to help ensure the integrity of their products and drive business success through innovation.
Industry Leading Low Frequency Electromagnetic Field Simulation:
- Trusted simulation of low-frequency electromagnetic fields in industrial components that includes 3-D/2-D magnetic transient, AC electromagnetic, magnetostatic, electrostatic, DC conduction and electric transient solvers to accurately solve for field parameters including force, torque, capacitance, inductance, resistance and impedance.
High Performance Design Delivery:
- Customizable modeling capabilities, automatic adaptive meshing and ad-vanced high-performance computing technology allows designers to solve complete high-performance electromechanical power systems.
High Fidelity, Model-Based Design:
- Automatically generate nonlinear equivalent circuits and frequency-depen-dent state-space models from field parameters that may be further used in system and circuit simulation to achieve the highest possible fidelity on SIL (software-in-the-loop) and HIL (hardware-in-the-loop) systems.
ANSYS Multiphysics solutions:
- help cross-functional engineering organizations predict the perfor-mance of complex products in-fluenced by multiple physics and improve their designs through simulations of the interactions between physics
General Solver Capabilities:
- Static Electromagnetic Fields
- Adaptive Field Mesh
- Frequency Domain
- Magnetic and Electric Time Domain
- HPC Frequency Sweeps
Magnetic Transient with Rigid Motion:
- Dynamic Effects on Rigid Motion with Symmetrical Field Conditions
- Non-Cylindrical Motion
- Advanced Embedded Circuit Coupling
- External Circuit Coupling with Adaptive Time Stepping
Advanced Material Modeling:
- Vector Hysteresis Modeling
- Nonlinear Anisotropic Modeling
- Functional Magnetization Direction
- Magnetization/De-magnetization Modeling
- Temperature-Dependent De-magne- tization Modeling
- Time and Frequency Dependent Core Loss Modeling
- Dynamic Effects in Laminated Magnetic Materials
Multiphysics:
- Magneto-Vibro-Acoustic coupling for rotating and non-rotating electromechanical design
- Magneto-Stress coupling based on electromagnetic force and deformed mesh feedback
- Electromagnetic-Thermal couplings with power loss and temperature feedback on Heat Transfer by Con-duction, Convection and Radiation
- Magneto-Thermal-Stress on Drive Design Life Cycle
- Coupling with CFD based on power loss-temperature feedback
- Coupling with CFD based on mag-netic field, power loss and electric conductivity temperature for arc/ plasma device design
Multi-Domain System Capabilities
- Frequency Dependent Reduced Order Models and Nonlinear Equiva-lent Circuits from FEA analysis
- Automatic Generation of the Exter-nal Circuit and Electrical Machine Reduced Order Model for Model- Based Design (SIL and HIL)
- State-Space Reduced Order Models from Field Parameters
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Duration | 1-2 Days |
Brand | Ansys |
Country of Origin | Made in India |
Service Type | Polyflow Fluid Dynamics |
Service Mode | Online |
Service Location | Pan India |
ANSYS Polyflow Powerful fluid dynamics software reduces the cost of polymer, glass, metals and cement processing:
- Polymers, glass, and even food and metals exhibit complex nonlinear behavior while being processed. Accurately assessing each material’s performance — well before manufacturing begins — requires tailor-made software with appropriate material properties models, the capability to accurately capture flow domain deformations, and robust solvers. Companies throughout the world in the polymer, glass, metals and cement processing industries reduce manufacturing risk by employing ANSYS Polyflow® as an integral part of their product design and optimization process. They use this proven technology to optimize extrusion, thermoforming, blow molding, glass forming, fiber drawing and concrete shaping.
Developing Better Packaging:
- Packaging is important to protect products from damage — but it is also a sustainability issue as well as an additional cost to goods suppliers. Deploying virtual prototyping using Polyflow enables you to model the manufacturing process. By coupling this solution with ANSYS explicit dynamics software and ANSYS Mechanical™, your R&D team can evaluate and test a design’s behavior and durability. You can take corrective action at the design or manufacturing phase, or both, to quickly and cost effectively design lighter packaging with better performance.
Increasing Extrusion Line Efficiency:
- To meet tight tolerances that the market requires, some companies resort to trial-and-error methods for (co-)extruded plastic and rubber profiles. This approach is time intensive and costly, and it can negatively impact the environment. Using engineering simulation, including our unique inverse die design capability, you can gain a significant reduction in trial-and-error iterations for your extrusion lines. Some companies that apply our solutions have decreased the number of iterations from seven to two. Insight gleaned from visualizing polymer flowing throughout the die allows you to quickly troubleshoot unexpected problems.
Improving Performance with a Digital Material Laboratory:
- Polyflow helps you to investigate behavior of new plastics and elastomers for applications as diverse as extrusion, blow molding, thermoforming, fiber spinning and film casting. Simulation allows you to test the ability to process new resins, even before they have ever been produced, by comparing prototypes for different materials to see if they match or outperform existing and competitive materials. You can reverse-design a resin to maximize end-product performance while minimizing costs and environmental impact.
- To understand and accurately characterize material behavior, ANSYS provides a vast library of mathematical material models that aid in simulating materials.
- An advanced, application-tailored solver and extensive models deliver the capabilities you need to optimize your manufacturing processes.
Solvers and Numerics
- Complex rheological, thermal-dependent material behaviors, or large deformations (such as die swell, blow molding, thermoforming or glass pressing) are inherently nonlinear. To meet this challenge, Polyflow uses the finite element analysis method and a robust solver. The software easily accommodates deforming boundaries through its robust arbitrary Lagrangian−Eulerian deforming-mesh capabilities.
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Brand | Ansys |
Country of Origin | Made in India |
Service Mode | Online |
Service Duration | 1-2 days |
Service Location | Pan India |
Service Type | Mechanical Enterprise Software |
ANSYS Mechanical Enterprise The flagship tool for Finite Element Analysis ANSYS Mechanical Enterprise is the flagship mechanical engineering software solution that uses finite element analysis (FEA) for structural analysis using the ANSYS Mechanical interface. It covers an enormous range of applications and comes complete with everything you need from geometry preparation to optimization and all the steps in between. With Mechanical Enterprise you can model advanced materials, complex environmental loadings and industry-specific requirements in areas such as offshore hydrodynamics and layered composite materials.
Materials:
- A whole range of material models covering everything from hyperelastics, shape memory alloys, soils, concrete, plastic and metallic structures can be accurately modeled; you can even add user-defined material models if needed.
- Material Designer can easily create representative volume elements (RVE’s) based around lattice, fiber, weave or user-created geometries to facilitate multiscale modeling of complex material structures.
Dynamics:
- Mechanical Enterprise can cover all of your needs for dynamic analysis, including — for linear dynamics — modal, harmonic, spectrum response and random vibration with pre-stress, and advanced solver options for rapid solutions. In the transient domain both implicit and explicit solvers enable you to model time dependent scenarios. The Rigid Body Dynamics capability lets you solve mechanisms rapidly. It also enables you to include Component Mode Synthesis (CMS) parts to add flexibility to models while still accelerating the simulation.
- Acoustic simulations can be carried out to understand the vibro-acoustic behavior of systems, with or without structural pre-loading. You can also create waterfall plots to more conveniently understand results over varying frequencies.
Additional value:
- Mechanical Enterprise has tools such as ANSYS ACT to customize your workflow, add functionality and accelerate your simulation process, and ANSYS DesignXplorer with built in optimization technology to get to the best answer in the fastest time ever. The addition of ANSYS SpaceClaim means that preparing geometry (mid-surfacing, beam extraction and simplification) for analysis, building prototype models or manipulating geometry during design changes is intuitive and rapid.
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Ansys Blademodeler Software
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Area of Usage | for Engineers & Architect |
License Duration | 3 Year |
Brand | Ansys |
Service Type | Blademodeler Software |
Service Mode | Online |
Service Duration | 1-2 Days |
Service Location | Pan India |
ANSYS Blade Modeler:
- ANSYS BladeModeler software is a specialized, easy-to-use tool for the rapid 3D design of rotating machinery components. ANSYS BladeModeler is used to design axial, mixed-flow and radial blade components in applications such as pumps, compressors, fans, blowers, turbines, expanders, turbochargers, inducers and more.
A Comprehensive Turbomachinery Solution:
- ANSYS BladeModeler is integrated with ANSYS DesignModeler to deliver complete 3D geometry modeling capabilities and allow any number of geometric features, such as hub metal, blade fillets, and cut-offs and trims to be added. Blade designs can be combined with other non-bladed components, like housings, blade roots or complex 3D tip regions. These non-bladed components can be created directly or imported using CAD connections to all major CAD vendors without limits on the designs that can assembled and assessed. ANSYS BladeModeler software provides the essential link between interactive blade design, mesh generation and advanced simulation, including fluid dynamics and structural mechanics.
Complete Geometric Modeling:
- You can choose the level of geometric detail for your analysis. For rapid analysis, the most basic blade sketch may be sufficient. However, whenever needed for maximum accuracy, ANSYS BladeModeler software can include detailed 3D solid modeling geometry components. Depending on the design process and need, the blade geometry can be analyzed for aerodynamic performance, or mechanical behavior using state-of-the-art ANSYS fluid dynamics or ANSYS structural mechanics products.
Integrated Initial Sizing:
- A selection of meanline design tools from PCA Engineers is included with ANSYS BladeModeler software: ANSYS Vista CCD for centrifugal compressors, ANSYS Vista RTD for radial turbines, ANSYS Vista CPD for centrifugal pumps and ANSYS Vista AFD for axial fans. Given the machine duty — mass flow, pressure ratio, etc. — and geometric constraints, the program will configure the blade geometry and provide essential non-dimensional performance parameters, including specific speed and specific flow. The blade geometry is output directly for use in ANSYS BladeModeler.
Interactive Blade Design:
- ANSYS BladeModeler defines your design as a number of 2D sketches, either at span-wise or at user-defined positions, to immediately and interactively generate the full 3D design, as well as provide quantitative information such as blade angles and throat area. The software uses meridional view to define flow paths, and two modes are available for defining blade shapes. You can use an angle/thickness mode to specify blade wrap (blade angle) and thickness distribution, as is typically used in radial machine design. Alternatively, you can employ a pressure side/suction side mode to independently describe the blade pressure side and suction side curves, as is common in axial machine design.
Integrated with ANSYS Workbench:
- ANSYS BladeModeler is fully integrated into the ANSYS Workbench platform to give you powerful options for defining your workflow and connecting different applications in your design process with simple drag-and-drop actions. For example, you can directly transfer designs to a throughflow analysis using ANSYS Vista TF or to mesh generation with the ANSYS TurboGrid tool. The full integration delivers parametric, persistent connections to other applications from ANSYS, such as the ANSYS Vista TF tool for rapid 2-D through-flow analysis, ANSYS TurboGrid software for mesh generation, ANSYS fluid dynamics solutions for full 3D flow analysis and ANSYS structural mechanics technology for stress and modal analysis. And you can perform the entire process in a single CAE environment.
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ANSYS CFX CFD Software Service
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Service Type | Ansys CFX CFD |
Service Location/City | Pan India |
Service Duration | 2 Day |
Service Mode | Online |
Brand | Ansys |
Power | 9W |
Voltage | 12V |
ANSYS CFX:
- ANSYS CFX is a high-performance computational fluid dynamics (CFD) software tool that delivers reliable and accurate solutions quickly and robustly across a wide range of CFD and multiphysics applications. CFX is recognized for its outstanding accuracy, robustness and speed when simulating turbomachinery, such as pumps, fans, compressors and gas and hydraulic turbines.
New: Harmonic analysis is 2X faster and expanded to multifrequency:
- Harmonic analysis speeds solutions to multistage, transient blade row problems, by calculating as few as one blade per row and reducing computational time by a factor of 100 (versus a full wheel solution) and a factor of 25 (versus the previous state-of-the-art, Fourier transform method).
The solution method:
- Provides 2X faster convergence and larger stability limits
- Expands application to simulating fans under inlet/outlet disturbances and modeling asymmetric flows in radial compressors or turbines — with multifrequency analysis
New Generate Performance Maps with CFX:
- The performance map is the result of your analysis. Now CFX allows you to create complete operating maps with a simple integrated process. Using a single performance map format file, CFX generates all necessary results as if they were a single simulation run. It then organizes them into a master folder for unified analysis.
New Reliably Capture Cavitation without Empirical Parameters or Tuning:
- Engineers need to accurately predict cavitation in diverse applications such as hydro pumps, diesel fuel injectors and rocket fuel systems. However, classical models such as Rayleigh-Plesset are highly empirical and can return unphysical results unless required parameters are carefully tuned. A new approach to cavitation modeling in CFX uses an equilibrium phase change model and relies on material properties only, to reliably predict cavitation without the need for empirical model parameters. It provides a physically realistic solution (e.g., no negative absolute pressures) without tuning, and naturally includes physics such as thermodynamic suppression head and changes in vapor pressure due to temperature variations.
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ANSYS ICEPAK CFD Software
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Service Type | Ansys ICEPAK CFD |
Service Location/City | Pan India |
Service Duration | 1-2 Days |
Service Mode | Online |
Location | India |
Brand | Ansys |
ANSYS Icepak provides powerful electronic cooling solutions which utilize the industry-leading ANSYS Fluent computational fluid dynamics (CFD) solver for thermal and fluid flow analyses of integrated circuits (ICs), packages, printed circuit boards (PCBs) and electronic assemblies. The ANSYS Icepak CFD solver uses the ANSYS Electronics Desktop (AEDT) graphical user interface (GUI). This provides a CAD-centric solution for engineers who can leverage the easy-to-use ribbon interface to manage thermal issues within the same unified framework as ANSYS HFSS, ANSYS Maxwell and ANSYS Q3D Extractor. Electrical and mechanical engineers working in this environment will enjoy a completely automated design flow with seamless coupling from HFSS, Maxwell and Q3D Extractor into Icepak for thermal analysis.
Engineers can rely on Icepak for an integrated electronics cooling solution for electronic applications ranging in scale from individual ICs to packages and PCBs, up to computer housings and entire data centers. The Icepak solver performs conduction, convection and radiation conjugate heat transfer analyses. It has many advanced capabilities to model laminar and turbulent flows, and species analysis including radiation and convection. Icepak provides a vast library of fans, heatsinks and materials to furnish solutions to everyday electronic cooling concerns.
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ANSYS CFD Enterprise Software
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Service Type | CFD Enterprise |
Service Location/City | Pan India |
Service Duration | 2 Days |
Service Mode | Online |
Country of Origin | Made in India |
Brand | Ansys |
Fluids Computational Fluid Dynamics:
- Computational fluid dynamics (CFD) is a tool with amazing flexibility, accuracy and breadth of application. But serious CFD, the kind that provides insights to help you optimize your designs, can be out of reach unless you choose your software carefully. To get serious CFD results, you need serious software. ANSYS CFD goes beyond qualitative results to deliver accurate quantitative predictions of fluid interactions and trade-offs. These insights reveal unexpected opportunities for your product — opportunities that even experienced engineering analysts can miss.
The New Fluent Experience Built on top of the proven ANSYS Fluent solver, this single-window experience offers innovations from end to end:
- A new look with user-selectable themes and Japanese language localization.
- Task-based workflows allow you to do more: Accurately solve complex problems in less time, with less training.
- Speed and simplicity built into every step. User-focused enhancements power more problem-solving with less stress.
CFD simulation for every engineer:
- While ANSYS CFD empowers experienced analysts to deliver deep insights, serious CFD is not just for experts modeling rocket ships and racing cars. Engineers at every level across diverse industries are getting great value from CFD analysis. The ANSYS Customer Excellence (ACE) team has seen and solved a vast array of CFD simulation challenges and are ready to help you solve yours.
More CFD solutions:
- Go further and faster with well-validated CFD results across the widest range of general, specialty and multiphysics applications. ANSYS Fluent and ANSYS CFX provide fast results for virtually any fluid or multiphysics application, with industry-leading accuracy and robustness. This serious CFD software has the wide-ranging capabilities needed to solve your design problems today and in the future.
Solve complex fluid problems:
- Best-in-class CFD solvers extend the limits of what is possible, so you can maximize your product’s performance and efficiency. You can use ANSYS CFD analysis to innovate with breakthrough capabilities in turbomachinery, turbulence, combustion and in-flight icing.
Make better, faster decisions:
- Recent innovations to modeling, meshing, the user environment, high-performance computing and post-processing radically accelerate your time to results without compromising accuracy. They enable novice users to quickly become productive while giving experienced users greater opportunities to excel.
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