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We provide our Customers advanced simulation software, which enable organizations to confidently predict how their products will operate in the real world. ANSYS offers a comprehensive software suite that spans the entire range of physics, providing access to virtually any field of engineering simulation that a design process requires. Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment.

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In order to simplify the installation and customize the software, our experts are at the disposal of our Customers to training their employees. We achieve a high level of cooperation by focusing on the Customer’s field of industry, and form the geometry building until the evaluation of results. Our Customers also can explore any time the technical experience of our experts by consultation. They are welcome at our yearly organised User’s conference, where we invite researchers to represent their latest developments.

Our software products are highly scalable for any client from micro-enterprises to large concerns, and we’re ready to serve you with the most suitable package after a personal consultation. Generally the following licensing options are to choose from:

  • Paid-up license
  • Licence lease
  • TECS (Technical Enhancements and Customer Support – included in lease price but optional for paid-up customers)
  • License + training

    • Individual training
    • Training in a group

In case of special Costumer requirements, please contact us, and we will surely find the most suitable solution for you. You can also ask for a call-back or request an evaluation copy of the products.

CFD.HU Ltd. is the official Channel Partner of ANSYS and official distributor of its fluid dynamics (CFD) and mechanical (FEM) software packages. We also distribute ++ Systems, which is a software for water & recycling management by TANDLER Ltd. You can learn more about these software by choosing from the below menu.

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ANSYS fluid dynamics
simulation software

ANSYS fluid dinamics simulation softwares

CFD solutions for complex thermodynamics and fluid flow problems.

ANSYS structural
simulation software

ANSYS mechanical simulation softwares

Static and dynamic mechanical analysis of products or structures.

ANSYS multiphysics
simulation software

ANSYS multiphysics simulation softwares

Analyse complicated interactions among structural mechanics, heat transfer and fluid flow.

ANSYS Workbench
platform software

ANSYS Workbench platform softwares

The efficiency increasing tools for the simulation software products.

ANSYS academic
software

ANSYS academic softwares

ANSYS software products for universities, colleges and research institutes.

ANSYS student
software

ANSYS student softwares

ANSYS software products for higher education students.

TANDLER water & recycling
management software

TANDLER softwares

Software products for water & recycling management.

CFD.HU self-developed
software

CFD.HU Self-developed softwares

Self-developed software products of the CFD.HU Ltd.

ANSYS fluid dynamics simulation software

Source: www.ansys.com

 

ANSYS provides different CFD analysis tools from the general purpose ones to specially developed software. Let’s browse the specifications and brochures, or contact us to find the software package which suits the best for your company.

ANSYS FLUENT and ANSYS CFX are general purpose CFD codes, as they contain the broadest scale of physic models. Both are available separately or together in the ANSYS CFD pack, where the user can decide, which solver he/she wants to run. All these expert tools are available in solver version, but the pack includes the most advanced pre- (ANSYS Meshing) and post-processing tools (ANSYS CFD–Post) also. ANSYS CFD-Flo and ANSYS CFD Professional target CAD and design engineers with their limited fluid flow and heat transfer capabilities and also attracts them with reasonable pricing. ANSYS Polyflow provides advanced fluid dynamics technology for companies in the polymer, glass, metals and cement processing industries. R&D teams use this technology extensively to design and optimize processes such as extrusion, thermoforming, blow molding, glass forming, fiber drawing and concrete shaping. Based on the ANSYS FLUENT solver, ANSYS Icepak combines advanced solver technology with robust meshing options designed to provide fast and accurate thermal results for electronics cooling applications.

ANSYS AIM


ANSYS CFD

Source: www.ansys.com

 

The ANSYS CFD software package contains ANSYS Fluent, ANSYS CFX, ANSYS Polyflow and ANSYS Forte.

See detailed specifications of the software-pack in ANSYS 18.0 Capabilities Chart.


ANSYS Fluent

Source: www.ansys.com

 

ANSYS Fluent software contains the broad physical modelling capabilities needed to model flow, turbulence, heat transfer, and reactions for industrial applications ranging 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. Special models that give the software the ability to model in-cylinder combustion, aeroacoustics, turbomachinery, and multiphase systems have served to broaden its reach.

With its 40 % of market share, ANSYS FLUENT is undoubtedly the leading CFD simulation code, a so called industry standard. Advanced solver technology provides fast, accurate CFD results, flexible moving and deforming meshes, and superior parallel scalability. User-defined functions allow the implementation of new user models and the extensive customization of existing ones. Several industrial academic clients use ANSYS FLUENT in everyday work also in Hungary.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS CFX

Source: www.ansys.com

 

ANSYS CFX software is a high-performance, general purpose fluid dynamics program that has been applied to solve wide-ranging fluid flow problems for over 20 years. At the heart of ANSYS CFX is its advanced solver technology, the key to achieving reliable and accurate solutions quickly and robustly. The modern, highly parallelized solver is the foundation for an abundant choice of physical models to capture virtually any type of phenomena related to fluid flow. The solver and its many physical models are wrapped in a modern, intuitive, and flexible GUI and user environment, with extensive capabilities for customization and automation using session files, scripting and a powerful expression language. A native two-way connection to ANSYS structural mechanics products allows capture of even the most complex fluid–structure interaction (FSI) problems in the same easy-to-use environment, saving the need to purchase, administer or run third-party coupling software.

ANSYS CFX is the most preferable CFD simulation software to model rotating machines. With additional tools (ANSYS Vista TF, ANSYS BladeModeler and ANSYS TurboGrid) it can significantly accelerate the workflow of fluid flow machines simulation.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS CFD-Flo

Source: www.ansys.com

 

ANSYS CFD-Flo, a computational fluid dynamics (CFD) software package, addresses the fluid flow analysis needs of designers working on the front lines of their company’s product development process. The tool provides the physics models most commonly required by companies seeking to create better products faster and is compatible with other tools available within the ANSYS Workbench environment. The focused feature set and competitive cost of ANSYS CFD-Flo make it an ideal choice for companies with design departments that require access to CFD technology to improve their products and processes.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS CFD Professional

Source: www.ansys.com

 

ANSYS CFD Professional quickly delivers key insights into your design’s performance. It is ideal for designing valves, piping connections and junctions, and ventilation systems that call for:

    • Reducing pressure drop
    • Improving flow split
    • Optimizing ventilation system installation
    • Predicting flow and thermal behavior

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS Polyflow

Source: www.ansys.com

 

For more than 25 years, design engineers have used Polyflow to minimize physical prototyping when manufacturing extrusion dies or to reduce thickness variation to improve the quality of thermoformed or blown products. Because of a unique inverse die design capability, you can cut dies much faster than by using traditional build-and-test methods. This translates into substantial cost reduction and time savings. Your team can improve the quality of blown and thermoformed products by running trial-and-error processes with ANSYS Polyflow, rather than testing changes on the production line. Glass forming and float glass engineering simulations help designers to more quickly produce higher-quality tableware, glass containers and flat glass.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS Fluent for Catia

 

FLUENT for CATIA V5 software brings fluid flow and heat transfer analysis into the CATIA V5 product lifecycle management (PLM) environment. It fully integrates ANSYS FLUENT rapid flow modeling technology into the CATIA PLM process. Operating completely within the native CATIA data structures, FLUENT for CATIA V5 provides a full generative relationship between manufacturing-ready geometry models and the flow analysis model. Design, analysis and optimization all happen within a single workflow within the CATIA V5 PLM environment.


ANSYS Icepak

Source: www.ansys.com

 

ANSYS Icepak software provides robust and powerful computational fluid dynamics (CFD) for electronics thermal management. Based on the renowned ANSYS FLUENT solver, ANSYS Icepak combines advanced solver technology with robust meshing options designed to provide fast and accurate thermal results for electronics cooling applications.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS structural simulation software

Source: www.ansys.com

 

ANSYS Mechanical software is a comprehensive finite element analysis tool for structural analysis, including linear, nonlinear, dynamic, hydrodynamic and explicit studies. It provides a complete set of elements behavior, material models and equation solvers for a wide range of mechanical design problems. In addition, it offers thermal analysis and coupled-physics capabilities involving acoustic, piezoelectric, thermal-structural and thermo-electric analysis.

ANSYS Mechanical has four different packaging: DesignSpace, Mechanical Professional, Mechanical Premium and Mechanical Enterprise, which provide solutions from the simplest simulation needs to the the most complicated mechanical calculations. The packages has different limitations, as well as provide several applications for the various problems.

Let’s browse the specifications, and contact us to find the software package which suits the best for your company!


ANSYS Mechanical Enterprise

Source: www.ansys.com

 

With ANSYS Mechanical Enterprise you can easily solve static and transient strength analyses, analyze linear and nonlinear buckling, as well as use the modeling techniques like submodeling and substructuring. Using geometric nonlinearities ensures that your simulation accounts for effects like large strain and large deflections, while you can also use a wide range of nonlinear material models. Advanced contact technologies easily accounts for interactions between components. Modal, harmonic, spectrum, random and rotordynamic analyses enables you to understand the vibration behaviour of the structures. With steady-state and transient thermal analyses you can calculate conduction, convection and radiation effects.

Besides the flagship implicit solver technology and highly productive platform on which it is built, the ANSYS Mechanical Enterprise also includes the following tools: Fatigue Module, Rigid Body Dynamics, SpaceClaim, ACT, DesignXplorer, Explicit STR, Composite PrepPost, AQWA and Simplorer

See detailed specifications of the software-pack in ANSYS 18.0 Capabilities Chart.


ANSYS Mechanical Premium

Source: www.ansys.com

 

With ANSYS Mechanical Premium you can easily solve static and transient strength analyses, analyze linear and nonlinear buckling, as well as use the modeling techniques like submodeling. Using geometric nonlinearities ensures that your simulation accounts for effects like large strain and large deflections, while you can also use a wide range of nonlinear material models. Advanced contact technologies easily accounts for interactions between components. Modal, harmonic, spectrum, random and rotordynamic analyses enables you to understand the vibration behaviour of the structures. With steady-state and transient thermal analyses you can calculate conduction, convection and radiation effects.

Besides the flagship implicit solver technology and highly productive platform on which it is built, the ANSYS Mechanical Premium also includes the following tools: Fatigue Module and Rigid Body Dynamics.

See detailed specifications of the software-pack in ANSYS 18.0 Capabilities Chart.


ANSYS Mechanical Professional

Source: www.ansys.com

 

With ANSYS Mechanical Professional you can easily solve static and transient strength analyses, analyze linear and nonlinear buckling, as well as use the modeling techniques like submodeling. Using geometric nonlinearities ensures that your simulation accounts for effects like large strain and large deflections. Advanced contact technologies easily accounts for interactions between components. Modal analyses enables you to calculate natural frequencies and modal shapes. With steady-state and transient thermal analyses you can calculate conduction, convection and radiation effects.

Besides the flagship implicit solver technology and highly productive platform on which it is built, the ANSYS Mechanical Professional also includes the following tools: Fatigue Module

See detailed specifications of the software-pack in ANSYS 18.0 Capabilities Chart.


ANSYS DesignSpace

Source: www.ansys.com

 

ANSYS DesignSpace software is an easy-to-use simulation package that provides designers with tools to conceptualize, design and validate their ideas right on the desktop using the same solver technology as ANSYS Mechanical. With DesignSpace, you don’t need to have advanced analysis knowledge to perform real-world static structural and thermal, dynamic, weight optimization, vibration mode, and safety factor simulations.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS Explicit Dynamics STR

Source: www.ansys.com

 

ANSYS Explicit Dynamics STR, like ANSYS Mechanical, simulates the response of structures to loadings. Explicit Dynamics STR extends the capabilities of Mechanical to problems involving short-duration severe loading, large material deformation and material failure. The explicit solution method can handle geometries with complex nonlinear contact that may cause difficulty with the implicit solver in ANSYS Mechanical. It is an analysis system integrated within ANSYS Workbench, using the same familiar graphical user interface (GUI) as ANSYS Mechanical and other integrated analysis systems. If you already use ANSYS Mechanical, shifting to Explicit Dynamics STR is fairly quick, so you can produce results without a lot of learning effort.


ANSYS Autodyn

Source: www.ansys.com

 

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 lead the industry in ease of use, enabling you to produce accurate results with the least amount of effort and time.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS LS-DYNA

Source: www.ansys.com

 

ANSYS LS-DYNA simulates the response of materials to short-duration severe loading from crashes. It is the most commonly used explicit simulation program, best suited for the experienced and highly technical user. LS-DYNA’s many elements, contact formulations, material models and other controls can be used to simulate complex models with control over all the details of the problem. Its design maximizes user productivity, resulting in major savings in labor costs and project time. The software runs interactively, enabling you to spot errors early in the calculation. Models can be modified in the middle of a simulation to change, add or remove parts; the simulation can then be completed from that point, producing highly accurate results in a short period of time.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS nCode DesignLife

Source: www.ansys.com

 

ANSYS nCode DesignLife is an extension of ANSYS Mechanical for evaluating fatigue life. It uses the results of finite element analysis (FEA), from ANSYS Mechanical or other similar programs to calculate stresses and strains, then cumulates damage from exposure to repetitive loading to determine a product’s life. nCode DesignLife enables repeatable and reliable predictions of fatigue life. You can quickly evaluate the use of different materials and alternative geometries for new designs, and then optimize them for the product’s expected usage, long before the first prototype is built.


ANSYS Customization Toolkit – ACT

Source: www.ansys.com

 

With ANSYS ACT, you can create a customized simulation environment that enables your engineering team to capture and use expert knowledge, specialized processes, and best practices, improving productivity, efficiency and effectiveness. The software enables you to encapsulate APDL scripts, create custom menus and buttons to incorporate your company’s engineering knowledge, embed third-party applications, and create your own tools to manipulate simulation data.


ANSYS Composite PrepPost

Source: www.ansys.com

 

Engineering layered composites involves complex definitions that include numerous layers, materials, thicknesses and orientations. The engineering challenge is to predict how well the finished product will perform under real-world working conditions. Simulation is ideal for this when considering stresses and deformations as well as a range of failure criteria. ANSYS Composite PrepPost software provides all necessary functionalities for finite element analysis of layered composite structures.


ANSYS Rigid Body Dynamics

Source: www.ansys.com

 

Mechanical systems often contain complex assemblies of interconnected parts undergoing large overall motion: suspension assembles in ground vehicles, robotic manipulators in manufacturing processes and landing gear systems in aircraft, for example. Simulating the motion of these systems by assuming fully flexible parts and then deploying traditional finite elements methods for the solution is computationally expensive. For a faster, more efficient solution, the ANSYS Rigid Body Dynamics add-on module provides inexpensive, robust analysis of rigid multibody dynamics.


ANSYS Fatigue Module

Source: www.ansys.com

 

While many parts may work well initially, they often fail in service due to fatigue failure caused by repeated cyclic loading. The Fatigue Module enables you to perform fatigue analysis and determine the capability of a material to survive the many cycles a component may experience during its lifetime.


ANSYS Aqwa

Source: www.ansys.com

 

ANSYS Aqwa. Data will be uploaded soon…


ANSYS Simplorer

Source: www.ansys.com

 

ANSYS Simplorer. Data will be uploaded soon…


ANSYS multiphysics simulation software

Source: www.ansys.com

 

For complicated physics coupling phenomenon, 1-way or 2-way fluid-structure interaction with ANSYS AIM or ANSYS Multiphysics Platform.


ANSYS Multiphysics Platform

Source: www.ansys.com

 

Engineers using our flagship products can easily leverage the full breadth and depth of ANSYS physics in their multiphysics simulations. Industry-leading software from ANSYS enables engineers and scientists to simulate the interaction among structural mechanics, heat transfer, fluid flow and electromagnetics. Using ANSYS solutions, engineers gain the flexibility they need to perform multiphysics simulations at the level of fidelity and physics coupling they need to solve their problems and design their products. Solutions range from extended physics in flagship products, to one-way data transfer and mapping methods that “glue” physics together, to full two-way coupling for really complex interactions.


ANSYS AIM

Source: www.ansys.com

 

AIM extends the value of simulation beyond single design engineering disciplines by providing a full array of physics that is readily deployable across the organization. Whether a multiphysics simulation includes structures, fluids, thermal properties, or electromagnetics, all aspects of simulation workflow are supported in the single-window design, reducing the training and deployment costs typically associated with fragmented tool chains. Moreover, AIM’s all new simulation process paradigm guides engineers through multiphysics workflows that consider the interaction of physical phenomena, while automating tedious tasks to free-up engineering time and resources.

Besides the single-window designed simulation software ANSYS AIM license also includes the following tools: DesignXplorer, built in ANSYS SpaceClaim and 2 HPC cores.

See detailed specifications of the software in ANSYS 18.0 Capabilities Chart.


ANSYS Workbench platform software

Source: www.ansys.com

 

ANSYS Workbench platform. Data will be uploaded soon…


ANSYS Workbench

Source: www.ansys.com

 

ANSYS Workbench is the platform on which the market leader engineering software technology is built covering the widest industrial spectrum. The innovative interface places an overall view on the simulation process. It walks through the user even the most complex analysis, containing multiple physical phenomena, with the help of “drag-and-drop” techniques. Unprecedented efficiency and productivity are available to the user with the help of the two-way CAD connection; the efficient, automatic mesher; the refreshing mechanism covering the whole project; the project-level parametrisation and integrated optimization tools, giving wings to the simulation based product development.


ANSYS Meshing

Source: www.ansys.com

 

ANSYS Meshing is a general-purpose, intelligent, automated high-performance product. It produces the most appropriate mesh for accurate, efficient multiphysics solutions. A mesh well suited for a specific analysis can be generated with a single mouse click for all parts in a model. Full controls over the options used to generate the mesh are available for the expert user who wants to fine-tune it. The power of parallel processing is automatically used to reduce the time you have to wait for mesh generation.


ANSYS High Performance Computing – HPC

Source: www.ansys.com

 

ANSYS HPC specifically enables parallel processing for solution of the toughest, higher-fidelity models, including more geometric detail, larger systems and more complex physics. Using ANSYS HPC to understand detailed product behavior provides companies with confidence in the design and helps ensure that the product will succeed in the market. HPC also adds value by enabling greater simulation throughput. Using HPC resources, engineering teams can analyze not just a single design idea, but many design variations. By simulating multiple design ideas concurrently, R&D teams can identify dramatic engineering improvements early in the design process, prior to and more effectively than physical prototyping alone.


ANSYS SpaceClaim

Source: www.ansys.com

 

ANSYS SpaceClaim is a CAD neutral tool that enables anyone to create, edit, and repair geometry without worrying about underlying technology. With SpaceClaim, working with 3D modeling software becomes fast, easy, flexible, and rewarding, no matter where in the workflow you need it. ANSYS SpaceClaim allows you to work with any geometry no matter where it comes from. Using SpaceClaim, CAE drives product innovation and development from the start of the design process to accelerate time to analysis and increase efficiencies in product design/production.


ANSYS DesignXplorer

Source: www.ansys.com

 

ANSYS DesignXplorer is an integrated Workbench application that leverages the persistent and automated power of ANSYS Workbench for parametric analyses and easy to use multiphysics optimization. It enables you to explore, understand and optimize your design so you can apply simulation to drive product development. If you can set up a project in Workbench, it usually only takes a few extra clicks for DesignXplorer to be ready to optimize your design. DesignXplorer then produces charts and tables for interactive design exploration and sensitivity analysis. These help you understand your design space so that you can make better engineering decisions. Optimization algorithms enable the software to propose better designs.


ANSYS academic software

Source: www.ansys.com

 

ANSYS provides Academic products to educational partners to realize R&D and teaching purposes. Academic software features and capabilities are not less than commercial ones, but the combination of solvers and models is quite different.

Please contact us for more information and we will find the most suitable solution for you.


ANSYS Academic Associate

Source: www.ansys.com

 

These products may be used only for industry-related research, degree and/or nondegree-related research, student instruction, student projects and student demonstrations.

Please contact us for more information and we will find the most suitable solution for you.


ANSYS Academic Research

Source: www.ansys.com

 

These products may be used only for degree and/or nondegree-related research, student instruction, student projects and student demonstrations.

Please contact us for more information and we will find the most suitable solution for you.


ANSYS Academic Teaching

Source: www.ansys.com

 

These products may be used only for student instruction, student projects and student demonstrations.

Please contact us for more information and we will find the most suitable solution for you.


ANSYS Academic Toolbox

Source: www.ansys.com

 

These add-on products can be purchased with Academic licences, with which the add-on software follow the same terms of use as the purchasedt Academic Associate, Academic Research or Academic Teaching licence.

Please contact us for more information and we will find the most suitable solution for you.


ANSYS student software

Source: www.ansys.com

 

ANSYS Student is an introductory software package for engineering students who are interested in learning the fundamentals of simulation while gaining exposure to our state-of-the-art ANSYS Workbench simulation workflow, pre-processing, post-processing and solver products. The renewable six-month product license is free and can be downloaded and used by students anywhere in the world. It provides access to versions of ANSYS AIM, ANSYS Mechanical, ANSYS CFD, ANSYS Autodyn, ANSYS Workbench, ANSYS DesignModeler and ANSYS DesignXplorer that are limited only in the size of the problems that can be solved.

You can find more information and download the software from ANSYS Website.


ANSYS Student

Source: www.ansys.com

 

Data will be uploaded soon…

Important! The ANSYS Student license is for personal educational purposes. The analysis work performed with ANSYS Student must be non-proprietary, and the product may not be used for competitive analysis (such as benchmarking) or for any commercial work.

You can find more information and download the software from ANSYS Website.


AIM Student

Source: www.ansys.com

 

Data will be uploaded soon…

Important! The AIM Student license is for personal educational purposes. The analysis work performed with ANSYS Student must be non-proprietary, and the product may not be used for competitive analysis (such as benchmarking) or for any commercial work.

You can find more information and download the software from ANSYS Website.


TANDLER water & recycling management software

 
TANDLER csatornahidraulikai szoftverek

 

TANDLER is developing software for simulation of public utility networks what allows to model and analyse even a whole city’s system of utility duct. It enables to examine precipitation discharge or, by comparing the results of simulations and measurements, to investigate illegal junctions.


KANAL++

 

KANAL++ is an interactive, geo-scientific sewage data information system to cover all setting of tasks on design and management of drainage systems. Settlements, materials, tube profiles, shafts, special utilities, domestic junctions, hydraulic calculation results, estate value and damage data, partial water sheds connected or separated from the system, pictures and video streams used as background, all can be managed in this geo-scientific system. The software is created in C++ language and runs on 32 or 64 bit Windows NTR operation system. Programmers and engineers of Tandler are providing continuous user support.


AQUA++

 

AQUA++ is an interactive, geo-scientific data information system that enables to manage drinking water systems of settlements.

    • Great number of predefined elements (slides, valves…)
    • Standardized object attributes (layer coordinates, consumption…)
    • Composition of new attributes following individual requirements
    • Individually configurable evaluation criteria for the search of network elements
    • Automated declaration of average values, maxima, minima and sums
    • Display of the data in freely definable lists of results
    • Freely definable consumption and pump characteristic curves

CFD.HU self-developed software

 

Self-developed softwares of the CFD.HU Ltd. Coming soon…


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