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SAP2000 software has been in use for design and structural
analysis for over thirty years. Students and civil engineers and related
affairs worked at least once with this software. Each year, the Mac animals and maintaining
the software more simple and clear user interface, the complexity of calculations
and analyzes are added. The 3D graphics environment has made it easy for you to visualize your
designs and then do some sort of analysis on it.
This software provides all the necessary requirements for the designer and is used in the construction of the structures of this software in practice. Learning this software is very fast and does not require a long time to learn. Ready-made templates that are predicted in the software will enable you to simulate very complex designs. Special features are also provided for bridge designers. The new version of the software was released late March and the most expensive version is Advanced or Advanced. SAP2000 is the latest and strongest generation of Structural Analysis Program.
This software provides all the necessary requirements for the designer and is used in the construction of the structures of this software in practice. Learning this software is very fast and does not require a long time to learn. Ready-made templates that are predicted in the software will enable you to simulate very complex designs. Special features are also provided for bridge designers. The new version of the software was released late March and the most expensive version is Advanced or Advanced. SAP2000 is the latest and strongest generation of Structural Analysis Program.
Key features of the SAP2000
Ultimate software :
- Static and dynamic
analysis - Linear and nonlinear analysis including seismic analysis
- Load and truck
analysis for bridges - P-Analysis
- Structural elements SHELL and FRAME including column beam, truss and membrane behavior And shell
- nonlinear springs and connectors (LINK and SPRING)
- multiple coordinate systems
- different types of CONSTRAINT
- different types of loading
- high capacity
- and ...
- Static and dynamic
analysis - Linear and nonlinear analysis including seismic analysis
- Load and truck
analysis for bridges - P-Analysis
- Structural elements SHELL and FRAME including column beam, truss and membrane behavior And shell
- nonlinear springs and connectors (LINK and SPRING)
- multiple coordinate systems
- different types of CONSTRAINT
- different types of loading
- high capacity
- and ...
The SAP2000 follows in the same tradition featuring a very sophisticated,
intuitive and versatile user interface powered by an unmatched analysis engine
and design tools for engineers working on transportation, industrial, public
works, sports, and other facilities.
The SAP name has been synonymous with state-of-the-art analytical methods since its introduction over 30 years ago. The SAP2000 follows in the same tradition featuring a very sophisticated, intuitive and versatile user interface powered by an unmatched analysis engine and design tools for engineers working on transportation, industrial, public works, sports, and other facilities.
The SAP name has been synonymous with state-of-the-art analytical methods since its introduction over 30 years ago. The SAP2000 follows in the same tradition featuring a very sophisticated, intuitive and versatile user interface powered by an unmatched analysis engine and design tools for engineers working on transportation, industrial, public works, sports, and other facilities.
From its 3D object-based graphing modeling environment to a wide
variety of analysis and design options, fully integrated across one powerful
user interface, SAP2000 has proven to be the most integrated, productive and
practical general purpose structural program on the market today. This
intuitive interface allows you to create structured models quickly and
intuitively without long learning curve delays. Now you can use the power
of SAP2000 for all your analysis and design tasks, including small daily-to-day
problems. Complex Models can be generated and meshed with powerful built
in templates. Integrated design code features can automatically generate
wind, wave, bridge, and seismic loads with comprehensive automated steel and
concrete design code checks through US, Canadian and international design
standards.
Advanced analytical techniques allow for step-by-step large-deformation analysis, Eigen and Ritz analyzes based on stiffness of nonlinear cases, catenary cable analysis, material nonlinear analysis with fiber hinges, multi-layered nonlinear shell element, buckling analysis, progressive collapse analysis, energy methods for drift control, velocity-dependent dampers, base isolators, support plasticity and nonlinear segmental construction analysis. Nonlinear analyzes can be static and / or time history, with options for FNA nonlinear time history, dynamic analysis and direct integration.
From a simple small 2D static frame analysis to a large complex 3D nonlinear dynamic analysis, SAP2000 is the easiest, most productive solution for your structural analysis and design needs.
Features:
User Interface
One Window, Many Views
SAP2000 offers a single user interface to perform: Modeling, Analysis, Design, and Reporting.
Modeling
Templates
SAP2000 has a wide selection of templates for quickly starting a new model. SAP2000 includes parametric templates for the following types of structures: Simple Beams, 3D Trusses, 3D Frames, Storage Vessels, Staircases, Dam Structures, and Pipes.
Model Views
View and manipulate analytical and physical models with great precision. Easily define custom views and developed elevations to view and manipulate complex geometry with ease.
Grid Systems
In SAP2000, grids can be defined as cartesian or cylindrical. There is no limit to the number of grid systems in a model and they can be rotated in any direction or placed at any origin within the model.
Plans and Elevations The
plan and elevations views are generated automatically at each grid line to allow for quick navigation of the model. Users can create their own elevation sections using our Developed Elevation feature.
Interactive Database Editing
Interactive database editing allows users to edit the model data in a table view which simplifies the task of making changes to the model. Tables are easily exportable and importable from Microsoft Excel and Microsoft Access.
Meshing Tools
Engineers have many options when it comes to mesh generation in SAP2000. Simply select the area object and then select the rules for the automatic mesh generator to use.
Structural Components
Joints
SAP2000 automatically create joints at structural objects during meshing structural objects. Joint coordinates and information may be displayed on the screen in the model window or in tabular format.
Frames
The frame element uses a general, three-dimensional, beam-column formulation which includes the effects of biaxial bending, torsion, axial deformation, and biaxial shear deformations. SAP2000 has a built-in library of standard concrete, steel, and composite section properties of both US and International Standard sections.
Cables
The cable element is a highly nonlinear element used to model the catenary behavior of slender cables under their own self-weight. Tension-stiffening and large deflection nonlinearity are inherently included in the formulation.
Tendons
Tendons are easily drawn as independent objects, with geometry specified as straight lines, parabolas, circular curves, or other arbitrary shapes. Tendon loads, including all losses, are easily defined in SAP2000.
Shells
The shell element is a type of area object that is used to model membrane, plate, and shell behavior in planar and three-dimensional structures. The shell material may be homogeneous or layered throughout; material nonlinearity can also be considered when using the layered shell.
Solids
The solid element is an eight-node element for modeling three-dimensional structures and solids. It is based on an isoparametric formulation that includes nine optional noncompatible bending modes and is useful for modeling objects where loading, boundary conditions, section properties, or reactions vary in thickness.
Links
A link element can exhibit up to three different types of behavior: linear, nonlinear, and frequency dependent, according to the types of properties assigned to that element and the type of analysis being performed. The following link elements are available in SAP2000: Linear, Multi-linear Elastic, Multi-linear Plastic, Gaps, Hooks, Dampers, Friction Isolators, Rubber Isolators, T / C Isolators, Frequency-dependent Springs, and Frequency-dependent Dampers.
Hinge
Users can create and apply hinge properties to perform pushover analyzes in SAP2000. Nonlinear material behavior in frame elements (beam / column / brace) can be modeled using fiber hinges. This approach represents the material in the cross section as a discrete point, each following the exact stress-strain curves of the material. Mixed materials, such as reinforced concrete and complex shapes can be represented.
Springs
Spring supports are link elements that are used to elastically connect joints to the ground and can be linear or nonlinear in nature. Nonlinear support conditions can be modeled to include gaps (compression only), multi-linear elastic or plastic springs, viscous dampers, and base isolators.
Loading
Automatic Code Based Loading
SAP2000 will automatically generate and apply seismic and wind loads based on various domestic and international codes. SAP2000 also has a sophisticated moving load generator, which allows users to apply moving loads to lanes on frame and shell elements.
Wave Loads
The wave-loading feature automatically generates loading on the structure resulting from waves, current flow, buoyancy, and wind. Multi-stepped static linear loading can be generated to simulate the wave moving through the structure. In addition, dynamic (time-history) loading can also be generated to include inertial effects as the wave moves through the structure.
User Loads
Define specific loads to model a wide array of loading conditions with SAP2000 built-in user loading options.
Analysis
Overview
CSI Solvers have been tried and tested by the industry for over 35 years. The SAPFire Analysis Engine can support multiple 64-bit solvers for analysis optimization and perform both Eigen Analysis and Ritz Analysis.
Static
SAP2000 can perform both linear static and multi-step static analysis. The linear static analysis of a structure involves the solution of the system of linear equations represented by K u = r. Certain types of load patterns are multi-stepped, meaning that they actually represent many separate space loading patterns applied sequentially. These include vehicle, live, and wave types of load patterns.
Dynamic
SAP2000 dynamic analysis capabilities include the calculation of vibration modes using Ritz or Eigen vectors, response-spectrum analysis, and time-history analysis for both linear and nonlinear behavior.
Buckling
Linear (bifurcation) buckling modes of a structure can be found under any set of loads. Buckling can be calculated from a nonlinear or staged-state state. Full nonlinear buckling analysis is also available considering P-delta or large deflection effects. Snap-through buckling behavior can be captured using static analysis with displacement control. Dynamic analysis can be used to model more complex buckling, such as follower-load problems.
P-Delta
P-delta analysis captures the softening effect of compression and the stiffening effect of tension. A single P-delta analysis under gravity and sustained loads can be used to modify the stiffness for linear load cases, which can later be superposed. Alternatively, each combination of loads can be analyzed for full nonlinear P-delta effects. P-delta effects are included for all elements and are seamlessly integrated into analysis and design.
Pushover
Pushover analysis features in SAP2000 include the implementation of FEMA 356 and the hinge and fiber hinge option based on stress-strain. The nonlinear layered shell element allows users to consider the plastic behavior of concrete shear walls, slabs, steel plates, and other finite element elements in the pushover analysis. Force-Deformation relations are defined for the steel and concrete hinges.
Time Dependent
Stage construction is a type of nonlinear analysis in SAP2000 that allows you to define a sequence of stages in which you can add or remove parts of the structure, selectively apply the load to the portions of the structure, and consider the time-dependent material behavior such as aging, creep, and shrinkage.
Power Spectral Density
Power-spectral-density analysis is available to determine the probabilistic response of a structure due to cyclic (harmonic, sinusoidal) loading over a range of frequencies. This is useful for fatigue studies, random response due to earthquakes, and other applications. Multiple loads can be applied at different phase angles, and may be correlated or uncorrelated.
Steady state
Steady state analysis is available to determine the response of the structure due to cyclic (harmonic, sinusoidal) loading over a range of frequencies. Frequency-dependent stiffness and damping (complex impedance) properties may be included for modeling foundations and far-field effects, including radiation damping. Steady state analysis can be used to measure the effects of multiple machines operating at different frequencies by combining the results of several analyzes in the same model.
Target Force
During nonlinear static analysis, the cable and frame elements can be automatically strained to achieve the specified target axial force values. This is most commonly used to tighten cables to pre-specified tensions, but it can also be used to structure structures with a specific force using frame elements, as well as other applications.
Load Combinations
SAP2000 allows for an unlimited number of load cases and combinations. Load combinations include: linear additive, envelope (min / max), absolute add, SRSS, and range combinations. Combination components can include other combinations.
Model Alive
For small to medium sized structures, the analysis can be performed on the fly as you build and modify the model. For each change you make to geometry, properties, or loading, the structure instantly responds with the new deformed shape, moment diagram or any other plot of results. It's like working with a live model, and it's a very powerful tool for conceptual design and for testing "what-if" scenarios.
Steel Frame
Fully integrated steel frame design includes member size optimization and implementation of design codes. SAP2000 allows users to interactively view design results in any frame member, change the parameters or section properties, and display updated member results.
Concrete Frame
Fully integrated concrete frame design in SAP2000 includes: required area of steel calculations, auto selection lists for new member sizing, implementation of design codes, interactive design and review, and comprehensive overwriting capabilities.
Deformed Geometry
Users can display deformed geometry based on any load or combination of loads, as well as animations of modes.
Force Diagrams
Shear and moment diagrams show the internal shear forces, moments, and displacements at all locations along the length of a frame element for any load case or load combination. SAP2000 gives you the option to scroll along the length to display values or scroll directly to the maximum value location.
General Displacement
Arbitrary displacement measures can be defined using generalized displacements. These are linear combinations of joint translations and rotations, and can be used to calculate averages, drifts, and other quantities of interest. The generalized displacement output can be obtained for all types of analysis cases and combinations.
Section Cuts
The resulting (free-body) forces and moments across any cut in the structure can be defined using sections cuts. A section cut can have any shape, and can be used to compute story shears, connecting forces, design forces in shear walls, and for many other purposes. Section cut results can be obtained for all types of load cases and combinations.
Virtual Work Diagrams
In SAP2000, virtual work diagrams can be used as an aid to determine which elements should be stiffened to achieve the most effective control over the lateral displacements of a structure.
Influence Lines
SAP2000 uses the impact lines to calculate response to vehicle live loads. Influence lines are also of interest in their own right to understand the sensitivity of various response quantities to moving loads. Influence lines can be displayed in the user interface for any element in the structure displacement, force, or stress response.
Tabular Output
SAP2000 has the ability to display tables for all input data, analysis results, and design results. Tables support sort, cut, copy and paste for use in other programs. Print or save tabular data to Access, Excel, Word, HTML, or TEXT.
Video Animations
SAP2000 has the ability to generate video (.avi) files to visually display a set of analytical results that vary over a specific time period, such as in time history analysis.
Reporting
Quick Report
Pre-formatted print reports are now available at the push of a button. These reports include all relevant model data and the results of analysis and design. The data is presented in tabulated format, along with a graphic representation, a table of contents, and a cover page displaying the project information and your company name and logo.
Advanced Report Writer
The Advanced Report Writer is a robust utility that can be used to create sophisticated reports of the SAP2000 model. These reports are fully customizable; companies can define and save complex template files to standardize the analysis and design report generation.
Tools
Load Optimizer
The load optimizer is a tool in SAP2000 to calculate the optimal load application to achieve the desired structural response. Loads can be applied linearly, nonlinearly, or in staged-construction. Goals and limits can include displacements, forces, moments, and more.
Section Designer
Section Designer is a utility that is built into SAP2000. It allows users to create specialized sections of any arbitrary shape and material, including rebar layouts. All sections properties, biaxial interaction diagrams, and moment curvature diagrams are automatically calculated.
Import and Export
Supported Formats
SAP2000 supports many industry standards for importing and exporting data. Autodesk Revit Structure, Tekla Structures, AutoCAD (DXF / DWG), CIS / 2, IFC, IGES, and SDNF are all supported. SAP2000 also supports exporting a model to a Microsoft Access database. If users are using other analysis packages, SAP2000 can import files from FrameWorks Plus, STAAD, and STRUDL.
Advanced analytical techniques allow for step-by-step large-deformation analysis, Eigen and Ritz analyzes based on stiffness of nonlinear cases, catenary cable analysis, material nonlinear analysis with fiber hinges, multi-layered nonlinear shell element, buckling analysis, progressive collapse analysis, energy methods for drift control, velocity-dependent dampers, base isolators, support plasticity and nonlinear segmental construction analysis. Nonlinear analyzes can be static and / or time history, with options for FNA nonlinear time history, dynamic analysis and direct integration.
From a simple small 2D static frame analysis to a large complex 3D nonlinear dynamic analysis, SAP2000 is the easiest, most productive solution for your structural analysis and design needs.
Features:
User Interface
One Window, Many Views
SAP2000 offers a single user interface to perform: Modeling, Analysis, Design, and Reporting.
Modeling
Templates
SAP2000 has a wide selection of templates for quickly starting a new model. SAP2000 includes parametric templates for the following types of structures: Simple Beams, 3D Trusses, 3D Frames, Storage Vessels, Staircases, Dam Structures, and Pipes.
Model Views
View and manipulate analytical and physical models with great precision. Easily define custom views and developed elevations to view and manipulate complex geometry with ease.
Grid Systems
In SAP2000, grids can be defined as cartesian or cylindrical. There is no limit to the number of grid systems in a model and they can be rotated in any direction or placed at any origin within the model.
Plans and Elevations The
plan and elevations views are generated automatically at each grid line to allow for quick navigation of the model. Users can create their own elevation sections using our Developed Elevation feature.
Interactive Database Editing
Interactive database editing allows users to edit the model data in a table view which simplifies the task of making changes to the model. Tables are easily exportable and importable from Microsoft Excel and Microsoft Access.
Meshing Tools
Engineers have many options when it comes to mesh generation in SAP2000. Simply select the area object and then select the rules for the automatic mesh generator to use.
Structural Components
Joints
SAP2000 automatically create joints at structural objects during meshing structural objects. Joint coordinates and information may be displayed on the screen in the model window or in tabular format.
Frames
The frame element uses a general, three-dimensional, beam-column formulation which includes the effects of biaxial bending, torsion, axial deformation, and biaxial shear deformations. SAP2000 has a built-in library of standard concrete, steel, and composite section properties of both US and International Standard sections.
Cables
The cable element is a highly nonlinear element used to model the catenary behavior of slender cables under their own self-weight. Tension-stiffening and large deflection nonlinearity are inherently included in the formulation.
Tendons
Tendons are easily drawn as independent objects, with geometry specified as straight lines, parabolas, circular curves, or other arbitrary shapes. Tendon loads, including all losses, are easily defined in SAP2000.
Shells
The shell element is a type of area object that is used to model membrane, plate, and shell behavior in planar and three-dimensional structures. The shell material may be homogeneous or layered throughout; material nonlinearity can also be considered when using the layered shell.
Solids
The solid element is an eight-node element for modeling three-dimensional structures and solids. It is based on an isoparametric formulation that includes nine optional noncompatible bending modes and is useful for modeling objects where loading, boundary conditions, section properties, or reactions vary in thickness.
Links
A link element can exhibit up to three different types of behavior: linear, nonlinear, and frequency dependent, according to the types of properties assigned to that element and the type of analysis being performed. The following link elements are available in SAP2000: Linear, Multi-linear Elastic, Multi-linear Plastic, Gaps, Hooks, Dampers, Friction Isolators, Rubber Isolators, T / C Isolators, Frequency-dependent Springs, and Frequency-dependent Dampers.
Hinge
Users can create and apply hinge properties to perform pushover analyzes in SAP2000. Nonlinear material behavior in frame elements (beam / column / brace) can be modeled using fiber hinges. This approach represents the material in the cross section as a discrete point, each following the exact stress-strain curves of the material. Mixed materials, such as reinforced concrete and complex shapes can be represented.
Springs
Spring supports are link elements that are used to elastically connect joints to the ground and can be linear or nonlinear in nature. Nonlinear support conditions can be modeled to include gaps (compression only), multi-linear elastic or plastic springs, viscous dampers, and base isolators.
Loading
Automatic Code Based Loading
SAP2000 will automatically generate and apply seismic and wind loads based on various domestic and international codes. SAP2000 also has a sophisticated moving load generator, which allows users to apply moving loads to lanes on frame and shell elements.
Wave Loads
The wave-loading feature automatically generates loading on the structure resulting from waves, current flow, buoyancy, and wind. Multi-stepped static linear loading can be generated to simulate the wave moving through the structure. In addition, dynamic (time-history) loading can also be generated to include inertial effects as the wave moves through the structure.
User Loads
Define specific loads to model a wide array of loading conditions with SAP2000 built-in user loading options.
Analysis
Overview
CSI Solvers have been tried and tested by the industry for over 35 years. The SAPFire Analysis Engine can support multiple 64-bit solvers for analysis optimization and perform both Eigen Analysis and Ritz Analysis.
Static
SAP2000 can perform both linear static and multi-step static analysis. The linear static analysis of a structure involves the solution of the system of linear equations represented by K u = r. Certain types of load patterns are multi-stepped, meaning that they actually represent many separate space loading patterns applied sequentially. These include vehicle, live, and wave types of load patterns.
Dynamic
SAP2000 dynamic analysis capabilities include the calculation of vibration modes using Ritz or Eigen vectors, response-spectrum analysis, and time-history analysis for both linear and nonlinear behavior.
Buckling
Linear (bifurcation) buckling modes of a structure can be found under any set of loads. Buckling can be calculated from a nonlinear or staged-state state. Full nonlinear buckling analysis is also available considering P-delta or large deflection effects. Snap-through buckling behavior can be captured using static analysis with displacement control. Dynamic analysis can be used to model more complex buckling, such as follower-load problems.
P-Delta
P-delta analysis captures the softening effect of compression and the stiffening effect of tension. A single P-delta analysis under gravity and sustained loads can be used to modify the stiffness for linear load cases, which can later be superposed. Alternatively, each combination of loads can be analyzed for full nonlinear P-delta effects. P-delta effects are included for all elements and are seamlessly integrated into analysis and design.
Pushover
Pushover analysis features in SAP2000 include the implementation of FEMA 356 and the hinge and fiber hinge option based on stress-strain. The nonlinear layered shell element allows users to consider the plastic behavior of concrete shear walls, slabs, steel plates, and other finite element elements in the pushover analysis. Force-Deformation relations are defined for the steel and concrete hinges.
Time Dependent
Stage construction is a type of nonlinear analysis in SAP2000 that allows you to define a sequence of stages in which you can add or remove parts of the structure, selectively apply the load to the portions of the structure, and consider the time-dependent material behavior such as aging, creep, and shrinkage.
Power Spectral Density
Power-spectral-density analysis is available to determine the probabilistic response of a structure due to cyclic (harmonic, sinusoidal) loading over a range of frequencies. This is useful for fatigue studies, random response due to earthquakes, and other applications. Multiple loads can be applied at different phase angles, and may be correlated or uncorrelated.
Steady state
Steady state analysis is available to determine the response of the structure due to cyclic (harmonic, sinusoidal) loading over a range of frequencies. Frequency-dependent stiffness and damping (complex impedance) properties may be included for modeling foundations and far-field effects, including radiation damping. Steady state analysis can be used to measure the effects of multiple machines operating at different frequencies by combining the results of several analyzes in the same model.
Target Force
During nonlinear static analysis, the cable and frame elements can be automatically strained to achieve the specified target axial force values. This is most commonly used to tighten cables to pre-specified tensions, but it can also be used to structure structures with a specific force using frame elements, as well as other applications.
Load Combinations
SAP2000 allows for an unlimited number of load cases and combinations. Load combinations include: linear additive, envelope (min / max), absolute add, SRSS, and range combinations. Combination components can include other combinations.
Model Alive
For small to medium sized structures, the analysis can be performed on the fly as you build and modify the model. For each change you make to geometry, properties, or loading, the structure instantly responds with the new deformed shape, moment diagram or any other plot of results. It's like working with a live model, and it's a very powerful tool for conceptual design and for testing "what-if" scenarios.
Steel Frame
Fully integrated steel frame design includes member size optimization and implementation of design codes. SAP2000 allows users to interactively view design results in any frame member, change the parameters or section properties, and display updated member results.
Concrete Frame
Fully integrated concrete frame design in SAP2000 includes: required area of steel calculations, auto selection lists for new member sizing, implementation of design codes, interactive design and review, and comprehensive overwriting capabilities.
Deformed Geometry
Users can display deformed geometry based on any load or combination of loads, as well as animations of modes.
Force Diagrams
Shear and moment diagrams show the internal shear forces, moments, and displacements at all locations along the length of a frame element for any load case or load combination. SAP2000 gives you the option to scroll along the length to display values or scroll directly to the maximum value location.
General Displacement
Arbitrary displacement measures can be defined using generalized displacements. These are linear combinations of joint translations and rotations, and can be used to calculate averages, drifts, and other quantities of interest. The generalized displacement output can be obtained for all types of analysis cases and combinations.
Section Cuts
The resulting (free-body) forces and moments across any cut in the structure can be defined using sections cuts. A section cut can have any shape, and can be used to compute story shears, connecting forces, design forces in shear walls, and for many other purposes. Section cut results can be obtained for all types of load cases and combinations.
Virtual Work Diagrams
In SAP2000, virtual work diagrams can be used as an aid to determine which elements should be stiffened to achieve the most effective control over the lateral displacements of a structure.
Influence Lines
SAP2000 uses the impact lines to calculate response to vehicle live loads. Influence lines are also of interest in their own right to understand the sensitivity of various response quantities to moving loads. Influence lines can be displayed in the user interface for any element in the structure displacement, force, or stress response.
Tabular Output
SAP2000 has the ability to display tables for all input data, analysis results, and design results. Tables support sort, cut, copy and paste for use in other programs. Print or save tabular data to Access, Excel, Word, HTML, or TEXT.
Video Animations
SAP2000 has the ability to generate video (.avi) files to visually display a set of analytical results that vary over a specific time period, such as in time history analysis.
Reporting
Quick Report
Pre-formatted print reports are now available at the push of a button. These reports include all relevant model data and the results of analysis and design. The data is presented in tabulated format, along with a graphic representation, a table of contents, and a cover page displaying the project information and your company name and logo.
Advanced Report Writer
The Advanced Report Writer is a robust utility that can be used to create sophisticated reports of the SAP2000 model. These reports are fully customizable; companies can define and save complex template files to standardize the analysis and design report generation.
Tools
Load Optimizer
The load optimizer is a tool in SAP2000 to calculate the optimal load application to achieve the desired structural response. Loads can be applied linearly, nonlinearly, or in staged-construction. Goals and limits can include displacements, forces, moments, and more.
Section Designer
Section Designer is a utility that is built into SAP2000. It allows users to create specialized sections of any arbitrary shape and material, including rebar layouts. All sections properties, biaxial interaction diagrams, and moment curvature diagrams are automatically calculated.
Import and Export
Supported Formats
SAP2000 supports many industry standards for importing and exporting data. Autodesk Revit Structure, Tekla Structures, AutoCAD (DXF / DWG), CIS / 2, IFC, IGES, and SDNF are all supported. SAP2000 also supports exporting a model to a Microsoft Access database. If users are using other analysis packages, SAP2000 can import files from FrameWorks Plus, STAAD, and STRUDL.
More info (open / close)
required system
Processor
- Minimum: Intel Pentium 4 or AMD Athlon 64
- Recommended: Intel Core 2 Duo, AMD Athlon 64 X2, or better
- A CPU that has SSE2 support is required
- The SAPFire® Analytical Engine includes a multi-threaded solver that can take advantage of multi-core CPUs
Operating System
- Microsoft® Windows Vista, Microsoft® Windows 7, Microsoft® Windows 8, or Microsoft® Windows 10, 32- and 64-bit versions
- With a 64-bit operating system, the SAPFire® Analytical Engine can utilize more than 4 GB of RAM, making it possible to more effectively solve larger problems
Video Card
- Minimum: Supporting 1024 by 768 resolution and 16 bits colors for standard (GDI +) graphics mode
- Recommended: Discrete video card with NVIDIA GPU or equivalent and dedicated graphics RAM (512 Mb or greater) for DirectX graphics mode. The card must be DirectX 9.0c compatible (DirectX SDK Aug. 2009 - Build 9.27.1734.0).
- DirectX graphics mode fully utilizes the hardware acceleration provided by a GPU and dedicated graphics RAM.
- For better graphics quality in terms of anti-aliasing and line thickness, the device's raster drawing capabilities should support legacy depth bias.
Memory
- Minimum: 3 GB for 32-bit O / S and 4 GB for 64-bit O / S
- Recommended: 4 GB for 32-bit O / S and 8 GB for 64-bit O / S
- The problem of size that can be solved and the solution speed increase significantly with more RAM
Disk Space
- 6 GB to install the software.
- Recommended: 500GB or larger Hard Disk Drive (7200 rpm SATA)
- Additional space required for running and storing model files and analysis results, depending on the size of the models
- Minimum: Intel Pentium 4 or AMD Athlon 64
- Recommended: Intel Core 2 Duo, AMD Athlon 64 X2, or better
- A CPU that has SSE2 support is required
- The SAPFire® Analytical Engine includes a multi-threaded solver that can take advantage of multi-core CPUs
Operating System
- Microsoft® Windows Vista, Microsoft® Windows 7, Microsoft® Windows 8, or Microsoft® Windows 10, 32- and 64-bit versions
- With a 64-bit operating system, the SAPFire® Analytical Engine can utilize more than 4 GB of RAM, making it possible to more effectively solve larger problems
Video Card
- Minimum: Supporting 1024 by 768 resolution and 16 bits colors for standard (GDI +) graphics mode
- Recommended: Discrete video card with NVIDIA GPU or equivalent and dedicated graphics RAM (512 Mb or greater) for DirectX graphics mode. The card must be DirectX 9.0c compatible (DirectX SDK Aug. 2009 - Build 9.27.1734.0).
- DirectX graphics mode fully utilizes the hardware acceleration provided by a GPU and dedicated graphics RAM.
- For better graphics quality in terms of anti-aliasing and line thickness, the device's raster drawing capabilities should support legacy depth bias.
Memory
- Minimum: 3 GB for 32-bit O / S and 4 GB for 64-bit O / S
- Recommended: 4 GB for 32-bit O / S and 8 GB for 64-bit O / S
- The problem of size that can be solved and the solution speed increase significantly with more RAM
Disk Space
- 6 GB to install the software.
- Recommended: 500GB or larger Hard Disk Drive (7200 rpm SATA)
- Additional space required for running and storing model files and analysis results, depending on the size of the models
Specifications
Manufacturer: Computers and
Structures, Inc
File Size: 603 + 577 MB Release Date: 14:34 - 1397/2/17 | 2018.05.07 Source: PC Download / www.p30download.ir Rating:
File Size: 603 + 577 MB Release Date: 14:34 - 1397/2/17 | 2018.05.07 Source: PC Download / www.p30download.ir Rating:
Installation guide
1. Install the software and close
it if it is executed.
2. Block software access to the Internet through a firewall. ( Learn how to avoid connecting an application to the Internet.)
3. Run the Keygen.exe file; a license file is created (usually called lservrc without extensions) that should be located at the software installation location.
4. Run the software.
2. Block software access to the Internet through a firewall. ( Learn how to avoid connecting an application to the Internet.)
3. Run the Keygen.exe file; a license file is created (usually called lservrc without extensions) that should be located at the software installation location.
4. Run the software.
download links
File password
www.p30download.com
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