Detail of  CSI Safe 22.1.0.2728:

CSI SAFE (Structural Analysis and Design of Foundations) is an industry leading software developed by Computers and Structures, Inc. (CSI), specifically designed for the analysis and design of reinforced concrete slabs and foundations. It caters to structural engineers seeking efficient tools for modeling, analyzing, and designing complex foundation systems.Whether dealing with flat slabs, mat foundations, or post-tensioned systems, CSI SAFE ensures reliable and accurate results.The software offers a seamless workflow with its intuitive, user-friendly interface. Engineers can easily define geometry, material properties, and load conditions while benefiting from detailed finite element analysis.

CSI SAFE Free Download supports various load combinations, ensuring that both structural safety and economic considerations are met. The program also provides in-depth reinforcement detailing, allowing engineers to create designs that comply with international building codes.

One of the standout features of CSI Safe Portable is its powerful integration with other CSI programs like ETABS and SAP2000. This interoperability allows users to share models and data between programs, streamlining the design process for multi-level structures that involve both superstructure and foundation systems. As a result, the software is ideal for large-scale projects and complex building designs.

Widely adopted by civil and structural engineers around the world, CSI SAFE with Full Version offers robust, reliable solutions that ensure buildings are not only designed for maximum safety but also optimized for performance and cost-efficiency. Its advanced analysis capabilities and comprehensive design tools make it an indispensable part of any structural engineer’s toolkit.

Feature of CSI Safe 22.1.0.2728:

• User Interface
  • Multiple Views from One Window
    • For the purposes of modeling, analysis, design, and reporting, SAFE provides a single user interface. There is a new model explorer that allows you to quickly access forms, properties, and objects.
• Modeling
  • Sketching Instruments
    • SAFE comes with a ton of drawing and drafting tools to improve the engineer’s modeling experience. There are also several of the typical shortcuts and controls used by the industry.
      One feature image, two features images, and three features images.
  • Sensible Snaps
    • By automatically identifying intersections, extensions, parallels, and perpendiculars, intelligent snaps simplify the process of creating models. Even in analytical draw mode, drawing aids will display physical extrusions.
  • Structure Tracing
    • To create slab geometry, architectural DXF or DWG files may be loaded into the backdrop and utilized as tracing paper. Alternatively, a right-button click will instantly transform the architectural shape into a SAFE structural entity.
  • Models
    • In order to facilitate the early start of a new model, SAFE provides a range of templates, such as basemats, composite floors, waffle slabs, ribbed slabs, composite floors, and single or combination footings.
  • Views of the Model
    • View and control models with extreme accuracy.
      One feature image, two features images, and three features images.
  • Actual Model
    • Objects that reflect the actual structural parts make up the physical model. Insertion points, member orientations, object intersections, and other geometric information collected by the object model are appropriately shown in physical model views.
  • Model Analysis
    • The finite element model of the structure, which is composed of the connections between the joints, frames, shells, and prescribed meshing, is shown in analytical model views. The model, together with its parameters and assignments, automatically generates the analytical model when the analysis is performed.
  • Grid-Based Systems
    • Grids in SAFE may be classified as generic free-form, cylindrical, or cartesian grid systems. The quantity of grid systems that may be included in a model is infinite, and they can be positioned at any origin or rotated in any direction.
  • Editing Databases Interactively
    • Model data may be changed from a table view using interactive database editing, which streamlines the process of making changes to the model. Tables from Microsoft Access and Excel may be readily imported and exported.
  • Meshing Based on Objects
    • Using the set maximum element size as a guide, object-based meshing creates meshes that are generally quadrilateral in nature, with the ability to shift to triangular components as required.
  • Lines of Dimension
    • On the SAFE model, dimension lines may be created in decimal or architectural units. They are connected to the item that is being referenced so that the dimension line will adjust in accordance with the object’s size.
• Anatomical Elements
  • Basemats, Footings, and Foundations
    • SAFE is perfect for footings, basemats, and foundation models. Uplift analysis makes it simple to develop soil supports and zero tension soil models. Soil supports are assigned an area depending on the subgrade modulus and are automatically adjusted when the mesh is modified. In addition to the foundation area, basemat foundation models may also incorporate walls, piles, columns, beams, and pedestals.
  • Ramps and Walls
    • Ramps and walls may be explicitly represented using wall components, or they can be treated as line loads or line supports. To avoid slab deformations at the wall or ramp position, define ridge zones.
  • Insertion Points
    • Column and beam offsets are defined by insertion points. They may be defined based on user-specified dimensions or on fast SAFE-defined cardinal points.
  • Columns
    • In SAFE, columns with user-defined attributes may be circular, T-shaped, L-shaped, rectangular, or any other form. It is possible to designate rigid zones to stop slab deformations at column sites. Addition of drop panels is simple at column capitals.
  • Spring Assists
    • Soil supports are defined in terms of spring supports. They may be classified as tension-only or compression-only, and as points, lines, or regions.
  • Style Strips
    • Design strips are used to provide the formula for calculating the amount of reinforcement required. You have the option to specify the strips manually or have SAFE create them automatically.
  • Strips for General Design
    • SAFE supports multiple segments, non-orthogonal, orthogonal, and variable width design strips.
  • Automated Breadth Strips
    • SAFE may automatically calculate design strip widths, or for more complicated designs, the widths can be manually set.
  • P/T, or post-tensioning
    • One feature of SAFE is its ability to specify post-tensioning in slabs as tendons that are dispersed or banded.
  • P/T Synopsis
    • The process of organizing the tendon profiles is made easier using an interactive tendon editor. Tendon orientation and location may also be used to automate tendon layouts.
  • Layout and Autostrip
    • SAFE has built-in templates for quickly defining a strip-based tendon arrangement. For predetermined precompression and balancing ratios, there exist automated profiles.
  • Helplines
    • Faster modeling of tendon arrangement and design strips is made possible by support lines. They may be automatically created following grid lines, or they can be sketched and altered on screen.
  • Panel Slabs
    • Slab panels may be user-drawn or automatically created using support lines or grids. They may be used to provide mid-panel displacements and soil-pressure summaries, as well as to apply live load for load-pattern analysis. They are placed above the floor system.
• Filling up
  • Diagrams for loading
    • Display the loads on your SAFE model in both 2D and 3D perspectives. Show color-contoured area loading diagrams with loading values; alternatively, you may receive instantaneous loading values by dragging the mouse across different areas of your model.
  • Cases of Loading and Combinations
    • An infinite number of load scenarios and combinations are supported by SAFE. Based on the chosen design code, design combinations—including strength and service combinations—will be added automatically. The load combination editor has built-in SRSS, range, envelope, linear additive, and absolute additive features for efficiency.
  • Area, Line, and Point Loads
    • Single points or point loads on lines or regions are examples of point loads. Punching shear load sizes are included in point loads. Line loads are classified as either trapezoidal or uniform. Surface loads that are homogeneous or non-uniform may be categorized as area loads.
  • Live Auto-Pattern Loads
    • Live loading with auto-patterns are patterns that are created automatically using slab panels. The Range Add load combination is merged with the results from each “single panel.” Live loading with user-defined patterns are also possible.
  • Losses and Loads in Tendons
    • Tendon loads and losses are computed and specified with ease using SAFE. Users have the option to specify jacking from one or both tendon ends. It converts the given jacking tension to load. Loss calculations may be made using more precise computations, user-defined stress values, or a force percentage.
•  Evaluation
  • Summary
    • The industry has been using CSI solvers for more than 45 years. The SAPFire Analysis Engine is capable of performing Ritz analysis as well as eigen analysis and supports several 64-bit solvers for analysis optimization. There are alternatives for parallelization to make use of several processors.
  • Deflection Management
    • A nonlinear analysis or a long-term cracking analysis that accounts for concrete creep and shrinkage may be used to manage deflection.
  • Mechanisms
    • Ritz or Eigen vectors may be used for dynamic studies. It is possible to import response spectrum loads and modes straight from ETABS.
• Art Direction
  • Design of Composite Beams
    • It is possible to sketch and assign design to horizontal steel beams that support either full or unfilled steel decks. It is possible to create beams with web apertures, such as cellular and castellated beams. Design may be applied to the model in its whole or interactively to certain parts.
  • Design Based on Strips
    • SAFE will determine the minimal area, intensity, or bar count needed for reinforcing. There will be many stations where design work is done. Non-orthogonal design strips come in different widths.
  • Design of Slabs Using FEM
    • Design strips are not necessary for design based on finite elements. It works well for complicated geometries where it might be difficult to define strips. The rebar density contour plots will be produced by the design by averaging the peaks across user-specified widths. Finding “hot spots” for strengthening design is aided by this.
  • Beam Structure
    • In accordance with the minimum reinforcing requirements specified by code, SAFE designs both conventional and post-tensioned concrete beams. In design, flexure, shear, and torsion are all taken into account.
  • Shear Check Punching
    • Column position, apertures, and slab edges are taken into account in SAFE’s punching shear check and design. Additionally, SAFE will verify drop panels one more time and, if necessary, create shear studs or punch reinforcing ties.
  • Checks for Post-Tensioning Stress
    • Stress tests after post-tensioning are carried out for transfer, final, and long-term conditions. Users may mouse over the contours of the demand capacity ratio and slab stress top/bottom to see immediate figures shown by SAFE.
  • Codes of Design
    • SAFE provides a broad range of code-based design elements for composite steel beams, slab design, and reinforced concrete and PT beams. See the complete list of compatible Design Codes.
• Display and Output
  • Distorted geometry
    • Deformed geometry is seen after the analysis has been completed. Values are shown as soon as the model is hovered over. Contour plots, either filled or line, may be used to depict the distorted geometry.
  • Force Schematics
    • Show axial force, shear, moment, torsion, and stress diagrams in both 2D and 3D perspectives on beams or strips for single load situations or combinations. The values at the minimum and maximum will be automatically presented. It is possible to show force diagrams for any component.
  • Shell Shapes
    • Show contour plots of force, moment, shear, and stress in both 2D and 3D perspectives according to a certain load scenario or load combination.
      One feature image, two features images, and three features images.
  • Diagrams of Shell Contour
    • Shell contours may be shown as stress contour plots or as load flow arrows.
  • Putting Pressure on
    • Indicate the kind of response by displaying it as soil pressures, point reactions, or net/point wall reactions.
  • Diagrams of Reactions
    • Show specific response components as vectors and values, or as movable tables, for load situations and combinations.
  • Animations and Pictures
    • Capture photos as EMF, BMP, JPG, TIF, GIF, or PNG and include them in your client reports to showcase your work. Animations may also be captured on video and saved as AVI files using SAFE.
  • Views that are rendered
    • Based on the SAFE detailed rebar layouts, display and record accurate model views in a 3D perspective, including rebar cages.
  • Cuts in Sections
    • To rapidly show the resulting forces and moments aggregated across the sliced items, section cuts may be visually displayed.
  • Table-Based Results
    • Using the SAFE user interface, see database tables with all of the input data, analytical findings, and design outcomes in a tabular manner. The table data may be printed or saved in Microsoft Access, Excel, XML, or text formats. Users can also filter, sort, and query the data.
• Documentation
  • Creation of Reports
    • An indexed table of contents, details on model definition, and tabular analysis and design findings are some of the characteristics of the report generator. You may completely customize the report production process to just contain the material you want.
• Bringing in and Sending Out
  • Accepted Formats
    • Import ETABS and SAP2000 models. It is possible to import any loads, geometry, section characteristics, or wall deformations. Geometry and result graphs may be imported and exported from DXF or DWG files. SAFE may be used with Autodesk Revit® as well.
      Find out how CSI solutions interface with other BIM programs to provide open, integrated, and productive design processes.
      Because CSI software is compatible with other BIM programs, it facilitates effective communication between various AEC teams.
  • Interface for Application Programming (API)
    • Through the use of the API, other client programs may launch SAFE or connect to already-running instances of SAFE in order to carry out tasks including opening and storing models, processing models, doing analysis and design, and extracting data. Specialized templates, parameter research, and design post-processing are examples of typical uses. Client programs may be created in a variety of programming languages and can use COM or.NET to connect to SAFE.

System Requirement CSI Safe 22.1.0.2728:

Processor:

• Minimum: AMD Athlon 64 or Intel Pentium 4
• The AMD Ryzen 5/7/9 with Zen 2 architecture, the 9th generation Intel Core i5/i7/i9, or a superior desktop CPU are recommended.
• It needs a CPU with 64 bits.
• Multi-threaded solvers and multi-core CPU-capable algorithms are features of the SAPFire® Analytical Engine. Multiple cores may also be used by the design algorithms.

System of Operation

• Windows 10 or 11 (64-bit) from Microsoft

Graphics Card

• Minimum: Compliant with standard (GDI+) graphics mode, supporting 1024 by 768 resolution and 16 bits of color.
• It is advised to use a discrete video card with a dedicated graphics RAM (512 Mb or more) for DirectX graphics mode and an NVIDIA GPU or comparable. The GPU needs to support DirectX 11.
• A GPU and dedicated graphics RAM enable hardware acceleration, which is fully used in DirectX graphics mode.
• The raster drawing capabilities of the device should enable legacy depth bias for improved graphics quality in terms of anti-aliasing and line thickness.

Recall

• 8 GB of RAM at minimum
• More RAM significantly increases the amount of problems that may be handled as well as the response recovery and solution times.

Storage Space

• 6 GB for the software installation.
• Depending on the size of the models, more space will be needed for storing and processing the model files and analysis findings.
• A 500GB or bigger PCIe solid-state drive is recommended (SSD). Network drives and external drives are not advised.

What’s New CSI Safe 22.1.0.2728:

• Examination
  • AISC Design Guide 11, Chapter 7, adds a serviceability evaluation of steel-framed floor systems exposed to walking vibrations.
• Visuals
  • An improvement was made to display, when shown in an extruded view, the impacts of joint offset assignments for slabs. Assign > Shell > Insertion Point is the command to use when assigning joint offsets. Previously, extruded views featured the cardinal point effect but not the extra joint offsets.
• Model Structure
  • It is now possible to convert curved concrete beams into shell slabs. It was previously only possible to convert straight beams.
• Create
  • The AISC 360-22 design code for composite beam design has been included.
• Textbooks & Databases
  • In accordance with the AISC Shapes Database v16.0, new frame section libraries have been introduced.
• Interface for Application Programming (API)
• Updates have been made to the SAFE API to support.NET 8.
• Fixes for bugs
  • User-reported issues have been fixed.

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Installation Guide:

• The setup for Windows 32-bit and 64-bit operating systems is included in the downloadable packages for CSI Safe 22.1.0.2728 (choose the appropriate version depending on your OS).
• PCFILECR has verified that the medication file is safe, even if it will be identified as a danger to your Windows operating system. For the time being, you should disable your antivirus software and stop using the internet.
• Run the setup to install CSI Safe 22.1.0.2728 after extracting the package using WinZip or WinRAR.
• Don’t run the software until the installation is complete.
• Proceed as an administrator and copy the patch to the installation directory.
• Enjoy the Full Version of CSI Safe 22.1.0.2728 now that it’s finished!