CSI ETABS 18.1.0 with Professional Training Series

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CSI ETABS 18.1.0 with Professional Training Series | 5.3 Gb
Computers and Structures, Inc. (CSI), is pleased to announce the availability of ETABS version 18.1.0 build 2117. Enhancements include parallel analysis, Performance Based Design, energy output, and international design codes.


ETABS 18.1.0 Enhancements - Release Date: 11 Dec 2019

Performance-Based Design - Acceptance Criteria
- Acceptance criteria can be assigned to Link and Panel Zone properties for use in performance checks.
- Acceptance criteria can be assigned to piers and spandrels that can measure forces, stresses, or stresses as a ratio of the square-root of the concrete compressive strength f'c.
Performance-Based Design - Results Display
- The Performance Check feature now provides greater control over the calculation of the demand-capacity ratio (D/C ratio) for the whole model, as well as for each object individually. A performance check can now include acceptance criteria from links, strain gauges, pier and spandrel forces, and panel zones, along with frame and wall hinges which were previously available. Multiple demand sets can be specified as well as multiple combination methods, allowing more control over the performance-check results.
- The output tables have been enhanced to tabulate the demand-capacity ratio (D/C ratio) for the whole model, as well as for each object individually.
- Graphical display of performance check results (Display > Performance Check) has been enhanced to include acceptance criteria from links, strain gauges, pier and spandrel forces, and panel zones, along with frame and wall hinges which were previously available.
- A new Description function "Acceptance Criteria D/C Ratio" has been added. This Description function can be used to display the demand-capacity ratio (D/C ratio) for a specified group and specified performance level for all steps of a multi-stepped load case (e.g. time-history).
- A new menu item (Display > Performance Check Usage Ratio Diagram) which shows the demand-capacity ratio (D/C ratio) for all demand sets in a performance check and for a specified performance objective. This display is a visualization tool to show the relative contribution of each demand set and/or object type in a performance check.
Analysis
- Analysis can now run multiple load cases in parallel. This is particularly efficient for considering large suites of earthquakes in Performance-Based Design.
- Analysis errors, warnings, and informational messages are now stored and shown after the analysis completes, as well as accessible via database tables
Steel Frame Design
- Russian steel frame design code to SP16.13330.2017 from the previous SP16.13330.2011 version, including many new enhancements in the interaction equations, reporting, and user control parameters.
Concrete Frame Design
- Concrete frame design per Russian code SP 63.13330.2012 has been enhanced for seismic design, including new parameters for user control.
Structural Modeling
- A new material library for the Korean region has been added. The library contains steel, concrete, and rebar materials per the KBC 2016 standard.
Results Display and Output
- Nonlinear energy component output is now available per group for nonlinear load cases
Database Tables
- An enhancement was made to add new capability to perform filters and sorts in displayed database tables by right-clicking in the table column headers.

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CSI ETABS Professional Training Series

In this training course, you will learn the following contents with concepts, as per code ASCE 7-16 / UBC 97. Materials, Frame Section Definitions, Mass Source, Load combinations. Import grid from AutoCAD, Reference points, Earthquake and wind Loads. Structural Modelling checks. Stiffness, Mass, Torsion and Building eccentricity checks. Concrete Slab Design with Strip Based Method and Finite Element Method (FEM). P-Delta checks and how to apply. Equivalent static Force Method. Response Spectrum Analysis. Time History Analysis. Slab and foundation Export to CSI SAFE for slab and foundation design. This course will help you to optimize your design with full control of parameters such as deflection, reinforcement for your concrete columns, beams, slabs and shear walls and design of structures with Static and Dynamic Loading.


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ETABS is an engineering software product that caters to multi-story building analysis and design. Modeling tools and templates, code-based load prescriptions, analysis methods and solution techniques, all coordinate with the grid-like geometry unique to this class of structure. Basic or advanced systems under static or dynamic conditions may be evaluated using ETABS. For a sophisticated assessment of seismic performance, modal and direct-integration time-history analyses may couple with P-Delta and Large Displacement effects. Nonlinear links and concentrated PMM or fiber hinges may capture material nonlinearity under monotonic or hysteretic behavior. Intuitive and integrated features make applications of any complexity practical to implement. Interoperability with a series of design and documentation platforms makes ETABS a coordinated and productive tool for designs which range from simple 2D frames to elaborate modern high-rises.

ETABS - 01 An Overview: Watch & Learn

Founded in 1975, Computers and Structures, Inc. (CSI) is recognized globally as the pioneering leader in software tools for structural and earthquake engineering. Software from CSI is used by thousands of engineering firms in over 160 countries for the design of major projects, including the Taipei 101 Tower in Taiwan, One World Trade Center in New York, the 2008 Olympics Birds Nest Stadium in Beijing and the cable-stayed Centenario Bridge over the Panama Canal. CSI's software is backed by more than three decades of research and development, making it the trusted choice of sophisticated design professionals everywhere!

Product: CSI ETABS
Version: 18.1.0 build 2117 with Professional Training Series
Supported Architectures: x64
Website Home Page :
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Language: english
System Requirements: PC *
Supported Operating Systems: *
Size: 5.3 Gb

* System Requirements:

Processor
- Minimum: Intel Pentium 4 or AMD Athlon 64
- Recommended: Intel i5/i7, AMD Athlon X4/Ryzen, or better
- A 64-bit CPU is required
- The SAPFire Analytical Engine includes multi-threaded solvers and algorithms that can take advantage of multi-core CPUs. The design algorithms can also utilize multiple cores.

Operating System
- Microsoft Windows 7, Microsoft Windows 8 or Microsoft Windows 10
- 64-bit processor

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 larger) for DirectX graphics mode. The card must be DirectX 11 Compatible.
- 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 raster drawing capabilities should support legacy depth bias.

Memory
- Minimum: 8 GB RAM
- The problem size that can be solved and the speeds for solution & response recovery increase considerably with more RAM.

Disk Space
- 6 GB to install the software.
- Additional space will be required for running and storing model files and analysis results, dependent upon the size of the models
- Recommended: 500GB or larger PCIe Solid State Drive (SSD). External and network drives are not recommended.



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