| Info |
|---|
|
| Wiki Markup |
| {info}
This space is devoted to * This space is devoted to PERFORM-3D *. Please visit the [ |kb:Home]for documentation on topics common to all {new-tab-link:http://www.csiberkeley.com/}{new-tab-link} Software. {info} {table-plus:enableSorting=false|border=1|width=100%} | !PERFORM-3D.PNG|align=left,border=1,vspace=15px,hspace=20px! | {table-plus} {table-plus:enableSorting=false|align=right} | !01_building.PNG|border=0,height=170px! | {table-plus} {table-plus:enableSorting=false|borderColor=white|align=right|width=10px|height=190px} | | {table-plus} \\ *PERFORM-3D* is a sophisticated modeling and analysis software useful for the performance assessment of structural systems. Advanced modeling capabilities provide for the characterization of component-level [force-deformation|kb:Material nonlinearity] relationships, including the capture of strength and stiffness degradation during cyclic response. Analysis methods integrate the effect of [geometric nonlinearity|kb:Geometric nonlinearity]. Also of note is an output-animation feature which displays color-coordinated and enveloped limit-state relations. \\ *PERFORM-3D* is an ideal tool for [nonlinear|kb:Nonlinear] performance-based analysis and design, created by Dr. Graham H. Powell, University of California at Berkeley Professor Emeritus of CivilSoftware. |
PERFORM-3D is a structural-engineering software useful for the performance assessment of structural systems. State-of-the-art constitutive-modeling capabilities enable characterization of material nonlinearity, including strength and stiffness degradation during component-level hysteresis. Analysis capabilities also extend to geometric nonlinearity and effects associated with P-Delta behavior. Advanced modeling tools enable a sophisticated simulation of structural behavior. Components may be grouped according to type, location, and limit state before evaluation proceeds in terms of strength or deformation-based demand-capacity ratio. The dynamic display of D-C usage is available through color-coordinated time-history animations.
PERFORM-3D is an ideal tool for nonlinear performance-based analysis and design, created by Dr. Graham H. Powell, University of California at Berkeley Professor Emeritus of Civil Engineering.