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Institutional Projects
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
Emory University, Health Sciences Research Building
Area: 201,782 Sq.Ft.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
RSMS worked closely with the principal architectural consultant and supported them with the construction documentation of the research building using REVIT. Clash detection was performed by RSMS.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University of Washington, MOL Building
Area: 90,300 Sq.Ft.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
Our main scope of work in this project was to support the principal architectural consultant with the documentation of the construction drawings and provide clash detection services to the architectural consultant, which was possible only through very strong coordination with various MEP and Structural consultants.
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
University City Science Center
Area: 289,176 Sq.Ft.
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
The modeling of the 12 floors above the basement is done entirely on REVIT. The model was used in coordination with consultants to keep the structure free of any structural or MEP clashes. RSMS supported the team of the architectural consultant in documenting the façade detailing. The façade is finished in materials like stone veneer, and composite aluminum panels
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