Tool Information
Finch is an AI tool focused on building design optimization, powered by graph technology. It provides immediate feedback on building performance, helps to detect errors, and offers optimal solutions at the early stages of design. The tool allows users to iterate faster and explore multiple mass and program variants effortlessly. Finch can automatically fill in stories with plans, making it easier to compare different alternatives in seconds. With Finch, architects don't have to spend time on Excel roundtrips to calculate key figures as the tool provides instant feedback on unit and area distribution, carbon footprint, daylight simulation, and other crucial features. The tool also enables architects to break the right rules, thanks to an error prevention feature that ensures the designs are compliant with the rules of the firm, customer, and municipality.Finch has a built-in feature that allows users to share fully interactive 3D models with anyone via browser, making it easy to get immediate feedback on massing, plans, and objects in the design. Additionally, Finch's designs can be saved to an organization library, where they can be infinitely reusable. The tool is designed to be simple, beautiful, and functional, with AI to assist and inspire architects, making it invaluable for architectural design. Finch also supports bidirectional streaming of 3D data, enabling users to design the building mass in other software such as Revit, Rhino, and Grasshopper, while direct data feedback and changes are made in Finch. Finch has over 12,000 individuals on their waiting list; interested users can sign up for early access.
F.A.Q (20)
Finch 3D is an artificial intelligence-powered tool that uses graph technology to optimize building design. It provides immediate feedback on building performance and offers optimal solutions at the early stages of design, including 3D floor planning and image design.
The main purpose of Finch is to optimize architectural designs. It empowers architects to iterate faster and explore multiple mass and program variants effortlessly, automating essential tasks and promoting error-free design.
Finch assists in building design optimization by providing instant feedback on building performance, detecting errors, and suggesting optimal solutions. It automatically fills in stories with plans for accelerated comparison of different alternatives, and provides data on crucial performance parameters, such as unit distribution, carbon footprint, and daylight.
Key features offered by Finch for architects include immediate performance feedback, error detection, optimal solution recommendations, automatic story fill-ins, interactive 3D model sharing, organization library saves, and bidirectional streaming of 3D data, among others.
Finch automatically fills in stories with plans by using its AI-assist. It enables architects to iterate faster and explore many mass and program variants, making it considerably easier to compare different alternatives.
Finch provides feedback on a building's performance parameters such as the unit and area distribution, daylight simulation, and carbon footprint. It provides immediate analytics to help architects adjust their designs accordingly.
Yes, Finch offers error detection and prevention features. It ensures that the buildings are compliant with the rules of the user's firm, customer and municipality, serving as a background guard for the architect's designs.
Yes, Finch 3D models can be shared with others. It has a built-in feature that allows users to share fully interactive 3D models via browser with anyone, enabling immediate feedback on massing, plans, and objects in the design.
Yes, Finch designs can be saved and reused. Once the designs are hardened, they can be saved to the user's team or organization library for infinite reusability.
Finch supports bidirectional streaming of 3D data by enabling users to design the building mass in other software like Revit, Rhino, and Grasshopper. Meanwhile, direct feedback and changes are made in Finch, making the process significantly faster than standard plugins.
Software that is compatible with Finch for 3D data streaming includes Revit, Rhino, and Grasshopper.
Finch's AI technology assists architects by providing error detection and optimal solutions. It helps architects to iterate faster, explore different designs effortlessly, and provide instant feedback about building performance.
Finch assists with architectural rule compliance through a built-in error prevention feature. This ensures that the designs remain compliant with the rules of the architect's firm, customer, and municipality.
To sign up for early access to Finch, interested users can navigate to Finch's website to join the 12,000+ individuals on the waiting list.
The benefit of Finch's instant feedback feature is that it eliminates the need for Excel roundtrips to calculate key figures. Architects can instantly know how they match their customers’ demands and make necessary adjustments to their designs accordingly.
Yes, Finch's tool provides instant feedback on several key performance metrics including, unit and area distribution, carbon footprint, and daylight simulation.
Finch promotes productivity through reusable designs by allowing users to save their hardened designs to their team or organization library. This way, they can easily pull plans, objects, and rules into their projects for consistent design.
Yes, designs done in other software can be modified with Finch. With its bidirectional streaming of 3D data, you can design the building mass in your software of choice and receive direct feedback in Finch.
Yes, users can access the Finch tool via a browser. This makes it easy to share a fully interactive 3D model with anyone, allowing them to comment on massing, plans, and objects in the design.
Finch aids architects' iteration by speeding up the design process, providing immediate feedback, identifying errors and offering optimal solutions. It keeps architects in the flow of design, allows for quick mind changes, and helps make better informed design decisions.
Pros and Cons
Pros
- Immediate performance feedback
- Error detection
- Optimal solution suggestions
- Fast iteration
- Explores mass and program variants
- Automatic filling stories with plans
- Instant key figure calculation
- Unit and area distribution feedback
- Carbon footprint feedback
- Daylight simulation feature
- Error prevention feature
- Shares 3D models interactively
- Designs saved in library
- Bidirectional streaming of 3D data
- Supports Revit
- Rhino
- Grasshopper
- Direct data feedback
- Instant design changes
- Over 12
- 000 waiting list
Cons
- No offline capability
- Limited software integration
- Limited to architectural design
- Doesn't allow cross-platform use
- No direct customer support
- Waiting list for access
- No version controls
- No free trial option
- Potential privacy issues with sharing
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