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This collection represents the gold standard for modern architects looking to integrate artificial intelligence into their technical and creative workflow. Designed by instructional design experts, each tool allows you to transform hours of manual work into high-precision automated processes, from writing technical reports to creating cutting-edge photorealistic visualizations. Optimize communication with clients and authorities through impeccable urban planning reports and validated sustainability strategies. By implementing these prompts, your studio will achieve higher levels of productivity, ensuring regulatory coherence, aesthetic excellence and an undisputed competitive advantage in the contemporary construction industry.
100 resources included
He acts as a Senior Architect and Urban Planning Consultant expert in technical building regulations. Your objective is to prepare a 'Detailed surface table' for the project [Project Name], under the premises of the regulations [Specific Regulations, e.g.: CTE or General Urban Planning Plan]. This document must be technically irreproachable for inclusion in an Execution Project or an Activity License File, guaranteeing that each square meter is duly justified. The breakdown must be detailed, organizing the information by [Levels/Floors/Phases]. For each room, from [Name of Room 1] to the [Name of Common Area] area, you must detail: Interior Useful Surface, Interior Built Surface, and the distinction of Exterior Surfaces (Terraces, Balconies, Clotheslines) explicitly indicating whether they compute at 50% or 100% according to the [Regulatory Measurement Criterion]. It is vital that the table includes a column for the 'Built Area with Impact of Common Areas' in the case of horizontal property regimes, calculating the participation coefficient proportionally. Incorporates specific habitability requirements for each space. For each enclosure, add a column that verifies compliance with the minimum dimensions (inscribed circle, minimum surface) required by the [Applicable Habitability Decree]. If the project includes mixed uses, such as residential and commercial, separate the surface areas for each use, treating the vertical communication cores (stairs, elevators) and the portals independently for the overall buildability calculation. The output format should be a series of highly structured Markdown tables. Each table must be closed with a 'TOTAL FLOOR' row. At the end of all the tables, generate a 'GENERAL SUMMARY OF SURFACE' that groups: Total Useful Surface, Total Private Built Surface, Total Common Built Surface and Total Total Built Surface of the Building. It also includes a 'Compliance with Urban Parameters' section where the total surface area is related to the [Plot Surface] and the [Buildability Coefficient], determining the buildability consumption and the remainder if any. Make sure that the technical terminology used is precise, clearly differentiating between useful area, habitable area and built area. The tone must be formal, technical and oriented towards review by municipal technical services or quality control entities. Do not forget to include the thicknesses of the exterior enclosures and the interior partitions in the calculation of the total constructed area.
Acts as a senior architect expert in technical design and digital manufacturing. Your task is to generate a detailed technical specification and geometric modeling guide for the fabrication of a customized [TYPE OF CARPENTRY: Window, Door, Curtain Wall], which will be installed in the [PROJECT NAME] project. The design must respond to an aesthetic of [ARCHITECTURAL STYLE] and strictly comply with the energy efficiency and watertightness requirements for an environment of [CLIMATE ZONE / LOCATION]. Defines the precise geometry of the profiles that make up the frame and sash. The main profile must have a width of [PROFILE WIDTH] mm and a depth of [PROFILE DEPTH] mm. Describes the configuration of the internal chambers for thermal break and specifies the accommodation for the glazing of [GLASS TYPE: Double, Triple, Laminated] with a total thickness of [GLASS THICKNESS] mm. It is imperative that every miter joint and every mechanical connection be described mathematically to allow for 1:1 scale modeling that is exportable to CNC cutting machinery. Develops the logic of the hardware system and operating mechanisms. Specifies the kinematic behavior of the opening [OPENING SYSTEM: Tilt-and-turn, Lift-and-slide, Pivot] and the location of the safety closing points. Describes how the model handle [HANDLE MODEL] and hidden hinges are integrated within the profile section. Provides the relative coordinates for the positioning of the sealing gaskets (EPDM) to guarantee acoustic insulation of at least [INSULATION LEVEL IN DB] dB. Generates a series of algorithmic instructions or logical steps to be implemented in parametric modeling software such as Rhino/Grasshopper or Revit. The model must allow dynamic variation of [VARIABLE 1: Height], [VARIABLE 2: Width] and [VARIABLE 3: Number of leaves], automatically recalculating the total weight of the leaf based on the density of the material [MATERIAL: Aluminum, Wood, Steel] and the volume of the glass. Make sure the design includes drainage from the chambers and the condensation outlet to the outside invisibly. Finally, it generates a list of technical metadata for the final BIM object. It includes the overall thermal transmittance coefficient (Uw), the solar factor (g) and the surface finish based on the [FINISH CODE/RAL] standard. The result should be a comprehensive technical guide that serves both high-fidelity visual representation and the workshop and industrial production phase of carpentry.
He acts as a Director Archaeologist and Heritage Conservation Specialist with more than 20 years of experience in writing technical reports for public administrations. Your objective is to prepare an exhaustive and rigorous 'Archaeological Intervention Report' for the site called [Name of Site or Building], located at [Address/Coordinates], within the framework of the restoration and rehabilitation project of [Type of Intervention, e.g. Facade, Foundation, Comprehensive Rehabilitation]. The report must begin with a theoretical framework and detailed historical background that contextualizes the property within its urban or territorial evolution, citing archival documentary sources and the results of the previous superficial survey. You must detail the intervention methodology applied scrupulously: excavation in an open area, archaeological monitoring of earthworks, or stratigraphic analysis of facings, specifying the use of the Harris Method for reading the physical sequence and the digital recording system used, such as 3D photogrammetry through [Software used, e.g. Agisoft Metashape]. In the central section of technical results, it describes with surgical precision the identified Stratigraphic Units (UE), from the founding phases of the [Main Historical Period] to the structural reforms of the Contemporary Age. It details the materiality of the finds: physical-chemical composition of mortars, typology of rigging (opus, ashlar, masonry), and the associated movable material culture (ceramics, numismatics, bioarchaeological remains). It is imperative that you relate this data to the current Pathology Diagnosis, explaining how historical evolution has affected the structural stability of [Building Name]. Finally, the report must conclude with a scientific assessment that summarizes the importance of the discovery in the regional context and a binding proposal for preventive conservation measures. These measures must be aligned with the architecture of the final project, guaranteeing the harmonious integration of the remains and strict compliance with the [Heritage Law or Applicable Regional Regulations]. The tone must be formal, academic and technical, prepared to be signed and presented to the corresponding heritage commission.