Portfolio

Projects

Digital and parametric design is used as a tool for exploration, verification and creative development of the project, capable of integrating form, performance and construction processes. Computational models and advanced workflows support bespoke design processes, often linked to the use of digital fabrication and robotic technologies, enabling the management of geometric complexity, variability and adaptation to specific contexts and requirements.

Public & Commercial Architecture

BRACCIALINI HQ

The retrofit project for the Braccialini headquarters in Scandicci reinterprets the building through a new high-performance facade, designed to improve indoor comfort and perceived quality. The building envelope is clad in a micro-perforated aluminium skin, composed of digitally generated and controlled folded metal strips, which filter solar radiation, promote natural ventilation and daylighting, and introduce a fluid, aerodynamic form that integrates with the existing structure.

Public & Commercial Architecture

WELLNESS CLUB

The Wellness Club project combines digital design and parametric control to create a space dedicated to well-being, where space, light and materials are coordinated as part of a single system. Continuous geometries and bespoke surfaces organise pathways and functions, creating an immersive experience that brings together architectural scale, comfort and perceptual quality. The design process utilises computational tools to control form and detail.

3D-Printed Design

ADDITIVE STEREOTOMY

Additive Stereotomy is a proposal for a vaulted system comprising a succession of arches, created using voussoirs 3D-printed with binder jetting technology. The arches, which are structurally independent, are arranged to form a ‘false vault’ that is free in form and not constrained by the structural behaviour of traditional vaults. The division into blocks allows for the integration of geometric variations and openings for natural lighting.

Digital & Parametric Design

FLUX VAULT

Flux Vault is an experimental stone pavilion that explores the relationship between structural form, parametric design and contemporary construction techniques. The pavilion’s geometry is generated from surfaces composed exclusively of catenary curves, where the form derives directly from the structural behaviour. The construction system is based on voussoirs assembled into large pre-fabricated elements, allowing for rapid assembly (and dismantling) without the use of traditional formwork.

Digital & Parametric Design

BINBAZ TOWERS

Binbaz Towers is a proposal for a mixed-use complex in Riyadh that reinterprets forms of Arab architecture in a contemporary style, featuring curved geometries optimised for the local climate and prevailing winds. The project incorporates bioclimatic strategies and facade solutions to reduce solar gain and overheating, prioritising natural ventilation and indoor comfort. The scheme combines hospitality, residential and healthcare functions, with public spaces and green spaces serving as key urban elements.

Digital & Parametric Design

INFINITE TABLE

Infinite Table is a sculptural table crafted from Nero Marquina marble, designed as the centrepiece of a prestigious space. The continuous, tapered form of the tabletop, supported by monolithic legs, is defined through a process of digital modelling that harmonises structural balance with the material’s visual qualities.

Digital & Parametric Design

STONE POLYSPHERE

Stone PolySphere is an experimental installation that explores the potential of parametric design and digital fabrication as applied to stone architecture. The project takes the form of a stone sphere comprising a solid lower hemisphere and a stereotomic upper hemisphere, created using a system of CNC-machined perforated voussoirs.

Digital & Parametric Design

CORAL TABLE

Coral Table is a large rosewood table characterised by a branching, non-repetitive geometry generated through a parametric design process. Its form draws inspiration from natural phenomena of growth and erosion, particularly the structures of coral reefs and minimal surfaces.

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