About

Engineer at the intersection of physics & code

I'm Samreet, a building physics engineer, exploring where environmental simulation meets software development. I have modelled computational geometries, deep dived into simulation engines, and innovated on new workflows that turn complex environmental simulations into actionable design decisions.

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What I Do

Three domains, one integrated practice

Building physics /
Computational design /
Software development

Environmental Simulations

Bioclimatic Design, Sunlight & Daylight, Early energy trends, Thermal comfort, Wind microclimate studies and bespoke simulations on request

Parametric & Computational Design

Computational geometries, Grasshopper scripting, Generative algorithms, and Parametric workflows enabling design iteration at speed.

Plugin & Tool Development

Rhino/Grasshopper plugins in .Net C#, Webview based data visualisations, and custom scripted components — building the software layer the AEC industry is missing.

Toolkit

Tools & technologies I work with

Simulation & Analysis

Ladybug Tools

Honeybee

Pollination

EnergyPlus-CL

Radiance-CL

OpenFOAM

Climate Studio

Simscale CFD

Design & Modelling

Rhino 3D

Grasshopper

Revit

SketchUp

Development

Python

.Net / C#

WPF/Avalonia

JavaScript

HTML / CSS

D3.js

Git

Data & Workflow

SQlite

Pandas

JSON / CSV Pipelines

WebView2

Approach

Data should shape buildings not just validate them

The AEC industry generates enormous volumes of environmental data, but most of it never reaches the people making design decisions early enough. It sits in simulation outputs, CSV exports, and specialist reports that arrive too late to influence form.

My work focuses on closing that gap. Modelling complex geometries, creating bespoke workflows, and accelerating early stage simulation modelling.

Environmental simulations should aid early sketch designs, not massing validation 8 weeks later.

Make information accessible at the point of decision