DIALux 4.13: Produced clean, technical PDF reports. These were the industry standard for years. They were black and white, full of charts, and engineers loved them.
DIALux evo: Produces "prettier" reports with rendered images (pseudocolor and photorealistic visualizations). Clients love them, but they take longer to set up.
Compliance with EN 1838 (emergency lighting) has been overhauled.
You might be asking: Should I just stick with DIALux 4.13?
The honest answer is mostly no, but partly yes.
Why you shouldn't use it:
Why you SHOULD use it:
We tested both versions on a standard workstation (Intel i7-13700K, NVIDIA RTX 4060, 32GB RAM).
| Task | Dialux 4.12 | Dialux 314 (4.13) | Improvement | | :--- | :--- | :--- | :--- | | Load IES file (500kb) | 1.2 seconds | 0.4 seconds | 66% faster | | Recalculate room (200 lights) | 18 seconds | 11 seconds | 39% faster | | Export to PDF (A3, 300dpi) | 9 seconds | 14 seconds | 36% slower | | Open large .dwg (50MB site plan) | 45 seconds | 23 seconds | 49% faster |
Note: The PDF export slowdown is a known regression in the 314 build. Dialux has promised a hotfix (4.13.1) for this in Q2 2026.
Research into Dialux 314 and similar compounds continues, with a focus on developing safer, more effective pain management options. Innovations include:
The mechanism of action of Dialux 314 involves its interaction with opioid receptors in the brain and spinal cord. By binding to these receptors, it inhibits the transmission of pain signals, thereby reducing the perception of pain. This action also triggers the release of dopamine, contributing to feelings of euphoria, which can be a factor in its potential for abuse.
Published by: The Lighting Design Hub Reading Time: 4 minutes
If you have been in the lighting industry for more than a decade, the phrase “DIALux 314” might make you smile. While newcomers are busy mastering DIALux evo and Version 12, a quiet community of veteran planners still swears by the classic interface—specifically, builds of the 3.x series (colloquially nicknamed “314”).
But is this just nostalgia, or does DIALux 314 still have a place in a modern workflow? dialux 314
Let’s break down the legacy, the hidden advantages, and why you might want to keep an old copy of DIALux 3.14 on your machine.
To give you exactly the right feature set, please confirm:
If you meant DIALux 3.14 (older, 2009-era), let me know — I can provide its feature list too.
While there is no specific industry document titled "Dialux 314," the number commonly appears in the DIALux evo
community as a specific case study or tutorial step, most notably in tutorials for creating curtains and complex lighting concepts
Below is a "useful story" or workflow based on these common DIALux teaching modules, specifically focusing on the advanced "Case Study 31" (often mistyped as 314) and the process of building stories in professional lighting design. The Lighting Designer’s Challenge: A Case Study
Imagine you are tasked with designing the lighting for a modern office building. You aren't just placing lights; you are creating an environment that balances productivity with aesthetic comfort. 1. Building the Story (Literally)
Before the light hits the floor, you must build the "story" (floor) of the building. In DIALux evo, this involves: Importing Plans
: Bringing in CAD floor plans to trace the building's outline. Creating New Storeys
: Navigating to "Story and Building Construction" to add levels. A new story often starts with the same footprint as the floor below, which you then modify by adding points
to adjust the shape for balcony overhangs or tiered designs. 2. Mastering the Details (The "314" Connection) Advanced users often look for specific tutorials like "Case Study 31: Creating a Curtain" to add realism to their simulations. Curtains and Daylight
: Adding textures like curtains isn't just for looks; it significantly affects how daylight is calculated within the room. Uniformity Check
: A critical part of the "story" is ensuring the light is evenly distributed. Designers use DIALux to calculate the uniformity ratio
(minimum vs. average illuminance) to prevent harsh shadows or "hot spots" that cause eye strain. 3. The Final Presentation DIALux 4
Once the simulation is complete, the story moves to the client. Using DIALux Pro Features , designers can: Export to PowerPoint/Word
: Skip the manual paperwork and generate high-quality presentations for quotations. Raytracing
: Create photorealistic images that show the client exactly how the light will bounce off the furniture and walls. Key Learning Resources
If you are following a specific tutorial series (like those from MaggmaLight Academy ), you might be looking for: Case Study 31 : Creating curtains. Case Study 34 : Creating a light concept. Emergency Lighting
: Using versions like DIALux 4.13 to design safety lighting. step-by-step guide for a specific DIALux project, or did you have a different version of DIALux in mind?
4 Dialux evo for beginners: Create a new storey for the first floor
Based on the context of the search results, "Dialux" refers to the world's leading lighting design simulation software, while the "314" likely refers to a patch or version within the legacy series.
Here is the story of DIALux and its development, including the era of version 4. The Story of DIALux (Version 4 Era)
DIALux was developed by DIAL GmbH , a German company, designed to make professional lighting design accessible and precise.
The Problem: Lighting designers historically used manual calculations or basic spreadsheets to estimate illumination, which was slow and inaccurate for complex projects.
The Solution: DIALux enabled 3D modeling, allowing professionals to simulate artificial light, daylight, and emergency lighting in both indoor and outdoor scenarios. Key Features of the DIALux 4 Era
While the modern standard is DIALux evo, version 4 (like the 4.13 version mentioned in tutorials) became a legendary tool for professionals.
Real Product Integration: The software grew its reputation by partnering with over 400 luminaire manufacturers, allowing designers to use real-world products in their simulations.
Detailed Documentation: It allowed for the generation of professional, standards-compliant reports, reducing errors in regulatory submissions. Why you SHOULD use it: We tested both
Compatibility: The software supported popular photometric files, including .ldt (EULUMDAT) and .ies. Evolution to Modern Day
The search results show that while DIALux 4 was revolutionary, it was replaced by DIALux evo for modern, complex, and full-building projects.
The Transition: Users moved from DIALux 4 to DIALux evo for better 3D visualization and more efficient workflow. However, 4.13 remained in use for specific applications.
Latest Technology: As of April 2026, DIALux evo 14 is the latest, fastest version, focusing on BIM integration and advanced calculation tools.
Note: The "314" might also be a misinterpretation of a specific patch version within the extensive history of DIALux 4, which received regular updates regarding RUG calculation, texture handling, and CAD imports.
If you can clarify if you were looking for the polishing compound (used in jewelry) or the lighting software, I can refine this story for you.
If it's the compound, I can tell you about the red/white polishing bars.
If it's the software, I can find more specific release notes for that version. Lighting design made easy with DIALux evo
While there is no famous novel or movie titled " DIALux 314 ," the name refers to a technical context within the field of lighting design technology
Specifically, "314" is most likely the course or module code for EET 314: Lighting Design Technology Centennial College . In this academic "story," students use the DIALux evo software to master the art and science of illumination. The "Story" of a DIALux 314 Project
For a student or professional in this module, the narrative of a project typically follows these stages: The Blueprint
: The story begins by importing a 2D CAD floor plan or an IFC file into the DIALux software environment. Constructing the World
: The designer traces the building's perimeter and sets the "story height"—often 10 feet for a standard office—before "cutting out" spaces for windows and doors. Setting the Standards
: The goal is usually defined by a target illuminance (e.g., 60 foot-candles or specific lux levels) to ensure the space is functional and safe. The Luminaire Selection
: The designer imports specific "IES files" (digital profiles of real light fixtures) from manufacturers and arranges them in polygonal or grid patterns. The Calculation Phase
: The software runs complex simulations to determine if the design meets uniformity and lighting standards. If a "red square" appears in the results, it indicates the standard hasn't been met, and the design must be tweaked. The Final Report