In this context, a detailed report in DIALux is the formal documentation of a lighting design's performance, proving that the proposed layout meets technical standards for illuminance, uniformity, and glare. Key Components of a Detailed DIALux Report
A professional report typically includes several sections to provide a complete overview of the project:
Project Information: Cover page with project name, designer details, client info, and company logo.
Luminaire Data: A list of all lighting fixtures used, including their technical specifications (photometry, wattage, and lumen output).
Layout Plan & Coordinates: 2D floor plans showing the exact position, height, and orientation of every luminaire.
Calculation Surfaces: Detailed results for specific "working planes" (like desks or floor level), providing average lux levels ( Eavcap E sub a v end-sub ), minimum/maximum values, and uniformity ( U0cap U sub 0
Visualizations: Includes 3D renderings, false-color displays (which visually map lux levels), and ISO lines to show light distribution.
Standards Compliance: A summary indicating whether the design meets the required utilization profiles (e.g., European EN standards), often marked with green or red status signs. Generating the Report
Run Calculation: Complete your design and click the "Calculation" icon (top right) to process all light scenes. dialux 314
Navigate to Documentation: Open the Documentation mode to select which pages to include (e.g., room summaries, luminaire lists, or specific 3D views).
Customize: You can edit the cover page and insert descriptive text or company footers.
Export: Save the final detailed report as a PDF for sharing with clients or contractors.
These tutorials provide step-by-step guidance on calculating lighting scenes and generating professional reports in DIALux: How do I calculate the working plane in DIALux? 1K views · 4 months ago YouTube · DIALux made by DIAL Document Lux Report for Different Light scenes ! 2K views · 2 years ago YouTube · Sumaiya Eliyaz
, which was the final and most stable version of the original DIALux "4" generation before the software shifted entirely to DIALux evo DIALux Community
DIALux is the global standard for professional lighting design, used by over 750,000 specialists to plan, calculate, and visualize light for indoor and outdoor spaces. 🛠️ The Legacy: DIALux 4.13
For many years, version 4.13 was the industry workhorse. Although DIAL no longer officially supports it, it remains a favorite for specific niche tasks. DIALux Community Room-Based Planning:
Designed for calculating lighting in single rooms rather than whole buildings. Sports & Tunnel Lighting: In this context, a detailed report in DIALux
Historically preferred for complex sports fields and tunnel calculations, though these are now being integrated into the newer Simpler Interface:
A more "classic" Windows-style interface that runs on 32-bit architecture. Limitations:
It cannot handle modern Building Information Modeling (BIM) workflows and uses outdated calculation standards. DIALux Community 🚀 The Modern Standard: DIALux evo 13 The current software, DIALux evo 13.2 , is a complete overhaul built on a modern graphics engine. Key Features of the Latest Version: DIALux Version 4.9 - R. STAHL
Comprehensive Guide to DIALux: The Gold Standard for Lighting Design
In the world of architectural and electrical planning, DIALux stands as the undisputed global leader for lighting design software. Whether you are an architect, an electrical planner, or a professional lighting designer, this powerful tool allows you to design, calculate, and visualize light for any space—ranging from single rooms and multi-storey buildings to complex outdoor areas and street lighting. What is DIALux?
DIALux is a professional-grade Computer-Aided Design (CAD) application developed specifically for lighting design. It bridges the gap between technical calculation and visual aesthetics, enabling users to create realistic 3D models of their projects and see exactly how light will interact with the environment. Core Capabilities Indoor lighting with DIALux evo
It seems you are referring to DIALux 314 — likely a specific version, service pack, or a typo (since the main versions are DIALux 4, DIALux evo, or DIALux 12/13).
If you actually mean DIALux 4.13 (a stable classic version) or DIALux evo 14 (newer interface), let me clarify. Mastering the Update: A Deep Dive into Dialux 314 (4
However, to give you a detailed feature breakdown for what "DIALux 314" might imply — I will assume you meant DIALux 4.13 (often shortened as DIALux 4.13, and "314" could be misremembered digits). Below are the detailed features of that version, which remains widely used for professional lighting design.
Date: May 2, 2026 Category: Lighting Design Software
In the fast-paced world of lighting design, staying current with software updates is not just a luxury—it is a necessity. For professionals using the industry-standard lighting calculation tool, a specific version number has recently become a hot topic in forums, LinkedIn groups, and designer workshops: Dialux 314.
But what exactly is Dialux 314? Is it a revolutionary new engine, or a minor patch? In this comprehensive guide, we will unpack everything you need to know about Dialux version 4.13 (commonly referred to as 3.14 in internal versioning or community shorthand), including its new features, performance benchmarks, compatibility issues, and why you should update immediately.
Dialux 314 is a potent synthetic opioid that was developed to provide relief from moderate to severe pain. Its chemical structure and pharmacological profile are designed to offer a high degree of analgesia with potentially fewer side effects compared to traditional opioids. However, like all opioids, it carries risks of dependency, tolerance, and overdose.
Emergency lighting planning has historically been tedious. The Dialux 314 update introduces an Emergency Lighting Assistant that automatically places escape route luminaires based on the minimum 1 lux requirement (per EN 1838). It also calculates battery autonomy and tests for Spacing-to-Height ratios in open areas.
In previous versions, if a luminaire was missing from your local database, you had to download the ULD file manually. In Dialux 314, you can now paste a product code (e.g., Philips RC132B) into the search bar, and the software fetches the photometric data directly from the manufacturer’s cloud API. This requires a live internet connection but guarantees you are using the current luminaire revision.
Previous versions struggled with complex architectural imports. Dialux 314 offers a "Round-Trip" workflow with Autodesk Revit. You can design a room in Revit, import it to Dialux for lighting calculation, and then push the luminaire positions and control settings back into your BIM model without losing metadata.