Why do some people feel the need to prove their stupidity and utter lack of skill in the face of the world?!?!
Yesterday I learned that a sister company is hiring an intern civil engineer to code some application plugins connected to our IS ?!?!? How the fuck do you think he can only understand what the fuck we do?

To put it in context, I'm kind of the CDO of a French medium group (a little cluster of companies), as the group is in the construction industry I'm the CTO for all Computer things. Inside the group, I'm the CTO of the digital factory. So the group IS is a microservice decentralized API REST-based architecture.

Next Monday we'll have a meeting, so I can explain to them why it's a FUCKING STUPID IDEA!!!! The only good thing is that any application programming done outside of the Digital Factory will be handled as an External Company Application, so it's not my problem to secure it, debug it, or simply make it work. And they already know that I'll enforce this ruling!!!

But WHY the fuck do they still think any mother fucker can professionally program!!!!!! Every time I have to deal with them It's horrendous!!!! I had to prove them why using a not encrypted external drive for a high security mission It's stupid!!!, and why having the same password for every account is FUCKING STUPID!!!

The most ridiculous part is they have a guy who really believe he has some IT skills!! Saying things like "SVN" it's a today tool (WTF), firewall are useless, etc....

WHY!!!! WHY!!!!

What do you think about a SaaS for sustainability and carbon footprint analysis of raw materials in BIM information?

The aim is to create a digital platform based on analysis of complex geometric files for construction and architecture and translating that to the CO2 footprint and embodied energy for the raw materials in the building (concrete, steel, glass etc.).

This will led designers increase sustainability and make better buildings.

What are your thoughts about open sourcing this project vs. creating a proprietary software?

Design in Motion: Real-Time Rendering's Impact on Architecture

Architecture, a discipline that once relied heavily on blueprints, models, and lengthy render times, has undergone a revolutionary transformation in recent years. The advent of real-time rendering technology has fundamentally altered the way architects visualize, present, and interact with their designs. This paradigm shift has not only enhanced the creative process but has also empowered architects to make more informed decisions and create immersive experiences for clients and stakeholders.

Real-time rendering, a technological marvel that harnesses the power of high-performance graphics hardware and advanced software algorithms, allows architects to generate photorealistic visualizations of their designs in a matter of milliseconds. Gone are the days of waiting hours or even days for a single rendering to complete. This acceleration in rendering time has not only expedited the design process but has also encouraged architects to explore multiple design iterations rapidly.

One of the most significant impacts of real-time rendering on architecture is the ability to visualize a design in various lighting conditions and environmental settings. Architects can now instantly switch between daytime and nighttime lighting scenarios, experiment with different materials, and observe how their designs respond to different seasons or weather conditions. This level of dynamic visualization offers insights into how a building's appearance and functionality evolve throughout the day, contributing to more holistic and thoughtful design solutions.

Moreover, real-time rendering has transformed client presentations. Architectural concepts can now be communicated with unprecedented clarity and realism. Clients can virtually walk through spaces, observing intricate details, exploring different angles, and even experiencing the play of light and shadow in real-time. This immersive experience fosters a deeper understanding of the design intent, enabling clients to provide more targeted feedback and make informed decisions.

The impact of real-time rendering on collaboration within architectural teams cannot be overstated. Traditionally, architects and designers would need to wait for a rendering to complete before discussing design changes or improvements. With real-time rendering, team members can make adjustments on the fly, observing the immediate effects of their decisions. This seamless collaboration not only enhances efficiency but also encourages interdisciplinary collaboration as architects, engineers, and other stakeholders can work together in real-time to refine designs.

The integration of virtual reality (VR) and augmented reality (AR) into the architectural workflow is another transformative aspect of real-time rendering. Architects can now create VR environments that allow clients to step inside their designs and explore every nook and cranny. This not only enhances client engagement but also enables architects to identify potential design flaws or spatial issues that might not be apparent in 2D drawings. AR, on the other hand, overlays digital information onto the physical world, facilitating on-site decision-making and construction supervision.

Real-time rendering's impact extends beyond the design phase. It has proven to be a valuable tool for public engagement and community involvement in architectural projects. By creating virtual walkthroughs of proposed structures, architects can offer the public an opportunity to experience the design before construction begins. This transparency fosters a sense of ownership and allows for constructive feedback, contributing to the development of designs that resonate with the community's needs and aspirations.

The environmental implications of real-time rendering are also noteworthy. The ability to visualize designs in various environmental contexts contributes to more sustainable architecture. Architects can assess how natural light interacts with interior spaces, optimizing energy efficiency and reducing the need for artificial lighting during the day.

In conclusion, real-time rendering has ushered in a new era of architectural design, propelling the industry into a realm of dynamic visualization, immersive experiences, and enhanced collaboration. The ability to witness designs in motion, explore different lighting conditions, and interact with virtual environments has redefined how architects approach their craft. From facilitating client presentations to fostering sustainable design solutions, real-time rendering's impact on architecture is profound and multifaceted. As the technology continues to evolve, architects have an unprecedented opportunity to push the boundaries of creativity, efficiency, and sustainability in the built environment.