Programoptics
Light is dynamically manipulated using digital algorithms
Programoptics
Programoptics integrates digital algorithms across two core domains:
- 1. versatile manipulation of light in space
- 2. system-level optimization of imaging workflows to deliver real-time, high-quality imaging performance.
Fusing More-Lens and More-Than-Lens: The Future of Optical Engineering
At Triad Light Innovation (TLI), we envision a seamless merger of More-Lens and More-Than-Lens approaches. This fusion represents the co-evolution of lens-based optics and programoptics, unlocking light's full potential.
The Unified Philosophy
More-Lens Approach
Focuses on physical precision and material innovation. Delivers stability and reliability for high-performance optics. Acts as the "hardware foundation" of optical systems.
More-Than-Lens Concept
Introduces programmable, software-driven control of light properties. Enhances adaptability through dynamic modifications. Aligns optics with modern AI and digital ecosystems.
Dimensions of the Fusion
Hardware Meets Software
Physical optics remain essential.
Software-defined optics enable real-time updates and AI-driven adjustments.
Precision Meets Programmability
Lens-based optics provide accuracy.
Programoptics introduce flexible, algorithmic control for real-time evolution.
Precision Meets Programmability
Lens-based optics provide accuracy.
Programoptics introduce flexible, algorithmic control for real-time evolution.
Complementary Strengths
More-Lens excels in physical precision. More-Than-Lens enables adaptability and digital integration.
Light's Inherent Parallelism
Optical systems naturally process multiple light paths simultaneously.
Higher Efficiency Through Parallel Processing
Software Programmability
Algorithms optimize and control parallel light processing in real-time.
Enhanced Speed and Throughput
The fusion results in unprecedented processing capabilities for complex optical tasks.
Expanded Functionality Without Physical Redesign
Time Savings
Rapid deployment of new features without lengthy physical redesigns.
Software Updates
New capabilities added through programming, without hardware changes.
Cost Efficiency
Reduced need for hardware replacements, lowering long-term expenses.
Algorithmic Control of Light and Light Fields
1
Dynamic Adjustments
Real-time modification of light properties.
2
Wavelength Control
Precise tuning for specific applications.
3
Intensity Modulation
Fine-grained control over light output.
4
Phase Manipulation
Advanced interference and holographic capabilities.
Bridging Optics to Digital and AI World
Light Source
Light Field
Light Detection
Simplification With Enhanced Potential
Software Complexity
Advanced features implemented through sophisticated algorithms.
User-Friendly Interface
Complex operations simplified through intuitive software controls.
Simple Physical Design
Core optical components remain streamlined and efficient.
Sustainability and Scalability
1
Software Upgrades
Extend system lifespan without hardware replacements.
2
Lean Concept
Fewer physical components used, less footprint, more flexibility.
3
Scalable Applications
Systems adapt to larger, more complex tasks through software.
“Programoptics”
Unified Vision:
The Future of Optical Engineering
TLI pioneers a balanced approach where legacy meets innovation, efficiency meets flexibility, and light meets intelligence. We're fusing precision with possibility to illuminate a limitless future.
