LSAC (Laser Spatial Architecture Carving) — Beyond 2D, Beyond Silicon
We are building the next generation of three-dimensional architecture — laser-formed, fluid-hosted, and dimensionally scalable.
What Is LSAC (Laser Spatial Architecture Carving)?
LSAC (Laser Spatial Architecture Carving) is a radically new logic architecture — laser-formed, immersed in a cooling fluid, and scalable in three dimensions. It is designed to overcome the physical and architectural limitations of 2D silicon-based microelectronics.
Post-Silicon Architecture
No transistors. No etching. LSAC (Laser Spatial Architecture Carving) builds logic paths in 3D space using volumetric laser carving.
Structure-as-Function
Each logic node is physically formed and spatially routed—combining form and function.
Fluid-Hosted Substrate
The logic lives in a replaceable medium—enabling cooling, reconfiguration, and multi-material embedding.
How It Works
LSAC (Laser Spatial Architecture Carving) introduces a new fabrication paradigm based on volumetric laser sculpting inside fluidic environments. This enables truly spatial logic formation — without transistors, masks, or etching.
Volumetric Laser Carving
Logic structures are carved directly into the volume — bypassing 2D constraints and enabling freeform topology.
No Lithography, No Etching
LSAC (Laser Spatial Architecture Carving) does not rely on masks, etching, or layered deposition. Everything is laser-written in a single pass.
Liquid-gel cooling structure
Structures form inside a soft transparent medium — allowing thermal flow, material transitions, and easy replacement.
The LSAC (Laser Spatial Architecture Carving) roadmap follows the TRL framework — a progression from theoretical research to working hardware. Each stage unlocks deeper capabilities and complexity. The current funding round focuses on TRL 1–2: foundational research and early feasibility.
TRL 1–2: Foundational Research & Feasibility
Initial theoretical modeling, laser-material interaction studies, and feasibility tests inside fluid-gel substrates. Identification of suitable materials, beam parameters, and early structural results.
Funding target: € 400,000
Current raised: € 1132
TRL 3: Proof of Concept
Initial laser-driven structuring in real materials. First visible 3D logic shapes inside fluid-hosted environments. Setup for repeatable formation and spatial control.
TRL 4–5: Functional Prototypes
Controlled generation of logical structures with testable input/output behavior. Demonstration of working gates, branching logic, and basic thermal routing.
TRL 6–7: System Integration
Assembly of full multi-block logic units. Integration of cooling channels, signal routing, and external interfaces. Performance benchmarking under load.
TRL 8–9: Industrial Demonstration
Demonstration of a complete LSAC(Laser Spatial Architecture Carving)-based logic device in real-world conditions. Validation of performance, reproducibility, and manufacturing pathway.
How We Build the LSAC (Laser Spatial Architecture Carving) Engine Team
We are creating a new kind of deep-tech team — distributed, modular, and hybrid by design.
Our Phase 1 plan combines senior remote experts with local student assistants and a minimal physical core. This hybrid architecture allows global talent access, fast iteration, and reduced burn rate.
All experimental stages — from laser alignment to structure validation — are streamed, logged, and coordinated through live dashboards.
Optical Physicist (Remote)
Designs and simulates laser-material interactions. Defines beam profiles, focal dynamics, and volumetric control schemes.
Materials Scientist (Remote)
Selects and tests fluid-hosted substrates. Studies phase change behavior, optical transparency, and structural permanence under laser activation.
Lab Assistant (On-site)
Supports hands-on setup, sample handling, and structured experiments in the lab. Works under remote expert guidance with direct access to laser and material systems.
We are preparing to assemble the LSAC (Laser Spatial Architecture Carving) core team as soon as the initial funding is secured.
If you are an optical physicist, materials scientist, or lab specialist and would like to contribute to the first post-silicon architecture — we welcome early contact and informal expressions of interest.
Write to: founder@lsacengine.com
Join the Mission
LSAC (Laser Spatial Architecture Carving) is raising initial funding to unlock Phase 1 — theoretical modeling, laser experiments, and team assembly.
We are building a radically new logic architecture. If you believe the world needs a leap beyond silicon — support us at the beginning.
Support our project with any amount from 1 euro. For larger contributions or investment proposals, please contact us directly.
Write to: partners@lsacengine.com
Support LSACengine
Help Us Build The Next Generation Of Logic Infrastructure — Laser-Formed, Fluid-Hosted, And Dimensionally Scalable.
Bank Transfer (EUR – SEPA):
IBAN: CZ95 6210 6701 0022 2006 0207
BIC (SWIFT): BREXCZPPXXX
Account Holder: Petr Bannikov
Purpose: Donation – LSACengine
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