Clovis Applied Engineering Solutions delivers top-tier engineering services from design to final product, dedicated to providing exceptional support and innovative solutions with a comprehensive range of services including:
Mechanical System Design
Computer Aided Design (CAD)
3D Modeling: Creating detailed three-dimensional models of parts and assemblies.
2D Drafting: Developing precise engineering drawings and schematics.
Simulations and Analysis
Finite Element Analysis (FEA): Simulating mechanical stresses and strains in components.
Computational Fluid Dynamics (CFD): Analyzing fluid flow and heat transfer in systems.
Rapid Prototyping
3D Printing: Producing physical prototypes quickly using additive manufacturing techniques.
Prototype Testing: Validating designs through iterative testing and refinement.
Software Development & Integration
Python & C/C++ Development
Custom Applications: Developing tailored software solutions in Python and C/C++.
High-Performance Computing: Creating optimized software for demanding applications.
Computer Vision Integration
Object Detection and Tracking: Implementing systems for real-time object recognition and tracking.
Machine Learning Models: Integrating machine learning for enhanced vision capabilities.
Application Containerization
Dockerization: Packaging applications in Docker containers for consistency and portability.
Kubernetes Orchestration: Deploying and managing containerized applications with Kubernetes.
Systems Engineering Services
Systems Integration
Multi-Disciplinary Integration: Combining mechanical, electrical, and software components into cohesive systems.
Interoperability Solutions: Ensuring different system components work together seamlessly.
Requirements Analysis
Stakeholder Requirement Gathering: Identifying and documenting requirements from all stakeholders.
System Specification: Developing detailed specifications to guide design and implementation.
Testing & Validation
System Testing: Conducting rigorous tests to ensure systems meet specified requirements.
Validation and Verification: Verifying that systems perform as intended under real-world conditions.