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+# Delta-Engine
+
+## Abstract
+Scientific abstractions are one of the very useful techniques to implement software to control embedded microcontrollers for heavy machinery operations. In this paper, we introduce a physics engine that provides a new software paradigm for IO control for embedded systems and robotics based on a mathematical-physical abstraction.
+
+## Keywords
+Embedded Systems - Embedded IO - C Programming Framework - Calculus-based Physics - Multivariate Calculus - Software programming paradigms
+
+## Knowledge Gaps
+There are a couple of theoretical and practical knowledge gaps that this software is going to address including, but not limited to:
+- [ ] Precisional IO Embedded Control of heavy machines and robotics using Scientific Abstractions (e.g., Mathematical/Physical and Chemical Abstractions).
+- [ ] Seamless hardware implementation of several physics simulation systems.
+- [ ] Single abstraction for software and hardware systems.
+
+## Introduction
+Delta-Engine is a physics engine that provides a new software architectural paradigm for precisional IO switch and control over embedded systems and robotics without much knowledge in embedded systems, managing states and software engineering paradigms or if they fail to design the system (e.g., Object-oriented programming). It introduces the field of computational physics to the embedded world through providing a virtual machine and a runtime infrastructure based on the Newtonian physics spaces and supporting infrastructure IO libraries for several supported platforms.
+
+## Methodologies
+- Virtualization of physics objects and IO emulation using mathematical and physical abstractions.
+- Newtonian physics spaces as Runtime Infrastructure (RTI).
+- Implementation of several physics spaces modules (e.g., Kinematics Module - Fluid Mechanics Module).
+
+## High-level Architecture
+
+## Implementation Phases and Milestones
+
+## Integration Phases and Life Applications
+
+## Future vision and startups