Services

Architecture Design

Transforming concepts into reliable, cutting-edge embedded technologies

Our Approach to Embedded Systems Architecture Design

Requirement Analysis and Specification

We begin by thoroughly understanding your project’s requirements, including performance goals, operational environments, security needs, and any specific industry standards. This allows us to define a clear, comprehensive set of specifications that guide the architecture design process.

Modular and Scalable Design

We emphasize modularity in our architecture designs, enabling flexibility and scalability for future upgrades and feature additions. Our architectures are built to evolve with your product, ensuring longevity and adaptability in a rapidly changing market.

Hardware-Software Co-Design

Our approach integrates hardware and software design from the outset, ensuring seamless interaction between components and optimized performance. Whether working with microcontrollers, processors, or specialized hardware accelerators, we ensure that your system operates efficiently and reliably.

Power and Resource Optimization

P-Logic designs architectures that minimize power consumption and optimize the use of resources such as memory and processing power. This is particularly critical for battery-powered and energy-sensitive applications, where efficiency directly impacts product viability.

Real-Time and Deterministic Performance

For systems that require precise timing and low latency, we design architectures that deliver deterministic performance, ensuring that your embedded system meets the most stringent real-time requirements.

Security and
Robustness

Security is integral to our architecture design process. We incorporate robust security features, such as secure boot, encrypted communications, and hardware-based security modules, to protect your system against potential threats and vulnerabilities.

Compliance and Industry Standards

We ensure that your embedded system’s architecture adheres to relevant industry standards and regulations, facilitating smooth certification processes and market entry.

Typical Design Objectives

Low Power

Must be capable of entering low-power / sleep modes when not being used

Security

Must have security measures to ensure IP is protected and malware is never put on device

Scalable

Must support anticipated
complexity of future features

Real Time

Provide efficient and timely use while performing intensive memory and processor computations

Modular & Reusable

Seamlessly replace modules. Developed material can be reused.

Divide + Conquer Development

Support development by multiple personnel to increase throughput.

Benefits of Our Architecture
Design Services