Intel Platform Trust Technology (PTT) vs Trusted Platform Module (TPM)
Discover Intel’s Platform Trust Technology (PTT) and its potential to redefine hardware security. Find out how it differs from the Trusted Platform Module (TPM).
Comparing Off-the-Shelf Industrial and Embedded PCs with Custom Designed Ones
Discover the advantages and drawbacks of off-the-shelf vs custom PCs in industrial computing. Easily accessible & cost-effective, but with limited customization & generic specs.
AMD Ryzen Embedded: Meet the Ryzen Embedded Processor Family
Discover the AMD Ryzen Embedded Processor Family for powerful and scalable x86 CPU workloads and ‘always on’ embedded systems. Learn key features & specs for Thin Client, Industrial, & Automotive use cases.
Instrumentation Device Integration into an Embedded System
Integrating an Instrumentation device into an embedded systems can improve operational efficiency, ensure compliance, and provide real-time data. Learn how to select the right sensors in this blog post.
Custom Electronics Integration into an Embedded System
We guide you through the process of integrating various custom electronics, such as test equipment, communications equipment, UAV/ROV control, printer mechanisms, and more, into your embedded systems.
Sensor Integration into an Embedded System
Boost the functionality of embedded systems by integrating sensors to collect data. Learn how to integrate temperature, humidity, motion & more. Sensor Integration in Embedded Systems
Wireless Communication Protocols for Embedded Systems
Learn the key characteristics of popular wireless communication protocols: Bluetooth, Wi-Fi, Zigbee, LoRa & more. Understand the strengths & weaknesses of each protocol to make an informed decision.
Power Management Techniques for Embedded Systems
Discover the power of efficient embedded computing with BVM. Take the first step towards optimizing your power management techniques by reaching out to us today!
Mini ITX Motherboards: What You Need to Know
Explore Mini ITX motherboards: powerful features in a small form factor. See how they compare to other motherboard form factors and learn their industrial & embedded uses!
Modular Design: Streamlining Prototyping for Efficiency
Modular design involves constructing a system or product from independent, interchangeable modules, each serving a specific function. These modules can be easily connected to form a larger, integrated system.
Adaptive Engineering: Enhancing Innovation and Efficiency
In this article, we will explore what adaptive engineering is, why it is important, provide examples of its applications, and focus on how industries, particularly within industrial and embedded computing, are utilizing this cutting-edge concept.
An Introduction to COM-HPC: High-Performance Computer-on-Modules
COM-HPC is a standardized form factor designed for high-performance computing applications. It is a modular solution that provides enhanced processing power and flexibility for industrial and embedded computing systems.
GMSL vs MIPI Cameras: Which is Best for Your Embedded Vision Application?
In this article, we compare GMSL and MIPI cameras, highlighting their advantages and disadvantages, and discuss which interface is ideal for specific Embedded Vision applications.
The Importance of Ruggedization in Industrial Computer Design and Manufacturing
From manufacturing plants to oil rigs, computers play a crucial role in streamlining processes and enabling automation. However, one aspect that is often overlooked is the need for ruggedized designs in industrial computer systems.
Designing Industrial Computers for Harsh Environmental Conditions
Whether it’s freezing cold temperatures, scorching heat, high humidity, or rigorous vibrations, industrial computers need to perform reliably under these harsh circumstances.