What Makes the Indonesia VPX SBC a Breakthrough for Avionics Applications?

According to the report by Next Move Strategy Consulting, the Indonesia VPX SBC Market size is predicted to reach USD 0.4 million by 2030, at a CAGR of 19.1% from 2025 to 2030.

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Curtiss-Wright’s V3-1222 processor board is the first embedded Intel® architecture design to achieve DO-254 Design Assurance Level (DAL) A certification, marking a significant milestone for avionics computing in Indonesia.

• Intel® Core™ Processor: Integrates a 13th Generation Intel® Core™ CPU optimized for high-performance, real-time avionics workloads.
• Rugged 3U VPX Form Factor: Meets OpenVPX standards for shock, vibration, and thermal extremes common in aerospace environments.
• Safety-Certifiable Artifacts: Supported by the Intel® Airworthiness Evidence Package and COTS-available AC/AMC 20-152A DAL A data artifacts to streamline certification.

Summary: The Indonesia VPX SBC sets a new standard by combining cutting-edge Intel® performance with full safety certification support in a rugged, deployable package.

How Does the 13th Generation Intel® Core™ Processor Enhance Performance?

The leap to 13th Generation Intel® Core™ architecture delivers multi-core efficiency and improved single-thread throughput critical for mission-critical avionics tasks.

• Up to 64 GB DDR5 system memory to handle complex sensor fusion and video processing.
• M.2 socket for high-speed SSD storage, reducing data-load latencies.
• PCIe 3.0 and 10GBASE-KR backplane interfaces for deterministic I/O bandwidth.

Summary: By leveraging Intel’s latest CPU cores and high-speed memory interfaces, the Indonesia VPX SBC ensures smooth execution of demanding real-time avionics software stacks.

Why Is DO-254 Safety Certification Essential for Indonesian Avionics Systems?

Certifying airborne systems to DO-254 DAL A is mandatory for flight-critical applications, guaranteeing hardware reliability under all operational scenarios.

• Reduced Program Risk: Pre-packaged, safety-certifiable data artifacts eliminate the need to develop certification documentation from scratch.
• Lower Non-Recurring Engineering (NRE): Zero mandatory NRE for board-level certification artifacts saves both time and cost.
• Regulatory Compliance: Facilitates smoother approvals by civil and military aviation authorities in Indonesia and beyond.

Summary: The Indonesia VPX SBC’s DO-254 certification roadmap slashes years off development schedules and secures regulatory approval with minimum overhead.

How Does the V3-1222 Module Accelerate Time-to-Deployment?

System integrators can capitalize on ready-made design assurance materials to speed integration and testing phases:

It is supported by the Intel® Airworthiness Evidence Package, which simplifies the preparation of airworthiness cases; it includes commercial-off-the-shelf AC/AMC 20-152A DAL A artifacts to provide reusable safety documentation; and it delivers comprehensive board-level data artifacts that seamlessly support the system-level certification process.

Summary: By furnishing board-level and system-level certification deliverables upfront, the Indonesia VPX SBC reduces development cycles by multiple years and saves customers millions of dollars in engineering costs.

What Key Benefits Do System Integrators Gain?

• Lower Total Cost of Ownership: Eliminates custom certification program costs.
• Proven Reliability: Field-tested Intel® architecture with ruggedized packaging.
• Scalable Performance: Memory and I/O options to tailor solutions for UAVs, mission computers, and radar systems.
• Accelerated Certification: Pre-validated artifacts to satisfy DAL A requirements rapidly.

Summary: Integrators achieve faster time-to-market and reduced budgetary risk by adopting a fully documented, high-performance SBC platform.

Next Steps

1. Evaluate System Requirements: Match compute, memory, and I/O needs of your avionics application to the V3-1222’s capabilities.
2. Engage Certification Teams Early: Leverage provided DAL A artifacts in your project’s initial safety assessments.
3. Plan for Integration: Use the onboard M.2 SSD socket and PCIe 3.0 lanes to optimize data throughput in your architecture.
4. Conduct Environmental Testing: Validate rugged performance under temperature, shock, and vibration profiles specified by Indonesian defense standards.
5. Schedule Deployment Roadmap: Incorporate the board’s qualification timeline to synchronize with broader system rollout plans.

By following these action items, Indonesian aerospace and defense developers can harness the Indonesia VPX SBC to deliver certified, high-performance avionics solutions on accelerated timetables.