The global fire and life safety (FLS) services market is projected to grow steadily, with a CAGR of 4.35% from 2023 to 2029, according to the Fire & Life Safety Services Market – Focused Insights 2024–2029 report by Research and Markets. Key drivers of this growth include the rise of smart cities, expanding infrastructure, and increasing demand for safety solutions, in areas such as corporate offices, factories, warehouses, storages or data centers.
Industry: Fire Protection Industry
Application: Fire & Life Safety Systems
Solution: RPS630、ARS630
Services such as testing, inspection, repair, and maintenance make up more than 51% of the market and are essential for ensuring system reliability and regulatory compliance. Given that fire and life safety systems serve the fundamental purpose of protecting human lives and property, routine inspections of critical components become paramount to mission success. The life and safety industry faces many challenges due to the high demand for testing, inspection, repair, and maintenance services, which make up over half of the market. There is constant pressure to keep systems working properly and meet standards. Ensuring system reliability is crucial because failures can put lives and property at risk. The industry also must keep up with changing regulations, making compliance more difficult. Managing regular inspections of key components is complex and requires careful tracking and scheduling. Most importantly, the industry holds great responsibility, as mistakes can have serious consequences.
One of DFI’s customers, a leading provider of comprehensive fire and life safety solution faced a critical infrastructure challenge. Their existing Intel 6th generation Xeon E3-based platform had served them well for years, however, as their fire and life safety product line expanded to meet growing market demands, the limitations of their aging hardware became increasingly apparent.
The company needed a modernized motherboard that could deliver extended lifecycle support while accommodating the sophisticated requirements of next-generation fire and life safety applications. Their legacy system struggled with the computational demands of modern video surveillance analytics, real-time fire detection processing, and the integration requirements of smart building automation systems.
After extensive evaluation and testing, they selected DFI's RPS630 ATX motherboard as the foundation for their upgraded infrastructure, recognizing its potential to address three critical operational pain points while supporting their diverse application portfolio.
1. Centralized BMS Management & Real-Time HVAC Monitoring
The RPS630's 192GB DDR5 memory capacity and quad 4K display support revolutionized their centralized building management system operations. The enhanced memory enabled simultaneous processing of massive data streams from hundreds of connected Heating,Ventilation, Air-conditioning and Cooling (HVAC) units, chillers, air handling systems,lighting controls, and energy meters across multiple building zones and floors. The RPS630's comprehensive I/O Ports feature enables seamless connection to a vast array of smoke detectors, gas leak sensors, temperature and humidity monitors, occupancy sensors, and personnel tracking devices, creating an integrated safety and sophisticated Building Management System (BMS). The quad display setup dramatically improved operator situational awareness by providing dedicated screens for HVAC system performance, energy consumption analytics, environmental conditions, and alarm management, resulting in faster response times during critical events such as equipment failures, environmental emergencies, or system optimization opportunities.
2. Secure Data Management and Regulatory Compliance
The RPS630 features versatile expansion, high-speed storage interfaces, and dependable SATA support. Certified under UL 62368-1, it helps customers meet stringent fire safety and performance standards in life-critical environments while ensuring secure and efficient data management. The integrated SATA storage feature with RAID 0/1/5/10 technology provides reliable, high-capacity data archiving for critical building operation logs, maintenance records, and compliance documentation. RAID 0 delivers enhanced read/write speeds through data striping, while RAID 1 ensures complete data safety through real-time mirroring for instant backups. RAID 5 combines improved performance with fault tolerance by distributing data across multiple drives, allowing continued operation if one drive fails, and RAID 10 merges the speed benefits of RAID 0 with the redundancy protection of RAID 1. This comprehensive RAID implementation accelerates data processing for real-time building management while providing multiple layers of data protection, ensuring vital infrastructure information remains secure and accessible even during hardware failures, maintaining operational continuity and regulatory compliance. Multiple PCIe slots accommodated specialized compliance monitoring hardware, while dual M.2 slots provided rapid access to critical safety records and real-time operational data.
3. Reliability, Redundancy, and Real-Time Processing
The RPS630's industrial-grade design and comprehensive long life cycle support enables robust disaster recovery strategies through redundant network interfaces and failover communication modules. The long-life cycle support feature provides customers with extended product availability, consistent hardware specifications, and ongoing technical support, ensuring building management systems maintain operational continuity without costly hardware migrations or system redesigns. This extended lifecycle approach protects customer investments by eliminating the risk of sudden product discontinuation, reducing total cost of ownership, and providing predictable upgrade paths that align with building infrastructure planning cycles.
The platform's ability to integrate legacy systems through six COM ports while supporting modern compliance requirements proves essential across various facility types, seamlessly maintaining communication with existing certified HVAC equipment and legacy fire safety systems while implementing new regulatory monitoring systems that require extensive data logging and reporting capabilities. Local edge computing capabilities significantly reduce latency in critical HVAC control loops and emergency response systems, while extensive USB connectivity supports comprehensive peripheral integration for emergency operations, maintenance diagnostics, and mobile device connectivity for field technicians.
The combination of industrial-grade reliability and long-term support availability ensures that facility managers can confidently deploy the platform in mission-critical applications, knowing their building automation infrastructure will remain stable and fully supported throughout the entire building lifecycle, which typically spans decades of continuous operation while meeting evolving regulatory standards and technological requirements.
The RPS630's versatile architecture successfully supported our customer’s complete portfolio of fire and life safety applications, with specific benefits tailored to different environments. The enhanced processing power and memory capacity enabled real-time analysis of data from hundreds of connected sensors, while 4K display capabilities and high-speed storage interfaces supported advanced video surveillance analytics for threat detection and behavior analysis.
Site-Specific Implementation Benefits:
Corporate Offices leveraged the platform's building automation integration to coordinate multifloor fire detection systems with HVAC controls and access management. The quad display setup enabled security teams to monitor elevator recall procedures across multiple buildings simultaneously, while redundant network interfaces ensured reliable emergency communication during evacuations.
Supermarkets can centrally manage critical systems including refrigeration, power management, surveillance, and smart shelving through a robust central platform that provides extensive I/O capabilities and edge computing support. This integrated solution enables real-time coordination between fire detection systems in storage areas and automated emergency responses, while supporting advanced video analytics through PEG modules and VMS platforms for comprehensive safety monitoring and in-store behavioral analysis. The system automatically executes coordinated emergency protocols when incidents are detected, simultaneously logging event timestamps and system responses to support subsequent investigations and insurance claims processing.
Warehouses utilized the high memory capacity that supports concurrent data handling from multiple sensor networks, enabling efficient coordination between smoke detection systems, automatedmated material handling equipment, and environmental controls throughout large warehouse spaces. The system provides real-time monitoring of critical cold chain infrastructure, including refrigeration and freezing systems, with continuous tracking of temperature, humidity, and gas levels to ensure product integrity and safety compliance. Advanced visual recognition capabilities integrate seamlessly with automated warehouse control systems, utilizing image recognition and video analytics to monitor inventory movement, detect anomalies, and optimize storage operations.
Factories can leverage the platform's industrial-grade reliability to seamlessly integrate fire suppression systems with emergency shutdown protocols across manufacturing operations. The multiple COM ports provide comprehensive support for legacy hazardous material detection equipment, ensuring compatibility with existing safety infrastructure, while the advanced network architecture featuring 3 x 2.5GbE and 1 x 1GbE (with optional 2.5GbE upgrade) enables sophisticated VLAN configurations for secure network segmentation.
This robust connectivity framework facilitates real-time integration between critical safety systems, production line controls, and centralized management platforms, ensuring rapid response coordination during emergency situations while maintaining operational visibility and control.
Following the RPS630 implementation, our customer reported significant improvements across all operational metrics. System response times decreased substantially due to the enhanced processing capabilities and high-speed memory architecture, enabling faster emergency response and improved overall system performance. The quad-display setup dramatically improved operator efficiency, allowing security personnel to identify incidents more quickly and coordinate responses more effectively across multiple facilities.
Network reliability increased substantially with the redundant 2.5GbE interfaces, delivering nearperfect uptime across their most critical installations. The comprehensive expansion options reduced hardware consolidation requirements, resulting in significant rack space savings while simultaneously improving functionality and system capabilities.
Most importantly, the platform's robust architecture and extensive connectivity options enabled the customer to achieve their UL certification objectives, opening new market opportunities and strengthening their competitive position in the growing fire and life safety market.
As customers continue to expand their operational capabilities, DFI's upcoming ARS630 ATX motherboard leverages Intel's latest Core Ultra processors (Arrow Lake-S) to deliver superior power efficiency and performance per watt compared to previous generations.
These processors establish a historic milestone as the first Intel desktop CPUs to incorporate a dedicated Neural Processing Unit (NPU), generating 13 TOPS of AI computing power that seamlessly integrates with the GPU's 9 TOPS and CPU's 15 TOPS to achieve a combined 37 TOPS AI performance through Intel's sophisticated tri-engine architecture.
In addition to processor upgrades, the ARS630 delivers substantial advancements over the RPS630, featuring Dual Channel DDR5 support up to 5600 MHz with expandability to 192GB for superior memory performance, dual PCIe x16 Gen5 slots to accommodate high-performance expansion requirements, and advanced Out-of-Band (OOB)management capabilities for comprehensive remote system monitoring and diagnostics.
This next-generation model empowers customers to harness enhanced AI capabilities through Intel AI Boost technology, strategically positioning them to capitalize on emerging opportunities in predictive maintenance, advanced analytics, and autonomous building management systems while future-proofing their infrastructure investments.
Learn more about DFI’s RPS630、ARS630