BARCELONA, Spain, March 5, 2026 /PRNewswire/ -- During MWC Barcelona 2026, Huawei unveiled its new flagship product — the HiSecEngine USG6000G series firewalls, a next-generation high-performance converged gateway lineup. The products unveiled include three 2U fixed-configuration models and four desktop G-series firewalls, marking another major milestone in Huawei's network security portfolio following the E and F series firewalls.
High Performance: Dedicated Security Engines Ensure Smooth Services
The new G-series firewalls are built on Huawei's dedicated security engines, delivering industry-leading performance and threat detection rates. Huawei's USG6800G series fixed-configuration firewalls are designed for enterprise headquarters with large traffic volumes and complex services. Among them, the USG6885G achieves 135 Gbps threat protection performance, the highest among 2U fixed-configuration firewalls, offering 2× the performance and 1.5× the SSL decryption capability compared to similar products. These high-performance firewalls can serve as hub gateways at headquarters, ensuring that critical services run smoothly even with all security functions enabled, meeting the demands of high-volume traffic protection. For multi-branch scenarios, Huawei USG6500G series desktop firewalls integrate firewall, router, and switch functions, and support 5G and PoE power supply.
High Detection Rate: Intelligent Analysis for Precise Identification of Unknown Threats
The HiSecEngine USG6000G series incorporates intelligent security computing power, enabling advanced inline security algorithms and real-time local model inference. In addition to existing file detection, the series adds phishing webpage detection, capable of blocking unknown phishing attacks within milliseconds. With an unknown threat detection rate of 95%, 15% higher than the industry average, it helps enterprises defend against network security risks and ensures uninterrupted service continuity.
Adriano da Rocha Lima, Secretary-General of the Government of Goiás State, Brazil, said that we are continuously improving the development of education, and digital services across the country. By introducing Huawei network security products, our regional government departments have built efficient, secure, and efficient connections to better serve and improve the quality of life of the people.
Huawei's HiSecEngine USG6000G series firewalls are widely applicable across enterprise branches, campuses, and data centers. They enable secure interconnection between headquarters and branches, as well as secure local internet breakout, providing enterprises with comprehensive, industry-leading protection.
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Huawei Launches HiSecEngine USG6000G Series Firewalls to Safeguard Enterprises on Their Journey Toward Full Intelligence
LONDON, March 5, 2026 /PRNewswire/ -- AI workloads are driving unprecedented volatility in data center power systems. Higher rack densities, rapid GPU load swings, and escalating thermal stress are challenging power continuity and operational stability. Ensuring uninterrupted energy supply is becoming foundational to AI-driven facilities.
At DCW London 2026 (Excel London, Booth C145), Ampace is demonstrating how AI Continuity Infrastructure is responding to these accelerating demands. Across the exhibition floor, visitors are engaging with the PU Series, engineered for frequent load fluctuations, and exploring how semi-solid LFP cell technology is stabilizing power spikes while sustaining performance.
PU Series Designed for Volatile AI Workloads
AI data centers are operating under increasingly demanding conditions. High-density racks are concentrating power demand into smaller footprints, requiring compact systems capable of delivering consistent output without sacrificing reliability.
At the same time, GPU clusters are generating rapid and unpredictable load swings. Power systems need to absorb sudden spikes while maintaining a steady backup supply. The PU Series responds with high-rate capability and stable cabinet-level output, supporting continuity under dynamic AI workloads.
Thermal pressure is also intensifying. Elevated ambient temperatures and sustained computational loads are testing system resilience. The PU architecture enables module natural cooling, helping facilities maintain consistent performance without interruption.
Together, these capabilities are reinforcing one essential objective: continuous, stable power in AI-driven environments where downtime is no longer acceptable.
Semi-Solid LFP Cells Power Resilience in AI Environments
As rack power levels rise, intrinsic battery safety is becoming a primary engineering concern.
Ampace's semi-solid LFP cell technology is eliminating free electrolyte within the cell structure, effectively removing leakage pathways over the product lifespan. This design significantly lowers the probability of insulation-related failure mechanisms.
In controlled testing environments, the semi-solid design is demonstrating approximately 58% lower thermal runaway gas release compared with conventional LFP architectures under similar conditions. By minimizing combustible gas generation and improving thermal stability, the technology is reducing the potential for fire propagation in high-density rack systems.
The system has obtained UL 9540A certification, validating fire propagation resistance through standardized large-scale testing.
Beyond safety, the semi-solid structure is also contributing to longer service life and enhanced operational reliability — essential for AI data centers operating under continuous, high-load conditions.
What's Next: Advancing AI Continuity Infrastructure Worldwide
At DCW London 2026, AI Continuity Infrastructure is being positioned as a long-term framework rather than a single product release. Stable dynamic response, thermal resilience, and intrinsic safety are forming the foundation of Ampace's approach to AI data center energy.
Ampace solutions are already supporting large-scale and AI-focused data centers across multiple regions worldwide, including projects in India, China, Korea, Japan, and Indonesia. These deployments are operating in environments defined by high computational density, elevated thermal conditions, and strict power continuity requirements, demonstrating the adaptability and reliability of Ampace systems under real-world operating pressures.
Looking ahead, Ampace is continuing to expand AI Continuity Infrastructure globally — delivering more advanced, resilient, and scalable power solutions to meet the evolving demands of AI-driven data centers worldwide.
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Ampace Is Advancing AI Continuity Infrastructure at DCW London 2026
