"AI performance"

#13457501

16 Mar 2026

A wide view of the Fujitsu exhibition stand in Hall 2 under the 2026 theme ''Intelligence in Motion'' during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The pavilion highlights Fujitsu's focus on sustainable AI infrastructure, featuring the public debut of the FUJITSU-MONAKA processor, a next-generation 2nm Arm-based CPU designed for high-performance AI inference with ultra-low power consumption. The exhibit showcases the Fujitsu Kozuchi AI platform, including its new Multi-AI Agent collaboration technology and sovereign AI solutions for data centers. Technical demonstrations include a scaled Quantum Computing replica integrated with high-performance computing for material discovery, and the 1Finity open networking portfolio, which utilizes NVIDIA-backed AI-RAN solutions to optimize 5G-Advanced and 6G-ready architectures. Visitors interact with the ''Amalgamation AI'' visual system, which uses specialized Vision Language Models for real-time industrial monitoring, all running on PRIMERGY servers equipped with Liquid Cooling technology to reduce the GPU carbon footprint by up to 50%.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457431

16 Mar 2026

A close-up of the new Huawei Watch GT Runner 2 displayed at the Huawei pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The watch is designed as a lightweight professional running watch, featuring a 43.5mm titanium alloy case with a weight of 34.5 grams and a thickness of 10.7mm. It includes a 1.32-inch AMOLED circular display protected by 2nd-generation Kunlun Glass, with a peak brightness of 3,000 nits for outdoor visibility. The device incorporates a 3D Floating Antenna system, enhancing dual-band (L1+L5) GPS/GNSS positioning accuracy by 20% compared to previous models. It is equipped with the Huawei TruSense sensor array for heart rate, SpO2, and ECG monitoring, and introduces an Intelligent Marathon Mode with real-time pace guidance. The watch, shown with the AirDry woven strap, offers up to 14 days of battery life and supports NFC payments via Curve, highlighting advancements in AI-driven sports performance tracking.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457439

16 Mar 2026

The Huawei Watch GT Runner 2 is displayed at the Huawei pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The watch is designed as a lightweight professional running device, featuring a 43.5mm titanium alloy case weighing 34.5 grams and a thickness of 10.7mm. It includes a 1.32-inch AMOLED circular display with 2nd-generation Kunlun Glass, achieving a peak brightness of 3,000 nits for outdoor visibility. The smartwatch incorporates a 3D Floating Antenna system for improved dual-band (L1+L5) GPS/GNSS positioning accuracy by 20% compared to previous models. It is equipped with the Huawei TruSense sensor array for heart rate, SpO2, and ECG monitoring, and offers an Intelligent Marathon Mode with real-time pace guidance. Shown with the AirDry woven strap, the watch provides up to 14 days of battery life and supports NFC payments via Curve, highlighting advancements in AI-driven sports performance tracking.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457442

16 Mar 2026

A close-up of the new Huawei Watch GT Runner 2 displayed at the Huawei pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The watch is designed as a lightweight professional running watch, featuring a 43.5mm titanium alloy case with a weight of 34.5 grams and a thickness of 10.7mm. It includes a 1.32-inch AMOLED circular display protected by 2nd-generation Kunlun Glass, with a peak brightness of 3,000 nits for outdoor visibility. The device incorporates a 3D Floating Antenna system, enhancing dual-band (L1+L5) GPS/GNSS positioning accuracy by 20% compared to previous models. It is equipped with the Huawei TruSense sensor array for heart rate, SpO2, and ECG monitoring, and introduces an Intelligent Marathon Mode with real-time pace guidance. The watch, shown with the AirDry woven strap, offers up to 14 days of battery life and supports NFC payments via Curve, highlighting advancements in AI-driven sports performance tracking.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457444

16 Mar 2026

A close-up of the new Huawei Watch GT Runner 2 displayed at the Huawei pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The watch is designed as a lightweight professional running watch, featuring a 43.5mm titanium alloy case with a weight of 34.5 grams and a thickness of 10.7mm. It includes a 1.32-inch AMOLED circular display protected by 2nd-generation Kunlun Glass, with a peak brightness of 3,000 nits for outdoor visibility. The device incorporates a 3D Floating Antenna system, enhancing dual-band (L1+L5) GPS/GNSS positioning accuracy by 20% compared to previous models. It is equipped with the Huawei TruSense sensor array for heart rate, SpO2, and ECG monitoring, and introduces an Intelligent Marathon Mode with real-time pace guidance. The watch, shown with the AirDry woven strap, offers up to 14 days of battery life and supports NFC payments via Curve, highlighting advancements in AI-driven sports performance tracking.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457602

16 Mar 2026

The Indra Fulmar View VTOL, a high-performance tactical Unmanned Aerial System (UAS) with vertical take-off and landing technology from Wake Engineering, is displayed at the Indra Group pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. Designed for maritime and land-based Intelligence, Surveillance, and Reconnaissance (ISR) missions, the platform is powered by an on-board NVIDIA Jetson AGX Orin 64GB module, providing the edge computing power necessary for autonomous flight control and real-time AI video analytics. The aircraft features a dual-sensor payload in a gyro-stabilized gimbal, consisting of a 24-megapixel high-definition electro-optical camera and a high-sensitivity 640x512 thermal sensor for 24/7 operational capability. The demonstration highlights the integration of the system with Indra's TARSIS avionics family and its connectivity via 5G-Advanced and Satellite Non-Terrestrial Networks (NTN), allowing for secure, long-range control and high-bandwidth data transmission in contested environments.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457611

16 Mar 2026

The Indra Fulmar View VTOL, a high-performance tactical Unmanned Aerial System (UAS) with vertical take-off and landing technology from Wake Engineering, is displayed at the Indra Group pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. Designed for maritime and land-based Intelligence, Surveillance, and Reconnaissance (ISR) missions, the platform is powered by an on-board NVIDIA Jetson AGX Orin 64GB module, providing the edge computing power necessary for autonomous flight control and real-time AI video analytics. The aircraft features a dual-sensor payload in a gyro-stabilized gimbal, consisting of a 24-megapixel high-definition electro-optical camera and a high-sensitivity 640x512 thermal sensor for 24/7 operational capability. The demonstration highlights the integration of the system with Indra's TARSIS avionics family and its connectivity via 5G-Advanced and Satellite Non-Terrestrial Networks (NTN), allowing for secure, long-range control and high-bandwidth data transmission in contested environments.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457274

16 Mar 2026

A humanoid robot, identified as the AgiBot X2, performs a synchronized dance routine at the China Mobile pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. Developed in collaboration with China Mobile, this advanced service robot stands 1.27 meters tall and is powered by a high-performance NVIDIA Jetson Thor computing platform designed for embodied AI. The hardware features over 30 active degrees of freedom and high-torque density actuators, allowing for complex movements such as hip-hop dancing, Tai Chi, and full splits. Its sensor suite includes a 3D LiDAR for spatial mapping, stereo depth cameras for real-time obstacle avoidance, and a multi-microphone array for localized voice interaction. The demonstration highlights China Mobile's 5G-Advanced network capabilities, utilizing ultra-low latency and high-bandwidth connectivity to manage the robot's Vision-Language-Action AI model, enabling interaction with visitors and adaptation of its choreography to ambient music in real-time.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457275

16 Mar 2026

A humanoid robot, identified as the AgiBot X2, performs a synchronized dance routine at the China Mobile pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. Developed in collaboration with China Mobile, this advanced service robot stands 1.27 meters tall and is powered by a high-performance NVIDIA Jetson Thor computing platform designed for embodied AI. The hardware features over 30 active degrees of freedom and high-torque density actuators, allowing for complex movements such as hip-hop dancing, Tai Chi, and full splits. Its sensor suite includes a 3D LiDAR for spatial mapping, stereo depth cameras for real-time obstacle avoidance, and a multi-microphone array for localized voice interaction. The demonstration highlights China Mobile's 5G-Advanced network capabilities, utilizing ultra-low latency and high-bandwidth connectivity to manage the robot's Vision-Language-Action AI model, enabling interaction with visitors and adaptation of its choreography to ambient music in real-time.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457276

16 Mar 2026

A humanoid robot, identified as the AgiBot X2, performs a synchronized dance routine at the China Mobile pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. Developed in collaboration with China Mobile, this advanced service robot stands 1.27 meters tall and is powered by a high-performance NVIDIA Jetson Thor computing platform designed for embodied AI. The hardware features over 30 active degrees of freedom and high-torque density actuators, allowing for complex movements such as hip-hop dancing, Tai Chi, and full splits. Its sensor suite includes a 3D LiDAR for spatial mapping, stereo depth cameras for real-time obstacle avoidance, and a multi-microphone array for localized voice interaction. The demonstration highlights China Mobile's 5G-Advanced network capabilities, utilizing ultra-low latency and high-bandwidth connectivity to manage the robot's Vision-Language-Action AI model, enabling interaction with visitors and adaptation of its choreography to ambient music in real-time.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457277

16 Mar 2026

A humanoid robot, identified as the AgiBot X2, performs a synchronized dance routine at the China Mobile pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. Developed in collaboration with China Mobile, this advanced service robot stands 1.27 meters tall and is powered by a high-performance NVIDIA Jetson Thor computing platform designed for embodied AI. The hardware features over 30 active degrees of freedom and high-torque density actuators, allowing for complex movements such as hip-hop dancing, Tai Chi, and full splits. Its sensor suite includes a 3D LiDAR for spatial mapping, stereo depth cameras for real-time obstacle avoidance, and a multi-microphone array for localized voice interaction. The demonstration highlights China Mobile's 5G-Advanced network capabilities, utilizing ultra-low latency and high-bandwidth connectivity to manage the robot's Vision-Language-Action AI model, enabling interaction with visitors and adaptation of its choreography to ambient music in real-time.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457278

16 Mar 2026

A humanoid robot, identified as the AgiBot X2, performs a synchronized dance routine at the China Mobile pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. Developed in collaboration with China Mobile, this advanced service robot stands 1.27 meters tall and is powered by a high-performance NVIDIA Jetson Thor computing platform designed for embodied AI. The hardware features over 30 active degrees of freedom and high-torque density actuators, allowing for complex movements such as hip-hop dancing, Tai Chi, and full splits. Its sensor suite includes a 3D LiDAR for spatial mapping, stereo depth cameras for real-time obstacle avoidance, and a multi-microphone array for localized voice interaction. The demonstration highlights China Mobile's 5G-Advanced network capabilities, utilizing ultra-low latency and high-bandwidth connectivity to manage the robot's Vision-Language-Action AI model, enabling interaction with visitors and adaptation of its choreography to ambient music in real-time.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457359

16 Mar 2026

A large-scale Google Android mascot dressed in the official papaya orange and black team kit of the McLaren Formula 1 Team is showcased at the Android pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The display highlights the multi-year technological partnership between Google and McLaren, focusing on the use of Android devices, including the Google Pixel 10 Pro and the Pixel Tablet, within the team's race operations and engineering workflows. The mascot stands adjacent to a visualization powered by ChromeOS and Google Cloud's data analytics platforms running on NVIDIA H200 Tensor Core GPUs, demonstrating real-time telemetry processing from a theoretical MCL38 F1 car utilizing a private 5G-Advanced network infrastructure. The exhibit emphasizes the integration of Gemini AI for predictive race strategy and performance optimization, bridging the gap between mobile technology and elite motorsport engineering.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457360

16 Mar 2026

A large-scale Google Android mascot dressed in the official papaya orange and black team kit of the McLaren Formula 1 Team is showcased at the Android pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The display highlights the multi-year technological partnership between Google and McLaren, focusing on the use of Android devices, including the Google Pixel 10 Pro and the Pixel Tablet, within the team's race operations and engineering workflows. The mascot stands adjacent to a visualization powered by ChromeOS and Google Cloud's data analytics platforms running on NVIDIA H200 Tensor Core GPUs, demonstrating real-time telemetry processing from a theoretical MCL38 F1 car utilizing a private 5G-Advanced network infrastructure. The exhibit emphasizes the integration of Gemini AI for predictive race strategy and performance optimization, bridging the gap between mobile technology and elite motorsport engineering.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457709

16 Mar 2026

The MagicBot Z1 (Quadruped Edition), an advanced robotic dog developed by Magic Lab, is seen in a powered-down resting state suspended from a technical support gantry at the company's innovation booth during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The robot is built upon a high-performance NVIDIA Jetson AGX Orin 64GB computing module, which processes complex locomotion algorithms and real-time environmental mapping. Its sensor suite, located in the front ''head'' section, features a 12-megapixel ultra-wide RGB camera for visual recognition and a Solid-State LiDAR unit with a 120-degree field of view for obstacle avoidance. The Z1's limbs are powered by proprietary Magic Lab high-torque actuators, providing a peak torque of 180 Nm to each joint, allowing for dynamic movements such as backflips and stair climbing. The demonstration emphasizes the integration of Generative AI for natural language command processing and its IP67-rated chassis, designed for inspection tasks in hazardous industrial environments.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.

#13457708

16 Mar 2026

The MagicBot Z1, a high-performance humanoid robot developed by MagicLab, is pictured in a resting state suspended from a specialized support rack at the company's exhibition stand during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. This advanced bipedal platform is powered by the NVIDIA Jetson AGX Orin 64GB edge computing module, which acts as its primary brain for real-time motion control and spatial perception. The robot's sensory head unit is equipped with a multimodal vision system featuring a 12-megapixel wide-angle RGB camera for object recognition and dual iToF (indirect Time-of-Flight) depth sensors for precision navigation. Its mechanical structure utilizes high-torque quasi-direct drive (QDD) actuators, allowing for a payload capacity of 5 kg per arm and a maximum walking speed of 5 km/h. The display highlights the Z1's integrated end-to-end neural network architecture, which enables it to learn complex tasks such as item sorting and tool handling through human-in-the-loop imitation learning.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.