How the Ruitu ‘Horus Eye’ Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

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How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

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How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

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How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

On the cross-border logistics line between Shenzhen and Hong Kong, over a thousand drones shuttle back and forth daily, compressing the original three-day transportation time to just six hours, with the cost per kilometer significantly reduced to 0.8 yuan, a 60% decrease compared to traditional sea freight costs. This astonishing leap in efficiency is backed by the collaboration between Ruitu’s ‘Horus Eye’ chip and Zhongbei Communication’s 15,000 P computing power cluster, marking a quiet revolution in the low-altitude logistics sector.

How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

1. “Horus Eye”:

Opening a New Chapter in Drone Intelligence

Ruitu’s ‘Horus Eye’ chip, as the core technology of this revolution, adopts a deeply customized RISC-V architecture. This architecture has numerous advantages, reducing power consumption by 30% compared to traditional architectures while achieving a fivefold increase in computing power, providing a solid foundation for intelligent operations of drones. In complex low-altitude environments, it can efficiently handle various edge AI tasks, such as accurately identifying the status of agricultural crops and detecting flight obstacles.

For example, in agricultural protection scenarios, drones equipped with the ‘Horus Eye’ chip collect crop growth data through multispectral sensors, including key information such as plant height, leaf density, and pest levels. The chip’s built-in ‘multi-factor weight model’ quickly generates a ‘personalized prescription’ within 500 milliseconds based on this data. For instance, when detecting that the proportion of aphids on leaves exceeds 5%, indicating mild pest damage, the chip automatically reduces the pesticide concentration to 70% of the standard value, effectively controlling pests while avoiding pesticide damage and reducing pesticide usage, truly achieving precision agriculture.

How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

2. Zhongbei Communication’s 15,000 P

Computing Power Cluster: Strong Support

The 15,000 P computing power cluster built by Zhongbei Communication provides robust computational support for the operation of the ‘Horus Eye’ chip. In busy logistics scenarios like the Shenzhen-Hong Kong freight line, numerous drones flying simultaneously need to process massive amounts of data in real-time, such as the drones’ positions, speeds, cargo weights, as well as weather conditions and airspace control information. Zhongbei Communication’s computing power cluster, with its powerful computing capabilities, ensures that this data can be processed quickly and accurately, allowing each drone to adjust its flight path, speed, and load parameters based on the latest information, avoiding collision risks and achieving efficient and orderly flight.

In the drone logistics trunk network between Jinan and Qingdao in Shandong, Ruitu’s intelligent scheduling platform, supported by Zhongbei Communication’s computing power cluster, processes over 2,000 orders daily, achieving a fivefold increase in efficiency compared to traditional manual scheduling. This achievement highlights the significant role of computing power clusters in enhancing logistics operational efficiency.

How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

3. Collaborative Mechanism:

Smooth Coordination for Efficient Operations

The ‘Horus Eye’ chip and Zhongbei Communication’s computing power cluster are closely connected through an efficient collaborative mechanism. The chip collects various operational data from the drones in real-time, including flight posture, battery power, and task progress, and quickly uploads this data to Zhongbei Communication’s computing power cluster via 5G networks. The computing power cluster uses big data analysis and artificial intelligence algorithms to deeply process and analyze the data, such as predicting drone failure risks and optimizing flight routes to avoid potential danger zones. Subsequently, the processing results are quickly fed back to the ‘Horus Eye’ chip, which adjusts the drone’s operational commands accordingly, ensuring safe and efficient flight.

In the 100,000-acre wheat field project in Heilongjiang’s Beidahuang, 121 drones equipped with the ‘Horus Eye’ chip operate simultaneously. The chip shares real-time data via 5G networks, allowing each drone to be aware of the entire operational area’s conditions, such as wind speed in the eastern plots and crop density in the western plots. Zhongbei Communication’s computing power cluster dynamically allocates tasks based on this data, combined with each drone’s position, remaining pesticide, and current environment, automatically adjusting the operational area to avoid repeated spraying and achieve precise and efficient agricultural operations.

How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

The collaboration between Ruitu’s ‘Horus Eye’ chip and Zhongbei Communication’s 15,000 P computing power cluster is profoundly changing the development pattern of the low-altitude economy. Whether in the logistics transportation sector or in agricultural protection and other application scenarios, their joint use significantly enhances efficiency, reduces costs, and injects strong momentum into the vigorous development of the low-altitude economy, leading the industry into a new era of intelligence and efficiency.

How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power RevolutionHow the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

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How the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power RevolutionHow the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power RevolutionHow the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power RevolutionHow the Ruitu 'Horus Eye' Chip Supports Over 100,000 Drones in Coordinated Operations Under the Computing Power Revolution

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