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World's Lowest Power Consumption with High Performance
AIROHA AN7581 supports full-spec Wi-Fi 7 deployments and delivers the world's highest performance/power ratio. With the pressing need to mitigate climate change and soaring energy prices, how to achieve the highest performance with the lowest power consumption has become the ultimate goal of all electronic device designs today. AIROHA AN7581 is a dedicated home broadband SoC that meets such environmental and technological goals by delivering the highest performance/power ratio through a superbly engineered Network Processor Unit (NPU) called Xessor by Airoha Technology.
FTTR Solution Extends the "Last Meter" of Home Broadband
As Fibre to the Home (FTTH) becomes more widely available, the fixed broadband bandwidths offered by most operators have moved well beyond the gigabit level. However, the broadband experience for many consumers is still hampered by the inconsistent coverage and the poor quality of home Wi-Fi. This is because most people have chosen a Wi-Fi mesh solution for their indoor network, and most Wi-Fi mesh networks have no choice but to rely on wireless backhaul with no or low Ethernet coverage in home, resulting in poor quality of experience (QoE) for users.
A Single 10G-PON SoC Supports All Wi-Fi 7
The AIROHA AN7581 is the first and only PON CPE SoC capable of supporting different types of Wi-Fi deployments with a SINGLE chip. Based on a powerful yet flexible architecture, the AN7581 is able to support Wi-Fi deployments from the more economical 2x2 / 4x4 dual-band Wi-Fi to the premium 4x4 tri-band Wi-Fi 7, making it the best choice for FTTx deployments.
Openness
RISC-V ISA
AIROHA hugs RISC-V for building the first "golden triangle" architecture for 10G-PON
World's Fastest 10 Gbps XGS-PON
The AIROHA AN7581 is capable of delivering the world's fastest 10 Gbps symmetric broadband speeds with less than 3 ms latency, as tested with AIROHA's patent-pending tool based on the TR-143 protocol. Conventional industry practice is to control broadband latency to less than 7 ms.