Overcoming IoT Interfacing Bottlenecks with Cavli C-Series 5G Modules
High-bandwidth IoT systems demand more than RF performance; they require efficient SoC–modem interfacing. Cavli Wireless addresses this with its C-Series 5G modules, engineered with PCIe-optimized architectures that deliver stable throughput, low latency, and workload-matched performance across diverse IoT applications.
As IoT deployments scale across industries, from surveillance networks to industrial compute gateways, the interface between the device’s processor and its connectivity module has become a critical performance limiter. Bottlenecks in PCIe bandwidth, DMA handling, and uplink throughput stability can limit real-time video, edge inference, or telemetry workloads even before they enter the 5G network.
With PCIe Gen2, Gen3 x2, and Gen4 interface options, multi-band GNSS, and Linux/OpenWrt support, Cavli modules ensure reliable data movement and predictable performance under real-world workloads.
What to expect from this download?
Why interface bottlenecks limit IoT system performance
RedCap vs 5G NR for different IoT workloads
PCIe Gen2, Gen3 x2, and Gen4 in real IoT use cases
How Cavli’s C-Series modules eliminate data-path bottlenecks for surveillance and gateways
Cavli Hubble™ overview for modem lifecycle management and scalable IoT deployments
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