Samsung's flagship 5G processor/modem boasts 7.65 Gbps in mmWave

Samsung announced mass production of its flagship Exynos 2100 mobile processor built on an advanced 5nm EUV process technology, which enables 20-percent lower power consumption or 10-percent higher overall performance than its preceding 7nm predecessor. 

The Exynos 2100 chip offers improved cache memory utilization and a stronger scheduler. The octa-core CPU comes in an improved tri-cluster structure made up of a single powerful Arm Cortex-X1 core that runs at up to 2.9GHz, three high-performing Cortex-A78 cores and four power-efficient Cortex-A55 cores delivering more than 30-percent enhancement in multi-core performance than the predecessor.CThe newly-designed tri-core NPU has architectural enhancements such as minimizing unnecessary operations for high effective utilization and support for feature-map and weight compression. Exynos 2100 can perform up to 26-trillion-operations-per-second (TOPS) with more than twice the power efficiency than the previous generation. 

Samsung's Exynos 2100’s advanced image signal processor (ISP) supports camera resolutions of up to 200-megapixels (Mp). It can connect up to six individual sensors and is able to process four concurrently for richer multi-camera experiences. With a multi-camera and frame processor (MCFP), the ISP can combine feeds from multiple cameras to improve zoom performance, enhance image quality for ultra-wide shots and more. With AI acceleration, the ISP offers a content-aware feature that quickly and seamlessly recognizes scenes, faces and objects and optimally adjusts the camera settings to capture the image with fuller detail.

The Exynos 2100’s integrated 5G modem supports 5G’s sub-6GHz and mmWave spectrums from 2G GSM/CDMA, 3G WCDMA and 4G LTE, for strong network coverage and reliability. The modem delivers a maximum downlink speed of up to 5.1 Gbps in sub-6-gigahertz (GHz) and 7.35Gbps in mmWave, or up to 3.0Gbps in 4G networks with 1024 Quadrature Amplitude Modulation (QAM) support.