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As Intel gears for the launch of Lunar Lake and Arrow Lake processors, the company appears to be preparing a new line of high-performance processors for gaming laptops. Recent developments suggest that the company is adapting its desktop-grade Arrow Lake-S chips for use in ultra-high-performance notebooks. The buzz began when X user @InstLatX64 spotted Intel testing a peculiar motherboard labeled "Arrow Lake Client Platform/ARL-S BGA SODIMM 2DPC." This discovery hints at the possibility of Intel packing up to 24 cores into laptop processors, eight more cores compared to the 16 cores expected in standard Arrow Lake-H mobile chips. By utilizing the full potential of Arrow Lake-S silicon in a mobile form factor, Intel aims to deliver desktop-class performance to high-end notebooks in a BGA laptop CPU.
The leaked chip would likely feature eight high-performance Lion Cove P-cores and 16 energy-efficient Skymont E-cores, along with an integrated Xe2 GPU. This configuration could provide the raw power needed for demanding games and professional applications in a portable package. However, implementing such powerful hardware in laptops presents challenges. The processors are expected to have a TDP of 45 W or 55 W, with actual power consumption potentially exceeding these figures to maintain high clock speeds. Success will depend not only on Intel's chip design but also on the cooling solutions and power delivery systems developed by laptop manufacturers. As of now, specific details about clock speeds and performance metrics remain under wraps. The test chip that surfaced showed a base frequency of 3.0 GHz, notably without AVX-512 support.
View at TechPowerUp Main Site | Source
The leaked chip would likely feature eight high-performance Lion Cove P-cores and 16 energy-efficient Skymont E-cores, along with an integrated Xe2 GPU. This configuration could provide the raw power needed for demanding games and professional applications in a portable package. However, implementing such powerful hardware in laptops presents challenges. The processors are expected to have a TDP of 45 W or 55 W, with actual power consumption potentially exceeding these figures to maintain high clock speeds. Success will depend not only on Intel's chip design but also on the cooling solutions and power delivery systems developed by laptop manufacturers. As of now, specific details about clock speeds and performance metrics remain under wraps. The test chip that surfaced showed a base frequency of 3.0 GHz, notably without AVX-512 support.
View at TechPowerUp Main Site | Source