The Intel Core 7 150UL uses an LGA 1700 socket and is built on a 10 nm semiconductor process, keeping its Thermal Design Power at 15W with a maximum operating temperature of 100 °C. It includes integrated graphics and fully supports 64-bit computing. Connectivity is handled through PCIe 4.0, offering a current-generation expansion interface for compatible peripherals and storage devices.
The processor uses big.LITTLE technology to arrange its cores into two groups — two cores running at 1.7 GHz and eight cores at 1.2 GHz — for a combined total of 12 threads. Under sustained load, the turbo clock speed reaches 5 GHz, while the clock multiplier is set at 17 and the multiplier itself is locked, meaning manual overclocking is not supported. Rounding out the performance picture is a 12 MB L3 cache, which helps reduce latency when the processor accesses frequently used data.
The integrated graphics solution is the Iris Xe Graphics 96EU, equipped with 96 execution units, 768 shading units, 48 texture mapping units, and 24 render output units. It operates at a base clock of 300 MHz and can boost up to a GPU turbo of 1300 MHz, with support for up to four simultaneous displays. On the API side, it is compatible with DirectX 12 Ultimate, OpenGL 4.6, and OpenCL 3, covering a broad range of graphics and compute workloads.
The processor supports DDR5 memory running at speeds of up to 5200 MHz across a dual-channel configuration, allowing for reasonable memory bandwidth in a compact platform. The maximum supported memory capacity reaches 96 GB, providing ample headroom for memory-intensive tasks. ECC memory, however, is not supported, so error-correcting RAM configurations are not an option with this processor.
The processor supports multithreading and includes the NX bit for hardware-level memory protection against certain types of malicious code execution. Its instruction set support spans MMX, F16C, FMA3, AES, AVX, AVX2, SSE 4.1, and SSE 4.2, covering a wide range of computational tasks from cryptographic operations to vectorized floating-point workloads.