The i9-14901TE uses the LGA 1700 socket and is manufactured on a 10 nm semiconductor process, with a maximum operating temperature of 100 °C. It carries a 45W TDP, integrated graphics, and full 64-bit support, making it a thermally conservative option that still covers the fundamentals for a modern desktop platform. PCIe 5 connectivity is supported, ensuring compatibility with current-generation expansion and storage interfaces.
The processor runs eight cores at a base clock of 2.3 GHz with a clock multiplier of 23, supporting 16 threads through multithreading. It can reach a turbo clock of 5.5 GHz via Turbo Boost version 2, and unlike many chips in this TDP range, it features an unlocked multiplier, allowing clock speed adjustments beyond the factory defaults. The chip does not use big.LITTLE heterogeneous core architecture, and its cache is structured as 640 KB of L1, 16 MB of L2 at 2 MB per core, and 36 MB of L3 at 4.5 MB per core.
The integrated UHD Graphics 770 runs at a base clock of 300 MHz with a turbo up to 1650 MHz, backed by 32 execution units, 256 shading units, 16 texture mapping units, and 8 render output units. It supports up to four simultaneous displays and is compatible with DirectX 12, OpenGL 4.5, and OpenCL 3, giving it coverage across the main graphics and compute APIs used in general desktop and light professional workloads.
The i9-14901TE supports DDR5 memory at up to 5600 MHz across two channels, with a peak bandwidth of 89.6 GB/s. It can address up to 192 GB of RAM in total, and ECC memory is supported, making it a practical option for deployments where data integrity and error correction are operational requirements.
The i9-14901TE supports multithreading and includes the NX bit for hardware-level memory protection against certain classes of exploits. Its instruction set support covers MMX, F16C, FMA3, AES, AVX, AVX2, SSE 4.1, and SSE 4.2, enabling hardware acceleration for a range of workloads including vectorized computation, media processing, and encryption. The presence of AES instructions alongside the NX bit makes the chip well-equipped for security-conscious system deployments at the hardware level.