The AMD Ryzen 7 Pro 8700G is a desktop processor built for the AM5 socket, fabricated on a 4 nm semiconductor process. It carries a Thermal Design Power of 65W and is rated for a maximum operating temperature of 95 °C. The chip includes integrated graphics and fully supports 64-bit computing, while its PCIe 4 interface enables connectivity with compatible expansion hardware.
The processor runs eight cores at a base speed of 4.2 GHz, supporting 16 threads in total, and can reach a turbo clock speed of 5.1 GHz under load. It does not use big.LITTLE technology, meaning all cores operate under a uniform architecture. The chip features an unlocked multiplier set at a clock multiplier of 42, giving flexibility for frequency tuning. Cache is arranged across three levels: 512 KB of L1, 8 MB of L2 at 1 MB per core, and 16 MB of L3 at 2 MB per core.
In multi-threaded testing, the processor achieves a PassMark score of 31,094, rising to 32,401 when overclocked. Its single-threaded PassMark result stands at 3,940, reflecting its per-core responsiveness. Cinebench R20 testing places the chip at 7,061 in the multi-core run and 707 in the single-core run.
The integrated graphics solution is the Radeon 780M, running at a base clock of 800 MHz and boosting up to 2,900 MHz. It is built around 12 execution units and 768 shading units, complemented by 48 texture mapping units and 32 render output units. The GPU supports up to four displays simultaneously and is compatible with DirectX 12, OpenGL 4.6, and OpenCL 2.1.
The processor uses DDR5 memory across a dual-channel configuration, allowing for balanced memory bandwidth across both channels. It supports a maximum installed memory capacity of 256 GB and is compatible with ECC memory, making it suited for workloads where data integrity is a consideration.
The processor supports a broad set of instruction sets including MMX, F16C, FMA3, AES, AVX, AVX2, SSE 4.1, and SSE 4.2, covering a wide range of computational and security-oriented operations. It also features multithreading, enabling each physical core to handle multiple threads simultaneously. Additionally, the NX bit is present, providing hardware-level support for memory protection against certain types of code execution exploits.