The AMD Ryzen 3 Pro 8300GE is a desktop processor built on the AM5 socket and manufactured using a 4nm semiconductor process, with a maximum operating temperature of 95°C. It carries a 35W Thermal Design Power (TDP) rating, making it a low-power option within the desktop segment. The chip includes integrated graphics, supports 64-bit computing, and is compatible with PCIe 4 for peripheral connectivity.
The processor runs four cores at a base speed of 3.5 GHz, with eight threads in total, and can reach a turbo clock speed of 4.9 GHz under load. It features an unlocked multiplier with a clock multiplier value of 35, offering flexibility in clock configuration. Cache is distributed across three levels — 256 KB of L1, 4 MB of L2 at 1 MB per core, and 8 MB of L3 at 2 MB per core — providing a tiered memory structure to support data-hungry workloads. The chip does not use big.LITTLE heterogeneous core technology, meaning all cores share a uniform architecture.
In PassMark testing, the processor achieves a multi-thread score of 14,719, reflecting its overall throughput across all cores and threads. The single-thread result of 3,893 indicates the per-core processing capability as measured by the same benchmark suite.
The integrated Radeon 740M GPU operates at a base clock of 800 MHz and can boost up to 2600 MHz, backed by 4 execution units, 256 shading units, 16 texture mapping units, and 8 render output units. It supports up to four displays simultaneously and is compatible with DirectX 12, OpenGL 4.6, and OpenCL 2.1, covering a broad range of graphics and compute workloads without requiring a discrete card.
The processor uses DDR5 memory across a dual-channel configuration, allowing for balanced bandwidth across two memory slots. It supports a maximum installed capacity of 256GB, and notably includes ECC memory support, which enables error detection and correction — a useful trait for applications where data integrity is a priority.
The processor supports multithreading and includes the NX bit for hardware-level execution protection. Its instruction set support covers MMX, F16C, FMA3, AES, AVX, AVX2, SSE 4.1, and SSE 4.2, enabling a wide range of workloads spanning vectorized math, hardware-accelerated encryption, and floating-point operations.