AM06 Pro 5800U Windows Full Scan
- CPU
- AMD r7 5800U
- GPU
- AMD Vega 8
- Cores
- 8P / 16T
- RAM
- 64GB / 2 slots · 3200 MT/s
- Storage
- 2 (1× NVMe) · 1×2.5"
- LAN
- 2× 2.5G
- Size
- 132×132×50mm · 0.87L
The Lenovo M60e Tiny is a mini PC powered by the Intel i5 1035G1 (10th gen). It features 4 performance cores and 8 threads and a soldered CPU. Graphics are handled by the integrated Intel Intel UHD. Supports up to 64GB of RAM across 2 slots at 2666 MT/s. Storage capacity of up to 2 drives including 1 NVMe, 1× 2.5" SATA. Networking features 1 Ethernet port (up to 1G). Dimensions: 183 × 179 × 35mm (1.15L). Uses a Brick PSU, 15W TDP.
Recommended for office work, web browsing, media playback, light home or business use, and larger multitasking workloads. Consider Lenovo M60e Tiny if you want a compact mini PC built around its listed Intel i5 1035G1 processor and Intel Intel UHD integrated GPU. It is less suitable for heavy gaming or GPU-accelerated workloads because no discrete or high-speed external GPU path is listed.
Lenovo M60e Tiny features Intel i5 1035G1 with Intel Intel UHD integrated GPU, offering the listed mini PC hardware configuration. CPU details include 10th CPU generation, 4 performance cores, and 8 threads. Memory support includes up to 64GB RAM across 2 slots at 2666 MT/s. Storage support includes up to 2 storage drives including 1 NVMe SSD slot, 1× PCIe Gen3 x4 NVMe, and 1× 2.5-inch SATA bay. Display support includes support for up to 3 displays. Physical design includes a 183 × 179 × 35 mm chassis (1.15L). Cooling information lists 80 mm main fan. Power information lists Brick power supply and 15W TDP. Lifecycle information lists 1-year warranty.
Based on its overall score of 107.3, Lenovo M60e Tiny is positioned as a lower-ranked mini PC entry in this dataset; compare it against alternatives by CPU class, GPU type, memory ceiling, storage expansion, LAN, and port selection.
basic office work, web browsing, digital signage, larger multitasking setups.
you need modern AAA gaming or sustained GPU rendering; you need a high-speed external-GPU or advanced docking path; you need fast wired networking beyond basic Gigabit Ethernet.