About G.Skill Ripjaws M5 32GB DDR5 6000MHz CL36 Memory
The G.Skill Ripjaws M5 DDR5 32GB 6000MHz CL36 memory kit is engineered for users who want strong performance, low latency and reliable stability for next-generation desktop platforms. Running at 6000MHz with CL36-36-36-96 timings, this kit offers fast data throughput and responsive system performance, ideal for gaming, content creation, editing and multitasking.
With a dual-channel 2×16GB configuration, the memory provides excellent bandwidth for demanding applications, ensuring smoother gameplay, quicker rendering and faster load times. The Ripjaws M5 series is built with high-quality ICs, ensuring consistent performance and stability even under heavy workloads.
The low-profile heatspreader design offers efficient cooling without adding height, making it compatible with large CPU coolers and compact PC builds. Designed for both Intel and AMD DDR5 platforms, this kit supports high-speed operation for a wide range of next-gen systems. Whether you’re building a powerful gaming rig or a productivity workstation, the Ripjaws M5 DDR5 kit delivers fast, reliable and efficient memory performance.
G.Skill Ripjaws M5 32GB DDR5 6000MHz CL36 Memory Specifications:
| Feature | Details |
|---|---|
| Model | G.Skill Ripjaws M5 F5-6000J3636F16Gx2-RM5RK |
| Capacity | 32GB (2×16GB) |
| Speed | 6000MHz |
| Memory Type | DDR5 |
| Latency | CL36-36-36-96 |
| Configuration | Dual Channel |
| Heatspreader | Low-profile design |
| Ideal Use | Gaming, productivity, and content creation |
| Compatibility | Intel and AMD DDR5 platforms |
Best For
• High-performance gaming desktops
• Video editing, rendering and creative workflows
• Heavy multitasking and productivity tasks
• Compact builds needing low-profile RAM
• Systems requiring stable high-speed DDR5 memory
• Users upgrading to fast, efficient next-gen RAM
The G.Skill Ripjaws M5 32GB DDR5 6000MHz CL36 kit delivers fast, stable and low-latency memory performance, making it an ideal upgrade for gaming PCs, professional workstations and high-efficiency desktop builds.
