Description
The G.Skill Ripjaws S5 RAM kit with 96GB (2 x 48GB modules) of high-speed DDR5 memory is designed for users who demand premium performance and multitasking capabilities from their computing systems. Operating at 5200MHz, this memory kit brings a noticeable boost to system speed, responsiveness, and overall efficiency, ideal for content creators, professionals, and gamers who rely on powerful hardware for intensive tasks. The sleek, low-profile design of the Ripjaws S5 is ideal for builds where space is a consideration, while also ensuring compatibility with most standard setups.
Manufactured with high-quality components and rigorously tested, the Ripjaws S5 series offers stability and reliability, even under demanding workloads. This RAM kit supports Intel XMP 3.0 for easy, automatic overclocking to optimize performance without complex setup processes, giving users the flexibility to adjust settings as needed.
Key Features:
- 96GB Capacity (2 x 48GB): Significant memory capacity to handle large data sets, high-level multitasking, and advanced applications.
- DDR5 Technology at 5200MHz: Enhanced speed and performance for quicker data access and processing, reducing load times and improving efficiency in demanding tasks.
- Low-Profile Design: Slim and sleek, fitting seamlessly into compact builds and systems with limited space.
- Intel XMP 3.0 Support: Facilitates easy overclocking for optimized performance without manual configuration.
- G.Skill Quality Assurance: Built to meet G.Skill’s high standards for stability and longevity.
Technical Specifications:
- Series: Ripjaws S5
- Total Capacity: 96GB (2 x 48GB)
- Memory Type: DDR5
- Frequency: 5200MHz
- Latency: Low-latency settings optimized for DDR5
- Intel XMP Support: Yes, XMP 3.0
- Heatspreader: Low-profile, sleek heatspreader design
The G.Skill Ripjaws S5 96GB DDR5 RAM kit provides the high speed and large capacity needed to boost system performance in memory-demanding applications. Its cutting-edge 5200MHz speed and spacious 96GB capacity make it an ideal choice for advanced computing setups requiring both power and versatility.
