TEAMGROUP Leads the Industry with The Announcement of High-Performance CAMM2 DDR5 Memory - Consumer and Industrial Solutions Drive New Memory Solution Standards

camm2_800x435

In actively verifying its next-generation CAMM2 (Compression Attached Memory Module 2) memory modules, global memory leader Team Group Inc. today announced two specifications: consumer-grade CAMM2 DDR5 7200 MHz and industrial-grade CAMM2 DDR5 6400 MHz. These new products provide expanded options for the memory market, delivering faster data transfer speeds, enhanced performance, and greater user flexibility.

The consumer-grade CAMM2 memory from TEAMGROUP operates at DDR5 7200 MHz CL34-42-42-84 【1】 under manual overclocking, delivering exceptional performance. Compared to the default JEDEC specification, the module offers write, copy, and read speeds of up to 108,000MB/s, 106,000MB/s, and 117,000MB/s, respectively, while reducing overall latency to 55ns. The module delivers smoother performance when running large applications, gaming, or multitasking. The potential to achieve ultra-high frequencies of 8000-9000 MHz in the future further underscores its superior capabilities. In addition, TEAMGROUP Industrial is developing an industrial-grade CAMM2 memory, optimized for DDR5 6400 MHz, which is designed for industrial control, edge computing, and AI applications, providing robust support for high-performance computing and real-time data processing. The module will play a critical role in the development of technologies such as smart manufacturing, autonomous driving, and smart cities by improving both performance and reliability.

Compared to traditional SO-DIMM, U-DIMM, and R-DIMM memory, CAMM2 introduces a breakthrough design with several distinct advantages. It supports dual-channel mode with a single memory module, simplifying system architecture and significantly reducing power consumption. With an integrated CKD (Client Clock Driver) for improved signal integrity, CAMM2 memory is smaller and ideal for thin and light notebooks. Its improved thermal design allows for greater heat dissipation efficiency, unlocking more potential in a compact space. CAMM2 memory surpasses previous standards in overclocking, read speed, and latency, delivering an exceptionally smooth user experience. Through rigorous testing, TEAMGROUP has maximized the capabilities of CAMM2 to create endless possibilities for the memory market.

TEAMGROUP will continue to invest in CAMM2 technology, advancing both consumer and industrial specifications to deliver high-performance, reliable memory solutions. The TEAMGROUP CAMM2 memory series is expected to be released in Q1 2025, bringing a new experience to consumer PCs and industrial applications. Stay tuned to TEAMGROUP's official website and social media channels for the latest news.

※ The following screenshots are from a burn-in using the Intel i9-14900K processor with the Z790 PROJECT ZERO (CAMM2) motherboard.

[burn-in test screenshot 1]

[burn-in test screenshot 2]


【1】This test environment used an Intel i9-14900K processor paired with the Z790 PROJECT ZERO (CAMM2) motherboard.
Search

Can not find our product or news? Try to enter your keywords.

Please Enable cookies to improve your user experience

We are dedicated to protecting your personal information according to the General Data Protection Regulation (GDPR) implemented by the European Union (EU).
Cookies are small temporary files within a web browser used to identify the preference of each user when browsing websites.
When you visit our website again, Cookies will be used to recognize your device and access relevant information.
By selecting "Accept All", you allow us to enhance your user experience on our website through the use of Cookie, assist us in the analysis of website performance and usage so that we can recommend marketing content most suitable for you in the future.
You may also click on "Manage Cookies" on the botton left to set your browsing habit and preferences as you wish.
Privacy preferences
We are dedicated to protecting your personal information according to the General Data Protection Regulation (GDPR) implemented by the European Union (EU).
Cookies are small temporary files within a web browser used to identify the preference of each user when browsing websites.
When you visit our website again, Cookies will be used to recognize your device and access relevant information.
By selecting "Accept All", you allow us to enhance your user experience on our website through the use of Cookie, assist us in the analysis of website performance and usage so that we can recommend marketing content most suitable for you in the future.
You may also click on "Manage Cookies" on the botton left to set your browsing habit and preferences as you wish.
Manage preferences

Necessary cookie

Always on
The functionability of the website relies on some necessary Cookies, such as pricacy rights, security, and form completion, etc. You can choose to close such Tracking Cookies, but could result in most of the site features not functioning properly.

Functional cookie

Functionality Cookies are used to help website administrators provide users with personalized content and other features such as video playback. Abnormal website functionaility may occur if you didn't allow us to use these Cookies and you will not be able to enjoy an optimal browsing experience.

Marketing cookie

Advertising Cookies
Advertising Cookies are used to track user browsing history to this website. These Cookies aims to identify users and display advertisements or information of interest to users.

Targeting Cookies
This type of Cookies is set up by advertising partners through our website. These companies will use Cookies to create your interests and show relevant advertisements from other websites. You will not be able to experience the Targeting Ads on different websites if you didn't allow the use of Targeting Cookies.

Social Media Cookies
These cookies are service settings set by us on this website, enabling you to share our web content with your friends and on other networks. You will not be able to use these sharing features if you didn't allow the use of these Cookies.