Advanced Micro Devices (AMD) is one of the leading semiconductor manufacturers in the world, offering high-performance processors and graphics cards for personal and professional use. The company has been in the news recently for its work on the AM5 platform, specifically about memory compatibility issues.
While Intel has already released BIOS updates to support using 24 GB and 48 GB DDR5 memory modules on its 600- and 700-series motherboards, AMD has yet to provide official support for these modules on its AM5 platform.
However, recent reports indicate that AMD is actively working on a solution, developing a new AGESA BIOS firmware, 1.0.0.7, to address these issues and allow for higher-capacity memory modules. The problem with using 24 GB and 48 GB DDR5 memory modules on the AM5 platform is that although the BIOS can detect the memory, the system fails to boot into the operating system. As a result, many users have had to use standard 16 GB or 32 GB DIMM solutions, limiting their systems’ potential memory capacity.
This has been frustrating for users who require higher memory capacity for tasks such as content creation and rendering workloads. Fortunately, AMD is aware of these issues and is working on a solution.
AMD is working on AGESA BIOS firmware 1.0.0.7 to resolve compatibility problems with 24 GB and 48 GB DDR5 memory modules on the AM5 platform. The firmware is expected to support these modules, allowing users to take advantage of the increased memory capacity.
With the AGESA BIOS firmware 1.0.0.7, users on the AM5 platform can take full advantage of the high-capacity 24 GB and 48 GB DDR5 memory modules. This will allow for a maximum memory capacity of 192 GB (4×48 GB) in their systems, significantly boosting content creation and rendering workloads performance.
This will significantly boost users who require large amounts of memory for content creation, virtualization, and other demanding workloads. It’s worth noting that the availability of the new BIOS may vary depending on the motherboard vendor and the specific model of the motherboard. Users should stay tuned for more information from their motherboard manufacturer or check their website for updates on the availability of the new firmware.
The AMD AM5 platform has been experiencing compatibility issues with 24 GB and 48 GB DDR5 memory modules, putting the company at a disadvantage in the professional and content creation markets. Intel’s 600- and 700-series motherboards have already supported these modules, emphasizing the need for AMD to act quickly.
The upcoming AGESA BIOS firmware, version 1.0.0.7, aims to address these issues and allow users to use up to 192 GB of memory in their systems. By providing official support for higher-capacity memory modules, AMD is taking steps to meet the demands of its users and stay competitive in the market.
It’s worth noting that the AM5 platform is still relatively new, having been introduced in late 2021. As such, there are likely to be some compatibility issues that need to be ironed out over time. However, with the new AGESA BIOS firmware, AMD is committed to improving its platform’s compatibility and performance and addressing its user base’s concerns.
In addition to the new AGESA BIOS firmware, AMD has also been working on other updates for the AM5 platform. The company recently released a new chipset driver, version 3.09.01.140, which includes several improvements and fixes. The driver includes support for AMD Ryzen Master, the company’s overclocking utility, and improved system stability and compatibility.
Overall, the upcoming release of the new AGESA BIOS firmware from AMD is a positive development for users who require higher memory capacity on the AM5 platform. It shows that AMD is committed to improving the compatibility and performance of its platform and is working to address the concerns of its user base.
While there is no official launch date for the new BIOS, users can expect it to be available from various motherboard vendors in April or early May. This will allow users to use the latest memory technologies and build more powerful and capable systems for their content creation and rendering workloads.