The brand-new Intel Nova Lake desktop processors are poised to be one of the most significant leaps in the company’s history. One of the numerous crucial features will be an impressive amount of L3 cache in certain models. According to recent data, the CPUs with an unlocked multiplier will boast 
. A Photo by Videocardz.
This refers to cache memory known as bLLC (Big Last Level Cache). Both old and new reports suggest a bLLC of 144 MB, which is even more than the Ryzen 9 9950X3D’s 128 MB. While AMD is reportedly preparing models with 192 MB, 144 MB is more than sufficient for most applications. Recall that the Core Ultra 9 285K has only 36 MB of L3 cache.
Insider Jaykihn also confirms what we’ve previously heard: This expansive cache will only be available in processors with a single CPU chiplet, meaning they will have a maximum of 8 large and 16 small cores. The higher CPUs will contain two such chiplets 
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Thus, we won’t see any analogs to the Ryzen 9 9950X3D, where large cache memory is combined with top-tier process power. However, for gaming, such an enormous number of cores is unnecessary, and the price of a CPU with a single chiplet will be lower either way. 
. The updated Intel Core Ultra 200K Plus processors will support the new CUDIMM memory format.
Remember, Nova Lake will rely on new architectures for all processor cores. They will also feature iGPU on the new Celestial architecture, a new NPU6 with record performance, and they will be manufactured using a new process technology. Admittedly, the socket will also be new (LGA 1954), but with such a plethora of improvements, a different outcome was hardly expected.
We anticipate that Nova Lake will launch in about a year. Insider Jaykihn was the first to share tests of the Core Ultra 9 285K and describe the entire Core Ultra 200S lineup.
The Impact on the Market and Consumers
With the anticipated release of the Nova Lake processors, Intel is setting a high bar for performance improvements. Their positioning in the market appears strategic, targeting high-end users and gamers who demand powerful processing capabilities. In comparison to AMD’s existing Ryzen series, Intel’s focus on large cache highlights their intent to enhance processing speeds and efficiency, particularly in tasks that benefit from larger caches, such as large dataset computations and gaming.
Technical Advancements with Big Last Level Cache
Incorporating a Big Last Level Cache can significantly impact performance for gaming and other CPU-intensive tasks. Given current technological trends, the increased cache size is likely to reduce latency and improve data fetching processes, translating into faster processing speeds. This is particularly beneficial as games and applications grow more complex, requiring more rapid data access and processing capabilities.
Future Prospects with New Chip Architectures
The integration of new chip architectures in CPUs, as seen with Intel’s Nova Lake, promises advancements in computational capabilities and energy efficiency. These processors, manufactured using advanced fabrication processes, could set a new benchmark for meeting the growing demands for performance and efficiency in both consumer and business applications.
