Intel’s Bartlett Lake P-Core Lineup Leaked: Core 9 273PQE Hits 5.9 GHz
The recent leak concerning Intel’s Bartlett Lake P-Core lineup highlights an exciting development in the processing industry. This new series emphasizes a configuration built solely around Performance cores, featuring notable improvements over previous iterations.
Intel’s Bartlett Lake P-Core Lineup
The Bartlett Lake series includes Intel Core 5, Core 7, and Core 9 processors, revealing a total of 12 SKUs. Notably, the flagship model, the Core 9 273PQE, is capable of reaching an impressive boost clock speed of 5.9 GHz.
Specifications and Performance
- Core Count: The flagship Core 9 series will have 12 Performance cores.
- Cache Size: Core 5 series SKUs feature 24 MB of L3 cache; Core 7 has 33 MB; and Core 9 boasts 36 MB.
- Boost Clock Speeds: Core 5 models begin at 5.2 GHz, while the Core 9 tops at 5.9 GHz.
The Core 7 series notably delivers 10 Performance cores, echoing the capabilities of the Core i5 14500 despite having a lower core count. Speculations suggest that the Core 5 models might include 6 to 8 Performance cores, reflecting advancements in core architecture.
Leaked Variants and Their Features
The leaked models within the Core 5 lineup include several variations such as:
- Core 5 213PE — 5.2 GHz, 24 MB L3 Cache
- Core 5 223PE — 5.4 GHz, 24 MB L3 Cache
- Core 5 223PQE — 5.5 GHz, 24 MB L3 Cache
Meanwhile, the Core 7 and Core 9 models exhibit the following specifications:
- Core 7 253PTE — 10 cores, 5.4 GHz, 33 MB L3 Cache
- Core 9 273PE — 12 cores, 5.7 GHz, 36 MB L3 Cache
- Core 9 273PTE — 12 cores, 5.5 GHz, 36 MB L3 Cache
Market Release and Availability
Intel’s Bartlett Lake processors are primarily designed for the Edge computing segment. However, it is expected that some third-party vendors may offer these processors through unofficial channels in the DIY market.
As this lineup gears up for release, the technological community eagerly anticipates the performance capabilities of Intel’s P-Core architecture. With significant advancements in core count and clock speeds, the Bartlett Lake series aims to outperform its predecessors and meet the demands of modern computing applications.
