1. Arrowlake and Lunarlake will be released soon
1.2arrowlake uses Intel20A manufacturing process, focusing on high performance and innovatively built into AIAcceleratorsgame processors.
1.3lunarlake focuses on low power consumption to improveipcPerformance and NPUAI performance are featured.
4. Lunarlake debuted and has been tested by partners
1.5lunarlake is detachedModularityArchitecture, the number of modules has been reduced from four to three.
6. The specific module function of Lunarlake is uncertain
2.The CPU part of the 1arrowlake is 4p4e8 cores 12ThreadsThere may also be ultra-low-power LPE cores.
2.2Lunarlake's GPU portion uses XE2Architectureand integrates two LPDDR5X memory chips.
2.The 3LPDDR5X memory frequency is up to 8533MHz, and the capacity is 8-32GB
2.The power consumption range of 4Lunarlake is divided into two levels: 17-30W and 8W.
3.1lunarlake as a pairQualcommThe Snapdragon Xelite's counterattack will further improve the low-power performance of the processor.
2. Lunarlake will make the heat dissipation efficiency of devices such as thin and light notebooks higher
3.As a member of the Core Ultra series, 3Lunarlake will provide a better user experience.
At this CES, Intel unveiled a new family of Core processors, with Arrowlake and Lunarlake attracting a lot of attention. Arrowlake has excellent performance, while Lunarlake focuses on low power consumption and improves itipcperformance and npuai performance. Lunarlake's samples were also unveiled for the first time on site, and partners have already gotten them for testing. The release of these two processors marks Intel's dual approach to high performance and low power consumption.
1. Arrowlake and Lunarlake will be released soon
At CES, Intel unveiled a new family of Core processors and unveiled the upcoming Arrowlake and Lunarlake products. Arrowlake is built on Intel20A and will be a high-performance processor, while Lunarlake focuses on low power consumption and improvementipcperformance and npuai performance.
1.2arrowlake uses Intel20A manufacturing process with a focus on high performance.
As a member of the Core processor family, Arrowlake uses the latest Intel20A manufacturing process for excellent processing performance. Whether it's used forNotebook, desktop, or server, ArrowLake can provide users with a superior user experience. Not only that, but ArrowLake is also the first built-in AIAcceleratorscan provide gamers with a smoother and ultimate gaming experience.
1.3Lunarlake's focus on low power consumption is similar to Meteorlake's Gen Core Ultra
As a member of the Core Ultra series, Lunarlake focuses on low power consumption. Compared to ArrowLake, Lunarlake is more suitable for devices that require higher power consumption, such as thin and lightNotebookand mobile devices. In addition, Lunarlake is inipcPerformance and NPUAI performance have also been greatly improved, with NPUAI performance even improved by up to 3x. This will result in a more efficient and intelligent computing experience for users.
4. Lunarlake's samples are unveiled for the first time and tested by partners
At CES, Intel publicly demonstrated samples of Lunarlake for the first time and announced that it was now available for testing with partners. This means that the release date of Lunarlake is fast approaching, and users will soon be able to experience the benefits of this processor with a focus on low power consumption and high performance.
1.5lunarlake is detachedModularityArchitecture, the number of modules has been reduced to three.
Compared to the previous family products, Lunarlake uses a more advanced separation typeModularityArchitecture。In Lunarlake, the number of modules has been reduced from four to three, which has reduced the overall size of the processor while also improving the overall performance andEfficiency。However, it is unclear what each of the three modules does.
6. The specific module function of Lunarlake is uncertain
Although Lunarlake is detachedModularityArchitecture, but the function of the specific module is not yet clear. There has been speculation that one of the modules could be the main CPU part, the other could be the GPU part, and the smallest module could involve system modules such as IO. However, this is only a guess, and we need further information to confirm the accuracy of these speculations.
2.The CPU part of the 1arrowlake is 4p4e8 cores 12ThreadsThere may also be ultra-low-power LPE cores.
ArrowLake's CPU part uses 4P4E8 cores 12Threadsto deliver superior computing performance. In addition, ArrowLake has the potential to feature ultra-low-power LPE cores to provide more efficient processing power for devices that rely on low power consumption.
2.2Lunarlake's GPU portion uses XE2Architectureand integrates two LPDDR5X memory chips.
Lunarlake's GPU part features the all-new XE2Architecture, which will give users even better graphics processing power. At the same time, Lunarlake also integrates two LPDDR5X memory chips, which are available in capacities ranging from 8-32GB. This latest LPDDR5X memory frequency up to 8533MHz will provide users with faster data transfer speeds and larger storage space.
2.The 3LPDDR5X memory frequency is up to 8533MHz, and the capacity is 8-32GB
The LPDDR5X memory frequency integrated by Lunarlake is up to 8533MHz, which is a significant improvement over the previous version. At the same time, users can choose a capacity of 8-32GB according to their own needs to meet the needs of different application scenarios.
2.The power consumption range of 4Lunarlake is divided into two levels: 17-30W and 8W.
The power consumption range of LunarLake is divided into two levels: 17-30W and 8W, and users can choose the power level that suits them according to their specific needs. The processors in the 17-30W class use active fan cooling, which not only ensures the normal operation of the processor, but also provides higher performance. The 8W class processors use passive cooling and do not require fans, reducing the potential risk of noise and failure.
3.1lunarlake as a pairQualcommThe Snapdragon Xelite's counterattack will further improve the low-power performance of the processor.
Lunarlake's release was seen as a pairQualcommSnapdragon Xelite's counterattack. As a representative of low-power processors, Lunarlake will further improve the performance of processors in terms of low power consumption. This will allow the user to be able to do so in a thin and light wayNotebookand other devices to enjoy a more efficient and long-lasting use experience to meet the needs of daily office and entertainment.
2. Lunarlake will make the heat dissipation efficiency of devices such as thin and light notebooks higher
Lunarlake's low-power design not only delivers excellent performance, but also optimizes heat dissipationEfficiency。Compared with traditional heat dissipation solutions, Lunarlake is designed to pay more attention to the effect of heat dissipation, so that the device can still maintain low temperature and stable performance during long-term operation.
3.As a member of the Core Ultra series, 3Lunarlake will provide a better user experience.
As a member of the Core Ultra series, Lunarlake will continue to uphold the excellent quality of the Core family to provide users with a more superior computing experience. Whether you're dealing with large tasks or running complex applications, Lunarlake can do it consistently and efficiently. At the same time, it also has powerful AI performance to meet users' needs for intelligent functions.
Through the CES conference, Intel showed off the new Core processor family, among which Arrowlake and Lunarlake attracted much attention. ArrowLake is a high-performance processor that uses the latest Intel20A manufacturing process and has built-in AIAcceleratorsfor a smooth gaming experience. And Lunarlake focuses on low power consumption, inipcThere has been a significant improvement in performance and NPUAI performance, and the separation has been adoptedModularityArchitectureand xe2ArchitectureGPUs are capable of providing users with excellent performance and graphics capabilities. In addition, Lunarlake also integrates two LPDDR5X memory chips to provide faster data transfer speeds and larger storage space. In the future, Lunarlake will further improve the low-power performance of the processor, allowing users to achieve low power performanceNotebookand other devices to enjoy an efficient and long-lasting experience. As a member of the Core Ultra series, Lunarlake will bring users a better computing experience to meet their needs for performance and intelligent features.