Intel has recently unveiled its latest lineup of non-K, locked processors at the Consumer Electronics Show (CES) 2024. These processors are a part of the 14th Gen Raptor Lake-S refresh lineup and offer a solution for users who do not require overclocking capabilities.
The K series chips, including the Core i9-14900K, i7-14700K, and i5-14600K, were previously released by Intel. However, these processors were known to be power-hungry, drawing around 253W for the i9 and 173W for the i5. This high power consumption required extensive cooling requirements and limited the overall performance.
With the introduction of the non-K processors, users can expect a more balanced power draw and reduced cooling needs. Although these chips cannot be overclocked, their performance should be comparable to their unlocked counterparts.
Intel’s new lineup consists of 18 SKUs with thermal design power (TDP) ratings ranging from 35 watts to 65 watts. The TDP rating indicates the level of cooling required for the CPU, with a lower TDP indicating lower power consumption.
Interestingly, some of these processor SKUs were already listed by Microsoft on the Windows 11 supported CPU list before Intel’s official announcement. However, Microsoft missed including the ones announced by AMD.
Intel promises good overall performance, excellent gaming capabilities, and productivity with these non-K desktop processors. Intel’s claims are backed by performance charts provided by the company, showcasing victories over the previous-gen i9-13900 and AMD’s Ryzen 7900 in content creation and productivity scenarios.
While Intel’s processors excel in raw throughput, the company acknowledges the need for improvement in terms of performance per watt in future generations.
In conclusion, Intel’s new non-K desktop processors offer a more power-efficient alternative for users who prioritize stability and do not require overclocking capabilities. With promising performance and competitive features, these processors are expected to cater to a wide range of computing needs.
The source of the article is from the blog enp.gr