The 24-core Intel Core Ultra 9 processor, known as Arrow Lake-S, is generating significant interest due to its impressive performance. With frequencies reaching up to 5.7 GHz, this new standard is highly anticipated. Insights into its technical specifications and features could potentially redefine power benchmarks in the industry.
24 Arrow Lake-S Cores Up to 5.7 GHz
Jaykihn reports that the qualification sample (QS) can achieve an operating frequency that is 1.0 GHz higher than the Engineering Sample 2 (ES2).
Intel has already distributed qualification samples (QS) of its new Core Ultra 200K series to its OEM partners, and several of these units have made their way into benchmarks like Geekbench. As these companies enhance their platforms, the final specifications of the new series have started to emerge.
The Core Ultra 200K series will launch with two 24-core models: the Core Ultra 9 285K and the Core Ultra 9 275. These models consist of 8 Lion Cove performance cores (P-Cores) and 16 Skymont efficiency cores (E-Cores). The Core Ultra 9 285K is expected to achieve a maximum boost frequency of 5.7 GHz.
According to a leaker named Jaykihn, one of these 8+16 SKUs (likely the 285K or 275) can already reach the 5.7 GHz frequency, which is 1.0 GHz higher than the Engineering Sample 2 (ES2) of the same processor. Additionally, the QS unit is reported to reach up to 5.4 GHz with all P-Cores activated and 4.6 GHz with all E-Cores activated. The leaker indicated that the 5.7 GHz boost frequency was attained through TVB technology.
QS: 5.7GHz 1-2P, 5.4GHz allP, 4.6GHz allE
6400MT
ES2: 4.7GHz 1-2P, 4.5GHz allP, 3.9GHz allE
6400MT
I will announce the boost frequencies for the entire B0 range with the QS this week.
— Jaykihn (@jaykihn0) August 16, 2024
The crucial information is that the Core Ultra 200K series is unlikely to reach the same frequency as its predecessor. The Core i9-14900KS was capable of achieving 6.2 GHz, while the 14900K was launched with support for 6.0 GHz. Another important detail is that the new series will not support hyperthreading.
The 285K may not be the highest-performing model in this collection. Intel has released three successive KS variants since the LGA-1700 platform debuted, and four if the 9900KS from the previous platform is included. In other words, it is highly likely that 5.7 GHz is not the ultimate target for Arrow Lake.
| Core Ultra 200 “Arrow Lake-S” (RUMOR) | |||||||
|---|---|---|---|---|---|---|---|
| Features | Configuration | Cores/Threads ⤵️ | Boost Clock | (P-Core) | Boost | (E-Core) | PBP (TDP) |
| Core Ultra 9 285K | |||||||
| Core Ultra 9 275 | |||||||
| Core Ultra 7 265K | |||||||
| Core Ultra 7 265KF | |||||||
| Core Ultra 7 255 | |||||||
| Core Ultra 5 245K | |||||||
| Core Ultra 5 240 |
Source : jaykihn0
The 24-Core Intel Core Ultra 9 Processor: Unveiling the Power of Arrow Lake-S
The 24-core Intel Core Ultra 9 processor, known as Arrow Lake-S, is already generating significant interest thanks to its remarkable performance. With frequencies reaching up to 5.7 GHz, this new reference is eagerly awaited in the tech community. The details of its technical specifications and features could redefine performance standards in the field of computing.
24 Arrow Lake-S Cores: Performance Breakthroughs
Recent reports from reputable leaker Jaykihn indicate that the qualification sample (QS) of the processor can achieve an operational frequency 1.0 GHz higher than previous exemplars (ES2).
Intel has begun distributing qualification samples (QS) of its new Core Ultra 200K series to OEM partners, and early versions have already surfaced in benchmarks like Geekbench. As these companies refine their platforms, the specifications and features of this new series become clearer.
Core Ultra 200K Series Launch Details
The Core Ultra 200K series will feature two main models with 24 cores each: the Core Ultra 9 285K and the Core Ultra 9 275. Both models will integrate 8 Lion Cove performance cores (P-Cores) along with 16 Skymont efficiency cores (E-Cores). The Core Ultra 9 285K is projected to reach an impressive maximum boost frequency of 5.7 GHz.
According to Jaykihn, one of these 8+16 SKUs, likely the 285K or 275, has already reached the anticipated 5.7 GHz frequency, surpassing the Engineering Sample 2 (ES2) of the same processor. Furthermore, the QS unit purportedly operates at up to 5.4 GHz with all P-Cores active and 4.6 GHz with all E-Cores active. Notably, this boost frequency of 5.7 GHz is attributed to Intel’s Turbo Velocity Boost (TVB) technology.
QS: 5.7GHz 1-2P, 5.4GHz allP, 4.6GHz allE
6400MT
ES2: 4.7GHz 1-2P, 4.5GHz allP, 3.9GHz allE
6400MT
I will announce the boost frequencies for the entire B0 range with the QS this week.— Jaykihn (@jaykihn0) August 16, 2024
Performance Comparison
The Core Ultra 200K series is anticipated to have lower maximum frequencies compared to its predecessor. For reference, the Core i9-14900KS reached an impressive 6.2 GHz, while the 14900K launched with a supported frequency of 6.0 GHz. It’s also essential to note that the new series will not support hyper-threading, marking a significant change in architecture.
Potential for Higher Frequencies
Interestingly, the 285K may not necessarily be the top-performing model in this lineup. Intel has consistently unveiled three consecutive KS variants since the LGA-1700 platform debut. Therefore, it’s plausible that 5.7 GHz isn’t the ultimate target for Arrow Lake, hinting that future releases may push boundaries even further.
Core Ultra 200K Specifications Overview
| Core Ultra 200 “Arrow Lake-S” (RUMEUR) | ||||
|---|---|---|---|---|
| Model | Cores/Threads | Boost Clock (P-Core) | Boost Clock (E-Core) | PBP (TDP) |
| Core Ultra 9 285K | 24C/24T (8P+16E) | 5.7 GHz | 4.7 GHz | 125W |
| Core Ultra 9 275 | 24C/24T (8P+16E) | TBC | TBC | 65W |
| Core Ultra 7 265K | 20C/20T (8P+12E) | 5.5 GHz | TBC | 125W |
| Core Ultra 7 265KF | 20C/20T (8P+12E) | 5.5 GHz | TBC | 125W |
| Core Ultra 7 255 | 20C/20T (8P+12E) | TBC | TBC | 65W |
| Core Ultra 5 245K | 14C/14T (6P+8E) | 5.2 GHz | TBC | 125W |
| Core Ultra 5 240 | 10C/10T (6P+4E) | TBC | TBC | 65W |
Source: jaykihn0
Benefits of the Arrow Lake-S Architecture
- Enhanced Performance: The combination of performance and efficiency cores maximizes both processing speed and power savings.
- Advanced Cooling Solutions: The new cooling technologies support higher frequency operations without significant overheating issues.
- Greater Multitasking Ability: With 24 cores, users can expect enhanced multitasking capabilities, making it ideal for demanding applications and gaming.
- Longer Lifespan: The efficiency cores help reduce power consumption, potentially leading to a longer component lifespan.
Practical Insights for Gamers and Professionals
For gamers, the Core Ultra 9 285K’s performance capabilities will offer smoother frame rates and improved load times, enhancing overall gaming experiences. Professionals in video editing, rendering, and 3D modeling will also benefit from the additional cores, allowing for parallel processing and quicker project turnaround times.
The increased boost capabilities with TVB technology suggest that the new architecture can adapt dynamically to workload demands. This adaptability is crucial for applications that experience fluctuating loads, ensuring that performance remains consistently high.
Final Thoughts on Core Ultra 200K Series
The excitement surrounding the Intel Core Ultra 9 processor series reflects the ongoing demand for high-performance computing solutions. The integration of advanced cooling solutions, superior architecture, and innovative technologies signifies a positive step forward in CPU development.
