Apple has recently unveiled its latest models, the iPhone 17 and iPhone 17 Pro, which come with significant design improvements and remarkable performance enhancements. A standout feature of these devices is the introduction of the innovative A19 Pro chip, now powering both the iPhone 17 Pro and iPhone Air. This new chip reportedly matches the CPU performance of the M4 MacBook Pro, an impressive achievement that underscores Apple’s prowess in semiconductor technology. Recent benchmarks on Geekbench reflect this advancement, showing performance metrics that notably surpass last year’s offerings.
Benchmark Performance of iPhone 17 Pro: A Game-Changer
The latest Geekbench results, highlighted by Jukanlosreve on X, categorize the device under the label iPhone18, 2, which industry analysis confirms as the iPhone 17 Pro. Notably, the tested A19 Pro variant in this model utilizes a 6-core GPU, in contrast to the 5-core GPU found in the iPhone Air variant. The reported benchmark scores are eye-opening: a single-core score of 3, 895 and a remarkable multi-core score of 9, 746, positioning the iPhone 17 Pro among the most powerful smartphones evaluated to date.
For comparative context, the previous generation iPhone 16 Pro, equipped with the A18 Pro chip, averaged single-core scores of 3, 447 and multi-core scores of 8, 576. While impressive in their own right, the iPhone 17 Pro shows significant enhancements: a 13% increase in single-core performance and a 14% boost in multi-core performance. These advancements promise smoother multitasking capabilities, accelerated media export times, and improved responsiveness for processor-intensive tasks, including various Apple Intelligence functions.
A19 Pro pic.twitter.com/WvSFbAnGXi
— Jukan (@Jukanlosreve) September 10, 2025
Interestingly, when compared to Apple’s M4 MacBook Pro, the performance metrics tell an intriguing story. While the M4 chip achieves a single-core score of approximately 3, 829 and maintains over 14, 000 in multi-core performance, it highlights Apple’s aggressive approach in mobile chip design. It’s important to understand that the M4’s performance advantage in the multi-core category can be attributed to its greater core count and superior thermal management, giving it a 45% lead in this area.
Beyond benchmark scores, the iPhone 17 Pro boasts an advanced vapor chamber cooling system, a first for the iPhone line. This innovative thermal management technology enables the A19 Pro chip to maintain higher performance levels for extended periods, effectively minimizing throttling during demanding tasks, such as gaming or intensive workload processing. As a result, users can expect consistent performance that truly reflects the benchmark scores in everyday use.
Stay tuned as we delve deeper into the A19 Pro chip’s graphics performance and other capabilities that set this device apart. Are these performance upgrades compelling enough for you to consider an upgrade from the iPhone 16 Pro?
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