The iPhone 15 Pro Max has shown a 96% faster download speed compared to the iPhone 14 Pro Max.

Last year, the iPhone 14 Pro Max achieved remarkable data download speeds over cellular networks. Today, we will discover how the iPhone 15 Pro Max impressively outperforms its predecessor according to Ookla's initial report, showcasing its cellular connectivity performance, as it is nearly 100% faster.

Ookla provides a recent report on mobile device performance, comparing major carriers in the United States concerning download and upload speeds, stability, availability, and other connectivity-related factors.

The report includes a ranking of the top smartphones in the United States during the third quarter of 2023, based on download speeds, upload speeds, and response time.

In the previous fall, the iPhone 14 Pro Max was crowned the fastest in cellular speeds. Still, it lost this title in the fourth quarter and the first quarter of 2023.

Looking at smartphone performance by download speed in the third quarter of 2023, the report reveals that the iPhone 15 Pro Max has overwhelmingly surpassed all other phones, with an average download speed of 251.37 megabits per second. This represents an increase of nearly 10% compared to the previous iPhone 15 Pro model.

This means that the iPhone 15 Pro Max delivered a stunning download speed, nearly 96.6% faster compared to the performance of the iPhone 14 Pro Max, which recorded an average download speed of 127.83 megabits per second during the second quarter of this year.

In the previous year, the highest download speed rate measured by Ookla for the iPhone 14 Pro Max was 147 megabits per second, a figure that decreased to 127 megabits per second during the second quarter of this year.

An interesting note is that the iPhone 15 and 15 Plus models were not included in Ookla's list of maximum download speeds, even though they use the same Qualcomm X70 modem as the iPhone 15 Pro/Max. There may be another explanation for this difference, possibly related to the modem's integration with the A16 Bionic and A17 Pro chips, or other factors.