Apple’s newest A19 Pro chip has been outperformed in multi-core benchmarks. The results come from recent Geekbench 6 tests. Qualcomm’s Snapdragon 8 Elite Gen 5 and Samsung’s Exynos 2600 both scored higher.
This marks a significant shift in mobile processing power. Apple has long held the performance crown. Its rivals have now closed the gap decisively.
Single-Core Leadership Remains with Apple
The A19 Pro remains the undisputed leader in single-core performance. It achieved a strong score of 3,895 in the Geekbench 6 test. This result keeps Apple firmly ahead of the competition for raw single-threaded tasks.
According to industry benchmarks, its rivals still trail significantly in this area. The Snapdragon chip was 12.9 percent slower in this specific test. Apple’s architectural advantage continues to provide a noticeable edge for responsiveness.
Multi-Core Results Show a New Champion
The multi-core results tell a different story. Apple’s A19 Pro scored a respectable 9,746 points. However, both Android rivals posted significantly higher numbers.
An underclocked Snapdragon 8 Elite Gen 5 scored 11,515. This gives it an 18.2 percent lead over Apple’s silicon. Samsung’s Exynos 2600 also beat the A19 Pro by a notable 15.5 percent margin. The performance landscape for multi-threaded applications has clearly changed.
Info at your fingertips
What is the A19 Pro’s main advantage?
The A19 Pro retains a massive lead in single-core performance. This is crucial for the speed of everyday tasks and app responsiveness on iPhones.
How did Snapdragon and Exynos beat the A19 Pro?
They used more CPU cores to achieve higher multi-core scores. The Snapdragon has an 8-core design, while the Exynos uses a 10-core cluster, compared to Apple’s 6-core setup.
Does this mean Android phones are now faster?
It means they can be faster in specific, highly parallelized tasks that use all cores. For many everyday user experiences, Apple’s single-core strength remains paramount.
Why does Apple use fewer CPU cores?
Apple prioritizes a balance of performance and power efficiency. Using fewer, more powerful cores helps maximize battery life while delivering a smooth user experience.
Are these benchmark results final?
These are early benchmark leaks of unreleased chips. Final retail device performance may vary slightly based on cooling and software optimization.
Trusted Sources: Reuters, Associated Press, industry benchmark data.
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