Apple’s M3 Processor Outperforms M2 Max and M2 Pro in Benchmark Tests

The highly anticipated M3 and A17 Bionic are set to become Apple’s first-ever 3nm chips, boasting outstanding levels of performance and efficiency. Recent benchmark tests have shown that these upcoming SoCs, which are likely to power Apple’s portable Macs, are raising the bar for processing power, outpacing the M2 Pro and M2 Max in a variety of categories.

These results are a testament to the M3 and A17 Bionic’s exceptional speed and power, which are expected to transform the computing industry. With advanced design and optimized single-core and multi-core processing, the M3 and A17 Bionic have the potential to usher in a new era of computing technology, promising unparalleled performance and efficiency to Apple users worldwide.

Twitter user Vadim Yuryev recently shared benchmark results for the upcoming M3 chip on Geekbench 6, revealing a single-core score of 3,472 and multi-core score of 13,676. While it is not yet confirmed whether these numbers are authentic, they suggest that the M3 will be a significant step up from the current M2 models, with the potential to rival even the most powerful MacBook Pro models.

These results are particularly impressive considering that the M3 is expected to power the more affordable MacBook Air models, offering users exceptional performance at a more accessible price point.

While the M3 chip has achieved impressive benchmark results in single-core testing, it reportedly falls short of the 12-core versions of the M2 Pro and M2 Max in multi-core performance on Geekbench 6. This is likely due to the fact that the M3 has fewer cores, highlighting the importance of multi-core processing in certain applications. However, the M3’s superior single-core performance suggests that it may excel in tasks that require rapid processing speeds.

According to benchmark results shared by Vadim Yuryev, Benchmark results suggest that the M3 chip is a promising addition to Apple’s lineup, performing comparably to the 12-core version of the M2 Max in multi-core tests with only a 6 percent difference. However, the M3 outperforms the M2 Max in single-core testing by a notable 24 percent. Against the 10-core variant of the M2 Pro, the M3 demonstrates an impressive 12 percent increase in multi-core performance and maintains a similar lead in single-core benchmarks. Although the core count of the M3 has yet to be confirmed, previous reports have suggested that it will feature eight cores.

If the reported benchmark results are accurate, Apple has certainly made impressive strides with its cutting-edge M3 chipset. The real test will be how well the upcoming 13-inch and 15-inch MacBook Air models can handle the M3’s thermal requirements. However, given that the M3 is rumored to be manufactured on TSMC’s advanced 3nm process, we can reasonably expect favorable results. Nonetheless, it’s worth noting that without any accompanying Geekbench 6 screenshots, we cannot independently verify Yuryev’s reported scores.

While it is exciting to hear about the potential performance of Apple’s upcoming M3 chip, it is important to approach these rumors with caution. As mentioned, the numbers shared by Vadim Yuryev have not been verified, and we have yet to see how the chip performs in real-world usage scenarios.

Furthermore, the recent debunking of the A17 Bionic performance numbers serves as a reminder to be wary of unverified claims, especially when it comes to the highly competitive tech industry. While it is certainly possible that Apple is working on an A17 Bionic chip, we have no concrete information on its specifications or performance capabilities.

However, if the A17 Bionic does eventually come to fruition, we can expect it to provide significant performance improvements over its predecessor, the A16 Bionic.

With these exciting benchmark results, it’s clear that Apple’s M3 processor has the potential to be a game-changer in the world of portable computing. Additionally, the promise of TSMC’s 3nm process is an intriguing prospect that could bring about substantial power savings and performance improvements. However, as with all rumors and leaked information, we should take these claims with a grain of salt until we have official announcements and real-world testing. 

Source: Vadim Yuryev, Via: WCCftech

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