Apple A14 Bionic vs Apple A16 Bionic

Apple A14 Bionic test: Is iPhone silicon still more powerful than Android SoCs?

The Apple A14 Bionic chip, powering the iPhone 12 range, is built on a 5nm process and offers improved CPU and memory performance. However, GPU gains are minimal. The A14 Bionic outperforms the previous A13 chip and current Android SoCs in CPU performance, but the gap is still close. The A14 Bionic also focuses on AI and photography capabilities. Android SoCs are expected to follow suit, but may not match Apple's CPU performance. The impact of the 5nm process on sustained peak performance is still unknown.

Apple A14 Bionic: specs and benchmarks

The Apple A14 Bionic is a 6-core chipset manufactured using a 5-nanometer process technology. It has 2 cores Firestorm at 3100 MHz and 4 cores Icestorm at 1800 MHz. In benchmarks, it scored 1076769 in AnTuTu 10 and 7601 in GeekBench 6. The GPU has a frequency of 1278 MHz and 4 execution units. It supports 4K video capture and playback, LTE Cat. 18, and 5G. The A14 Bionic is a flagship-class chipset announced in September 2020.

The iPhone 12 & 12 Pro Review: New Design and Diminishing Returns

The iPhone 12 and 12 Pro feature the new Apple A14 SoC, which is a 2+4 heterogeneous CPU SoC with two big performance cores called "Firestorm" and four efficiency cores called "Icestorm". The A14 has higher clock speeds, wider design, and increased execution capabilities compared to the A13. The efficiency cores show substantial improvements in performance, especially in floating-point workloads. The A14 achieves higher single-threaded performance than Intel's designs and has improved energy efficiency compared to the A13. The efficiency cores are comparable to a 2.2GHz Cortex-A76 in performance while using the same amount of power and having 3x the power efficiency.

Apple A16 Bionic: specs and benchmarks

The Apple A16 Bionic is a 6-core chipset manufactured using a 4-nanometer process technology. It has 2 cores Everest at 3460 MHz and 4 cores Sawtooth at 2020 MHz. In benchmarks, it scored 1438650 in AnTuTu 10 and 9874 in GeekBench 6. The GPU frequency is 1398 MHz with 128 shading units. It supports 5G, has a max camera resolution of 48MP, and can capture and playback 4K videos at 60FPS. It also supports Wi-Fi 6 and Bluetooth 5.3.

Latest Apple A16 Bionic GPU benchmarks confirm a disappointing generational performance jump

The latest benchmarks for Apple's A16 Bionic GPU show disappointing performance compared to its predecessor and rivals. While it outperforms other tested SoCs in raw performance, it is less efficient than the Dimensity 9000 and Dimensity 8100. Compared to the Snapdragon 8+ Gen 1, the A16 Bionic is about 20% more powerful and 10% more efficient. It slightly outperforms the A15 Bionic in GPU tests but offers only a slight improvement in raw performance. iPhone 13 owners seeking better gaming performance may want to wait for the iPhone 15 series.

The Apple A16 Bionic shows how far phones have come in closing the processor gap

The Apple A16 Bionic processor has impressive specs, with 16 billion transistors and a 4nm node. It features a 5-core GPU and a 16-core neural engine, making it powerful for a mobile phone processor. However, it still lags behind desktop and laptop processors due to physical constraints. The A16 Bionic's performance gains are limited by its smaller size compared to desktop chips. In contrast, Apple's MacBook and iMac lineups are expected to have faster performance gains. The A16 Bionic could run older computers, but it would struggle to power a modern MacBook Pro. The A16 Bionic has a 6.7% increase in transistor density compared to the A15 Bionic, while the Apple M2 has a 25% increase over the M1. The gap between iPhone chips and MacBook chips is likely to widen in the future.

Apple’s A16 chip doesn’t live up to its ‘Pro’ price or expectations

The A16 chip in Apple's iPhone 14 Pro models is a minor evolution of the A15 chip, with only slight improvements in performance. It features a new display engine and LPDDR5 memory, but the overall architecture remains largely unchanged. The CPU performance shows gains of around 8-10%, while GPU performance benefits from the increased memory bandwidth. However, the A16 chip does not live up to its "Pro" price or expectations, and some argue that it should have been named A15+ or A15 Pro instead.

iPhone 14 Pro benchmarks — here’s how powerful A16 Bionic is

The iPhone 14 Pro and iPhone 14 Pro Max are powered by the new A16 Bionic chipset, which outperforms the competition in CPU and GPU benchmarks. The A16 Bionic is significantly ahead of Qualcomm's Snapdragon 8 Gen 1 and Google's Tensor chip. In terms of CPU power, the iPhone 14 Pro is the clear winner, even surpassing the A15 Bionic-powered iPhone 14. In graphics benchmarks, the A16 Bionic's 5-core GPU delivers impressive performance, outperforming the Snapdragon 8 Plus Gen 1 and the Galaxy S22 Ultra. In a video transcoding test, the iPhone 14 Pro performs exceptionally well, completing the task in just 26 seconds. Overall, the iPhone 14 Pro and iPhone 14 Pro Max are the fastest and most powerful phones available.

Apple A16 Bionic Processor - Benchmarks and Specs

The Apple A16 Bionic is a powerful processor found in the iPhone 14 Pro models. It offers 6 cores, with improvements made to the efficiency cores and memory bandwidth. The Neural Engine offers increased AI performance, while the integrated graphics engine benefits from higher memory bandwidth. The CPU performance shows small improvements compared to the previous generation, but still outperforms competitors. The chip is manufactured in a 4nm process and integrates nearly 16 billion transistors.

Apple A16 Bionic: All you need to know about the mobile chip

The Apple A16 Bionic chip is the latest mobile chip from Apple, featured in the iPhone 14 Pro and Pro Max. It is built on a 4nm architecture with 16 billion transistors, making it faster than the A15 chip. It boasts a 6-core CPU, a new neural engine, and an Advanced ISP for improved camera performance. Apple claims it is the most powerful smartphone chip, 40% faster than the competition. It will also be featured in the upcoming iPhone 15 and 15 Plus.