M4 vs. M5 Chip Buyer’s Guide: How Much Better Really Is M5?

Estimated read time 6 min read

Apple’s newly introduced M5 chip takes Apple silicon to the next level, delivering meaningful gains across CPU, GPU, and AI workloads, but how does it compare to the M4?

Compared to the M4 chip that Apple launched in May 2024, the M5 delivers:

Up to 15% faster multithreaded CPU performance

Up to 30% faster overall graphics performance

Up to 45% faster ray tracing performance

27.5% higher unified memory bandwidth

In addition to general performance claims, Apple published a set of specific real-world workload results showing measurable gains in AI-driven applications:

4×+ peak GPU compute performance for AI

3.6× faster time to first token (LLM)

1.8× faster Topaz Video Enhance AI processing

1.7× faster Blender ray-traced rendering

2.9× faster AI speech enhancement in Premiere Pro

With the M5, Apple is heavily emphasizing an AI-centric design. The company says the new GPU architecture includes a dedicated Neural Accelerator within every GPU core, and that the chip delivers more than six times the peak GPU compute performance for AI compared to the M1. Apple also cites improvements to the Neural Engine, memory bandwidth, and developer-facing APIs to support on-device AI models. Other hardware changes compared to the M4 include:

M4 Chip

M5 Chip

Made with TSMC’s second-generation 3nm process (N3E)

Made TSMC’s third-generation ‌3nm‌ process (N3P)

No integrated Neural Accelerators

Integrated Neural Accelerator in every GPU core

Metal 3 developer APIs

Metal 4 developer APIs with Tensor APIs to program GPU Neural Accelerators

Second-generation ray tracing engine

Third-generation ray tracing engine

First-generation dynamic caching

Second-generation dynamic caching

Shader cores

Enhanced shader cores

120 GB/s unified memory bandwidth

153 GB/s unified memory bandwidth

Support for up to 2TB storage

Support for up to 4TB storage

For users whose workloads include on-device AI inference, complex 3D rendering, or other GPU-bound or memory-intensive tasks, the jump from M4 to M5 is material. The combination of per-core Neural Accelerators, higher memory bandwidth, and new GPU architecture produces multi-fold speed-ups in certain AI operations. In environments where time-to-result directly affects workflow, such as local LLMs, diffusion models, video enhancement, or ray-traced production or gaming, the M5 represents a meaningful step-change rather than a minor iteration.

By contrast, for typical day-to-day usage, browsing, office work, media playback, basic editing, and general responsiveness, the difference is unlikely to be perceptible. The M4 was already a high-performance chip that routinely exceeded the demands of normal Mac and iPad workloads, leaving little visible headroom to exploit with the M5. In non-specialist scenarios, devices equipped with the M4 remain effectively indistinguishable in experience from those running with an M5.

As a result, average users should not be dissuaded from buying or keeping an M4 machine. That being said, if you plan to keep your device for many years, M5 devices will be more future-proof and better equipped to handle increasingly popular AI-based utilities.

The M5 chip is currently available only in the 14-inch MacBook Pro, the latest iPad Pro, and the Apple Vision Pro. Higher-end M5 Pro and M5 Max variants are expected to follow in future Mac models.

Related Roundups: iPad Pro, MacBook Pro
Tags: M4, M5
Related Forum: MacBook Pro

This article, “M4 vs. M5 Chip Buyer’s Guide: How Much Better Really Is M5?” first appeared on MacRumors.com

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​ Apple’s newly introduced M5 chip takes Apple silicon to the next level, delivering meaningful gains across CPU, GPU, and AI workloads, but how does it compare to the M4?

Compared to the M4 chip that Apple launched in May 2024, the M5 delivers:

Up to 15% faster multithreaded CPU performance
Up to 30% faster overall graphics performance
Up to 45% faster ray tracing performance
27.5% higher unified memory bandwidth

In addition to general performance claims, Apple published a set of specific real-world workload results showing measurable gains in AI-driven applications:

4×+ peak GPU compute performance for AI
3.6× faster time to first token (LLM)
1.8× faster Topaz Video Enhance AI processing
1.7× faster Blender ray-traced rendering
2.9× faster AI speech enhancement in Premiere Pro

With the M5, Apple is heavily emphasizing an AI-centric design. The company says the new GPU architecture includes a dedicated Neural Accelerator within every GPU core, and that the chip delivers more than six times the peak GPU compute performance for AI compared to the M1. Apple also cites improvements to the Neural Engine, memory bandwidth, and developer-facing APIs to support on-device AI models. Other hardware changes compared to the M4 include:

M4 Chip
M5 Chip

Made with TSMC’s second-generation 3nm process (N3E)
Made TSMC’s third-generation ‌3nm‌ process (N3P)

No integrated Neural Accelerators
Integrated Neural Accelerator in every GPU core

Metal 3 developer APIs
Metal 4 developer APIs with Tensor APIs to program GPU Neural Accelerators

Second-generation ray tracing engine
Third-generation ray tracing engine

First-generation dynamic caching
Second-generation dynamic caching

Shader cores
Enhanced shader cores

120 GB/s unified memory bandwidth
153 GB/s unified memory bandwidth

Support for up to 2TB storage
Support for up to 4TB storage

For users whose workloads include on-device AI inference, complex 3D rendering, or other GPU-bound or memory-intensive tasks, the jump from M4 to M5 is material. The combination of per-core Neural Accelerators, higher memory bandwidth, and new GPU architecture produces multi-fold speed-ups in certain AI operations. In environments where time-to-result directly affects workflow, such as local LLMs, diffusion models, video enhancement, or ray-traced production or gaming, the M5 represents a meaningful step-change rather than a minor iteration.

By contrast, for typical day-to-day usage, browsing, office work, media playback, basic editing, and general responsiveness, the difference is unlikely to be perceptible. The M4 was already a high-performance chip that routinely exceeded the demands of normal Mac and iPad workloads, leaving little visible headroom to exploit with the M5. In non-specialist scenarios, devices equipped with the M4 remain effectively indistinguishable in experience from those running with an M5.

As a result, average users should not be dissuaded from buying or keeping an M4 machine. That being said, if you plan to keep your device for many years, M5 devices will be more future-proof and better equipped to handle increasingly popular AI-based utilities.

The M5 chip is currently available only in the 14-inch MacBook Pro, the latest iPad Pro, and the Apple Vision Pro. Higher-end M5 Pro and M5 Max variants are expected to follow in future Mac models.
Related Roundups: iPad Pro, MacBook ProTags: M4, M5Buyer’s Guide: iPad Pro (Buy Now), MacBook Pro (Buy Now)Related Forum: MacBook ProThis article, “M4 vs. M5 Chip Buyer’s Guide: How Much Better Really Is M5?” first appeared on MacRumors.comDiscuss this article in our forums   Read More MacRumors: Mac News and Rumors – All Stories 

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