CPU Comparison
Apple M1 Max vs Apple M3 Max
A side-by-side comparison of specs, performance and value. The Apple M1 Max is an ARM-based system-on-chip for pro MacBook Pro and Mac Studio, pairing a 10-core CPU with up to a 32-core GPU and up to 64GB of unified memory on a 400GB/s bandwidth fabric, aimed at video, 3D, and developer workloads.
The Bottom Line
Overview & Launch
Specifications Compared
Specialized Performance
AI / ML
- 16-core Neural Engine accelerates Core ML models for imaging, video analysis, and audio tasks.
- Unified memory allows running mid-sized models and batching within device memory.
- Large-scale model training is better suited to data center GPUs; M1 Max excels at inference rather than training.
- 16-core Neural Engine accelerates on-device ML inference and AI features across pro apps.
- Large unified memory allows running bigger transformer models locally.
- ML frameworks in macOS can leverage GPU, NE, and CPU cores depending on implementation.
Content Creation
Gaming
- Integrated GPU scales well in Apple-optimized games and titles supporting Metal, but driver ecosystem is limited compared to Windows/PC GPUs.
- AAA titles often require reduced settings or resolutions.
- eGPU support is not available on Apple Silicon, limiting future GPU upgrades.
- Apple silicon gaming performance depends heavily on macOS optimizations and title support.
- M3 Max's GPU with ray tracing improves visuals for supported games, but AAA catalog lags Windows.
- High-resolution Retina displays increase GPU load compared to 1080p laptops.
Industry Impact
Best CPU by Use Case
Target Audience
Strengths & Weaknesses
Pros
- Very high performance per watt for CPU and GPU.
- Up to 64GB unified memory with 400GB/s bandwidth enables large projects.
- Hardware-accelerated ProRes encode/decode speeds video workflows.
- Thunderbolt 4 provides flexible external connectivity and displays.
- 16-core Neural Engine for on-device ML inference.
- 48MB system-level cache reduces effective memory latency.
Cons
- Memory is not upgradable after purchase.
- No user-accessible PCIe slots for internal expansion cards.
- Gaming library and optimizations lag behind Windows/x86 systems.
- macOS ecosystem limits some virtualization and workstation use cases compared to Linux/Windows.
Pros
- Up to 16 performance-focused CPU cores for demanding multi-threaded workflows
- Up to 40-core GPU with ray tracing and mesh shading
- Massive unified memory capacity up to 128GB
- High memory bandwidth (300–400GB/s) feeds both CPU and GPU
- Efficient 3nm process balances performance and battery life
- Hardware-accelerated ProRes encode/decode with dual engines
- AV1 decode for efficient high-resolution streaming
- Strong multi-display support (up to four external displays)
- 16-core Neural Engine for on-device ML/AI acceleration
- Highly integrated SoC reduces latency and power use versus discrete CPU+GPU
Cons
- No official TDP or detailed thermal/power specifications from Apple
- Gaming ecosystem and optimization lag behind Windows x86 platforms
- RAM and storage are not user-upgradable after purchase
- Limited to macOS ecosystem; cannot boot Windows natively on Apple silicon
- No PCIe version or lane count disclosures from Apple
- Discontinued as of late 2024, though still available in some channels
Competitors & Alternatives
Apple M1 Max
- AMD Ryzen 9 5900HXRival
High-performance Laptop
- Compare head-to-headIntel Core i9-11980HKRival
High-performance Laptop
- NVIDIA RTX 3080 LaptopRival
Discrete GPU
- Compare head-to-headApple M2 MaxRival
Pro SoC
- Compare head-to-headApple M1 UltraRival
Workstation SoC
- Alt
Lower-cost option when peak GPU memory and bandwidth requirements are modest.
Compare head-to-head - AMD Ryzen 9 7945HX3D + RTX 4090 LaptopAlt
Better for Windows-centric gaming and CUDA workflows.
- Intel Core i9-14900HX + RTX 4090 LaptopAlt
High multi-thread performance and top-tier gaming GPU for Windows.
- Alt
Latest generation with architectural improvements if available.
Compare head-to-head
Apple M3 Max
- Compare head-to-headApple M2 MaxRival
Creator SoC
- Apple M4 MaxRival
Creator SoC
- AMD Ryzen AI 9 HX 375Rival
High-end Laptop
- Intel Core Ultra 9 185HRival
High-end Laptop
- NVIDIA RTX 4090 LaptopRival
Gaming/Creator GPU
Desktop-class SoC with more CPU/GPU cores in Mac Studio for workloads tolerant of older generation.
Compare head-to-head- AMD Ryzen AI 9 HX 370Alt
Windows-based alternative with strong CPU efficiency and x86 software compatibility.
- Intel Core Ultra 9Alt
Windows alternative with strong multi-thread performance and broader I/O options.
- Custom desktop (Ryzen 9 + RTX 4080/4090)Alt
Offers upgradability, PCIe expansion, and higher peak GPU performance for some workloads.
Our Verdict on Each
M1 Max delivers exceptional performance per watt and massive memory bandwidth for a mobile-class SoC, making it an excellent choice for pro creators on the go, though it is not user-upgradeable and lacks discrete GPU flexibility.
Best for: Pro creators who need high single-thread performance, strong GPU acceleration, and large unified memory in a portable MacBook Pro or compact Mac Studio.
Read the full reviewM3 Max pairs exceptional multi-core performance with massive memory capacity and an efficient 3nm design, making it a top choice for pro creators and developers who need workstation-level capability in a MacBook Pro.
Best for: Used or open-box MacBook Pro with M3 Max for creators and developers needing high RAM capacity and multi-core performance at a lower price than M4 Max.
Read the full reviewFrequently Asked Questions
Which is better, Apple M1 Max or Apple M3 Max?
Based on our editorial ratings, the Apple M3 Max comes out ahead with a score of 9/10. That said, the best choice depends on your workload — check the spec and performance breakdown above for gaming, productivity and efficiency differences.
Which has more cores?
The Apple M3 Max has the most cores. Core counts: Apple M1 Max (10 cores), Apple M3 Max (16 cores).