AMD Ryzen AI MAX+ 495 Leaked With 16 Zen 5 Cores and 192GB RAM
AMD’s next-generation flagship Halo APU has surfaced ahead of launch, revealing what could become one of the most powerful integrated processor platforms ever released for mobile and compact computing systems.
According to leaked benchmark entries appearing in the PassMark database, the upcoming Ryzen AI MAX+ 495, codenamed Gorgon Halo, combines:
- 16 Zen 5 CPU cores
- 32 threads
- Radeon 8065S integrated graphics
- Up to 192GB system memory support
The leak strongly suggests AMD is continuing its strategy of pushing integrated graphics and unified memory architectures far beyond traditional mobile CPU expectations.
🚀 What Is Gorgon Halo? #
The Ryzen AI MAX+ 495 belongs to AMD’s upcoming Ryzen AI MAX 400 series and serves as the successor to the current Strix Halo flagship lineup.
The leaked processor appears to be the PRO commercial variant, although reports indicate its hardware specifications are effectively identical to the consumer version.
Within AMD’s mobile roadmap, the “Halo” branding typically represents fully unlocked, maximum-scale SoCs featuring:
- Higher core counts
- Larger memory capacity
- Enhanced integrated graphics
- Increased power budgets
Conceptually, Gorgon Halo follows the same positioning strategy AMD previously used when transitioning from:
- Strix Point → Strix Halo
Now the same scaling philosophy appears to continue with:
- Gorgon Point → Gorgon Halo
🧠 Zen 5 CPU Specifications #
The leaked Ryzen AI MAX+ 495 features a full 16-core, 32-thread Zen 5 configuration.
CPU Specifications #
| Feature | Ryzen AI MAX+ 495 |
|---|---|
| Architecture | Zen 5 |
| CPU Cores | 16 |
| Threads | 32 |
| L2 Cache | 16MB |
| L3 Cache | 64MB |
| Product Family | Ryzen AI MAX 400 |
| Codename | Gorgon Halo |
While the cache structure remains unchanged from the previous flagship generation, clock optimizations and platform tuning appear to deliver measurable performance gains.
📊 Leaked PassMark Performance #
According to the leaked benchmark results:
| Benchmark | Score |
|---|---|
| Single-Core | 4,293 |
| Multi-Core | 57,525 |
Compared with the previous Ryzen AI MAX+ PRO 395:
- Single-core performance reportedly improves by approximately 5%
- Multi-core performance increases by roughly 10%
Although incremental on paper, these gains remain significant given that the previous generation already occupied the extreme high-end segment for integrated mobile processors.
🎮 Radeon 8065S Integrated Graphics #
On the graphics side, AMD is introducing the new Radeon 8065S integrated GPU.
The architecture reportedly retains:
- RDNA 3.5 graphics architecture
- 40 Compute Units (CUs)
However, GPU frequencies appear to have been increased compared with the previous Radeon 8060S implementation.
In practice, the Radeon 8065S appears to function as an optimized and officially overclocked version of its predecessor.
Graphics Benchmark Results #
Leaked PassMark graphics scores include:
| Graphics Test | Score |
|---|---|
| 2D Graphics | 1,232 |
| 3D Graphics | 18,427 |
Current reports suggest overall graphics performance remains broadly comparable to the previous generation, although still extremely capable for an integrated GPU.
This level of iGPU performance is sufficient for:
- Mainstream AAA gaming
- Content creation workloads
- Video editing
- AI-assisted applications
- Portable workstation tasks
💾 The Biggest Upgrade: 192GB Memory Support #
The most striking leak involves memory capacity.
The benchmark platform reportedly featured:
- 192GB of RAM
This dramatically exceeds the previous Strix Halo memory ceiling of 128GB.
For an APU platform, this is a substantial development.
🧩 Why Massive Unified Memory Matters #
Unlike discrete GPU systems, APUs rely on shared memory architecture.
This means:
- CPU and GPU share the same memory pool
- GPU VRAM allocation comes directly from system RAM
- Memory bandwidth and capacity become critically important
According to AMD’s current VRAM allocation mechanism, up to:
- 87.5% of total system memory
can be dynamically assigned to GPU usage.
With 192GB installed, that theoretically enables:
- Up to 168GB of effective VRAM
This is an enormous amount of graphics-accessible memory for an integrated platform.
Such capacity could significantly benefit:
- AI workloads
- Local LLM inference
- Large texture gaming workloads
- Video production
- 3D rendering
- Unified-memory compute applications
🖥️ The Rise of High-End APUs #
Modern APUs are no longer targeting only thin-and-light laptops.
AMD increasingly appears to position Halo-class APUs as alternatives to systems traditionally requiring:
- Dedicated GPUs
- High-end mobile workstations
- Compact creator PCs
- Portable AI systems
As memory capacity and iGPU performance continue scaling upward, the distinction between integrated and discrete graphics solutions becomes increasingly blurred for many workloads.
📅 Expected Release Timeline #
The standard Ryzen AI 400 Gorgon series processors are already entering the market.
The flagship Gorgon Halo variants are expected to launch:
- Late 2026
- Or early 2027
More technical disclosures are widely expected during:
- Computex Taipei 2026
where AMD will likely reveal additional architectural details and product positioning.
🎯 Microsoft Gives AMD a Major Handheld Advantage #
While NVIDIA continues dominating PC gaming upscaling with DLSS, AMD is receiving important support from Microsoft in the handheld gaming ecosystem.
The upcoming Xbox Ally X handheld—manufactured by Asus and powered by AMD’s Z2 Extreme processor—will integrate Microsoft’s new AI upscaling technology known as:
- Auto SR (Automatic Super Resolution)
This feature is already appearing in early Windows Insider builds.
⚡ Auto SR Performance Gains #
According to Microsoft’s early test data using games such as:
- Borderlands 3
- Control
performance improvements appear substantial.
Example Results #
| Mode | Frame Rate |
|---|---|
| Native 1440p | ~26 FPS |
| 720p + Auto SR | ~44 FPS |
This represents an increase of roughly:
- 50% higher frame rates
In handheld gaming scenarios, moving from sub-30 FPS to above 40 FPS dramatically improves perceived smoothness and playability.
🧠 Why AI Upscaling Matters for APUs #
Technologies such as:
- NVIDIA DLSS
- AMD FSR
- Microsoft Auto SR
are becoming increasingly critical because modern games scale faster than mobile power budgets.
AI-assisted upscaling allows systems to:
- Render internally at lower resolutions
- Reconstruct higher-resolution output
- Reduce GPU workload
- Improve battery efficiency
For integrated GPU systems, this can meaningfully extend the lifespan and competitiveness of handheld hardware.
⚠️ Current Limitations of Auto SR #
Despite promising early results, Microsoft’s Auto SR currently has several constraints.
Limited Game Support #
At launch, only a small number of games are officially supported.
Broader adoption will require:
- Additional developer integration
- Expanded compatibility testing
- Better engine-level support
Resolution Constraints #
Microsoft currently recommends:
- 720p rendering for optimal results
- Support up to approximately 900p
API Requirements #
Games must support:
- DirectX 10 or newer
Older titles may not benefit from the feature.
📊 Ryzen AI MAX+ 495 at a Glance #
| Feature | Specification |
|---|---|
| CPU Architecture | Zen 5 |
| CPU Cores / Threads | 16C / 32T |
| GPU | Radeon 8065S |
| GPU Architecture | RDNA 3.5 |
| Compute Units | 40 CUs |
| Max RAM Support | 192GB |
| Potential VRAM Allocation | Up to 168GB |
| Product Family | Ryzen AI MAX 400 |
| Codename | Gorgon Halo |
🧾 Final Thoughts #
The leaked Ryzen AI MAX+ 495 demonstrates how aggressively AMD is pushing integrated computing platforms.
What once would have required:
- A desktop-class CPU
- A dedicated GPU
- Massive VRAM
- Large workstation systems
is increasingly being consolidated into unified APU architectures.
The combination of:
- 16 Zen 5 cores
- RDNA 3.5 graphics
- 192GB memory support
- AI acceleration
- Advanced upscaling technologies
suggests AMD is targeting a future where high-end mobile systems can handle workloads traditionally reserved for much larger hardware platforms.
If the leaked specifications prove accurate, Gorgon Halo could become one of the most ambitious APU designs AMD has ever released.