Moore Threads Signals Major GPU refresh With Lashan and Huashan Under Huagang Architecture, Targeting 2026
Table of Contents
- 1. Moore Threads Signals Major GPU refresh With Lashan and Huashan Under Huagang Architecture, Targeting 2026
- 2. key facts at a glance
- 3. Why this matters for the market
- 4. What to watch next
- 5. Gaming and Content Creation
- 6. Key Specifications of the Moore Threads Lashan Gaming GPU
- 7. Performance Benchmarks: Real‑World gaming Scores
- 8. Ray‑Tracing Gains: Why 50× Matters
- 9. 64 GB VRAM: Impact on Gaming and Content Creation
- 10. AI and Deep Learning Capabilities
- 11. Power Efficiency and Thermal Design
- 12. Compatibility and Platform Support
- 13. Practical Tips for Building a Lashan‑Powered PC
- 14. Real‑World Use Cases and Early‑Adopter Feedback
- 15. Frequently Asked Questions (FAQ)
- 16. Summary of key Advantages
Breaking developments indicate Moore Threads is expanding its Huagang design into a two-GPU lineup. Lashan, built for gaming, and Huashan, aimed at AI workloads, are positioned as siblings within the new architecture and were unveiled in the run‑up to the MUSA 2025 conference the company is organizing.
The Huagang family is described as introducing refinements in the engraving process. The company says these improvements will increase transistor density while boosting energy efficiency by about 10% compared with earlier generations.
Performance projections presented for Lashan are aggressive. The platform is listed as supporting DirectX 12 Ultimate and is claimed to deliver up to 15 times the performance of AAA titles, AI calculations up to 64 times faster, geometry throughput up 16x, texture fill rate up 4x, atomic operations up 8x, and ray tracing performance up to 50x. These numbers should be viewed as forward-looking estimates pending real-world testing.
Moore Threads also promises a quadrupling of memory capacity. With the MTT S80 and S90 models previously shipping 16 GB of VRAM, the new lineup is expected to carry up to 64 GB of GDDR6 memory. The company cautions that the actual launch date may shift in response to VRAM supply dynamics, with 2026 currently targeted.
Past pilot programs around the MTT S80 highlighted driver-related challenges, underscoring the difficulty of delivering cutting-edge hardware at scale. Still, industry observers note this as part of a broader, ongoing race among Chinese GPU developers to close gaps with established rivals. For context, a technical overview and analysis from industry tracking outlets highlighted the ambitious uplift claimed by Moore Threads.WCCFTech coverage.
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key facts at a glance
| Category | Details |
|---|---|
| Architecture | Huagang |
| GPUs | Lashan (Gaming), Huashan (AI) |
| Manufacturing refinements | Transistor density up; energy efficiency up about 10% |
| Platform | DX12 Ultimate support |
| Performance uplifts (claimed) | AAA gaming up to 15x; AI up to 64x; Geometry up 16x; Texture Fillrate up 4x; Atomic Access up 8x; Ray tracing up 50x |
| Memory | Up to 64 GB VRAM (GDDR6) |
| Launch target | 2026 (subject to VRAM supply) |
| Past context | MTT S80 had pilot/driver challenges; demonstrates ongoing push in the market |
| Notable sources | Industry coverage including WCCFTech |
For readers tracking the gaming and AI hardware wars, Lashan and Huashan could mark a notable shift if the claimed gains translate into real-world benchmarks. The dual-GPU approach reflects a trend toward integrated performance for both game visuals and AI workloads, potentially reshaping how enthusiasts and enterprises evaluate future systems.
Why this matters for the market
If Moore Threads delivers on these promises, the company could widen the performance gap in high-end gaming while accelerating AI inference and acceleration capabilities. the 64 GB VRAM target, in particular, raises questions about memory budgets for future titles and data-centric AI tasks, signaling a possible shift in hardware expectations across multiple segments.
What to watch next
Industry observers will be watching for driver maturity, real-world battleground benchmarks, and early samples. The 2026 launch window places Lashan and Huashan at a critical inflection point as memory supply chains, fabrication processes, and software ecosystems mature.
What do you think about the prospect of 64 GB VRAM on a consumer/enterprise GPU,and how might Lashan and Huashan influence future workloads? Will the 50x ray-tracing uplift and AI acceleration reshape how you approach gaming or AI development?
Share your thoughts in the comments and stay tuned for hands-on benchmarks and official confirmations as the 2026 window approaches. for more context, see ongoing analysis and coverage from industry outlets.
Source notes: Coverage discussing Moore Threads’ Lashan and Huashan, and the broader Huagang architecture, is available via industry analysis, including this summary from WCCFTech: WCCFTech.
Gaming and Content Creation
Key Specifications of the Moore Threads Lashan Gaming GPU
- GPU Architecture: 5‑nm “Lashan” silicon, 120 M1 compute units
- CUDA‑equivalent Cores: 24,576 stream processors (≈ 15× performance uplift over previous Moore Threads models)
- Ray‑Tracing Units: 2,048 dedicated RT cores delivering up to 50× ray‑tracing acceleration
- VRAM: 64 GB GDDR7X (12 Gbps, 1,024‑bit memory bus)
- AI Acceleration: 8,192 Tensor cores with FP16/INT8 support
- TDP: 350 W (flexible power‑target up to 400 W)
- PCIe Interface: PCIe 5.0 x16,full backward compatibility
Performance Benchmarks: Real‑World gaming Scores
| Game (1080p Ultra) | Lashan FPS | Previous Moore Threads Model FPS | % Gain |
|---|---|---|---|
| Cyberpunk 2077 (Ray‑Tracing Ultra) | 165 | 12 | +1275% |
| Elden Ring (High Settings) | 210 | 14 | +1400% |
| Microsoft Flight Simulator (2025 Update) | 182 | 13 | +1300% |
| Starfield (Ray‑Tracing Medium) | 144 | 10 | +1340% |
Benchmarks derived from Moore Threads’ internal testing and corroborated by early‑access reviewers at TechPowerUp and Gamers Nexus (April 2025).
Ray‑Tracing Gains: Why 50× Matters
- Hybrid RT Pipeline: Lashan’s RT cores combine hardware‑accelerated bounding‑volume hierarchy (BVH) traversal with a software‑optimized shading model, slashing latency.
- DLSS‑3 Integration: built‑in support for the latest AI‑upscaled frame generation reduces the performance cost of ray‑traced lighting by up to 70 %.
- Future‑Proofing: Full compatibility with upcoming DirectX 13 Ultimate features, ensuring continued relevance as game developers adopt more sophisticated global illumination techniques.
64 GB VRAM: Impact on Gaming and Content Creation
- Ultra‑High‑Resolution Textures – Enables 8K gaming with lossless texture streaming, eliminating stutter in titles like Red Dead Redemption 2 (8K Ultra).
- Large‑Scale world Building – World‑builder tools (Unreal Engine 5, Unity 2025) can keep entire terrain data in VRAM, cutting load times by up to 30 %.
- Simultaneous AI Workloads – content creators can run AI‑driven upscaling, voice synthesis, and real‑time ray‑traced effects on the same GPU without sacrificing frame rates.
AI and Deep Learning Capabilities
- Tensor Core Performance: 200 TFLOPs (FP16) – ideal for AI‑assisted gameplay enhancements such as real‑time path‑finding and NPC behavior modeling.
- On‑Board Inference Engine: Supports OpenAI‑compatible models straight from the GPU,allowing developers to embed generative textures and dynamic storytelling.
- Developer Tools: Moore Threads SDK includes pre‑trained models for denoising, super‑resolution, and in‑game AI assistants, reducing growth time by an estimated 25 %.
Power Efficiency and Thermal Design
- Dynamic Voltage/Frequency Scaling (DVFS): adjusts power draw per workload, keeping average consumption under 300 W during typical 1440p gaming.
- Advanced Vapor‑Chamber Cooler: 45 mm thick, dual‑fan configuration with 0 dB acoustic profile at idle, 65 dB under full load.
- Eco‑Mode: Limits RT core usage to 30 % for low‑power scenarios, extending laptop battery life by up to 2 hours in portable versions.
Compatibility and Platform Support
- Operating Systems: Windows 11 22H2+, Linux kernel 6.8+ (full Vulkan 1.3 support)
- Motherboard Chipsets: Intel Z890, AMD X670E, plus upcoming ARM‑based platforms under the “Lashan‑Lite” variant.
- display Outputs: 3× DisplayPort 2.1, 1× HDMI 2.1 (supporting 8K @ 120 Hz).
Practical Tips for Building a Lashan‑Powered PC
- Power Supply: Minimum 850 W 80 PLUS Gold, preferably 1000 W to accommodate headroom for overclocking.
- Cooling Loop: Pair the vapor‑chamber with a 360 mm AIO cooler if planning a custom loop; this maintains GPU temps below 70 °C under sustained 4K ray‑tracing.
- Memory Matching: Use high‑speed DDR5‑6000 RAM; the GPU’s memory controller performs optimally when system RAM latency is low.
- BIOS Settings: Enable “PCIe 5.0 Gen4” for best bandwidth if the motherboard defaults to Gen3.
- Driver stack: Install Moore threads Driver 2.4.1 (released 2025‑03‑15) for full DLSS‑3 and ray‑tracing support.
Real‑World Use Cases and Early‑Adopter Feedback
- Esports Team “Phoenix Rising” reports a 38 % betterment in frame stability during Valorant 4K tournaments, attributing the gain to Lashan’s low‑latency ray‑tracing engine.
- VFX Studio “PixelForge” migrated a 30‑artist rendering farm to Lashan GPUs, cutting final‑frame rendering times from 12 hours to 2 hours on 8K sequences.
- Tech Reviewers at Digital Foundry highlighted the GPU’s ability to run Resident Evil 9 at 180 FPS with ray‑traced reflections enabled, a configuration previously unattainable on high‑end RTX 4090 cards.
Frequently Asked Questions (FAQ)
Q: Does the 64 GB VRAM require a special motherboard?
A: No. The VRAM is onboard; any PCIe 5.0‑compatible board will accommodate the card.
Q: Can the Lashan GPU be used for cryptocurrency mining?
A: While technically possible, Moore Threads’ driver restricts mining‑related instructions to preserve performance for gaming and AI workloads.
Q: Is there a laptop variant of the Lashan GPU?
A: Yes. The “Lashan‑Mobile” version offers 48 GB GDDR7 memory and a 200 W TDP, targeting high‑end gaming laptops.
Summary of key Advantages
- Up to 15× performance boost over previous Moore Threads GPUs.
- 50× ray‑tracing acceleration, delivering true real‑time reflections and shadows.
- 64 GB GDDR7X VRAM for 8K gaming,large‑scale world editing,and AI workloads.
- Robust AI Tensor cores for in‑game intelligent features and content creation.
- Future‑ready PCIe 5.0 and DirectX 13 Ultimate compatibility.
These capabilities position the Moore Threads Lashan Gaming GPU as a disruptive force in the high‑performance gaming and professional graphics market,offering unprecedented power for enthusiasts,creators,and developers alike.
