Persistent Crashes in MHW Wilds – Ryzen 7 7700 / B650M / 9070 XT – Stable Benchmarks

Understanding and Troubleshooting Persistent Crashes in Monster Hunter Wilds on AMD Ryzen 7 7700 System

Introduction

Encountering stability issues while gaming can be frustrating, especially when your system passes standard benchmarks but crashes during specific game scenarios. This article explores a real-world case involving a high-performance AMD Ryzen 7 7700 setup and offers insights into diagnosing and resolving such instability.

System Overview

• Processor: AMD Ryzen 7 7700
• Motherboard: MSI B650M Gaming Plus Wifi, BIOS v7E24v1A
• Graphics Card: ASRock Radeon RX 9070 XT Steel Legend
• Memory: 32GB DDR5 RAM (2x16GB, 6000MT/s CL30)
• Storage & Power: Standard NVMe SSD and MSI MAG A750GL PSU
• Operating System: Windows 11

Gaming Setup

• Game: Monster Hunter Wilds
• Resolution: 1440p
• Graphics Settings: Medium Ray Tracing and FidelityFX Super Resolution (FSR) 4

Troubleshooting and Observations

Initial Stress Tests

The user successfully completed several synthetic benchmarks, indicating baseline system stability:

• OCCT CPU and RAM stress test (1 hour)
• 3DMark “Steel Nomad” DX12 benchmark (~7300 points)
• Furmark GPU stress test (15 minutes)

Despite these positive results, crashes occurred during specific moments in Monster Hunter Wilds, notably during certain cutscenes and mid-hunt gameplay.

Adjustments Made to Improve Stability

To mitigate crashes, the user manually lowered RAM frequency from 6000MT/s (XMP/EXPO Profile 1) to a more conservative setting of 5600MT/s (Profile 2). This adjustment temporarily allowed progression past problematic scenes, suggesting a potential memory stability issue.

Persistent Issues and Additional Considerations

Despite BIOS updates and memory adjustments, crashes continue, raising questions about other potential causes:

• Motherboard BIOS Stability: The user reports issues with BIOS flashing via M-Flash, which results in a black screen. This may indicate BIOS corruption or hardware compatibility issues.
• Memory Compatibility and Stability: Even though the system passes synthetic tests, certain game scenarios might trigger instability rooted in memory timings or compatibility.
• Power Delivery and Cooling: Ensuring robust power delivery and thermal management is crucial, particularly with high-performance components.
• GPU Drivers and Software: Outdated or incompatible graphics drivers can