RVN (Ravencoin) ranks among the top cryptocurrencies for GPU mining, trailing only Ethereum (ETH) and Ethereum Classic (ETC) in miner adoption. As a Proof-of-Work (PoW) coin, RVN utilizes the Kawpow algorithm, which stresses both GPU core and memory. This guide explores optimal overclocking strategies for maximizing RVN and FIRO mining efficiency.
👉 Best practices for GPU mining optimization
Key Overclocking Principles for Ravencoin and FIRO
Algorithm Similarities: Kawpow vs. FiroPoW
- Both Kawpow (RVN) and FiroPoW (FIRO) are derived from ProgPoW, sharing nearly identical technical frameworks.
- Overclocking parameters for one algorithm apply seamlessly to the other, making this guide universally applicable.
Core Considerations Before Overclocking
- Electricity Costs: Calculate break-even points using tools like 2CryptoCalc.
- GPU Cooling: Ensure adequate thermal management to sustain stable performance.
Performance Trade-offs:
- Undervolting: Reduces power consumption by 33–39% but may lower hash rates.
- Overclocking: Boosts hash rates by 10–15% at the cost of 22–30% higher power draw.
Step-by-Step GPU Overclocking Guide
1. Memory Clock Optimization
- Incrementally increase memory clock in +50 MHz steps until instability occurs, then dial back by one step.
- Note: High temperatures destabilize memory overclocks—monitor GPU thermals.
2. Core Clock Adjustment
- Use MSI Afterburner (Windows) for precise voltage control.
- Raise core clock in +25 MHz increments, identifying the highest stable value before stepping back.
- Pro Tip: Lower voltages allow higher core clock offsets (e.g., +225 MHz at 700 mV for RTX 30xx GPUs).
3. Power Limit (PL) Tuning
Balance PL settings to align with your electricity costs:
- Low-rate electricity: Maximize hash rate despite higher PL.
- High-rate electricity: Prioritize efficiency with lower PL.
GPU Performance Benchmarks (Kawpow Algorithm)
| GPU Model | Hash Rate (MH/s) | Power Consumption (W) | Efficiency (W/MH/s) |
|---|---|---|---|
| RTX 2070 Super | 17.05–26.05 | 89–209 | 5.22–8.00 |
| RTX 3060 Ti | 31.0 | 120–150 | 3.87–4.84 |
| RTX 3070 | 30–33 | 130–170 | 4.24–5.15 |
Data sourced from T-Rex Miner v0.24.2. Results vary by hardware and cooling.
Dual Mining: RVN + Ethereum (ETH)
Pros and Cons
- Pros: Utilizes idle GPU memory bandwidth.
Cons:
- Inefficient for non-LHR GPUs: ETH solo mining yields higher profits (e.g., 40+ MH/s at 93 W vs. 16.5 MH/s each for ETH+RVN at 200 W).
- OS Limitations: Windows 10’s high memory usage blocks dual mining on 8GB GPUs; Linux/Windows 7 recommended.
👉 Maximizing mining profits with LHR GPUs
FAQ Section
1. Is Ravencoin mining profitable in 2025?
Yes, especially for miners with low electricity costs. RVN remains a top PoW alternative post-ETH’s transition to PoS.
2. Which GPUs are best for Kawpow mining?
RTX 30xx series (3060 Ti, 3070) offer optimal efficiency due to their high memory bandwidth.
3. How does memory overclocking affect RVN mining?
Kawpow is memory-intensive—higher stable clocks directly improve hash rates.
4. Can I dual-mine RVN and FIRO?
Technically yes, but it’s rarely profitable compared to solo mining either coin.
5. What’s the ideal power limit for RVN mining?
Start at 70% PL and adjust based on thermal/performance thresholds.
6. Do I need to use the "ETH pill" for RVN mining?
No—the pill destabilizes Kawpow mining and offers no hash rate benefits.
Final Verdict: Ravencoin Mining Outlook
RVN mining presents a viable long-term option for GPU miners, particularly with customizable efficiency settings. As Ethereum phases out PoW, diversifying into RVN or FIRO ensures continued profitability. Regularly test your hardware’s limits and stay updated on algorithm adjustments.
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