B580 vs B570
GPU Head-to-Head · FPS & Value Comparison
B580 vs B570: Gaming Performance Comparison in 1080p Ultra
In gaming, the B580 delivers approximately +10% higher frame rates compared to the B570 in 1080p Ultra. For budget-conscious buyers, the B570 currently offers +9.3% better value, available at a $52.26 price difference.
B580 Advantages
Up to 10% faster in gaming benchmarks on average – 59 vs 54 FPS
20% more VRAM memory – 12 vs 10 GB
B570 Advantages
Up to 9.3% better value for money – $4.90 vs $5.35/FPS
Costs only 83% of the price – $263 vs $316 (17% cheaper)
Is newer – 2025-01-01 vs 2024-12-01
Consumes up to 21% less energy – 150W vs 190W
Performance Analytics
Average FPS across 21 games · all benchmarks use the same test suite
1080p Medium
Entry / competitive gaming
When you see two FPS numbers, there are two common but different ways to show the difference:
This compares the slower card to the faster card.
Example: (72.4 ÷ 80) × 100 = 91%
This shows how much more the faster card performs compared to the slower one.
Example: ((80 - 72.4) ÷ 72.4) × 100 = 10%
You naturally think: "If B570 is only 91% as fast, then B580 should be 9% faster" — but that's incorrect.
The "10% faster" is measured against the slower card, not against the faster one. So both numbers (91% of and 10% faster) are mathematically correct at the same time.
1080p Ultra
Full HD — max settings
When you see two FPS numbers, there are two common but different ways to show the difference:
This compares the slower card to the faster card.
Example: (53.8 ÷ 59) × 100 = 91%
This shows how much more the faster card performs compared to the slower one.
Example: ((59 - 53.8) ÷ 53.8) × 100 = 10%
You naturally think: "If B570 is only 91% as fast, then B580 should be 9% faster" — but that's incorrect.
The "10% faster" is measured against the slower card, not against the faster one. So both numbers (91% of and 10% faster) are mathematically correct at the same time.
1440p Ultra
1440p QHD — max settings
When you see two FPS numbers, there are two common but different ways to show the difference:
This compares the slower card to the faster card.
Example: (35.1 ÷ 42.3) × 100 = 83%
This shows how much more the faster card performs compared to the slower one.
Example: ((42.3 - 35.1) ÷ 35.1) × 100 = 21%
You naturally think: "If B570 is only 83% as fast, then B580 should be 17% faster" — but that's incorrect.
The "21% faster" is measured against the slower card, not against the faster one. So both numbers (83% of and 21% faster) are mathematically correct at the same time.
4K Ultra
3840×2160 — max settings
When you see two FPS numbers, there are two common but different ways to show the difference:
This compares the slower card to the faster card.
Example: (16.3 ÷ 26.1) × 100 = 62%
This shows how much more the faster card performs compared to the slower one.
Example: ((26.1 - 16.3) ÷ 16.3) × 100 = 60%
You naturally think: "If B570 is only 62% as fast, then B580 should be 38% faster" — but that's incorrect.
The "60% faster" is measured against the slower card, not against the faster one. So both numbers (62% of and 60% faster) are mathematically correct at the same time.
Efficiency Coefficient 1080p Ultra (Higher = Better Value)
Performance delivered per currency unit: FPS/$