AMD
Ryzen 5 7600XBudget-friendly 6-core Zen 4 processor with strong gaming performance. 65W TDP and included cooler make it easy to build with.
Intel
Core Ultra 9 285KIntel's flagship Arrow Lake desktop processor with 24 cores (8P + 16E) and 5.7 GHz boost. Built on LGA 1851 with DDR5 support for enthusiast builds.
How They Compare
The AMD Ryzen 5 7600X is priced at $199.99 in the CPUs category. It stands out with tdp, base clock advantages over the competition. It's designed with gaming and budget in mind.
The Intel Core Ultra 9 285K is priced at $589.99 in the CPUs category. It stands out with cache, cores, threads advantages over the competition.
Key Differences
What this means: TDP indicates cooling requirements and power draw. A 65W CPU works with basic air coolers, while 125W+ may need a high-end tower cooler or AIO liquid. Higher TDP chips often perform better but generate more heat and need better airflow.
What this means: CPU cache (L2 and L3) acts as ultra-fast memory close to the cores. Larger caches reduce trips to system RAM, cutting latency. Games benefit heavily from large L3 caches - AMD's X3D chips with stacked V-Cache demonstrate up to 20% gaming FPS gains from cache alone.
What this means: More cores handle multi-threaded workloads like video editing, 3D rendering, streaming while gaming, and running VMs. Most games plateau at 6-8 cores - extra cores rarely help gaming FPS but matter enormously for productivity. 4 cores is entry-level, 6-8 is the gaming sweet spot, 12+ is for heavy multitasking.
What this means: The CPU socket must match your motherboard exactly - AM5 for AMD Ryzen 7000/9000, LGA 1851 for Intel Arrow Lake. This locks you into a platform: AMD AM5 supports multiple CPU generations, Intel sockets typically support one or two.
What this means: Simultaneous multithreading (SMT/Hyper-Threading) doubles the tasks each core can juggle. A 6-core/12-thread CPU handles background apps, Discord, and streaming alongside gaming much better than a 6-core/6-thread chip. Less impact in pure gaming where few threads are used.
What this means: The guaranteed minimum clock speed under sustained full load. Higher base clocks provide more consistent performance during long rendering jobs or extended gaming sessions when boost clocks can't be maintained due to thermal limits.
What this means: The maximum single-core speed under ideal thermal and power conditions. This is the number that matters most for gaming FPS, as most games rely on 1-4 fast cores. Higher boost = snappier responsiveness and higher peak frame rates.
What this means: CPU architecture determines IPC (instructions per clock) - how much work gets done per MHz. Newer architectures are significantly faster at the same clock speed, and also bring feature support like AVX-512 and improved power efficiency. Zen 5 and Arrow Lake both deliver meaningful IPC gains over their predecessors.
Spec Breakdown
Geekbench 6 Benchmark Scores
Full Specification Comparison
9 specs| Specification | Ryzen 5 7600X | Core Ultra 9 285K |
|---|---|---|
| TDP | 65W | 125W (PL2 250W) |
| Cache | 38MB | 40MB |
| Cores | 6 | 24 |
| Socket | AM5 | LGA 1851 |
| Threads | 12 | 24 |
| Base Clock | 3.9 GHz | 3.7 GHz |
| Boost Clock | 5.3 GHz | 5.7 GHz |
| Architecture | Zen 4 | Arrow Lake |
| Included Cooler | Yes (Wraith Stealth) | No |
The Bottom Line
At $199.99, the Ryzen 5 7600X is the most affordable option. It takes the lead in tdp and base clock. Tagged as Best Benchmark Value and Most Efficient.
- Lower power draw (65W)
- Higher base clock (3.9 GHz) within comparable designs
- Lower cache (38MB)
- Fewer cores (6)
- Fewer threads (12)
- You want a cooler, more power-efficient build
- You are comparing similar designs where base clock matters
- Budget is your top priority
- You want the best benchmark score per dollar
- You need better cache
- You need more cores for multi-threaded workloads
At $589.99, the Core Ultra 9 285K is the premium option. It takes the lead in cache and cores. Tagged as Best Performance and Premium Pick.
- Better cache (40MB)
- More cores (24)
- More threads (24)
- Higher boost clock (5.7 GHz) within comparable designs
- Higher power draw (125W (PL2 250W)W)
- Lower base clock (3.7 GHz); compare clocks only within similar designs
- You want the stronger cache
- You need 24+ cores for your workload
- You want lower power draw than 125W (PL2 250W)W
- You are comparing similar designs and need the higher clocked option