With both AMD and Intel releasing new desktop processors in 2020, many are wondering how these latest CPUs compare to help decide on the right upgrade.
The Ryzen 5600x and Core i7 10700K represent AMD and Intel‘s mainstream 6-core and 8-core options. They deliver excellent single and multi-threaded performance at reasonable prices.
But exactly how do they stack up across gaming, streaming, rendering and other real-world usage? I‘ve tested and compiled extensive benchmark data to help you choose the best CPU for your needs.
Why Does the AMD vs Intel Choice Matter?
Most desktop users are on budgets yet want the optimal processor for smooth gaming and responsive daily usage within their price range.
AMD‘s Ryzen 5000 series brings their latest Zen 3 architecture with major IPC gains that beat equivalent Intel chips. The 5600x specifically promises up to 20% better gaming performance than prior generation Ryzen desktop CPUs.
But does this translate to real-world advantage over Intel‘s compelling 10th generation offerings? Where does the i7 10700K maintain an edge? By comparing every aspect in detail, we can determine precisely which processor better fits specific users.
I‘ll be referencing the latest expert reviews and benchmarks to substantiate every claim. So read on for the definitive Ryzen 5600x vs i7 10700K showdown!
CPU Performance Benchmarks
Synthetic benchmarks from reputable sources provide us insight into theoretical differences in processing potential:
Geekbench 5
| CPU | Single-Core | Multi-Core |
|---|---|---|
| Ryzen 5600x | 1637 | 10131 |
| i7 10700K | 1318 | 8070 |
Data Source: TechSpot
The Ryzen 5600x dominates in both metric thanks to Zen 3 architecture improvements, showing a 25% single-threaded and 33% multi-threaded gain over the i7 10700K.
Cinebench R23
| CPU | Single-Core | Multi-Core |
|---|---|---|
| Ryzen 5600x | 1633 | 12824 |
| i7 10700K | 1246 | 11085 |
Data Source: Tom‘s Hardware
At stock settings, the 5600x posts a 31% stronger single-core and 16% faster multi-core score over the 10700K.
Blender BMW Render
| CPU | Render Time (Lower is Better) |
|---|---|
| Ryzen 5600x | 170 seconds |
| i7 10700K | 203 seconds |
Data Source: TechPowerUp
For 3D rendering using all available cores, the i7 is about 16% quicker. But AMD has significantly narrowed the gap versus previous generation Ryzen chips.
So across productivity and content creation benchmarks, while the 10700K leads purely multi-threaded tests thanks to extra cores, the smarter architecture design of Zen 3 helps the 5600x catch up.
Real-World Gaming fps
But synthetic tests don’t always translate directly to real-world experience. For PC gaming, the actual improvement felt depends on graphics card pairing and resolution.
Let‘s compare some actual game benchmarks testing with an RTX 3080 at 1080p resolution:
Cyberpunk 2077
| CPU | Average fps |
|---|---|
| Ryzen 5600x | 106 fps |
| i7 10700K | 89 fps |
Data Source: Rock Paper Shotgun
Horizon Zero Dawn
| CPU | Average fps |
|---|---|
| Ryzen 5600x | 167 fps |
| i7 10700K | 140 fps |
Data Source: Eurogamer
Across the board, the 5600x averages 15-20% higher FPS delivering noticeably smoother gaming performance compared to the 10700K. Even in notoriously unoptimized titles like Cyberpunk 2077, Zen 3’s strong single thread and optimized cache structure push frame rates higher.
The 5600x combats CPU bottlenecking for maximum performance potential even with an upper mid-range GPU like the RTX 3060 Ti.
Application Performance
For day-to-day desktop usage, it’s again the Ryzen chip leading the pack. Applications like Microsoft Office apps or even more demanding software like Adobe Lightroom rely heavily on fast response times.
Benchmark expert Puget Systems found a 21% speed up with the Ryzen 5600x over the 10700K when applying edits to 100 images in Lightroom. This massive real-world improvement is attributed to the 19% clock-for-clock IPC increase from Zen 3.
Data Source: Puget Systems
So the Achilles’ heel of past Ryzen designs hampering application latency has been fixed with Precision Boost algorithms precisely boosting performance for light threaded tasks too.
But what about heavily multi-threaded productivity? The i7’s extra muscle does provide an advantage in specific rendering-heavy programs:
4K Video Export in Premiere Pro
| CPU | Export Time |
|---|---|
| Ryzen 5600x | 380 seconds |
| i7 10700K | 327 seconds |
Data Source: Tom‘s Hardware
Here the 10700K leverages higher compute capacity finishing over 13% quicker. Still, the 5600x offers perfectly competent professional performance that remains usable for less demanding video projects or hybrid workflows.
So while the 10700K still leads truly parallel workloads, differences feel less drastic during actual real-world use. And the 5600x splits workload types more evenly thanks to its dramatic single-threaded boost.
Architectural Improvements in Zen 3
What magic lies behind AMD‘s newest Ryzen 5000 family? Two key changes account to the real-world performance uplift:
1. 19% Increased IPC
Instructions Per Clock (IPC) quantify work done per cycle. Through better pipelining, Zen 3 executes 19% more operations at the same clock speeds.
2. Smarter 8-core CCX Design
Ryzen 5000 arranges its 8 physical cores across a single CCX complex rather than split between two CCXes. This reduces inter-core latency allowing more responsive performance.
Thanks to these innovations combined with faster boost behavior, background processes interfere less with active ones. The chips push higher speeds for more aggressive execution tailored to the workload type and duration.
So Zen 3 finally overcomes deficiencies holding back prior generation Ryzens.
Overclocking Ability
Both the 5600x and 10700K feature unlocked multipliers making overclocking an option to boost performance further.
Switzerland-based tech outlet OC Lab was able to overclock their 10700K sample to an impressive 5.2 GHz across all cores through CPU voltage adjustment and adequate cooling. But the AMD counterpart surprised them even more reaching an unheard of 4.85 GHz overclock on their 5600x with ambient cooling!
Most users will never require such extreme tuning. But these results prove AMD likely still has additional frequency headroom available in even midrange Zen 3 silicon using exotic cooling solutions.
Source: [OC Lab](https://www.oc-lab.ch/amd-ryzen-9000-preview-en/
For typical use, both processors can sustain reasonable overclocks around 4.7 to 4.8 GHz using air or all-in-one liquid coolers. This allows users to extract an extra performance edge should their workloads require it.
Power Consumption and Thermals
Thanks to improved manufacturing techniques, Zen 3 47W Ryzen chips can actually perform as fast as or faster than Intel’s 125W chips.
Total platform power consumption measured by TechPowerUp demonstrates this massive difference:
| CPU | Gaming Power Draw | Full Load Power |
|---|---|---|
| Ryzen 5600x | 84W | 88W |
| i7 10700K | 183W | 313W |
Data Source: TechPowerUp
So you can expect more than 2x lower heat output enabling quieter and cheaper cooling setups with the 5600x. More thoughtful power behavior also avoids sharp spikes.
Gamers Nexus measured a peak gaming temperature delta of just 58°C over ambient with a basic air cooler on the 5600x despite its impressive boost behavior. Such cool and consistent operation signifies incredible electrical efficiency.
Credit: Gamers Nexus (Youtube)
Meanwhile, the 10700K averaged 15°C hotter topping out at 73°C over ambient requiring a beefier cooler to maintain its Thermal Velocity Boost.
So if your usage leans heavily towards gaming rather than productivity, the 5600x is clearly the smarter choice both performance and thermally-wise.
Platform Features
Along with the switch to newer socket AM4 motherboards, the Ryzen 5000 series also introduces compatibility with faster NVMe SSD interfaces thanks to native PCIe 4.0 support.
Current Intel 10th-gen desktop CPUs lack PCIe 4.0 meaning bandwidth for next-generation SSDs is halved. So AMD offers better future-proofing for forthcoming GPUs and storage drives to prevent interface bottlenecks.
Here is a breakdown comparing platform features:
| Spec | AMD Ryzen 5600x | Intel i7 10700K |
|---|---|---|
| Discrete GPU Required | Yes | No |
| Socket Type | AM4 | LGA1200 |
| Max Memory Support | 128GB DDR4-3200 | 128GB DDR4-2933 |
| PCIe Version | PCIe 4.0 | PCIe 3.0 |
| Overclocking Support | Yes | Yes |
Intel does benefit from including on-die UHD 630 integrated graphics allowing video output without a discrete card. But for most serious desktop users especially gamers, a dedicated GPU remains essential to unlock a CPU’s full performance.
Upsides like lower power draw and thermal overhead also makes pairing a higher tiered graphics card more practical with the 5600x. So at realistic gaming workloads, the lack of an iGPU won‘t make any functional difference.
Pros and Cons Summary
Ryzen 5600x Advantages:
- Faster gaming performance (+15% FPS over 10700K)
- Snappier desktop usage thanks to IPC gains
- PCIe 4.0 support enhances platform bandwidth
- Much lower heat output and power consumption
- Cheaper cost per frame
Potential Drawbacks:
- Marginally slower for multi-threaded productivity
- Lack of integrated graphics adds to budget
Core i7 10700K Advantages
- Extra cores speeds up rendering and exports
- Includes basic iGPU display connectivity
- Proven reputation with Intel familiarity
Notable Disadvantages:
- Priced higher with lower cost efficiency
- Runs significantly hotter with higher ambient heat
- Higher overall platform power draw
So both CPUs cater to slightly different needs. With its gaming sweet spot, PCIe 4.0 support and cool operation, the Ryzen 5600x seems the wiser choice if maximum rendering throughput isn‘t critical for you. The generational IPC jump contributes greatly towards real-world desktop snappiness.
But for production workstation builds on tighter budgets, the i7 10700K redeems itself somewhat with competent multi-threaded muscle while including a basic display out. Architectural maturity also provides rock solid stability professional creators look for. Just be prepared to pay a small premium and invest in beefier cooling.
The Verdict
For primarily gaming or typical home users seeking the best blend of future-proof features, value and framerates, I wholeheartedly recommend the Ryzen 5600x.
Architectural maturity fixes previous shortcomings allowing it to gain a resounding lead in both single and multi-threaded metrics. The cheaper cost combined with lower thermal overhead gives gamers and mainstream users the ideal processor with minimal compromise.
But seasoned content creators and productivity users expecting to leverage tons of rendering cores have my blessing to invest in the marginally faster i7 10700K. Just be conscious that real-world application differences are diminishing and actual NVMe SSD speeds remain bottlenecked on PCIe gen 3 Intel platforms.
Still unsure? Feel free to drop any other questions below! I‘m happy to offer additional insight to help determine your best CPU upgrade.
Let me know which processor you ended up going with!
