AMD is far ahead of the competition when it comes to CPU manufacturing. One of the company’s most recent offerings is the Ryzen Threadripper. It has 64 physical cores, 128 hyper threads, and a maximum CPU speed of 4.3GHz. AMD offers the Ryzen 3, Ryzen 5, Ryzen 7, and Ryzen 9 series for those who do not require the extreme processing power of a Threadripper CPU.
Technical Specifications of AMD’s Third-Generation Ryzen 5 3500
The AMD Ryzen 5 3500 is a third-generation Ryzen processor built on 7nm FinFET technology. This CPU will run cooler than its Intel counterpart because it consumes less power.
The Ryzen 5 3500 has six cores and six threads. As opposed to the Ryzen 5 3600, which has 12 cores and 12 threads thanks to hyper-threading. It does, however, have more system cache than the majority of CPUs. Â
The processor is compatible with AM4 Socket motherboards and supports dual-channel memory; thus, two RAM sticks should be purchased alongside the PC build to maximise performance, especially when dealing with professional software. On paper, the third-generation AMD Ryzen 5 3500, with its slightly higher base clock speeds. It appears to be a great CPU and would be an excellent addition to a mid-range gaming PC.
Features
Leaving aside the broad strokes of AMD’s third-generation Ryzen 5 3500 design. We ran a few benchmarks to evaluate its performance and compare it to that of comparable processors. The results will vary depending on the other factors, and please keep in mind that these are device-specific results.
However, the transition to 7nm silicon has enabled larger caches. AMD currently lists L3 cache as 6 x 512 kB and L2 cache as 32. Because each 7nm CPU core is isolated in its own chipset, AMD was able to cram in a whopping 6 x 512 kB and 32. This is significant because it allows for much faster performance, which is especially useful in older esports titles like Counter-Strike: Global Offensive when attempting to achieve high framerates in 1080p.
Specifications
The Ryzen 5 3500 is a high-performance chip that excels across our test suite thanks to the Zen 2 microarchitecture, which provides 15% more instructions per cycle (IPC) throughput, and the 7nm process. This is especially true when the chip’s low price, compatibility with most AM4 socket motherboards, unlocked overclocking features and included cooler are considered.
If making out every last frame is all that matters, Intel’s processors are the way to go, as they maintain a gaming advantage. Much of the performance advantage vanishes when playing at higher resolutions or with a less powerful graphics card.
Along with the rest of AMD’s Matisse processors, the AMD Ryzen 5 3500 is the world’s first commercially available CPU built on the industry-leading 7nm manufacturing node. Typical outcomes include reduced power consumption and increased efficiency.
The shift to 7nm results in a 15% increase in IPC (instructions per clock) performance. Performance is 15% better than a Ryzen 5 2nd Generation processor running at the same clock speed. Even though it is not a large sum, it adds up over time and makes a significant difference in the long run.
Geekbench 5 PC Benchmark Results for the AMD Ryzen 5 3500 Processor
On Geekbench 5, we saw a single-core score of 1137 and a multi-core score of 4656. The AMD Ryzen 5 3500 outperforms the Intel Core i5-8600. It is also a six-core processor but costs nearly twice as much as the Ryzen 5 3500. It also outperforms some 6th and 7th-generation Intel Core i7 processors.
The Ryzen 5 3500 outperforms other processors such as the Intel Core i7-7700K in terms of multi-core performance. However, because they have nearly twice as many threads as the Ryzen 5 3500. However, some newer processors (9th Gen Intel Core i5 and Core i7 processors) have better multi-core performance than the Ryzen 5 3500.
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