AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor

AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor
AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor
AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor
AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor, Img
AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor
AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor, Img 1
AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor
AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor, Img 2
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AMD Ryzen 5 1600 3.6 GHz AM4 Box Processor

Despu s from four to ñ s working on the new ZEN microarchitecture for their x86 processors, at the beginning of 2017, AMD returns to try to conquer the high-end segment. AMD presents its new heavy weapons with a ñ or cutting edge processor bearing the name of RYZEN.

These processors incorporate a massive performance improvement in all aspects, which means that AMD's four-n-core, hexa-core, and octa-core CPUs exceed their predecessors and combine innovative íres with a pioneering platform, as well as cutting-edge I/O interfaces. AMD's new "Zen" architecture is so flexible and helpful that it can be installed on high-end desktop platforms, as well as on APUs mainstream using integrated graphics and allowing processors to scale from high performance servers for data centers to the end.

The AMD Ryzen 5 1600X is a processor coming from the new "Summit Ridge" generation with six n &o CPU CPU óals that, thanks to Multithreading Simulate & Aeticon (SMT), are capable of processing two threads at a time in each n &uteacus. The six n ú model works at a 3.6-GHz clock speed which, thanks to the Precision Boost implementation, performs real-time optimization according to the processor's performance demands.

The chip architecture also produces less heat and operates silently than any of its predecessors and is specially designed ñ and optimized to work with high clock frequencies. These optimizations are due in part to the improvements in energy efficiency and the 95 watts of the power of the ñ or t &eestics (TDP) of the n &uantias of the CPU.

Silicon is lithographed in the advanced 14 nm FinFET manufacturing process with stacked transistors (also known as 3D transistors). Due to the cleverly controlled cach buffer and thanks to the "Smart Prefetch" hop prediction algorithms, Ryzen is able to ensure instant access to the data and the performance of c &aecutepido in all use cases-regardless of whether the task involves virtual games or cloud computing and virtualisation.

UNLOCKED CPU

All AMD Ryzen CPUs are "unlocked" and come with an unlocked multiplier that allows overckers to achieve relatively high clock speeds in a virtually foolproof way. The aforementioned overcocks are easily realizable by manual alterations to the BIOS or UEFI, or by means of software tools ñ adas to increase the set impulse clocks of the set. Both an overclocking compliant chipset and the AMD X370, B350, or X300, as well as additional third-party cooling is required.

THE AM4 PLATFORM

The base plates equipped with the AM4 z ó serve as the basis for AMD's Ryzen processor range and also offer cutting edge interfaces. The CPU itself has four dedicated PCI-Express 3.0 lanes that provide compatibility with the modern SATA and PCI-Express SSDs in the M. 2 and U.2 formats, as well as NVM-Express (NVMe for short). Another 16 PCIe 3.0 lanes offer plenty of bandwidth even for high end game play cards. Additional PCIe lanes for data storage, expansion cards, and rich perif devices are allocated separately, depending on the base board chipset. The new AM4 tambi &eatern platform supports updated external device interfaces such as USB 3.1 Gen 2 with Type A and/or Type C connectors and high data transfer speeds of up to 10 Gbit/s. The CPU integrated memory controller supports AM4 cards, as well as DDR4-RAM r &aaiptios y eficiente de energ íres a en modo de double carcase con o sin correcci &oatón de errors ECC.

Ryzen tambi processors are continuously monitored by AMD's "Pure Power" sensors. These sensors monitor temperatures, voltages and frequencies in order to perfectly adapt the use of energy to with an eye to different scenarios of use cases. Even with respect to the extension of the SIMD instruction set, AMD now dominates AVX2 (Advanced Vector Extensions), which enable dram improvements in the performance of the floating point links in cient simulations, and the video, image and audio, as well as video games and multimedia applications, to the extent that the application supports this function.

Character íres:

  • 6 n "Zen".
  • 12 threads thanks to Multithreading simult &aUteños (SMT).
  • Base Clock of 3.2 GHz and 3.6 GHz with Increase of Precise &obutin n.
  • Multiplier unlocked for manual overclocking (unblocked CPU).
  • FinFET 14 Nan Transistors High Throughput &oenteres.
  • Modern platform AM4 with extensive functions.
  • Extended frequency range (XFR) to a better refrigeraci n

Specifications:

  • Processor
    • Processor Socket: Socket AM4
    • Processor Family: AMD Ryzen 5
    • Processor Model: 1600
    • Cach &eacheto L3: 16 MB
    • Clock Speed: 3.2 GHz
    • Turbo Frequency (max): 3.6 GHz
    • L2 cache: 3 MB
    • N Number of processor threads: 12
    • N &o n &o; n &o; n &o; n: 14 nm
      • Memory channel support: Dual
      • compatible memory types: DDR4-SDRAM
      • Clock speeds Supported memory: 2667 MHz
  • Details t &eicnics
    • Versi PCI Express entries: 3.0
  • Power control &iuteres to
    • Power t &erenmic: 65 W

Related categories:Processors