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AMD Ryzen 7 2700U

15 W
2.2 GHz
3.8 GHz
Raven Ridge
Socket FP5
AMD Socket FP5
AMD Socket FP5
The AMD Ryzen 7 2700U is a mobile processor with 4 cores, launched in October 2017. It is part of the Ryzen 7 lineup, using the Zen (Raven Ridge) architecture with Socket FP5. Thanks to AMD Simultaneous Multithreading (SMT) the core-count is effectively doubled, to 8 threads. Ryzen 7 2700U has 4MB of L3 cache and operates at 2.2 GHz by default, but can boost up to 3.8 GHz, depending on the workload. AMD is making the Ryzen 7 2700U on a 14 nm production node, the transistor count is unknown. The silicon die of the chip is not fabricated at AMD, but at the foundry of GlobalFoundries. The multiplier is locked on Ryzen 7 2700U, which limits its overclocking potential.
With a TDP of 15 W, the Ryzen 7 2700U consumes very little energy. AMD's processor supports DDR4 memory with adual-channel interface. This processor features the Radeon RX Vega 10 integrated graphics solution.
Hardware virtualization is available on the Ryzen 7 2700U, which greatly improves virtual machine performance. Programs using Advanced Vector Extensions (AVX) can run on this processor, boosting performance for calculation-heavy applications. Besides AVX, AMD is including the newer AVX2 standard, too, but not AVX-512.


Socket: AMD Socket FP5
Foundry: GlobalFoundries
Process Size: 14 nm
Transistors: unknown
Die Size: 246 mm²


Frequency: 2.2 GHz
Turbo Clock: up to 3.8 GHz
Base Clock: 100 MHz
Multiplier: 22.0x
Multiplier Unlocked: No
TDP: 15 W


Market: Mobile
Production Status: Active
Release Date: Oct 26th, 2017
Codename: Raven Ridge
Generation: Ryzen 7
(Zen (Raven Ridge))
Part#: unknown
Memory Support: DDR4
ECC Memory: No


# of Cores: 4
# of Threads: 8
SMP # CPUs: 1
Integrated Graphics: Radeon RX Vega 10


Cache L1: 128K (per core)
Cache L2: 512K (per core)
Cache L3: 4MB (shared)


  • MMX
  • SSE
  • SSE2
  • SSE3
  • SSSE3
  • SSE4A
  • SSE4.1
  • SSE4.2
  • AES
  • AVX
  • AVX2
  • BMI1
  • BMI2
  • SHA
  • F16C
  • FMA3
  • AMD64
  • EVP
  • AMD-V
  • SMAP
  • SMEP
  • SMT
  • Precision Boost