Search CPU-World

Search site contents:

AMD A10-Series A10-5700 - AD5700OKA44HJ / AD5700OKHJBOX

Jump to:
  • FAQ
  • Benchmarks
  • CPUID
  • Pictures
  • Comments
Compare AMD A10-5700 specs with one or more CPUs:  

Identify another S-Spec code, or another CPU:

Use A10-5700 CPU specifications for short-term auctions:

Get HTML and forum link code in case if you want to link to this page:

Find CPUs

Find A10-Series CPUs with:

Same socket

AMD A10-5700 specifications

General information
TypeCPU / Microprocessor
Market segmentDesktop
FamilyAMD A10-Series
Model number  ? A10-5700
CPU part numbersAD5700OKA44HJ is an OEM/tray microprocessor
AD5700OKHJBOX is a boxed microprocessor
Frequency  ? 3400 MHz
Turbo frequency4000 MHz
Package904-pin organic lidded micro Pin Grid Array (UOF904)
SocketSocket FM2
Size1.57" x 1.57" / 4cm x 4cm
Weight1.4oz / 39g (CPU)
9.5oz / 269.4g (box)
Fan/heatsinkZ7LH01R201
Introduction dateJuly 2012 (shipped in OEM PCs)
October 2, 2012 (boxed processors)
Price at introduction$122
 
Architecture / Microarchitecture
MicroarchitecturePiledriver
PlatformVirgo
Processor core  ? Trinity
Core stepping  ? TN-A1
CPUID610F01
Manufacturing process0.032 micron
1303 million transistors
Die size246mm2
Data width64 bit
The number of cores4
The number of threads4
Floating Point UnitIntegrated
Level 1 cache size  ? 2 x 64 KB 2-way associative shared instruction caches
4 x 16 KB 4-way associative data caches
Level 2 cache size  ? 2 x 2 MB 16-way associative shared caches
Level 3 cache sizeNone
MultiprocessingUniprocessor
Features
  • MMX instructions
  • SSE / Streaming SIMD Extensions
  • SSE2 / Streaming SIMD Extensions 2
  • SSE3 / Streaming SIMD Extensions 3
  • SSSE3 / Supplemental Streaming SIMD Extensions 3
  • SSE4 / SSE4.1 + SSE4.2 / Streaming SIMD Extensions 4  ? 
  • SSE4a  ? 
  • AES / Advanced Encryption Standard instructions
  • ABM / Advanced Bit Manipulation  ? 
  • AVX / Advanced Vector Extensions
  • BMI1 / Bit Manipulation instructions 1
  • F16C / 16-bit Floating-Point conversion instructions
  • FMA3 / 3-operand Fused Multiply-Add instructions
  • FMA4 / 4-operand Fused Multiply-Add instructions
  • TBM / Trailing Bit Manipulation instructions
  • XOP / eXtended Operations instructions
  • AMD64 / AMD 64-bit technology  ? 
  • VT / Virtualization technology  ? 
  • EVP / Enhanced Virus Protection  ? 
  • Turbo Core 3.0 technology
Low power features
  • Core C1, C1E, C6 and CC6 states
  • Package S3, S4 and S5 states
  • PowerNow!
 
Integrated peripherals / components
Integrated graphics
  • GPU Type: Radeon HD 7660D
    Shader cores: 384
    Base frequency (MHz): 760
Memory controller
  • The number of controllers: 1
    Memory channels: 2
    Supported memory: DDR3-1866
Other peripherals
  • PCI Express 2.0
  • HD Media Accelerator
 
Electrical / Thermal parameters
V core  ? 0.825V - 1.475V
Maximum operating temperature  ? 71.3°C
Thermal Design Power  ? 65 Watt
 

Detailed side-by-side comparison

For detailed comparision of the AMD A10-5700 and any other other chip from our CPU database type in a chip name and/or its partial specs:

You can specify any of the following: manufacturer name, family name, model number, part number, core name, socket name, operating frequency, bus speed, and the last level cache. Here are examples of searches: A10-5700, AD5700OKA44HJ, AMD A10-Series 3.4GHz, Trinity Socket FM2


Historical price chart

The chart below shows official prices of AMD A10-Series A10-6700T, A10-5700 and A10-6700 processors:

Historical official prices of A10-Series A10-6700T, A10-5700 and A10-6700 processors

FAQ

Q: I have an AMD A10-5700 microprocessor. Is it possible to upgrade it?
A: Probably yes. Processor compatibility is determined by your motherboard. Please check CPU-Upgrade.com resource for CPU support list for your board.

A10-5700 Overclocking

Sorry, overclocking information is not available at this time.


Related news stories

AMD introduces retail "Trinity" APUs for desktops
Oct 02, 2012: Today AMD officially introduced "Virgo" platform, consisting of six different "Trinity" Accelerated Processing Units, and three motherboard chipsets: AMD A55, A75 and A85X. The APUs integrate 2 or 4 CPU cores with discrete-class Radeon HD 7000-series graphics, which allows them to provide good CPU and GPU performance at a relatively low price point. As such, these processors are best suited for entry-level to mid-class media and game systems.



Second generation AMD APUs are already in stores
Sep 30, 2012: We previously reported that the second generation of Accelerated Processing units (APUs) from AMD will launch on October 2. New A-series processors, codenamed "Trinity", are expected to have better CPU and GPU performance then older "Llano" counterparts. The upcoming A-Series products are produced in socket FM2 form factor, incompatible with previous generation of socket FM1 motherboards.



AMD A-Series to launch on October 2, FX-Series on October 23
Sep 25, 2012: While Intel is almost done releasing new desktop processors for the rest of the year, AMD has only started. Next month we will see new lineups, based on the latest AMD Piledriver microarchitecture, which is a tweaked for better performance and power consumption Bulldozer architecture. A-Series "Trinity" Accelerated Processing Units will target budget / mainstream segments of the desktop market, and, according to SemiAccurate, they will be introduced on October 2.



Pre-order prices of AMD "Trinity" CPUs
Sep 03, 2012: The first generation of AMD Accelerated Processing Units was based on "Llano" core, that merged Star/K10-based CPU cores with Radeon HD 6000 graphics. The A series processors had average CPU performance, however, thanks to integrated powerful GPU, they were well suited for graphics and video applications. In the forth quarter 2012 "Llano" parts will be replaced with faster second-generation "Trinity" APUs, featuring 1 or 2 Piledriver modules (2 or 4 CPU cores), and Radeon HD 7000-series graphics unit.



Some details of AMD Piledriver CPUs
Aug 28, 2012: This fall AMD will release large number of new desktop processors, built on the latest Piledriver microarchitecture. With the exception of a couple of chips, details of upcoming lineup were known well ahead of the launch. Yesterday Expreview published a slide, titled "2012 Consumer Platform Quick Reference Guide for Desktops", that confirmed clock frequencies of upcoming "Piledriver" products, and shed some light on supported technologies.



AMD "Trinity" APUs pictured; rumored to launch on October 1
Aug 13, 2012: In May AMD launched second-generation Accelerated Processing Units (APUs) with "Trinity" core. The launch included only mobile chips, whereas desktop "Trinity" APUs were announced in June, and so far appeared in only in desktop computers from such OEM manufacturers as ASUS and HP. Retail "Trinity" products were delayed, and they are expected in late October. Pictures of these accelerated units were published today by Japanese website Hermitage Akihabara.



HP computers with AMD A8-5500 and A10-5700 APUs sold in US
Jul 01, 2012: In May AMD launched second generation of Accelerated Processing Units (APU), based on "Trinity" core. The first "Trinity" products were mobile processors, that were quickly followed by embedded chips. Desktop "Trinity" CPUs were announced in June, and their planned availability date in OEM systems was the end of June. One of these OEM systems, HP Pavilion p7-1235 with AMD A8-5500 processor, is already offered in US. The HP desktop PC is currently available on Walmart and Best Buy online websites.



AMD reveals details of desktop "Trinity" APUs
Jun 11, 2012: In May AMD unveiled first Accelerated Processing Units (APU), based on "Trinity" core. The launch event didn't include any desktop Trinity chips, and currently we don't have any reliable information on desktop processor timeline. Last month's reports placed the desktop "Trinity" launch in August, and more recent rumors suggest that the APUs may be pushed back to September or October. Unlike the launch date, specifications of forthcoming desktop processors were well-known since February, and earlier last week they were published by AMD.



AMD to launch Brazos 2.0 in June, desktop APUs in August
May 14, 2012: This and next quarter AMD plans to release new generation of Accelerated Processing Units (APUs). Soon to be available microprocessors will use enhanced microarchitecture, and feature significantly improved on-chip graphics, codenamed Graphics Core Next. There were a couple of reports in the past month, placing the launch of first mobile APUs in the middle of May. Release date for mobile APUs was confirmed last week by DigiTimes. They also revealed launch dates of desktop APUs, and ultra low voltage processors from Brazos 2.0 platform.



AMD Trinity Desktop APU Specs Revealed
Feb 15, 2012: Our last report on the upcoming Trinity APU gave details of part numbers for the Trinity range, including Brazos 2.0 and Vishera. Donanimhaber have now leaked further details, with a slide showing specs for the Trinity A-Series APUs. Trinity will use a new socket, FM2, which is similar to FM1 with a few pins repositioned, and it will have a Piledriver CPU core, which is the updated Bulldozer core.


Compare AMD A10-5700 benchmark results with all tested CPUs from one of the following families:

To compare this A10-Series CPU with any tested processor please proceed to

For additional benchmarks, comparing multi-threaded performance of this microprocessor with other A10-Series CPUs and the fastest AMD and Intel x86 chips, please visit AMD A10-5700 benchmarks page.

AMD A10-5700 Benchmarks

The graphs below show up to 10 microprocessors with approximately the same level of integer (CPU), floating-point (FPU), SIMD and memory performance. All processors were not overclocked, and were tested at a nominal frequency, with a stock heatsink and default BIOS settings. Click on the '?' mark next to each model name to see specifications of that model, and details of the test platform. To find out how the A10-5700 compares to other CPUs in specific benchmarks or in aggregate milti-threading performance please see benchmark tools section on the right.

Benchmarked processor

CPU ID:610F01
CPU vendor string:AuthenticAMD
CPU name string:AMD A10-5700 APU with Radeon(tm) HD Graphics

Integer performance

Part number   Result
AMD Athlon II X3 440 (rev. C2)  ? 
100.9%
AMD A8-6500B  ? 
100.7%
Intel Core i5-650  ? 
100.4%
AMD A8-6500  ? 
100.2%
Intel Core i5-655K  ? 
100.1%
AMD A10-5700  ? 
100%
AMD Athlon X4 750K  ? 
99.6%
AMD Athlon II X3 435 (rev. C3)  ? 
97.5%
AMD Athlon II X3 435 (rev. C2)  ? 
97.4%
AMD Athlon II X3 2.8 GHz ZD282117K3216  ? 
94.4%
AMD Phenom II X3 715  ? 
94.2%

Floating Point performance

Part number   Result
AMD Phenom II X3 700e  ? 
104.5%
AMD FX-4130  ? 
102.8%
AMD A8-5600K  ? 
102.3%
AMD Athlon X4 750K  ? 
100.1%
AMD Athlon II X3 405e (rev. C3)  ? 
100.1%
AMD A10-5700  ? 
100%
AMD FX-4100  ? 
100%
AMD Athlon II X3 405e (rev. C2)  ? 
99.9%
AMD A6-3500  ? 
97.2%
AMD Athlon II X3 400e  ? 
95.7%
AMD A8-5500  ? 
94.6%

MMX / SSE / SSE2 performance

Part number   Result
AMD A8-6500B  ? 
102.3%
AMD Athlon II X4 638  ? 
102.3%
AMD A6-3670K  ? 
102.2%
AMD FX-4130  ? 
101.5%
AMD Athlon X4 750K  ? 
100.3%
AMD A10-5700  ? 
100%
AMD Athlon II X3 460  ? 
99.5%
Intel Core 2 Quad Q8200  ? 
99.3%
AMD FX-4100  ? 
98.6%
AMD Athlon II X4 631  ? 
98.5%
AMD A6-3650  ? 
98.5%

Memory-intensive program performance

Part number   Result
Intel Core i5-655K  ? 
101.7%
Intel Core i5-650  ? 
101.6%
AMD A8-6500  ? 
101.6%
AMD A8-6500B  ? 
101.6%
AMD Athlon X4 750K  ? 
100%
AMD A10-5700  ? 
100%
AMD Phenom II X4 945 (95W, rev. C2)  ? 
99.8%
AMD Phenom II X4 840T  ? 
99.7%
AMD Phenom II X4 945 (125W)  ? 
99.7%
AMD Phenom II X4 B95  ? 
99.5%
AMD Phenom II X6 1035T  ? 
99.2%

CPU ID information for the A10-5700

Search or browse all public submissions in our CPUID database.

Use our CPU identification tool to check features of your CPU.

NOTE: The CPU ID information below was taken from one CPU and may include features that are not present in all different steppings of the AMD A10-Series A10-5700 CPU.

Manufacturer:AMD
CPU Family:A10-Series
Model Number:A10-5700
Frequency:2966 MHz
Part number:
AD5700OKA44HJ
Stepping Code:GA 1236SUT
Comment:
Submitted by:CPU-World
General information
Vendor:AuthenticAMD
Processor name (BIOS):AMD A10-5700 APU with Radeon(tm) HD Graphics
Cores:4
Compute units:2
Logical processors:4
Processor type:Original OEM Processor
Core stepping:TN-A1
CPUID signature:610F01
Family:21 (015h)
Model:16 (010h)
Stepping: 1 (01h)
Socket:FM2

Cache: L1 data L1 instruction L2
Size: 4 x 16 KB 2 x 64 KB 2 x 2 MB
Associativity: 4-way set
associative
2-way set
associative
16-way set
associative
Line size: 64 bytes 64 bytes 64 bytes
Lines per tag: 1 1 1
Comments:   1 cache per 2 cores 1 cache per 2 cores
 
Instruction set extensionsAdditional instructions
MMX Advanced Bit manipulation
AMD extensions to MMX CLFLUSH
SSE CMOV
SSE2 CMPXCHG16B
SSE3 CMPXCHG8B
SSSE3 FXSAVE/FXRSTORE
SSE4A MONITOR/MWAIT
SSE4.1 PCLMULDQ
SSE4.2 POPCNT
AES PREFETCH/PREFETCHW
AVX RDTSCP
BMI1 SKINIT / STGI support
F16C SYSCALL/SYSRET
FMA SYSENTER/SYSEXIT
FMA4 XSAVE / XRESTORE states
TBM  
XOP  
 
Major featuresOther features
On-chip Floating Point Unit 1 GB large page support
64-bit / Intel 64 100MHz multiplier control
NX bit/XD-bit 128-bit SSE instructions
Secure Virtual Machine (Virtualization) 36-bit page-size extensions
Turbo Core Advanced programmable interrupt controller
PowerNow! / Cool'n'Quiet Core multi-processing legacy mode
  Debugging extensions
  Extended APIC space
  Hardware P-state control
  Hardware thermal control
  Instruction based sampling
  LAHF / SAHF support in 64-bit mode
  LBR virtualization
  LOCK MOV CR0 means MOV CR8
  Lightweight profiling support
  Machine check architecture
  Machine check exception
  Memory-type range registers
  Misaligned SSE mode
  Model-specific registers
  Nested page tables
  OS visible workaround
  Page attribute table
  Page global extension
  Page-size extensions (4MB pages)
  Physical address extensions
  SVM lock
  Support for NRIP save
  THERMTRIP
  TSC rate is ensured to be invariant across all states
  Temperature sensor
  Time stamp counter
  Virtual 8086-mode enhancements
  Watchdog timer support

CPUs, related to AMD A10-5700

Model Cores /
Threads
Frequency Turbo
frequency
L2
cache
TDP Features Price  
AMD A10-Series family, Socket FM2
   A10-6700T4 / 42.5 GHz3.5 GHz4 MB45W$142>
   A10-57004 / 43.4 GHz4 GHz4 MB65W$122 
   A10-5800B4 / 43.8 GHz4.2 GHz4 MB100W >
   A10-67004 / 43.7 GHz4.3 GHz4 MB65W$142>
   A10-5800K4 / 43.8 GHz4.2 GHz4 MB100WUnlock$122>
   A10-6790K4 / 44 GHz4.3 GHz4 MB100WUnlock$122>
   A10-6800B4 / 44.1 GHz4.4 GHz4 MB100W >
   A10-6800K4 / 44.1 GHz4.4 GHz4 MB100WUnlock$142>
Other families, Piledriver micro-architecture, Socket FM2
   Athlon X2 3402 / 23.2 GHz3.6 GHz1 MB65W >
   A4-63002 / 23.7 GHz3.9 GHz1 MB65W >
   A4-63202 / 23.8 GHz4 GHz1 MB65W >
   A6-6400K2 / 23.9 GHz4.1 GHz1 MB65WUnlock$62>
   A6-6420K2 / 24 GHz4.2 GHz1 MB65WUnlock >
   Athlon X2 370K2 / 24 GHz4.2 GHz1 MB65WUnlock >
   FirePro A3004 / 43.4 GHz4 GHz4 MB65W >
   Athlon X4 760K4 / 43.8 GHz4.1 GHz4 MB100WUnlock >
   FirePro A3204 / 43.8 GHz4.2 GHz4 MB100WUnlock >
   A8-6600K4 / 43.9 GHz4.2 GHz4 MB100WUnlock$97>
 • Highlighted numbers and features indicate whether specific processor performs better or worse than the A10-5700
 • Within each category, the CPUs are sorted from slower (at the top) to faster (at the bottom)
 • Click on the >  icon to compare any CPU in the table with the AMD A10-5700 (Javascript required).
 • The 'Price' column shows official AMD prices as of Mar 11, 2014. Prices for obsolete and tray-only processors are not provided.
 • List of related CPUs is not complete.
 • Features abbreviations:
Unlock - Unlocked multiplier

Pictures (2)

A10-5700 CPU pictures
2013-03-23 17:35:31
Posted by: gshv

Top view. The processor was manufactured in the first half of September 2012.
A10-5700 CPU pictures
 
2013-03-23 17:35:52
Posted by: gshv

Bottom view.
 
Comments (0)

You're welcome to post suggestions, corrections, your own personal AMD A10-5700 review, or your experience with the microprocessor. Please do not ask upgrade and troubleshooting questions, and do not start discussions.

Terms and Conditions · Privacy Policy · Contact Us (c) Copyright 2003 - 2010 Gennadiy Shvets