AMD FX-4170 vs Intel Core i5-2320
Mini Review
AMD FX-4170 advantages
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Intel Core i5-2320 advantages
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FX-4170 vs i5-2320 performance comparison
The charts below demonstrate performance of FX-4170 and Core i5-2320 CPUs in different kinds of programs. The numbers for 'Single-threaded performance', 'Multi-threaded performance' and 'Discrete Graphics performance' charts are calculated as an average of several related benchmarks, that you can see in the "Benchmarks" tab. Consequentally, the shown results may differ from results, that you may receive in individual tests. The 'Overall performance' shows an average of all-around performance benchmarks, and benchmarks, specific to each program type. | |||||||||||||||||||||||||||||
Higher is better |
Higher is better |
Higher is better |
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Higher is better |
Higher is better |
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Complete list of benchmarks, that show difference in performance between FX-4170 and Core i5-2320 in various types of programs, can be found in the "Benchmarks" tab.
FX-4170 vs i5-2320 power consumption comparison
Lower is better |
Detailed side by side comparison of FX-4170 vs Intel i5-2320 specs can be found in the "Specifications" tab. Even more detailed comparison of low level features of both processors you will find in the "CPUIDs" tab.
Pros and Cons summary
| FX-4170 | Core i5-2320 |
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General recommendations: Supports FMA4 / XOP instructions,
Can be effortlessly overclocked |
General recommendations: Somewhat faster overall,
Slightly higher performance in graphics tasks, Includes HD 2000 GPU, Somewhat more energy efficient |
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Drawbacks: Performs worse in all types of applications,
A bit slow in graphics tasks, No on-chip GPU, Less energy efficient |
Drawbacks: Lacks some instructions
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Similar processors
| FX-4170 | Core i5-2320 |
Similar CPUs use the same socket and architecture as FX-4170 and Core i5-2320, but their performance and other characteristics are a bit different.
Specifications
| AMD FX-4170 | Intel Core i5-2320 | |
| Basic details | ||
| Market segment | Desktop | |
|---|---|---|
| Manufacturer | AMD | Intel |
| Family | AMD FX-Series | Intel Core i5 |
| Model number | FX-4170 | i5-2320 |
| CPU part number | FD4170FRW4KGU | CM8062301043820 |
| Box part number | FD4170FRGUBOX | BX80623I52320 BXC80623I52320 |
| Introduction date | February 27, 2012 | September 4, 2011 |
| Current official price | $122 (as of Apr 2013) | |
| CPU features | ||
| Core name | Zambezi | Sandy Bridge |
| Platform name | Scorpius | |
| Microarchitecture | Bulldozer | Sandy Bridge |
| Technology (micron) | 0.032 | |
| Data width (bits) | 64 | |
| Socket | Socket AM3+ | Socket 1155 |
| Frequency (MHz) | 4200 | 3000 |
| Turbo Frequency (MHz) | 4300 / 4300 / - / - | 3300 |
| Clock Multiplier | 30 | |
| L1 cache | 128 KB (code) / 64 KB (data) | 128 KB (code) / 128 KB (data) |
| L2 cache (KB) | 4096 | 1024 |
| L3 cache (KB) | 8192 | 6144 |
| Max temperature (°C) | 72.6 | |
| TDP (Watt) | 125 | 95 |
| Cores | 4 | |
| Threads | 4 | |
| Multiprocessing | 1 | |
| Instruction set extensions | ||
| AES / Advanced Encryption Standard | + | |
| AMD64 / EM64T 64-bit technology | + | |
| AVX / Advanced Vector Extensions | + | |
| FMA4 / 4-operand Fused Multiply-Add | + | - |
| MMX | + | |
| SSE | + | |
| SSE2 | + | |
| SSE3 | + | |
| SSE4.1 | + | |
| SSE4.2 | + | |
| SSSE3 / Supplemental SSE3 | + | |
| XOP / eXtended Operations | + | - |
| Supported technologies | ||
| PowerNow! / Enhanced SpeedStep | + | |
| Turbo Core / Turbo Boost | + | |
| Unlocked multiplier | + | - |
| Virtualization | + | |
| Virus Protection / Execute Disable bit | + | |
| Integrated Graphics | ||
| GPU Type | None | HD 2000 |
| Integrated Memory Controller(s) | ||
| The number of controllers | 1 | |
| Memory channels | 2 | |
| Supported memory | DDR3-1866 | DDR3-1066 DDR3-1333 |
Rows with different specifications or features are highlighted.
For detailed specifications of "AMD FX-4170" or "Intel Core i5-2320" parts please click on the links in the table header.
Benchmarks
System setup
Below is a partial set of AMD FX-4170 and Intel Core i5-2320 benchmarks from our CPU benchmark database. The former processor was tested on ASUS Sabertooth 990FX motherboard with 4GB dual-channel Crucial BallistixPC3-14900 (DDR3-1866) memory, and MSI R6670 1GB GDDR5 (ATI Radeon). The latter processor was tested on ASUS P8P67 motherboard, that had 2 GB dual-channel Corsair TR3X3G1600C9 DDR3 memory, and MSI R6670 1GB GDDR5 (ATI Radeon) graphics. For different system configurations please see tests of FX-4170 and Intel Core i5-2320 CPUs in our benchmark database.
All tests were performed at default frequency and voltage, using manufacturer's stock fan/heatsink. None of the components were overclocked. Motherboard BIOS options were left at default settings.
The results of all benchmarks are broken into four categories: multi-threaded, single-threaded, memory intensive and graphics / gaming.
FX-4170 vs Intel Core i5-2320 single-threaded benchmarks
Single-threaded benchmarks run on a single CPU core, and do not depend on such features as the number of cores, or Hyper-Threading technology. Additionally, they do not utilize on-chip caches, dedicated to other cores.
AMD FX-4170 Intel Core i5-2320 | ||
3DMark03 CPU score benchmark | ||
Longer is better  | ||
|---|---|---|
| 100% | ||
| 85.1% | ||
CINEBENCH R10 CPU score (1 core) benchmark | ||
| Longer is better | ||
| 100% | ||
| 71.3% | ||
FLAC encoding - single process benchmark | ||
| Longer is better | ||
| 100% | ||
| 90.7% | ||
H.264 video encoding - single process benchmark | ||
| Longer is better | ||
| 100% | ||
| 96.4% | ||
LAME MP3 encoding - single process benchmark | ||
| Longer is better | ||
| 100% | ||
| 76.8% | ||
AMD FX-4170 Intel Core i5-2320 | ||
PCMark2002 CPU score benchmark | ||
| Longer is better | ||
| 100% | ||
| 82.1% | ||
Super PI (1M) benchmark | ||
 Shorter is better | ||
| 100% | ||
| 55.7% | ||
XVid video encoding - single process benchmark | ||
| Longer is better | ||
| 100% | ||
| 95.1% | ||
FX-4170 vs Intel Core i5-2320 multi-threaded benchmarks
Multi-threaded benchmarks utilize all CPU cores and other on-chip resources (on-chip caches, internal buffers, etc). Intel's Hyper-Threading feature also helps to improve multi-threading performance.
AMD FX-4170 Intel Core i5-2320 | ||
3DMark06 CPU score benchmark | ||
| Longer is better | ||
|---|---|---|
| 100% | ||
| 82.5% | ||
Apache web server - dynamic pages benchmark | ||
| Longer is better | ||
| 100% | ||
| 78.1% | ||
Apache web server - static pages benchmark | ||
| Longer is better | ||
| 100% | ||
| 49.3% | ||
Blowfish encryption benchmark | ||
| Longer is better | ||
| 100% | ||
| 59.3% | ||
CINEBENCH R10 CPU score benchmark | ||
| Longer is better | ||
| 100% | ||
| 63.7% | ||
AMD FX-4170 Intel Core i5-2320 | ||
CINEBENCH R10 render time (seconds) benchmark | ||
| Shorter is better | ||
| 100% | ||
| 63.7% | ||
CrystalMark ALU benchmark | ||
| Longer is better | ||
| 100% | ||
| 73.8% | ||
CrystalMark FPU benchmark | ||
| Longer is better | ||
| 100% | ||
| 73.8% | ||
Euler3D benchmark | ||
| Longer is better | ||
| 100% | ||
| 62.0% | ||
FLAC encoding - multiple processes benchmark | ||
| Longer is better | ||
| 100% | ||
| 74.2% | ||
AMD FX-4170 Intel Core i5-2320 | ||
Fritz Chess Benchmark benchmark | ||
| Longer is better | ||
| 100% | ||
| 78.9% | ||
H.264 video encoding - multiple processes benchmark | ||
| Longer is better | ||
| 100% | ||
| 80.9% | ||
H.264 video encoding - multithreaded benchmark | ||
| Longer is better | ||
| 100% | ||
| 87.2% | ||
LAME MP3 encoding - multiple processes benchmark | ||
| Longer is better | ||
| 100% | ||
| 65.9% | ||
PCMark05 CPU score benchmark | ||
| Longer is better | ||
| 100% | ||
| 86.7% | ||
AMD FX-4170 Intel Core i5-2320 | ||
PCMark05 score benchmark | ||
| Longer is better | ||
| 100% | ||
| 91.3% | ||
Sandra Dhrystone (MIPS) benchmark | ||
| Longer is better | ||
| 100% | ||
| 64.7% | ||
Sandra MultiMedia Floating Point (it/s) benchmark | ||
| Longer is better | ||
| 100% | ||
| 80.6% | ||
Sandra MultiMedia Integer (it/s) benchmark | ||
| Longer is better | ||
| 100% | ||
| 96.2% | ||
Sandra Whetstone (MFLOPS) benchmark | ||
| Longer is better | ||
| 100% | ||
| 55.4% | ||
AMD FX-4170 Intel Core i5-2320 | ||
Sandra Whetstone SSE2 (MFLOPS) benchmark | ||
| Longer is better | ||
| 100% | ||
| 76.8% | ||
XVid video encoding - multiple processes benchmark | ||
| Longer is better | ||
| 100% | ||
| 82.9% | ||
wPrime v1.55 (32M) benchmark | ||
| Shorter is better | ||
| 100% | ||
| 64.9% | ||
FX-4170 vs Intel Core i5-2320 graphics benchmarks
Graphics benchmarks depend on the type of integrated or discrete graphics adapter, and to less extent on the processor performance. Because these benchmarks are synthetic, they may not truly represent gaming performance. However, they still can used to estimate whether one processor will perform faster or slower in games than another CPU.
AMD FX-4170 Intel Core i5-2320 | ||
3DMark03 game score benchmark | ||
| Longer is better | ||
|---|---|---|
| 100% | ||
| 98.1% | ||
3DMark06 3DMark score benchmark | ||
| Longer is better | ||
| 100% | ||
| 97.0% | ||
3DMark2001 score benchmark | ||
| Longer is better | ||
| 100% | ||
| 80.5% | ||
CINEBENCH R10 OpenGL score benchmark | ||
| Longer is better | ||
| 100% | ||
| 92.6% | ||
PCMark05 Graphics score benchmark | ||
| Longer is better | ||
| 100% | ||
| 98.0% | ||
FX-4170 vs Intel Core i5-2320 memory performance
Memory-intensive tests or programs move large amounts of data to/from memory, and they depend more on memory throughput and the size of on-chip caches, rather than on CPU integer/FP/SIMD performance.
AMD FX-4170 Intel Core i5-2320 | ||
7Zip compressing/decompressing speed benchmark | ||
| Longer is better | ||
|---|---|---|
| 100% | ||
| 90.3% | ||
CrystalMark Memory benchmark | ||
| Longer is better | ||
| 100% | ||
| 79.9% | ||
PCMark05 Memory score benchmark | ||
| Longer is better | ||
| 100% | ||
| 91.4% | ||
PCMark2002 Memory score benchmark | ||
| Longer is better | ||
| 100% | ||
| 78.9% | ||
WinRAR compressing/decompressing speed benchmark | ||
| Longer is better | ||
| 100% | ||
| 97.3% | ||
CPUIDs
The table below compares two random CPUID records for AMD FX-4170 and Intel Core i5-2320 microprocessors, that were submitted to our CPUID database. Please note that different steppings of Intel processors, identified by S-spec numbers or CPUID, may have slightly different features. For that reason the comparison table below only applies to CPUs with specific S-Spec number / CPUID.
| CPUID 1 | CPUID 2 | |
| Manufacturer | AMD | Intel |
|---|---|---|
| CPU Family | FX-Series | Core i5 |
| Model / Processor Number | FX-4170 | i5-2320 |
| Frequency | 4214 MHz | 3009 MHz |
| CWID version | 0.4 | |
| Part number | FD4170FRW4KGU | CM8062301043820 |
| S-Spec / Stepping Code | FA 1202PGN | SR02L |
| General information | ||
| Vendor | AuthenticAMD | GenuineIntel |
| Processor name (BIOS) | AMD FX(tm)-4170 Quad-Core Processor | Intel(R) Core(TM) i5-2320 CPU @ 3.00GHz |
| Cores | 4 | |
| Logical processors | 2 | 4 |
| Processor type | 4 | Original OEM Processor |
| CPUID signature | Original OEM Processor | 206A7 |
| Family | OR-B2 | 6 (06h) |
| Model | 600F12 | 42 (02Ah) |
| Stepping | 21 (015h) | 7 (07h) |
| TLB/Cache details | 1 (01h) | 64-byte Prefetching Data TLB0: 2-MB or 4-MB pages, 4-way associative, 32 entries Data TLB: 4-KB Pages, 4-way set associative, 64 entries Instruction TLB: 4-KB Pages, 4-way set associative, 128 entries L2 TLB: 1-MB, 4-way set associative, 64-byte line size Shared 2nd-level TLB: 4 KB pages, 4-way set associative, 512 entries |
| Stepping | 2 (02h) | |
| Socket | AM3+ | |
| Cache | ||
| L1 data: Associativity | 4-way set associative | 8-way set associative |
| L1 data: Comments | Direct-mapped | |
| L1 data: Line size | 64 bytes | |
| L1 data: Lines per tag | 1 | |
| L1 data: Size | 4 x 16 KB | 4 x 32 KB |
| L1 instruction: Associativity | 2-way set associative | 8-way set associative |
| L1 instruction: Comments | 1 cache per 2 cores | Direct-mapped |
| L1 instruction: Line size | 64 bytes | |
| L1 instruction: Lines per tag | 1 | |
| L1 instruction: Size | 2 x 64 KB | 4 x 32 KB |
| L2: Associativity | 16-way set associative | 8-way set associative |
| L2: Comments | 1 cache per 2 cores | Non-inclusive|Direct-mapped |
| L2: Line size | 64 bytes | |
| L2: Lines per tag | 1 | |
| L2: Size | 2 x 2 MB | 4 x 256 KB |
| L3: Associativity | 64-way set associative | 12-way set associative |
| L3: Comments | Inclusive|Shared between all cores | |
| L3: Line size | 64 bytes | |
| L3: Lines per tag | 1 | |
| L3: Size | 8 MB | 6 MB |
| Instruction set extensions | ||
| AES | + | |
| AMD extensions to MMX | + | - |
| AVX | + | |
| FMA4 | + | - |
| MMX | + | |
| SSE | + | |
| SSE2 | + | |
| SSE3 | + | |
| SSE4.1 | + | |
| SSE4.2 | + | |
| SSE4A | + | - |
| SSSE3 | + | |
| XOP | + | - |
| Additional instructions | ||
| Advanced Bit manipulation | + | - |
| CLFLUSH | + | |
| CMOV | + | |
| CMPXCHG16B | + | |
| CMPXCHG8B | + | |
| FXSAVE/FXRSTORE | + | |
| MONITOR/MWAIT | + | |
| PCLMULDQ | + | |
| POPCNT | + | |
| PREFETCH/PREFETCHW | + | - |
| RDTSCP | + | |
| SKINIT / STGI support | + | - |
| SYSCALL/SYSRET | + | - |
| SYSENTER/SYSEXIT | + | |
| XSAVE / XRESTORE states | + | |
| Major features | ||
| 64-bit / Intel 64 | + | |
| Enhanced SpeedStep | - | + |
| Intel Virtualization | - | + |
| NX bit/XD-bit | + | |
| On-chip Floating Point Unit | + | |
| PowerNow! / Cool'n'Quiet | + | - |
| Secure Virtual Machine (Virtualization) | + | - |
| Turbo Boost | - | + |
| Turbo Core | + | - |
| Other features | ||
| 1 GB large page support | + | - |
| 100MHz multiplier control | + | - |
| 128-bit SSE instructions | + | - |
| 36-bit page-size extensions | + | |
| 64-bit debug store | - | + |
| Advanced programmable interrupt controller | + | |
| CPL qualified debug store | - | + |
| Core multi-processing legacy mode | + | - |
| Debug store | - | + |
| Debugging extensions | + | |
| Digital Thermal Sensor capability | - | + |
| 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) | + | |
| Pending break enable | - | + |
| Perfmon and Debug capability | - | + |
| Physical address extensions | + | |
| Power Limit Notification capability | - | + |
| Process context identifiers | - | + |
| SVM lock | + | - |
| Self-snoop | - | + |
| Support for NRIP save | + | - |
| THERMTRIP | + | - |
| TSC rate is ensured to be invariant across all states | + | |
| Temperature sensor | + | - |
| Thermal monitor | - | + |
| Thermal monitor 2 | - | + |
| Thermal monitor and software controlled clock facilities | - | + |
| Time stamp counter | + | |
| Timestamp counter deadline | - | + |
| Virtual 8086-mode enhancements | + | |
| Watchdog timer support | + | - |
| xTPR Update Control | - | + |
- - feature is not supported
Features, not supported by all processors in the table, are not displayed
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