Out of every generation of Intel processors, the headline acts are the high core count parts, the ones with a high-frequency or the most expensive models. Of course, any manufacturer that has a high performing halo product will want that story out of the door on day one, but for typical user sales, it is the mid-range that is more relevant. The Intel Core i3 line comes without any Turbo, offering a flat frequency at load, and is synonymous with dual-core configurations with hyperthreading. In this review, we test three of the Core i3 processors, the i3-6100, the  i3-6300  and i3-6320, all of which are set at a 51W thermal design power.

The Skylake Core i3 (51W) Review

Intel’s mainstream desktop processor line, using the latest Skylake microarchitecture, currently sits at 30 different socketable processors. Most of these are available for purchase for system builds, although some of the lower power/specialized parts will be found in OEM systems only or select customers. These processors are subdivided into five ‘families’, with broad ranging feature sets designed to increase as we move through the stack.

Intel's Mainstream Consumer Skylake Product Segments
  Core i7 Core i5 Core i3 Pentium Celeron
TDP Options 35W
Price $303 to
$182 to
$117 to
$64 to
$42 to
Cores 4 4 2 2 2
Hyperthreading Yes No Yes No No
L3 Cache 8 MB 6 MB 4MB: 62/63
3MB: 61/60
3 MB 2 MB
Base Freq 2.4-4.0 GHz 2.2-3.5 GHz 2.7-3.9 GHz 3.4-3.6 GHz 2.3-2.9 GHz
Turbo Freq 3.4-4.2 GHz 2.9-3.9 GHz - - -
DRAM Support DDR4-2133
ECC No No Yes Yes Yes
IGP HD 530 All All but P All but P G45 -
HD 510 - 6402P 6098P G44 All
AVX Yes Yes Yes No No
TSX Yes Yes on 65/66
No on 64
No No No
SGX Yes Yes Yes Yes Yes
MPX Yes Yes Yes No No

The Core i3 line sits in the middle, with two cores and hyperthreading enabled. There are three variants of Core i3 processor: the regular non-lettered models at 51W (e.g. i3-6300), the low power models at 35W (i3-6100T, i3-6100TE) and a single downgraded graphics SKU at 54W (i3-6098P).

The Core i3 processors are the lowest specification of the range to enable AVX 2.0, indicating that AVX is a ‘Core’ feature, over a Pentium or Celeron. Similarly, MPX (Memory Protection Extensions) is only on Core i3 and up. By contrast, transactional extensions are not on the Core i3 models, and are only available on Core i5 and above.

What makes the i3 line a little different to most is the L3 cache variation within the family. Typically the more cache a processor has (or the higher associativity of the cache), and the more cache that a processor has at lower levels, the less important the speed of higher cache/memory levels become. Low levels of cache are typically expensive SRAMs that also take up die area that might be better suited for lower latency logic, hence why we have a tiered cache system rather than just gigabytes of L1 cache.

Core i3 processors either come with 3 MB or 4 MB of L3 cache. This will mean that, as a general rule of thumb, the processors with 4 MB will have to access main memory fewer times, and can hold more data closer to the core logic. This keeps the processors working as much as possible, and should afford obvious benefits in benchmarks where the data cannot fit as easily into cache.

Processors with names that start i3-63xx will have 4MB of L3 cache, whereas the i3-61xx variants only have 3MB, except the Core i3-6100TE which has 4 MB. As confusing as that is, here’s a full table of every LGA1151 socketable Skylake processor released/announced:

Intel's Skylake LGA1151 CPUs
CPUs in Bold have been Tested (some not written up, yet)
  C/T L3 Base Turbo HD HD Turbo TDP MSRP
Core i7-6700K 4/8 8 MB 4.0 4.2 530 1150 91W $339
Core i7-6700 4/8 8 MB 3.4 4.0 530 1150 65W $303
Core i7-6700T 4/8 8 MB 2.8 3.6 530 1100 35W $303
Core i7-6700TE 4/8 8 MB 2.4 3.4 530 1000 35W $303
Core i5-6600K 4/4 6 MB 3.5 3.9 530 1150 91W $242
Core i5-6600 4/4 6 MB 3.3 3.9 530 1150 65W $213
Core i5-6500 4/4 6 MB 3.2 3.6 530 1050 65W $192
Core i5-6400 4/4 6 MB 2.7 3.3 530 950 65W $182
Core i5-6600T 4/4 6 MB 2.7 3.5 530 1100 35W $213
Core i5-6500T 4/4 6 MB 2.5 3.1 530 1100 35W $192
Core i5-6400T 4/4 6 MB 2.2 2.8 530 950 35W $192
Core i5-6500TE 4/4 6 MB 2.3 3.3 530 1000 35W $192
Core i5-6402P 4/4 6 MB 2.8 3.4 510 950 65W $182
Core i3-6320 2/4 4 MB 3.9 - 530 1150 51W $149
Core i3-6300 2/4 4 MB 3.8 - 530 1150 51W $138
Core i3-6100 2/4 3 MB 3.7 - 530 1050 51W $117
Core i3-6300T 2/4 4 MB 3.3 - 530 950 35W $138
Core i3-6100T 2/4 3 MB 3.2 - 530 950 35W $117
Core i3-6100TE 2/4 4 MB 2.7 - 530 1000 35W $117
Core i3-6098P 2/4 3 MB 3.6 - 510 1050 54W $117
Pentium G4520 2/2 3 MB 3.6 - 530 1050 51W $85
Pentium G4500 2/2 3 MB 3.5 - 530 1050 51W $75
Pentium G4400 2/2 3 MB 3.3 - 510 1000 54W $64
Pentium G4500T 2/2 3 MB 3.0 - 530 950 35W $75
Pentium G4400T 2/2 3 MB 2.9 - 510 950 35W $64
Pentium G4500TE 2/2 3 MB 2.4 - 510 950 35W $70
Celeron G3920 2/2 2 MB 2.9 - 510 950 51W $52
Celeron G3900 2/2 2 MB 2.8 - 510 950 51W $42
Celeron G3900T 2/2 2 MB 2.6 - 510 950 35W -
Celeron G3900TE 2/2 2 MB 2.3 - 510 950 35W $42

Originally Turbo mode was introduced in order to be able to push the frequency of a single core (or two) when the software only uses a small number of threads. This allows for extra performance while still keeping within the TDP of the processor. The Core i3 processors do not have a turbo mode by design: when any of the possible threads are in action, the processor will run the cores at the rated base frequency on the box. This should allow for more repeatable results in benchmarks, as long as background tasks do not interfere with the CPU time of a small number of cores.

The pricing of the Skylake processors is such that moving up from a lower family to a higher family is a sufficient jump in price, and there is no overlap. Moving from a Core i3 to a Core i5 for example, is a minimum $23 (from $158 for a boxed i3-6320 to $182 for the i5-6400) for more cache and more physical cores, albeit with the same number of threads and lower core frequencies.

Core i3-6100TE vs Core i3-6100

Looking at the rear of the processors, the lower power Core i3-6100TE, compared to the others (6100/6300/6320 are all the same), has extra capacitors and transistors on the bottom which presumably assist with lower power operation. As the i3-6100TE has a lower frequency to assist with power consumption, the extra components may help shift the efficiency of the processor to nearer the 35W mode. The T/TE variants are typically slightly more expensive than the standard versions, and part of this may be from the additional hardware required.

Competition and Market

One could argue that the Core i3 line is aimed at bulk system production where fast response times are important but high compute functions such as video editing are not. The Core i3 is often earmarked as a processor for entry level gaming, providing enough horsepower to drive medium graphics cards at reasonable resolutions without being a bottleneck. This becomes important if more game development engines and studios adapt their programming models to go beyond 2-4 threads or cores.

Users coming into the Core i3 arena may be updating from an older machine, or looking at a fixed budget and trying to get bang-for-buck. Going back to entry level gaming and sub-$800 systems, users will pull out the Core i3 as an example. What will be interesting here is to see if that L3 cache difference between the Core i3-6100 and Core i3-6300 will be significant.

On the other side of the x86 fence is AMD’s A10-7000 and FX-8000 processor lines. As the Core i3 processors are available for $117-$158, this fits in with the several AMD options. Some of the AMD options have the recently released and updated AMD CPU cooler, which we reviewed recently in a stock cooler roundup. Based on our extensive testing, this 'free' cooler adds value to the AMD offerings, which is not always apparent in benchmark data or when comparing price for performance.

From AMD’s dual-module APUs with superior integrated graphics:

- A10-7860K at $117, free $30 CPU cooler,
- A10-7890K at $165, free $30 CPU cooler

And AMD’s slightly older FX line with either six or eight threads, but no IGP:

- FX-8350 at $199 (launch price)
- FX-8320E at $147
- FX-6350 at $132

Putting these together gives the following table:

CPU Competition at $115-$150
  Intel Core i3 AMD A10 AMD FX
i3-6100 i3-6300 i3-6320 A10
TDP 51W 51W 51W 65W 95W 125W 95W
Cores/Modules 2 2 2 2 2 3 4
Threads 4 4 4 4 4 6 8
Base Freq 3700 3800 3900 3600 4100 3900 3200
Turbo Freq - - - 4000 4300 4200 4000
IGP HD 530 HD 530 HD 530 R7-512 R7-512 - -
IGP GFLOPs 403.2 441.6 441.6 900.0 1029.6 - -
DRAM DDR4-2133 DDR4-2133 DDR4-2133 DDR3-2133 DDR3-2133 DDR3-1866 DDR3-1866
Released Sep '15 Sep '15 Sep '15 Feb '16 Mar '16 Oct '12 Sep '14
Price (box) $117 $147 $158 $117 $165 $132 $147

The FX parts, with more threads, have the deficit of being substantially older parts based on AMD’s Steamroller microarchitecture, while all the AMD parts suffer in terms of power consumption. However, for the extra TDP, there’s an uptick in integrated graphics for the APUs. Also, the AMD parts suffer a noticeable single thread performance deficit, so it will be interesting to see how this plays out on our benchmark suite.

As part of a series of reviews this quarter, we have recently retested a small number of FX processors, as well as the newer A10 processors. The data for these is available in our benchmark database, Bench.

CPUs in this Review

For this review we have tested the Core i3-6100, Core i3-6300 and Core i3-6320 processors from Intel. This builds on our review of the Core i3-6100TE, where we explored overclocking on Core i3. As was apparent in that review, trying to get a motherboard with an older microcode to allow overclocking on a Core i3 is somewhat difficult, and results were not over the moon, so we won’t be producing overclocking numbers for these parts here (and I might have broken the OC motherboard accidentally trying some out-of-the-box thinking).

Intel Core i3-6320

Intel Core i3-6300

Intel Core i3-6100 (with lower L3 Cache)

Nonetheless, the landscape for Core i3 should be very interesting. We put these CPUs through our long-form CPU 2015 tests, including our Real World, Office and Professional tests, while the 2016 suite is still being built. The CPUs were also used with five high-caliber gaming titles, with low, mid and high-end GPUs. We then end with the final countdown analysis. Any of the links below will jump straight to the respective page.

Pages In This Review

Skylake Core i3 (51W) Analysis
Test Bed and Setup
Benchmark Overview

Stock Comparison: Real World
Stock Comparison: Office
Stock Comparison: Linux
Stock Comparison: Legacy

Gaming Comparison: Alien Isolation
Gaming Comparison: Total War: Attila
Gaming Comparison: Grand Theft Auto
Gaming Comparison: Grid Autosport
Gaming Comparison: Shadow of Mordor

Conclusions and Final Words

Test Bed and Setup
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  • tipoo - Monday, August 8, 2016 - link

    Looks like even a Skylake i3 may be able to retire the venerable 2400/2500K, higher frame rates and better frame times at that. However a native quad does prevent larger dips.
  • Kevin G - Monday, August 8, 2016 - link

    I have a feeling much that is due to the higher base clock on the SkyLake i3 vs. the i5 2500K. Skylake's IPC improvements also help boost performance here too.

    The real challenge is if the i3 6320 can best the i5 2500k as the same 3.9 Ghz base clock speed. Sandy Bridge was a good overclocker so hitting those figures shouldn't be difficult at all.
  • tipoo - Monday, August 8, 2016 - link

    That's true, overclocked the difference would diminish. But you also get modernities like high clocked DDR4 in the switchover.

    At any rate, funny that a dual core i3 can now fluidly run just about everything, it's two cores are probably faster than the 8 in the current consoles.
  • Lolimaster - Monday, August 8, 2016 - link

    Benchrmarks don't tell you about the hiccups when playing with a dual core. Specially with things like Crysis 3 or even worse ROt Tomb Raider where you get like half the fps just by using a dual core bs a cheapo Athlon 860K.
  • gamerk2 - Monday, August 8, 2016 - link

    That's why Frame Times are also measured, which catches those hitches.
  • Samus - Tuesday, August 9, 2016 - link

    I had a lot of issues with my Sandy Bridge i3-2125 in Battlefield 3 circa 2011 with lag and poor minimum frame rates.

    After long discussions on the forums, it was determined disabling hyper threading actually improved frame rate consistency. So at least in the Sandy Bridge IPC, and probably dating back to Nehalem or even Prescott, Jackson Technology or whatever you want to call it, has a habit of stalling the pipeline if there are too many cache misses to complete the instruction. Obviously more cache resolves this, so the issue isn't as prominent on the i7's, and it would certainly explain why the 4MB i3's are more consistent performers than the 3MB variety.

    Of course the only way to prove if hyper threading is causing performance inconsistency is to disable it. It'd be a damn unique investigation for Anandtech to do a IPC improvement impact on it's affect on hyper-threading performance over the years, perhaps even dating back to the P4.
  • AndrewJacksonZA - Wednesday, August 10, 2016 - link


    Thank you for introducing me to Intel's tech known as "Jackson!" This is now *SO* on my "To Buy" list!

    Thank you Samus! :-D
  • bug77 - Monday, August 8, 2016 - link

    Neah, I went i5-2500k -> i5-6600k and there's no noticeable difference. The best part of the upgrade was those new I/O ports on the new motherboard, but it's a sad day when you upgrade after 4 years and the most you have to show is you new M2 or USB 3.1 ports (and USB 3.1 is only added through a 3rd party chip).
    Sure, if I bench it, the new i5 is faster, but since the old i5 wasn't exactly slow, I can't say that I see a significant improvement.

    Now, if you mean that instead of getting an i5-2500k one can now look at a Skylake i3, I'm not going to argue with you there. Though (money permitting) the boost speed might be nice to have anyway.
  • Cellar Door - Monday, August 8, 2016 - link

    This is a poorly educated comment:

    a) Your perceived speed might be limited by your storage
    b) You don't utilize your cpu's multitasking abilities fully(all cores)
  • Duckeenie - Monday, August 8, 2016 - link

    Why did you continue to post your comment if you believed you were making poorly educated points?

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