Intel made it very tough to answer cause there are two variations of 10th gen laptop CPU, one is built on 14nm while the other is newer 10nm. 10nm ones would have Irish pro graphics which would be extremely powerful but slightly lower-powered on t. While unattributed reports earlier this year had performance differences between the 6th-gen Skylake and the 5th-gen Haswell wildly high, Intel officials say to expect 10 percent over last year. Apr 08, 2015 The 4th generation intels are based off of the Haswell and for the high end gaming cpus, the Haswell-E micro architecture. The 5th generation intels are only based off of the Broadwell micro architecture. The Broadwell-E or 5th generation high end gaming cpus are not out yet. The difference between Haswell and Broadwell is not much. Pink panther games online, free download.
- Difference Between 9th And 10th Generation I7
- Difference Between 5th And 6th Generation I5 Generation
- Difference Between 5th 6th Generation Ipad
- Difference Between 5th And 6th Generation I5 Motherboard
- Difference Between 5th And 6th Generation I5 Laptop
Is there really a price difference? I just purchased a 6th generation i3 and it cost more than the 8th generation at the same clock speed. 8th generation i3 is also 4 core instead of 2 core like the previous generations. i5's are 6 core instead of 4.
Graphics are usually better between generations.
I'd look for some performance benchmarks online - Toms Hardware, Anandtech, for starters.
https://www.tomshardware.com/reviews/intel-coffee-lake-core-i5-8400-cpu,5281.html
Edited Jun 16, 2018 at 14:57 UTCYou dream of apowerful new laptop.
One that won’t hesitatewhen challenged by work…
Intel’s “tick-tock”production model regularly serves up new generations of CPUs with enhancedmicro-architectures that deliver:
better performance;
a better integrated GPU;
and better efficiency.
That was, until thetechnical complexity of the 14nm process delayed release of the BroadwellGeneration – This tipping point proved future CPUs would be harder to produceon increasingly smaller nodes.
BETTER is relative…
Is a new CPU generation right for you?
Instead of an architecturaldeep dive, here’s a quick overview of key features for each of Intel’sprocessor generations.
DIFFERENCE BETWEEN INTEL PROCESSOR GENERATIONS
GENERATIONAL STEPS: INTEL’SPRODUCT CYCLE [OLD AND NEW]
Intel’s familiartick-tock approach has been around since the introduction of the “Core” brand CPUs in 2007 – The difference in the company’sprocessor generations is the micro-architecture – The BIGGESTdifference from one generation to the next is the miniaturization of thetransistors.
Ticksallowed the existing processor micro-architecture (design) to change toa new manufacturing process — each tick improved power consumption and/orclock speed.
Tocks induced a “die shrink” of the processor, bringing with it new features; improved architectural performance; ever smaller transistors; and energy efficiency.
In 2016, Intel adopted a new, three-phasepattern — The new generation process added ONE MORE step to the tick-tock formula:
- Process (theexisting micro-architecture is shrunk to a smaller process);
- Architecture (introducesa new architecture); AND
- Optimization (revisesthe new architecture).
What did this do for the company?
By extending the cycleover threegenerations (instead of just two), Intel has been able to continue deliveringinnovations that inspire “predictable processor advancements” for the devicesthat depend on these CPUs.
NEHALEM: 1STGENERATION INTEL CPUs
A significant shift for Intel?
YOU BETTER BELIEVE IT.
Difference Between 9th And 10th Generation I7
Released on November 2008, the Nehalem (Nuh-hay-lem)generation used a 45nm (nanometer) micro-architecture that replaced the Coreand Core 2’s 65nm process, which suffered from limitations, like the inabilityto increase clock speed, and an inefficient pipeline.
Nehalem brought BIG NEW changes to Intel’s whole x86processor line.
Debuting in 4- and 8- core variants, the 4-core CPUs themselves packed up to 781 million transistors! This generation re-introduced SMT (simultaneous multi-threading), which let each core on the die run two instruction streams at the same time.
The result of this improvement?
Efficiency.
SANDY BRIDGE: 2ndGENERATION INTEL CPUs
A LOT changed here…
Released on January 2011, Sandy Bridge was manufactured in a32nm process, tick. This CPUgeneration featured the most sweeping architectural transition from Intel byincorporating the processor, memory controller, and graphical processor on asingle square silicon.
What that meant for you at the time?
Since the system components were smaller, they could beintegrated together, resulting in higher performance and reduced powerconsumption.
Intel’s latest Turbo Boost 2.0 (at the time) and improved Hyper-threading technologies enabled up to 60% improvement with quad-core mobile CPUs. And a completely revamped Intel HD integrated graphics system improved 3D gaming performance.
What’s was next for the company?
IVY BRIDGE: 3rdGENERATION INTEL CPUs
Intel retained the Core i3, Core i5 and Core i7 naming convention from the two previous generations:
Launched April 2012, Ivy Bridge used a die shrink of thetransistors from a 32nm, tick to 22 nanometers, tock.
But the GIGANTIC stride made by Sandy Bridge from the first-to second-generation Core i-series chipsmade leaping to Ivy Bridge less significant (especially in both battery lifeand application performance).
But the BIGGEST advancement?
The all new 3D tri-gate transistor design.
And what about integrated graphics performance… Thetop-tier HD Graphics 4000 GPU boasted up to a 50% increase in real-world tests.
Wow!
HASWELL: 4thGENERATION INTEL CPUs
These were banner products for Intel — the introduction oflow-power CPUs designed for Ultrabooks meant an 8 hour batterylife was a reachable standard.
But Haswell was FULL of contradictions…
Intel officially announced this new generation on June 2013– While Ivy Bridge was the first 22nm 3D transistor products, tock. It was the Haswell generation that fullyoptimized the process, representing a tick in Intel’s overarching“tick-tock” refresh strategy.
How, then, was Haswell able to consume less power?
Integration reduces power-consumption and cost, while increasing performance: The ace-in-the-whole for Haswell CPUs was the SoC (System-on-Chip) trend and the FinFET process.
Both technologies were instrumental in helping these chipsenjoy a 3- to 8% performance increase compared to Ivy Bridge.
BROADWELL: 5thGENERATION INTEL CPUs
What could this generation POSSBILY bring to the table, then?
Released January 2015, the die size of these new CPUs shrunk37% using Intel’s new 14nm process — It meant that Intel could to fit 35% moretransistors than the previous generation, for a total of 1.3 billion! Tock.
Features included voice interaction when paired with Intel ® RealSenseTM 3D technology. And Intel’s WiDi 514 wireless streaming option allowed full 4K Ultra HD (3840 x 2160) video streaming for a more immersive experience.
How did this benefit users?
Difference Between 5th And 6th Generation I5 Generation
Intel CPUs could do the same amount of work with less power and longer battery longevity on laptops that ran cooler.
SKYLAKE: 6thGENERATION INTEL CPUs
If it seemed like Skylake came right at the heels ofBroadwell, that’s because the 5th generation Broadwell CPUs tooklonger than expected to arrive.
Difference Between 5th 6th Generation Ipad
Launched on August 2015, Skylake represented Intel’s tock in the cycle — Extending the 14nm micro-architecture resulted in a quad-core 2.7GHz i7-6820HK processor (the first over-clockable mobile CPU); the company’s first quad-core i5 models (at 2.3GHz and 2.6GHz); and wireless charging solutions.
In this generation, CPU performance grew 2.5x faster; Intel’s “Gen9” integrated graphics performance received more than 30x the gains over Broadwell; and battery life was 3x better.
But the primary focus?
You could drive as many as three 4K displays at once!
KABY LAKE: 7thGENERATION INTEL CPUs
Alas, Intel had to abandon its long-standing “tick-tock” cadence with this generation of CPUs. But Kaby Lake was behind some of the best laptops in 2017, like the Dell XPS 13.
Announced on August 2016, Kaby Lake was Intel’s third crackat the 14nm process, and the second tock in their tick-tock strategy.
Was this:
- 14nm+?
- The optimization stage?…
Obviously, the company had to re-imagine what generationmeant.
One main feature of the 7th gen CPUs was support for Optane Memory. Video improvements included: 360-degree videos; virtual and augmented reality; an update to Gen9 graphics that featured Main10 support; and user functionality, like Windows Hello.
Web performance saw a 19% boost in Intel’s benchmarks, and productivity apps were 12% faster.
COFFEE LAKE: 8thGENERATION INTEL CPUs
Core count increased MASSIVELY here…
As did clockspeed,
As did Turbo Boostspeeds.
Released August 2017, Intel’s 5th go-round withthe 14nm manufacturing process pushed things to the limits: to use the official phraseology, themicro-architecture was 14nm++.
Finally! Intel implementedHyper-Threadingcapabilities in its Core i3 CPU for notebooks — They boasted 4-cores each forthe first time in mainstream CPU history!
Even the mild-mannered Intel Core i5-8400 became a hexa-coremonster. The Core i7-8700 also squeezedin six cores, brandishing base/boost speeds of 3.6GHz and 4.3GHz, respectively.
But perhaps best of all, Coffee Lake introduced a MORE POWERFUL family to the line-up – the Core i9-9990K, which really shook things up.
COFFEE LAKE REFRESH: 9thGENERATION INTEL CPUs
Intel lost us all when it took a sharp turn and abandonedits tick-tock regime for the new: process, architecture, optimization, rhythm.
But the 9th Generation Intel Coffee Lake Refreshdidn’t fool us this time round…
Released April 2019, the 14nm micro-architecture got refreshed with features, like Intel’s Optane H10 memory module for faster load times and display refresh rates for games versus Optane Memeory; faster processing for 4K video editing; Wi-Fi 6 offering 10Gbps maximum down-load speeds; and Thunderbolt 3 support.
Gasguns.info forum view topic. We would like to show you a description here but the site won’t allow us.
The Coffee Lake Refresh of the Core i9-9990K has helped this processor remain hands-down the fastest consumer CPU on the market right now, dominating everything else in both single core and multi-core performance.
Difference Between 5th And 6th Generation I5 Motherboard
SO, THERE YOU HAVE IT!
The difference between Intel processor generations is in themicro-architecture.
Deciding what generation of CPU to go with ultimately comesdown to the kind of performance you want from your laptop — Sometimesimprovements made to a new generation limits beloved features from the previousgeneration.
But knowing Intel’s product release structure; the company’smanufacturing process; and the micro-architecture of their CPUs goes a long wayto help you understand just what you’re getting in the laptop you’reconsidering.
But don’t knock yourself out trying to get the latest andgreatest… the CPU is NOT the determining factor of the overall performance ofyour laptop.
Shocker, huh?
Even the slowest CPUs will provide a decent user experiencewhen paired with other good components. Many users find that simply swapping a hard drive for aSolid-State-Drive will dramatically improve the performance of their laptop.
Difference Between 5th And 6th Generation I5 Laptop
Some of thelinks on this page are affiliate links, which means we may receive a smallcommission if purchases are made through those links. This adds no costto you and helps keep our site up and running. Our reputation is our mostimportant asset, which is why we only provide completely honest and unbiasedrecommendations.