So, How Fast Is “Fastest,” Anyway?
You’re here because you want the fastest laptop your money can buy? That’s a challenging goal: It depends on how you define “fast,” and to some extent on how you define “laptop,” too. Still, we’ll try to help you hit that moving target here.
The short version? There are different kinds of speed when you’re talking about laptop performance, some of them intertwined and some not. And it pays to know what kind you need, so that you don’t overspend for one at the expense of the other.
Parsing What Speed Means
The idea of speed can be sliced a bunch of ways, but in practical terms, you can look at it in terms of (1) CPU processing power and (2) graphical prowess for tasks such as PC gaming or graphics-accelerated content creation. The two are very different things, and we benchmark-test all of the systems that we review with both kinds of speed in mind.
Some laptops are strong in one area and not the other. For example, it’s possible to have a notebook with a top-end processor packing lots of cores and threads, but paired with a minimal graphics solution (perhaps just the processor’s integrated graphics silicon, historically modest compared to a discrete graphics adapter). A laptop like this would net you great performance on programs and workloads that take advantage of lots of CPU resources, but little in the way of power for gaming, or applications that take advantage of graphics acceleration.
Likewise, having a dedicated graphics processor, the beefier the better, is the key for speed in games. Most of the time, CPU speed will contribute to the gaming equation insofar as it isn’t a limiter or bottleneck for the graphics chip.
Now, the prescription for either need—speed for raw processing, or speed for graphics—is to pack in as potent a main processor or graphics processing unit (GPU) as you can. But when you do that, it illustrates the interplay of three key factors in laptop design: cost, power consumption, and thermals.
Higher-powered CPUs or GPUs on a given platform tend to (1) cost more, (2) require more electricity when fully engaged, and (3) run hotter when taxed to the max. That’s why buffed-up gaming laptops or high-powered workstation laptops tend to be thick, heavy, expensive beasts. Their high-end chips cost more, and the silicon requires more space and weighty thermal hardware to keep cool. The best of all possible worlds—maximum graphics and CPU power, maximum battery life, and thin, light design—is a goal ever out of reach. Rather, laptop design is always a trade-off of these factors, where it’s not possible to twist all three of these knobs to 10.
Laptop CPUs: What to Look For
The fastest laptops, from a raw-CPU perspective, tend to fall into three classes. The first is made up of business machines with top-end processors but integrated graphics. You’ll find them under top vendors’ business brands, such as Latitude for Dell, ThinkPad for Lenovo, and EliteBook for HP.
The second consists of high-end gaming laptops that pair a powerful mobile GPU, chosen to blaze through the latest games at a level appropriate for the laptop’s screen, with a CPU that is at least sufficient not to hamper the graphics chip. (That malady, when it affects a PC game, is often dubbed being “CPU-limited.”)
And last are mobile workstations, productivity-minded laptops designed for professional content creators and often optimized for the specific advanced applications they use. (This is often referred to in workstation marketing lingo as independent software vendor or ISV certification; these laptops cost their premium, in part, because of it.) You can identify these machines either by brand, such as HP’s ZBook and Dell’s Precision, or by the Nvidia Quadro or AMD Radeon Pro or FirePro GPUs they carry.
At this writing in November 2018, those top chips to seek out are Intel’s 8th Generation Core i5, Core i7, and Core i9 processors. (Intel’s 7th Generation chips, with model numbers in the 7,000s, are sometimes referred to by the codename “Kaby Lake”; 8th Generation, with model numbers in the 8,000s, by “Kaby Lake R” and “Coffee Lake.”)
Intel CPU names almost always end in a capital letter or two, which also tells you a bunch about their identities. Any Core chip ending with an “H” (such as the four-core Core i7-7700HQ or six-core Core i9-8950HK) is a maximum-power mobile chip with eight or 12 processing threads that your software can tap via a feature known as Hyper-Threading. Not all CPUs support Hyper-Threading, but if the programs you run are fully multi-threaded (that is, able to take advantage of all available computing threads when performing demanding tasks), this will be a big plus.
You’ll tend to see the H-series chips only in weighty business machines meant for heavy calculation work or data analysis. You’ll also see the H-series in the better grade of gaming laptops, and in some mobile workstations. Some high-end workstation laptops make use of Intel’s Xeon processors, which are at heart server chips specially designed for the demands of accelerating specialized advanced-calculation and content-creation programs, as well as for running all-out for extended periods of time. But a Core i7 H-series is more common, and definitely the sign of a legitimately high-end configuration.
CPUs ending in “U,” on the other hand, signify an ultramobile processor. These are lower-power chips designed to work in slimmer, lighter laptops that have limited thermal headroom. Now, depending on what you do with your laptop, these can be perfectly fine CPUs. You’ll be able to do everyday business or office tasks on a U-series Core i5 or Core i7 with no complaints, and on the best of them, demanding content-creation tasks will be possible without painful delays. Just know that the H-series is where the real muscle is in laptop land.
What about Intel’s rival, AMD? The company’s Ryzen and Ryzen Pro mobile processors with Radeon Vega graphics are notable for their above-average integrated graphics, but they still tilt more toward office apps and moderate gaming than the full-tilt gaming and workstation prowess of the best separate CPU and GPU combinations.
We should also mention a few extreme configurations that actually use high-octane desktop CPUs in laptop chassis; boutique PC vendors such as Origin PC sometimes roll out systems like this. These models will be more luggable than portable, laptops more in shape than weight, with vanishingly brief battery life. They’re of interest only to those with deep pockets and a decided need for the maximum available CPU horsepower.
Power for Play and Content Creation
If the kind of speed you are after is for PC gaming, what you need is a laptop with a dedicated graphics chip, or GPU. Almost all leading-edge gaming laptops these days use various flavors of Nvidia’s GeForce mobile chips, based on that company’s “Pascal” architecture, to power gaming.
You can identify a Pascal chip by the series number, starting with 10. The ones you will see in laptops are (in ascending order of speed) the GeForce GTX 1050, GTX 1050 Ti, GTX 1060, GTX 1070, and GTX 1080. In the most elite laptops, you may see two GTX 1080 or 1070 chips. (Only a few enormous, expensive laptops can manage this, but they exist. We’ve tested such models from MSI, Acer, Aorus, and Origin in recent years.)
How to make sense of the different Pascal chips, and which one is enough? Our most fundamental advice is to match up the graphics chip with the maximum screen resolution at which you’ll play games. Your laptop’s pixel count is a big factor in this, of course. If your laptop has a 1080p (1,920-by-1,080-pixel) display, a GeForce GTX 1060 or GTX 1050 Ti chip will generally suffice, if you play modern games at high settings. The GTX 1070 is usually a good match for a resolution of 2,560 by 1,440 pixels (or 1080p, if you want to buy with an eye to the future), while a GeForce GTX 1080 will be overkill for 1080p but a good starting point for gaming on a 4K (3,840-by-2,160-pixel) screen.
If you’ll use your gaming laptop with an external monitor or monitors that have a higher resolution than the laptop’s built-in screen, you might consider a GPU that’s several steps ahead of the laptop’s own screen. Otherwise, you’ll want to match the performance of the GPU with the upper limits of the laptop’s own panel.
One wrinkle to all of this is the emergence of high-refresh displays in laptops. A typical 60Hz laptop display (which redraws the screen 60 times per second) won’t show much benefit from frame rates in excess of 60 frames per second (fps). If your high-powered GPU can churn in a given game at a consistent 100fps, you won’t see much added smoothness. However, some gaming laptops are starting to ship with high-refresh panels capable of rewriting at 120Hz or more. These screens can make use of those extra frames for smoother game play.
On a related note, laptops with screens that support Nvidia’s G-Sync technology are worth looking out for. In these, the screen rewrites at the same rate that the GPU churns out frames, in essence adjusting the refresh rate dynamically. This reduces screen artifacts and “tearing” (in which parts of the screen misalign for a beat as they are rendered). With a high-refresh screen, a top-notch GPU will be better leveraged; with G-Sync, a marginal one will be enhanced.
Another factor, if you’re shopping for a maxed-out laptop, is virtual-reality compatibility. You’ll want to look for a model with the GeForce GTX 1060, 1070, or 1080 if you mean to run a virtual reality headset. It’s best to opt for the right GPU now, if you might want to do VR later, as you can’t upgrade the GPU after the fact.
We’ve already alluded to one Nvidia technology seen in a handful of ultra-high-end gaming rigs: SLI, which stands for Scalable Link Interface and means two GPUs working in tandem. You may also encounter another Nvidia trademark called Max-Q, which slightly dials back the speed of a GeForce graphics chip in order to reduce its operating temperature, letting you get, say, a GTX 1070 in a thinner laptop with less cooling hardware (or at least quieter cooling fans) than would otherwise be possible.
Storage and System Memory
Assessing storage speed is more straightforward than weighing CPUs or GPUs. The storage solutions in today’s laptops fall into three classes: hard drives, SATA solid-state drives (SSDs), and PCI Express SSDs. That sequence is a fair summary of their relative speed (slowest, faster, fastest) and their relative cost (least to most expensive, in terms of cost per gigabyte).
These days, the fastest laptops will tend to use PCI Express SSDs. These are implemented as M.2 drives (see our guide to the best M.2 solid-state drives) and top out in most configurations at 1TB. PCI Express describes the bus pathway that your data takes when using these drives, and it is often associated today with the term “NVMe,” a protocol for making the most of PCI Express drives’ speeds. Both are good buzzwords to look out for. The alternative to a PCI Express SSD is Serial ATA or SATA, which is perfectly serviceable in an SSD but is yesterday’s interface.
If you’re looking to maximize real and perceived speed in a laptop, the boot drive should be an SSD, and preferably a PCI Express/NVMe one. If the laptop has a hard drive, it should be implemented as a secondary drive used for bulk storage. You’re more likely to see such dual-drive arrangements in larger laptops.
As for assessing the RAM in the system, it’s an exercise in making sure you get enough for your typical tasks without overpaying or underestimating. 8GB is the barest minimum we’d settle for in a power laptop, with 16GB a better baseline. More could make sense if you make use of RAM-hogging content-creation apps like Adobe Photoshop. If you’re outfitting a tricked-out gaming laptop, 16GB ought to do.
Ready for Our Recommendations?
The laptops below are very good places to start looking if absolute speed is a key concern for you. We looked at Cinebench R15 scores for a measure of raw CPU speed and multithreaded power; this test taxes a CPU to its limits on all cores and threads. We also checked out 3DMark scores for a measure of raw graphics processing capability. (Click through to the actual reviews linked below for details.)
Use these as launching points for your laptop search. Remember, many of these models can be bought in lesser or brawnier configurations, so the limit tends to be how much money you have, and how much hardware a laptop maker can stuff in a 17-inch-screened chassis within thermal and practical limits.
You’ll also find more fast, powerful choices in our roundups of the best gaming laptops and the best mobile workstations. Other top performers can be found in our roundups of the best ultraportables, and the top 2-in-1 convertible laptops.
Fastest Laptops Featured in This Roundup:
Pros: Excellent battery life. Core i9 processing muscle. Sleek, thin all-metal design. Beautiful display with automatic color-temperature adjustment. Roomy SSD.
Cons: High starting price, and painfully expensive as configured. Limited I/O options.
Bottom Line: With the addition of an Intel Core i9 processor, the sleek 15-inch MacBook Pro is now one of the most powerful desktop-replacement laptops you can buy, making it an excellent choice for well-heeled, on-the-go creative pros.
Pros: Top-end gaming performance. Slick chassis with sharp lighting. Oodles of storage and ports. 1440p G-Sync display. Configurable, with less expensive models a strong value.
Cons: As-tested configuration is expensive. Tobii eye tracking adds to cost, but doesn’t add much functionality.
Bottom Line: The Alienware 17 R5 gaming laptop delivers serious power in a big, but nicely built, package. The model we reviewed is expensive, but the configuration choices offer well-priced options for different budgets.
Pros: Stylish, sleek, and light. Stunning 4K touch screen. Legendary ThinkPad keyboard. Two Thunderbolt 3 ports.
Cons: Expensive. No Core i9 or WWAN option. Ethernet port requires optional dongle. Lackluster battery life.
Bottom Line: Torn between the Dell XPS 15 and Apple MacBook Pro? Your decision gets more complicated with the arrival of Lenovo’s ThinkPad X1 Extreme, a deluxe desktop replacement with a sensational Dolby Vision HDR screen.
Pros: Mighty muscle from hexa-core CPU. Comfortable keyboard. A plethora of ports.
Cons: Expensive. Reflective screen. Relatively heavy and bulky.
Bottom Line: Impatient (and deep-pocketed) business pros will thrill to the Dell Latitude 5591, a speedy six-core productivity powerhouse that outruns most 15.6-inch laptop competitors.
Pros: Top-end Nvidia Quadro P5200 graphics, Core i9 processor, 4K display in test unit. Two Thunderbolt 3 ports. Category-leading performance, as configured.
Cons: Big and heavy. Build is classy but unremarkable. Battery life is short.
Bottom Line: The highly configurable Dell Precision 7730 is a big, fierce 17-inch workstation for pros in design, VR-content-creation, and engineering fields. Our stacked Core i9/Quadro P5200 model delivers best-in-class performance.
Pros: Hexa-core horsepower. Screen choices including 1080p with privacy filter and 4K DreamColor. Snappy keyboard with collaboration features. Toolless access for upgrades. Two Thunderbolt 3 ports. Strong audio.
Cons: Big and heavy. Privacy screen is too dark.
Bottom Line: It’s a bruiser compared with Apple’s MacBook Pro or Dell’s Precision 5530, but HP’s ZBook 15 G5 is an ultra-powerful, ultra-configurable mobile workstation ready to crush the toughest jobs and biggest datasets.
Pros: Stunning 4K DreamColor display. Two Thunderbolt 3 ports. VR-ready Nvidia Quadro P5000 graphics.
Cons: Expensive. Bulky. Brief battery life.
Bottom Line: Formidable in every way (starting with its price), the HP ZBook 17 G4 mobile workstation and its color-calibrated UHD display are ready for the most demanding jobs, from video editing and 3D rendering to VR authoring.
Pros: Thin, light, and attractive design. Fast new Intel Core i7 “Coffee Lake” processor. Very strong HD gaming performance. Long battery life. Lots of game-centric software features.
Cons: Construction doesn’t feel especially premium. So-so keyboard. A little short on storage.
Bottom Line: The MSI GS65 Stealth Thin is a slim Max-Q gaming laptop with fast performance, slick looks, and a long battery life. Only the less-than-stellar build quality keeps it from earning our top recommendation.
Pros: Ferocious graphics and media-processing performance. Excellent 120Hz G-Sync display. Per-key RGB mechanical keyboard. Plenty of ports. Loud speakers.
Cons: Expensive. Requires two giant power adapters. Awkward three-column numpad layout. No dedicated gaming macro keys. Brief battery life.
Bottom Line: A monster in every way, the MSI GT75 Titan is an epic gaming machine with a high-refresh-rate screen, a comfy mechanical RGB keyboard, and chart-topping graphics grunt. Our key quibbles: high price and sheer bulk.
Pros: 144Hz G-Sync display. Full-power Nvidia GeForce GTX 1070 graphics. RGB-backlit keyboard. One-click overclocking.
Cons: All-plastic finish. Keyboard lighting is programmable only by zones, not per-key. Short battery life.
Bottom Line: Acer’s Predator Helios 500 squeezes full-fat overclockable GeForce GTX 1070 performance into a 17-inch gaming laptop, but we’d like to see a bit more battery life and chassis polish.