February 2022 Interview with Rick Hwang, President of Rugged & Video Solutions Business Group at Getac
Getac's Mighty Class of 2021
January 2021 Interview with Rick Hwang, President of Rugged & Video Solutions Business Group at Getac
Getac V110 at Cirque du Soleil
Getac 25th Anniversary at 2014 Miramar Air Show
Getac FedEx TechConnect
TDI Panamericana 2011 team using Getac V100 on 16,000 mile endurance challenge
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GETAC F110
7th generation of Getac's rugged thin & light 11.6-inch tablet goes Raptor Lake, ups speed, versatility, usability and security. (by Conrad H. Blickenstorfer -- photography by Carol Cotton)
The Getac F110 is a mid-size (11.6-inch) rugged tablet platform that's been among the most popular in its class for a good many years. Getac has been meticulous in keeping the F110 technologically up-to-date and at the head of its class, and the 7th generation of the platform, introduced in 2024, is no exception.
When Getac launched the original F110 over a decade ago back in the Fall of 2013, the company's intent was to provide enterprise, industrial, and government customers with the thinnest and lightest fully rugged tablet available on the market. The F110 had a big screen compared to most consumer tablets of the day, and it was immediately obvious that Getac had put a lot of thought into designing it exactly for their markets. This was not just a fortified consumer tablet, nor was it a slimmed-down version of one of the big, heavy old-school rugged tablets that had been available for many years. Instead, the F110 was a total reinvention of what a tablet for deployment in the field was supposed to be, one that could take punishment, and survive bumps and drops and wetness. And one that also provided state-of-the-art performance and functionality. And that concept has held up very well.
What the Getac F110 is and where it fits in
Let's take a look at the big picture. There are over a billion smartphones sold every year. There's an app for almost everything and phones have almost completely replaced stand-alone cameras. But PCs are far from dead and they may never be. Almost a quarter of a billion PCs are sold around the globe every year, and hundreds of thousands of tablets. Business still runs on Windows PCs, as it has for decades. A great deal of work is still done sitting down at a desktop. A keyboard is still needed, and it may, in one form or another, always be needed. What's not necessarily needed is a conventional desktop PC. Prop up a tablet and connect a keyboard and a mouse to it and, voila, there's a desktop machine for real work.
Many of today's tablets are 2-in-1s — tablets with keyboards designed specifically to work with them. With a 2-in-1 you get two types of machines. A slender tablet that's light and nimble for the field. And a tablet with its keyboard that works just as well as a laptop or a desktop PC. And that's why all of Getac's Windows tablets have optional keyboards designed specifically for each model.
Size, of course, continues to matter. Microsoft Windows generally works best with a screen large enough for its comprehensive user interface and very wide range of software applications. More and more complex, powerful applications are making it into the field today, and they benefit from a larger display. A larger display, however, means a larger footprint and probably a bigger battery. There is no one perfect size for the field, and for that reason Getac offers users a whole range of high-performance Windows tablets to choose from.
The tablet below shows Getac's current lineup of rugged Windows tablets. Their displays measure from 10.1 to 14.0 inches diagonally. While that may seem like a small difference, it's not.
Note that each of the four tablet platforms has its own unique design. That's not just styling and fashion. A 10-inch tablet will be used for different applications and in different locations and work modes than a bigger, heavier 14-inch tablet. The number of plugs and connectors varies. Options vary. The way the tablet is mounted and carried varies. Battery life varies. All that has an impact on design.
One thing that doesn't change in this business class of Windows tablets is performance. In order to be truly useful in the field, a 2-in-1 tablet must have desktop-level power. If it doesn't, it's neither really useful in the field, not back in an office, in a vehicle, at home or wherever else one sits down to work on computers.
Getac's rugged Windows tablet lineup
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Getac tablet model
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Getac tablet model
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UX10
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F110
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K120
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A140
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Display
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10.1-inch
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11.6-inch
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12.5-inch
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14.0-inch
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Processors
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12th gen
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13th gen
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13th gen
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10th gen
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Weight
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2.70 lbs
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3.10 lbs
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4.00 lbs
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5.10 lbs
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Volume (cubic-inches)
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71
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97
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115
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181
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In the past, the long product procurement cycles and comparatively low sales volumes in industrial and vertical markets meant technology was always a generation or two behind, and sometimes much more. Getac was among the first to address that productivity-killing deficiency by selling the latest tech, and keeping it updated. Three of four of Getac's current rugged Windows tablet platforms are based on either 12th or 13th generation Intel Core processors.
Which means that in terms of performance, these tablets are all generally equal to business laptops and desktops. The choice for any particular application comes down to size and weight. For many customers, the F110 presents a good balance; not too small, not too large. A 11.6-inch screen works well in the field and in an office.
What's new in the 7th generation of Getac's F110 tablet?
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Model
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F110 G7 (2024)
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F110 G6 (2021)
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F110 G1 (2013)
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CPUs
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Intel "Raptor Lake" 13th gen
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Intel "Tiger Lake" 11th gen
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Intel "Haswell" 4th gen
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Mass storage
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Up to 2TB PCIe NVMe SSD
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Up to 1TB PCIe NVMe SSD
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Up to 256GB SATA SSD
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Display
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11.6-inch 1920 x 1080
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11.6-inch 1920 x 1080
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11.6-inch 1366 x 768
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Luminance
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1200 nits
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1000 nits
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800 nits
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Max battery
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2 x 30.6 watt-hour
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2 x 30.6 watt-hour
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2 x 24.0 watt-hour
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IP rating
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IP66
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IP66
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IP65
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Wi-Fi/BT
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6E AX211/BT 5.3
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6 AX201/BT 5.2
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802.11ac/BT 4.0
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WWAN
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4G LTE, 5G Sub-6
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4G LTE
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4G LTE
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Cameras
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5mp/8mp
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2mp/8mp
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2mp/5mp
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USB Type-A
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1 x USB 3.2 Gen 2
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1 x USB 3.2 Gen 2
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2 x USB 3.0
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USB Type-C
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1 x Thunderbolt 4
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1 x Thunderbolt 4
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None
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Weight
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Starting at 3.29 lbs
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Starting at 3.35 lbs
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Starting at 3.08 lbs
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OS
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Windows 11
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Windows 10
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Windows 7
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Memory
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8-32GB DDR5
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8-32GB DDR4
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4-8GB DDR3
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The F110 was initially introduced in October 2013, almost 11 years ago at the time of this writing. And it's already in its 7th generation. Talk about being on top with product updates. And also having the courage to leave a good design as is, rather than changing and reinventing it just for change's sake. And, in fact, the first five generations of the F110 looked virtually identical.
The 6th and this latest 7th gen, however, have some updated visuals in addition to, as Getac's press release stated, as the new F110 is "offering upgraded processing power, brightness, and connectivity, alongside excellent energy efficiency, for full-shift performance in a variety of challenging indoor/outdoor working environments..
Looking at the comparison table to the right it's interesting to see what technology charged ahead in leaps and bounds, and what has advanced at a slower pace. On the display side, the change to an even higher resolution screen would have been nice as graphics are becoming ever more complex as well as more important. On the plus side, the G7 screen now offers 1200 nits luminance, a step up from the G6, and a big step up from the original.
Battery capacity grew by less; there haven't been the same improvements in Li-Ion batteries as on the electronics side, and battery size and weight still matter. The G7 still comes standard with two fairly small 30.6 whr batteries; we'd definitely go for the optional dual 46.6 whr packs, even though they add a little weight.
Wireless, both on the Wi-Fi and on the Bluetooth side, keeps improving. Wired communication remains the same USB-A 3.2 Gen 2 plus Thunderbolt 4 with its USB-C style port.
After the last gen's switch from SATA solid state disk to the much faster PCIe NVMe interface, all that has changed with the G7 is the availability of 2TB solid state storage, up from 1TB. There's a bigger change in RAM; that switched from DDR4 to DDR5, which supports higher transfer speed, higher bandwidth, higher memory density, uses its own internal dual architecture and has on-die error correction.
The images below show some of the application areas for Getac rugged tablets.
Unchanged from G6 but still worth mentioning are F110 design features and details that can make a big difference in real life use of the tablet. An example is the coverless design for the F110's twin batteries. That makes mounting and dismounting the batteries quicker and easier than handling batteries as well as battery covers, especially with gloves on.
Then there's the optional detachable backlit keyboard. It's an 88 key full-scale affair with an integrated touchpad created just for the F110. That's where the 2-in-1 aspect comes in. You can connect any old keyboard to a tablet, but only a dedicated detachable keyboard can provide true 2-in-1 laptop functionality.
In terms of the marketplace positioning, the 12-inch Panasonic Toughbook 33 is likely the F110's most direct competitor. The Toughbook 33 offers more extensive 2-in-1 functionality via a more comprehensive detachable keyboard with extra ports. However, though upgraded in 2023, the Toughbook 33 is a processor generation behind.
Competitors also include the larger rugged tablets from Durabook, DT Research, Mobile Demand, Winmate and others in the 11.6 to 13 inch class. For customers seeking a rugged tablet from a Tier One vendor that also offers a dedicated keyboard option to turn the device into a full laptop, the Getac F110 will definitely be on the short list.
Design and construction
There are a good number of ways to design a tablet/laptop hybrid with dual functionality, but almost all fall into one of two major classes. "Convertibles" use display hinges designed so that the device can either be used as a regular laptop, or the display can be turned around so that the device becomes a tablet. "Detachables" separate the screen and the keyboard, and that's what Getac did with its K120 tablet and by having a detachable keyboard available for the F110 as well.
There are inherent obstacles to overcome when separating the display/tablet and the keyboard. The tablet part must include the processor and battery, inevitably making it thicker and heavier than standard laptop displays are. The Getac F110 was designed as a tablet. It can be used with a keyboard, but it doesn't need one — the detachable keyboard is optional.
Below you can see what the F110 tablet looks like from the front and all for sides.
Measuring 12.4 x 8.15 inches and being just under an inch thick, the F110 is a compact machine for a fully rugged design that can survive six-foot drops and other serious punishment.
Unlike with consumer tablets where the display takes up almost the entire face of the device, the front of the F110 is expansive enough not only for the 11.6-inch display but also a nice margin around it, indicator lights for power, battery and wireless, five hardware buttons (power/sleep, audio rocker, and two programmable buttons), and then another margin that accommodates wireless antennae inside and provides extra damage protection outside.
The left side has interface ports (we'll get to those below), the top has room for one of a variety of expansion options (our eval unit had a legacy serial port; a 1D/2D barcode scanner is available as well), and the bottom has the docking connectors, antenna pass-throughs and anchor holes for the optional keyboard.
As far as wired connectivity goes, the F110 has fewer ports than Getac's larger K120 and A140 tablets. Almost everything is concentrated along the left side of the tablet (shown below with protective port covers removed). From left to right:
- A Kensington lock slot
- A 3.5mm audio jack
- A PowerShare USB 3.2 Type A port
- A (optional) micro-SIM card slot covered by a protective metal plate
- Beneath the micro-SIM, the Thunderbolt 4 port with USB Type-C connector
- On top you can see the optional SmartCard reader
The image below shows the backside of the F110. The left side is taken up by the tablet's two batteries. The battery compartments do not have a cover; each battery fits flush into the back of the tablet. Batteries can quickly be removed with a sliding lock mechanism. Sealing towards the interior of the tablet is via small o-rings around the actual power connector of the batteries. Between the two batteries is a place for the stylus or optional pen to snap into.
The F110's rear documentation camera with flash is mounted center-top. Next to it is an expansion area for either a 1D/2D imager barcode reader OR a USB 2.0 port OR a serial port and RJ45 LAN combo. Center-right is where the optional Smart Card Reader goes. Not shown along the right side of the tablet is the optional fingerprint reader. In its stead, customers can opt for an HF RFID Reader.
One thing that has been a central matter in the design of high-performance Windows tablets for many years is their thermal management strategy. PC electronics, and especially processors, generate a lot of heat and that heat must be dissipated reliably to guard against overheating and meltdowns. Heat can be removed either actively with fans or it can be passively removed with heat spreaders and heatsinks.
Fans don't weigh or cost a lot, they can move a lot of air, and fan speed can be actively managed. But fans can also be noisy, they can get clogged, and like all mechanical things, they can fail. Heatsinks don't make noise and they don't need to be managed, but they are heavy and can get quite hot.
While older rugged Getac laptops often had big fans to handle the heat generated by their standard voltage, hot-running processors, the F110 only has a very small fan. It does need a fan because it is a high-performance device, but it doesn't need a big fan because today's "ultra-low voltage" processors run much cooler than older Intel chips. The pictures below were taken with a BlackView BL9000 Pro rugged handheld that's equipped with a FLIR Lepton thermal camera while the Getac F110 was running a strenuous PCMark 10 performance test benchmark.
The thermal images show which parts of the F110 are heating up under load. You can see that the front of the tablet stays quite cool, not even reaching the mid-80Fs under heavy load. The warmest spot is where the unit's single RAM module is. On the back the warmest area again is where the RAM module sits, but even there the surface didn't reach more than about the normal human body temperature. The low temperatures are around the fan intake, as is to be expected. Overall, the observed temperatures are about at the level we observed on the prior 6th generation of the F110, an accomplishment given that the 13th generation processor in the F110 is a 15/55 watt design, compared to the 12/28 watt TDP chips in the 6th generation predecessor.
One of the biggest changes in laptops was the switch from rotating hard disks to solid state disks (SSDs). When SSDs first became viable, they generally were costly options with less storage capacity than hard disks. Even when SSD prices dropped, hard disks often remained the low-end default. And since early SATA SSDs used the same 2-1/2 inch form factor as hard disks, storage bays continued to take up space. Today, 2-1/2 inch bays are mostly gone and main storage almost universally comes in the form of much smaller PCIe modules.
The image to the right shows the F110's PCIe NVMe storage module. If need be, it can be removed from the computer in seconds, something that may be required by government agencies or enterprises for security purposes. If there's no imminent need, there's a small Philips screw that keeps the module from being casually removed or stolen.
Performance: state-of-the-art processor technology
Getac has historically made every effort to quickly update all of their high-end Windows laptops and tablets to the latest available processors and ancillary technology. And that now includes upgrading this seventh generation of the F110 rugged tablet from 11th to 13th generation Intel Core processors. Doing that is quite a challenge, and especially so in what by now is essentially a legacy platform where you don't start with a clean slate. Overall system performance depends on numerous variables, including processor, memory, mass storage, configuration, software and more. Everyone has access to the same Intel processors and other components, and so it becomes a matter of building a system that must optimize and balance a number of competing demands. High performance, of course, is always good and customers love it, but in tablets faster can mean bigger batteries and more heat to dissipate, and that can mean higher weight and cost.
As of this writing (September 2024), of the rugged tablet and convertible laptop competition, the 12-inch Panasonic Toughbook 33 is at the 12th generation of Intel Core processors, as are the latest convertibles from DT Research and Durabook. Other rugged tablets and hybrids may lag farther behind, going back to the 10th and even 8th generation of Intel Core processors. The latest Getac F110, on the other hand, is built around Intel's 13th generation of Core processors, putting it at the top of its class. Getac's own S510 laptop is already at the 14th generation, but the S510 is a brand-new design.
Overall, for years there weren't dramatic changes in Intel's successive generations of Core processors. It's difficult to make gates (really transistors) smaller and smaller, and Intel spent much time fine-tuning and optimizing their chips for years. There were milestones such as making mobile quad-core chips available in the "Coffee Lake" 8th generation, or the "Tiger Lake" 11th generation where Intel began allowing manufacturers to use tune processors for different modes of operation.
A big change occurred with the "Alder Lake" 12th generation of their Core processors. For many years, all the cores in an Intel processor had been of the same kind. So no matter the work — simple background work or demanding high load application — all work was done by the same cores, even if all that punch wasn't really needed for simple tasks. That was not very efficient. Smartphones, for example, have had different kinds of cores for different tasks for many years.
So with the "Alder Lake" 12th generation, Intel introduced a "hybrid" processor architecture that combined large, powerful performance cores ("p-cores") and smaller, simpler economy cores ("e-cores") in one chip. A hardware and software-based "thread director" would continuously analyze the workload and then send tasks to the proper type of core.
In the "Raptor Lake" 13th generation — the CPUs inside the new Getac F110 — Intel improved and enhanced that hybrid approach by increasing the core count, expanding L2 cache memory, raising clock speed, supporting faster DDR5 memory, as well as various fine-tunings and enhancements. Raptor Lake is like Intel hybrid chips 2.0 — evolved and refined.
And here's a list of all the processor options available for the Getac F110 (to view the full Intel spec table for these four CPUs, see here):
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2024 Getac F110: Available Intel CPU options
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Available F110 CPUs
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Intel Core i7
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Intel Core i7
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Intel Core i5
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Intel Core i5
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Model
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1365U
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1355U
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1345U
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1335U
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Performance Cores
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2
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2
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2
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2
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Efficient Cores
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8
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8
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8
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8
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Max Turbo Speed
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5.20 GHz
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5.00 GHz
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4.70 GHz
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4.60 GHz
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TDP
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15/55 watts
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15/55 watts
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15/55 watts
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15/55 watts
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Smart Cache
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12MB
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12MB
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12MB
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12MB
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Integrated graphics
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Intel UHD Graphics
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Intel UHD Graphics
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Intel UHD Graphics
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Intel UHD Graphics
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Graphics max speed
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1.30 GHz
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1.30 GHz
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1.25 GHz
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1.25 GHz
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Graphics Execution Units
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96
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96
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80
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80
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Intel Stable Image Platform Program
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Yes
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No
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Yes
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No
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Intel vPro
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Enterprise
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Essentials
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Enterprise
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Essentials
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The four processor options available to F110 G7 customers consist of two Core i7 and to Core i5 chips. Unlike rival Panasonic, which offers a either high end "P" series processor or a much lower performance "U" series chip for its Toughbook 33 tablet, Getac's four options for the F110 are much closer together.
All four are "U" series chips with the same core configuration — two power cores and eight efficient cores. The power cores are dual-thread, so all four chip options have 12 processing threads at their disposal. Thermal design power is the same for all four, and processing frequencies aren't far apart. Smart Cache is the same 12MB for the quartet. All are what Intel confusingly calls "Iris Xe Graphics eligible," i.e. depending on the type and amount of RAM and perhaps hardware limitations or settings, and so some or all graphics operations may default to Intel UHD Graphics. In any case, there's a small difference between the processors here: the i7 chips have 96 graphics execution units and the i5 chips just 80.
While most of those difference are fairly minor, two of them aren't. For customers who rely on managing and securing enterprise PCs, Intel's decision to split vPro into an "enterprise" set and an "essentials" set can be major. In terms of management, security and performance features, as well as cost and integration, "enterprise" offers a lot and "essentials" doesn't. So keep all that in mind when picking the right chip.
To see what kind of performance this latest generation Getac F110 tablet can achieve, we ran our standard benchmark suites, Passmark Software's PerformanceTest 9.0 that include dozens of tests covering CPU, 2D graphics, 3D graphics, memory, and disk and then computes scores for each category and an overall PassMark scores. We also ran our second benchmark suite, CrystalMark, to provide some clues as to overall single core performance. And we're also showing results of three other major benchmark suites in our test program: PC Mark 10, GeekBench 5 and one of the most often used 3DMark graphics benchmarks, Time Spy.
To provide an idea where the F110 stands in terms of overall performance, the below table also includes results of the prior generation F110 and some of the leading 12-inch class competition from Dell, Durabook, Panasonic and MobileDemand.
The results are as follows:
Getac F110 Gen 7 Benchmarks and Comparisons
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PERFORMANCE COMPARISON
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Getac
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Getac
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Dell
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Durabook
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Durabook
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MobileDemand
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Panasonic
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Model
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F110 G7
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F110 G6
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7230
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R11
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U11
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T1690
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TB 33
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Year tested
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2024
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2021
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2022
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2022
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2023
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2023
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2024
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Type
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Tablet
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Tablet
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Tablet
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Tablet
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Tablet
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Tablet
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Tablet
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Display
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11.6" (1920x1080)
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11.6" (1920x1080)
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12.0" (1920x1200)
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11.6" (1920x1080)
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11.6" (1920x1080)
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11.6" (1920x1080)
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12.0" (2160x1440)
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Luminance
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1,070 nits
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950 nits
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1,337
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1,246
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1,080
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570
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1,220
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Processor Type: Intel
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Core i7
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Core i7
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Core i5
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Core i7
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Core i7
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Core i5
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Core i7
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Processor Model
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1365U
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1165G7
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1240U
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1255U
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1250U
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1235U
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1270P
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Cores/threads
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10/12
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4/8
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10/12
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10/12
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8/8
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10/12
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14/20
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Max Turbo Speed
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5.20 GHz
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4.70 GHz
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4.40 GHz
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4.70 GHz
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4.70 GHz
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4.40 GHz
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4.80 GHz
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Thermal Design Power (TDP)
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15/55 watts
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12/28 watts
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9/29 watts
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15/55 watts
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9/29 watts
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15/55 watts
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28/64 watts
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Cooling
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fan
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fan
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fan
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fan
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fanless
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fan
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fan
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PassMark 9.0
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6,221
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5,635
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5,516
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5,602
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4,154
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4,307
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5,552
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CrystalMark
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453,174
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535,123
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401,322
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417,117
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318,914
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386,622
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436,485
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PCMark 10 Overall
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5,403
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5,020
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4,847
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5,359
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4,051
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5,039
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5,055
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-- PCMark10 Essentials
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10,318
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10,024
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9,776
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10,485
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8,370
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10,014
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9,527
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-- PCMark10 Productivity
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7,564
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6,734
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6,416
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7,248
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6,052
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6,647
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6,758
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-- PCMark10 Content Creation
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5,485
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5,086
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4,929
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5,497
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3,561
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5,218
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5,446
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PCMark10 Drive
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1,578
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2,200
|
2,015
|
1,623
|
1,723
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NA
|
2,140
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PCMark10 Battery (Hours)
|
8:58 hrs
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NA
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11.51 hrs
|
5:32 hrs
|
5:41 hrs
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NA
|
6:34 hrs
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PCMark10 Battery (whr/hr)
|
6.81
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NA
|
6.01
|
7.77
|
6.42
|
10.64
|
6.70
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3DMark Time Spy
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1,504
|
1,314
|
1,142
|
1,384
|
1,033
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NA
|
1,619
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GeekBench 5 Single Core
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1,872
|
1,480
|
1,496
|
1,586
|
1,394
|
1,551
|
1,524
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GeekBench 5 Multi Core
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5,657
|
4,690
|
7,049
|
5,747
|
4,181
|
4,885
|
7,795
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GeekBench 5 Open CL
|
16,237
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12,836
|
10,713
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14,618
|
10,259
|
11,036
|
15,612
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What do these numbers show? Well, first that this latest Getac F110 generation is the quickest one yet, albeit by perhaps not quite as much as we had hoped. Of course, those "Tiger Lake" chips that powered the F110 G6 certainly packed a punch. That said, the new F110 G7 does outscore the last generation G6 in virtually every performance category listed here. And it's also at or near the top in every listed benchmark performance category.
Else, we can only say that Intel certainly doesn't make it easy to pick the right chip, not for customers and not for manufacturers. Intel has been changing naming conventions and chip series so many times that comparing anything to anything is has become an exercise in frustration. How a the PC industry, which really began with just one single processor, the Intel 8088, now needs many hundreds of slightly different chips is anyones guess. And it'll only get worse. The 14th generation of Core processors is already split into multiple branches, with each doing things slightly different, and, of course, using different names. No wonder Intel is struggling, and Microsoft and most PC manufacturers have been launching laptops with — gasp — ARM-based Qualcommm chips.
There's one other aspect we should mention. It's the chip tuning Intel allowed manufacturers to perform starting with the 11th gen of Core processors. It's an arcane science, really, and essentially determines how fast chips can run at any moment. A legion of sensors reports operating temperatures in numerous places so that the chip runs as fast as possible, but won't run so hot as to risk damage.
It's almost impossible to get any answers on all this from anyone, but benchmark results do tell a stories. And one of them is that different manufacturers have different views on how best to tune their gear. One thing that most seem to agree on is that it's safer to run systems fast within the controlled parameters of an office, plugged in and nicely air-conditioned. Out in the field, different story. Temperatures vary wildly, and users like their battery life. And so, many modern systems run differently on battery than when they are plugged in.
Getac F110 Gen 7: Benchmark data plugged in vs on battery
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If you're interested in such matters, and you if you read this you likely should be (click on the graph for a larger version), take some time to peruse the numbers and data above. It's the F110 running one of the long, major benchmarks plugged in (left) and on battery (right). Bottomline: the F110 runs this benchmark some 10% faster when plugged in than on battery. It operates differently, observes maximum and minimum temperatures, times, and frequencies differently. It uses power differently, and heats up differently. In an industry where 3-5% can make a huge difference, 10% difference between operating modes matters. Let that sink in.
Power draw and battery life
So what is the impact of the newly increased performance on the F110's battery life? With tablets, battery life is always an issue. While customers generally accept higher weight and more bulk in a laptop (and thus room for a big battery), tablets are supposed to be as light and handy as possible, and that precludes big batteries.
As is, the F110 has dual 11.4 Volt / 2,680mAH / 30.6 watt-hour batteries. The resulting 61.2 watt-hours is workable, though still not a lot, for a high-performance Windows 11 tablet. If more is required, Getac offers optional 11.1 Volt / 4,200mAH watt-hour batteries for a total of 93.2 watt-hours. That's excellent for a 11.6-inch tablet but comes at extra cost and a bit of extra size (the extended batteries are 0.7 inches thick and no longer fit flush into the tablet) and weight.
The standard F110 batteries measure each about 2-3/4 x 5-1/4 and they are less than half an inch thick. They have an integrated power meter. Push on the power symbol and five green LEDs will indicate the charge level.
As far as available battery power goes, the Getac F110's is ahead of its major direct competitor, the Panasonic Toughbook 33, which offers a combined 44.2 watt-hours standard and 89 watt-hours extended. In each case, dual batteries allow hot-swapping.
We tested power draw of the Getac F110 G7 by running our standard BatteryMon benchmark. With Windows Power setting set to "Power Saving," the Windows task bar Power Mode slider set to "Best battery life" and the display backlight set to its lowest and almost unreadable setting, we saw a minimum of about 5.2 watts. That's theoretically good for 11.8 hours with both standard batteries.
With the backlight set to roughly 50% for comfortable indoor viewing, we saw a minimum of 6.3 watts, theoretically good for 9.7 hours with both batteries. And with the backlight set to maximum brightness, we saw a minimum power draw of 12.1 watts, theoretically good for 5.1 hours.
Getac F110 G7 BatteryMon Power Draws (at idle)
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Backlight level
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Darkest
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50%
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Brightest
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Max Battery
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5.2 watts (11.8 hrs.)
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6.3 watts (9.7 hrs.)
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12.1 watts (5.1 hrs.)
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Max Performance
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5.4 watts (11.3 hrs.)
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6.4 watts (9.6 hrs.)
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12.4 watts (4.9 hrs.)
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We then switched the Windows Power setting set to "Extreme" and the Windows task bar Power Mode slider to "Best performance." That way, with the display backlight set to its lowest setting, we saw a minimum of about 5.4 watts. With the backlight set to 50% for comfortable indoor viewing, we recorded 6.4 watts, and with the backlight set to maximum brightness, power draw rose to 12.4 watts, theoretically good for 4.9 hours with both standard batteries.
These results differ from the prior generation G6, where we significantly lower battery draws. Some of that can likely be explained by the chips used in the G6 were 12/28 watt designs, whereas the 13th gen chips in the G7 are all 15/55 watt versions. Another part may be due to the various power settings, both in hardware and in software.
As always, real-world battery draw will vary, just as gas mileage in a car does. Minimum draw in a test lab is not an accurate predictor of actual battery life. Intel's Core processors are becoming ever more sophisticated at conserving power, but there are some laws of physics that cannot be easily circumvented.
To measure, as close as it is possible, real world battery life, we used UL Solutions' PCMark 10's Battery test. This demanding test shows how long a charge lasts with the system never sleeping and constantly being exercised with a variety of typical tasks. In that test, with two batteries, the Getac F110 G7 lasted 8:58 hours, enough to make it through a full standard shift with continuous use of the system. This result also translates into power consumption of 6.81 watt-hours per hour, or 8.8 minutes of operation per watt-hour. By comparison, the Panasonic Toughbook 33 with its 12th gen Core i7-1270P processor ran 6:34 hours, using 6.7 watt-hours per hour, and ran 8.9 minutes on a watt-hour.
Bright and very good 11.6-inch display
The Getac F110's 11.6-inch display is suitably large for using Windows comfortably. As a laptop display it'd be on the small side, for a tablet it's quite spacious. Its 1920 x 1080 pixel resolution makes for 190 pixels per inch. The display is quite bright, too, 200 nits more than the outgoing F110 G6, with a maximum listed luminance of 1,200 nits.
The Getac F110 display's wide-format 16:9 aspect ratio gives the screen a contemporary look. Compared to the 1366 x 768 pixel resolution of early F110 generations, the current display feels much sharper and is much more pleasant to use.
That said, work done on tablets gets more and more complex, often with very detailed graphics. With smartphones, and many consumer tablets, now offering extremely high resolution, customers are increasingly expecting that from their rugged tablets — that's likely a reason why Panasonic gave its Toughbook 33 tablet a 2,160 x 1,440 pixel screen for a denser 216 pixels per inch.
For everyday use, display size isn't all that matters. Most rugged tablets may often be used outdoors and sometimes in bright, direct sunlight. Which means that sunlight-readability is becoming ever more important. At this point, the best way of making a tablet screen readable outdoors is combining various layers and optical treatments to control internal reflection with a strong backlight.
Continuous use of a strong backlight, unfortunately, is bad for battery life. Getac addressed that issue by letting F110 users toggle "sunlight readable" on and off by assigning that function to the P1 or P2 function button. Having that hardware button is the key to keeping power draw in check: when you need the extra-strong backlight, switch it on. When you don't need it anymore, turn it off. That's much easier with a button than via menus or function keys (both of which are also available on the F110).
In terms of "nits," what is considered bright? A standard consumer notebook backlight is in the 250 nits luminance range (1 nit = 1 candela per square meter) range. Industrial monitors used outdoors generally have 400 to 500 nits. High end rugged notebooks offer anywhere from 500 to over 1,000 nits, with Getac offering as much as 1,400 nits in its B360 ultra-rugged laptop. What this means is that the 1,200 nits backlight of the F110 is brighter than almost all consumer tablets, and much brighter than any consumer notebook.
The graph to the right shows our own luminance testing of the F110 display. We recorded a maximum of 1070 nits, 120 nits higher than the F110 G6 we tested, but a bit lower than what Getac lists in the device specifications, and most likely due to a slight transmission loss.
A few additional comments about the F110 display. While we described it as glossy above, semi-matte would best describe it. Reflections on it are far more muted than those of most consumer tablets, almost all of which have high-gloss displays.
And there's another quality the F110 display has: it's remarkably immune to the smudges and fingerprints that quickly mar almost all glossy displays. Viewing angles are important as well — nothing is worse than a screen that changes color and/or contrast when viewed from different angles. Both horizontal and vertical viewing angles of the 7th generation F110 screen are very good, without any color shifts even when viewed at extreme angles.
The images below show the F110 under different lighting conditions and angles. Note how the semi-matte display handles reflections very well; instead of hard reflections the light gets slightly diffused, keeping the display more readable. The bottom right is in direct sunshine, and still quite readable.
Multi-touch and an very good narrow-tip capacitive stylus
On a laptop, touch is nice to have and increasingly common, but it bis not absolutely necessary. On a tablet, good touch is mandatory. The F110 was designed as a pure tablet, though it can can also be used as a laptop with its optional detachable keyboard, and comes with 10-point capacitive multi-touch. The tablet is also available with dual touch and an active digitizer. This means F110 users can have the best of both worlds — effortless tapping, panning, pinching and zooming, as well as a very precise active pen that doesn't even need a battery.
That said, even after all these years, while capacitive multi-touch works great on tablets and with all those iOS and Android apps specifically developed for handhelds and tablets, even Windows 10 remains a work in progress as far as touch goes, especially when using the legacy desktop and legacy Windows software that still has all those tiny check boxes, screen borders and scrollers. Microsoft has made efforts to make Windows more touch-optimized, but it'll likely take a bunch more changes to Windows before it's really touch-friendly.
But Windows is Windows. It controls the desktop, IT shops, and thus a lot of mobile hardware, And Getac made Windows touch easier with the F110's remarkably smooth and responsive capacitive multi-touch, and the optional very precise active digitizer and pen.
A word about the active pen stylus. Digitizers with active pens have been around since the very dawn of tablet computers over 30 years ago. Almost all early pen computers used the Wacom digitizer and pen that used electromagnetic resonance technology. That technology did not require a battery to power the pen, allowing for a sleek pen design and no worries to run out of battery at inopportune times.
Another feature of this type of active pen is "hovering." Since the digitizer senses the tip of the pen, here's no need to make actual contact with the display; the cursor follows the tip of the pen even when the pen is up to half an inch away from the screen surface. This means no accidental menu or action selections as is often the case with finger or capacitive pen touch. In addition, Microsoft offers comprehensive support for this type of active pen. If you have/get a Getac F110 and intend to make the best use of the active pen, make sure you locate and download all those active pen utilities.
Works with gloves and when it's wet
Another issue with capacitive touch is that in its generic form it only works with human fingers or, to a lesser extent, with capacitive styli. Standard capacitive touch doesn't like rain and it won't accept gloves. Unfortunately, wetness and the need for gloves is exactly what one often encounters where ruggedized computing gear such as the Getac F110 is used. Getac knows that and was one of the first to address that issue years ago in their early V110 convertible and F110 tablet models. Ever since, most rugged Getac devices have a G-Manager "Touch" tab where users can select "Touch," "Glove," or "Pen."
"Finger Mode" — That's the mode to use when there's a chance that drops are falling on the display, like rain or splashing. Such drops can be misinterpreted by the screen as input. In this mode, the screen is set to accept finger input and no other touch, so no stylus. The inherent issue here is that water affects the capacitance between two electrodes, the very the concept upon which projected capacitive touch is built.
That problem can be addressed in several ways, one of which is witching from a standard "mutual capacitance" mode to "self-capacitance" where the capacitance between one electrode and the ground is measured instead of the capacitance between two electrodes. The F110's optional active digitizer pen still works in this mode, but the doesn't.
"Glove Mode" allows the F110 to be operated with gloves. That is usually done by increasing the sensitivity of the touch controller, so that it can recognize a finger even a brief distance away from the screen, as in the distance that the material of a glove adds to the finger's distance from the screen. That's the way Getac seems to have done it, as not only do gloves work in this mode, but the cursor now follows the finger even when it is a short distance away from the surface, and touch operations no longer require a firm touch. The active digitizer pen works in this mode.
"Stylus Mode" works with touch as well as the passive stylus or the active digitizer. The mode is configured so that when the stylus is used as well as finger touch, the tiny contact area of the stylus takes precedence over touch.
Note that this whole touch/stylus/pen issue is complex and confusing. Getac, as well as others, have been using different approaches, technologies, and terminologies to address the issue.
Cameras
Given the incredible quality of the pictures and video that today's smartphones can generate — let alone the ease of use of those smartphone cameras — we don't expect many F110 customers to use a large rugged tablet as their primary camera. In addition, while rugged Android devices are generally capable of taking good images and video, cameras integrated into mobile Windows, devices have rarely fared nearly as well. It is not clear why that is, as the actual camera hardware is often similar or the same.
Below is a selection of test images taken with the F110 G7's 8MP documentation camera at its highest 3264 x 2448 pixel setting. Click on the image to see a full resolution version.
Honestly, one could argue that integrated cameras should be better by now. Even tiny cameras can do great stills and video today, and they cost very little. Consider this, Getac?
Security
Like virtually all mobile hardware these days, the F110 offers various levels of hardware and software security to prevent unauthorized access as well as theft. That includes multifactor authentication via passwords, fingerprint reader, Smart Card reader, HF RFID reader, and Windows Hello face-authentication camera.
Our system included Intel Trusted Platform Module (TPM) 2.0 hardware security for enhanced boot process integrity, and to create and manage computer-generated digital certificates. Combined with the Windows Hello software in Windows 10, it can encrypt biometric data. In addition, TPM can be used to create certificates that can be used to:
- Send and receive secure email,
- Set up the browser for client identification,
- Sign Word macros,
- Encrypt individual files or entire folders, and
- Create secure network connections.
Fingerprint registration software works with the F110's optional fingerprint scanner that uses capacitive technology so users can just place their finger on the scanner rather than swiping.
All of this can get pretty involved. Some users may never implement TPM, fingerprint scanning or even passwords, whereas others may be set up in accordance with their company's IT security procedures, or they may configure an individual system for maximum security.
Over all this, don't forget physical security and get a Kensington locking cable to use with the Kensington slot on the side of the unit. It is inexpensive insurance against physical theft.
Additionally, depending on the processor, F110 tablets can be configured with Intel vPro, a set of technologies to remotely access and control computers securely. And Absolute DDS (stands for Device & Data Security, formerly known as CompuTrace) is also optionally available. The way that works is that there's a constant two-way between device so that risk can be monitored and assessed remotely, and the device disabled if need be.
Docking and vehicle mounting
Rugged tablets such as the Getac F110 are often used in vehicles. To that extent, Gamber-Johnson and Havis are offering docks and cradles both for the F110 tablet. These can be mounted in numerous ways, using the dock manufacturers' solutions or the vast variety of RAM ball and joint components.
The F110 has separate antenna pass-throughs for GPS, WLAN and WWAN. These are supported by the vehicle docks, which makes roof-mount antennae possible. A set of pogo docking pins on the bottom of the F110 allow the docks to provide port duplication and additional I/O functionality. The picture to the right shows
Ruggedness
The Getac F110 is a fully rugged tablet. That includes IP66 sealing and a very wide operating temperature range of -20 to 145 degrees Fahrenheit, as well as the claim to be "certified to MIL-STD 810H." Getac also claims a very impressive 6-foot drop resistance. Three feet is generally enough to let a unit survive a fall from a desk. Four feet is sort of the gold standard with rugged mobile computers, because that's about the height they fall from when operated while walking around. Six feet goes well beyond that.
Getac says the sixth gen F110 can operate between -20° and 145° Fahrenheit (-29° to 63°C). That's a little wider than the first generation F110 and makes the tablet suitable for use in almost any environment. The wide range comes in handy in several targeted deployments, such as closed vehicles or around freezers.
As far as sealing goes, there's been incremental progress since the F110 first came out. The original's IP65 rating already provided ample protection. Yes, everyone talks about IP67 full immersion resistance. Almost all premium smartphones today are actually IP68 and you can safely take them underwater. But the F110 is a complex rugged Windows tablet with multiple ports, buttons, a fan, externally accessible batteries and so on. That makes sealing much more involved than a consumer phone.
The switch from IP65 on first F110 to IP66 in the latest one means the difference between holding up to a low-pressure jet of water from all directions to strong jets of water. Out there in the field you never know what one might encounter, and not every blast of water is gentle. So yes, IP66 is may just come in very handy.
That said, It always takes a bit of a leap of faith to submerge a costly, complex piece of equipment in water while testing and reviewing. We passed this time because our F110 was still a pre-production sample. Sealing, though, warrants a few words about the protective port covers. Those covers are essential as they keep liquids from getting inside the computer. That makes them both very important and also quite a challenge to design. Users must be able to open and securely close/lock them easily.
Most rugged computer manufacturers have changed their designs many times over the years, and Getac is no exception. The current design of those covers uses hinged doors with rubber pressure seals inside. The covers slide one way to lock and the other way to unlock. Each cover as a white arrow on it, which leaves room for interpretation. A small thing, but important. We'd like to see a clearer lock icon.
Here our usual reminder that we (and most likely most potential buyers) would like to see more information on what ruggedness tests the unit was subjected to and has passed. Just referring to MIL-STD-810H certification is not enough. These are rugged machines that customers choose because they must hold up to all sorts of environmental conditions and abuse. It must be totally clear in the specs and brochures what testing was performed and what levels a machine passed.
Bottom line: the Getac F110
The Getac F110 is a fully rugged Windows 11 based high-performance tablet computer with a 11.6-inch capacitive multi-touch display. The F110 can be used as a tablet or, in conjunction with an optional detachable keyboard, as a laptop computer.
With this 7th generation of its popular F110, Getac offers a well designed and engineered, field-proven, and technologically up-to-date Windows tablet whose bright semi-matte and daylight viewable display is perfect for serious work in the field. It's a thin, compact and powerful design that's streamlined yet configurable with a variety of options. Its light weight belies its substantial ruggedness. There's effortless multi-touch operation, a well-working capacitive pen, and also an optional active pen for dealing with the Windows desktop or whenever precision and ink capture is required.
The F110 is available with several Intel "Raptor Lake" 13th generation processor options. Our test unit, equipped with the high-end Core i7-1365G7 processor turned in superior benchmark performance. Despite its speed, the F110 offers acceptable battery life from its dual 30.6 watt-hour batteries. Between sufficient onboard I/O, optional port configurations, and the optional (and highly recommended) keyboard, the Getac F110 offers exceptional versatility and functionality.
Overall, though already in its seventh generation, the newly updated Getac F110 rugged tablet remains a powerful, well-designed and versatile tool for the job, one that's technologically state-of-the-art and deserving of strong consideration for any deployment.
-- Conrad H. Blickenstorfer, September 2024
Getac F110 Gen 7 (2024) fully-rugged tablet Specs
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Type |
Semi-rugged notebook
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Review date |
F110 G7 version full review 09/2024
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Processor |
Intel Core i7-1365U
Intel Core i7-1355U
Intel Core i5-1345U
Intel Core i5-1335U (default)
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Max CPU clock speed |
i7-1365U: 5.20 GHz
i7-1355U: 5.00 GHz
i5-1345U: 4.70 GHz
i5-1335U: 4.60 GHz
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CPU Smart Cache |
i7-1365U: 12MB
i7-1355U: 12MB
i5-1345U: 12MB
i5-1335U: 12MB
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Thermal Design Power |
15/55 watts (all)
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Graphics |
Intel UHD graphics
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OS |
Windows 11 Pro
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Memory |
Single channel 8GB, 16GB or 32GB DDR5 |
Display |
11.6-inch/1920 x 1080 pixel (190 ppi) Lumibond 2.0 IPS TFT with semi-matte surface and protection film, sunlight-readable (1,200 nits) |
Digitizer |
Capacitive multi-touch; optional: Dual mode touchscreen (multi-touch and active digitizer) |
Keyboard |
Power button and four programmable buttons; optional detachable 88-key full-scale keyboard
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Storage |
256GB PCIe NVMe SSD;
optional: 512GB / 1TB / 2TB PCIe NVMe SSD
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Expansion slots |
Optional Smart Card reader
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Housing |
Getac ABS+PC and magnesium alloy |
Size |
12.4 x 8.15 x 0.98 inches (314 x 207 x 25 mm)
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Weight |
Starting at 3.29 lbs; 3.56 lbs as tested with two batteries, scanner and stylus
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Operating temperature |
-20° to 145° Fahrenheit (-29° to 63° C) |
Ingress protection |
IP66
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Drop |
6-foot drop
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Humidity |
95% RH, non-condensing
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Other environmental |
e-Mark certified for vehicle usage; optional: ANSI / UL 121201, CSA C22.2 NO. 213
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Power |
Hot swappable dual 11.4V 2,680 mAH 30.6 whr Li-Ion batteries; optional dual 11.1V 4,200 mAH 46.6 whr Li-Ion batteries |
Security |
TPM 2.0, cable lock slot; optional: fingerprint reader OR smart card reader OR HF RFID reader, optional Windows Hello face-authentication camera
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Camera |
Front-facing FHD webcam; 8mp auto-focus rear camera; optional: 5mp Windows Hello face-authentication camera
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Interface |
1 x Thunderbolt 4 USB Type-C, 1 x USB 3.2 Type-A, 1 x headphone out/mic-in, dock, opt. 1 x HDMI, RF antenna pass-through for GPS, WLAN, WWAN; Choice of 1D/2D imager barcode reader (Honeywell 6703) OR RS232 OR Ethernet OR MicroSD OR 2nd USB 2.0 port
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Wireless |
Intel Dual Band Wi-Fi 6E AX211 802.11ax Wi-Fi, Bluetooth 5.3; optional dedicated GPS, 4G LTE, 5G Sub-6 with integrated L1/L5 GPS
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Price |
Inquire |
Contact |
GETAC us.getac.com |
Web |
F110 G7 web page |
Spec sheet |
F110 spec sheet (PDF) |
Warranty |
3 years Bumper-to-Bumper
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Contact
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GetacSales_US@getac.com
www.getac.com/us
949.681.2900
Getac, Inc.
15495 Sand Canyon Ave., Suite 350
Irvine, CA 92618
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(copyright 2024 RuggedPCReview.com)
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