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Architects, designers, and architecture students want to comfortably create schematic designs, constructions documents, even beautiful 3D visualization, modeling, and walk-through animations and also be able to render scenes as fast as possible.

I hate to burst your bubble right off the bat, but there’s no single best laptop for all architects.

Some pros have a rig set up for rendering and use the laptop for basic modeling or presentations. Others solely rely on their laptop. Some architects and designers work in one single program, while others use multiple from 3D Studio Max and Rhino take care of 3D modeling, and others might rely on Revit Architecture for other BIM designs. Yet others work with V-Ray, Lumion, and even Corona Renderer to bring the layouts to life and render them per client or project preferences.

You might have to work with SketchUp and SolidWorks as well if you want quicker outputs, and using predefined samples is your thing. Seasoned architects and students might also need to work with Adobe Creative Cloud to handle the graphics-intensive tasks related to shading, sketching, and drawing, especially to produce an all-inclusive render.

You get the point. Different people have different needs.

So our aim in this article is to provide a recommendation whether you are just starting out or if you are a seasoned pro and looking for a beast of a machine.

We also put together a helpful buying guide and have tried to answer some frequently asked questions.
Let’s dive right in!

Basic Computing Resources for Architectural Designs

Planning to purchase a laptop for architectural designs? Here are three of the primary aspects that you need to consider in order of importance:

  • RAM: As a professional, you might have to render models frequently. Each render involves storing the geometry, data, and textures on the RAM for quicker retrieval, especially in real-time. Realistic renders even use 4K textures, with each taking up more than 64GB of system memory. One such scene often comprises 100 4K textures at times, thereby validating the importance of RAM.
  • CPU: Rendering requires CPU in general, although the likes of V-Ray offer GPU acceleration support. Therefore, faster rendering or visualization requires additional cores or threads. As a rule of thumb, doubling the number of cores reduces the rendering time by half. Besides, if you are a high-end professional with a penchant for 3D simulations of the modeled designs, the processor becomes all the more important.
  • GPU: While GPU doesn’t affect the rendering performances significantly, it is necessary for 3D modeling, especially for drawing wireframe previews. However, if you are using iRay or VRAY renders, you could benefit from the CUDA processing API and the Ray-Tracing support, if available, for better results. To simplify things further, GPU mostly enhances the Viewport or UI experiences associated with rendering and modeling.
  • SSD: Once you max out the RAM, the textures page outright to the storage. Although this slows down rendering by a factor of ten, an SSD with NVMe and Optane memory support can still help you get respectable speeds. Besides, once the rendering is complete and RAM needs to be freed for the next processing frame, the visualizations, previz renders, and animations move to the storage.

While these are some of the primary aspects to look at, display resolution for deeper blacks and efficient color grading, durable keyboard, and diversified port arrangement for connecting external workflows are some of the other aspects to look at.

We provide a more detailed guide towards the end of the article.

A good budget laptop with basic computing resources wouldn’t suffice for architectural requirements. Therefore, our minimum set of specifications aims to achieve optimal system performances when rendering and modeling are concerned. In case you are into Rasterization and Ray-Tracing rendering involving 4K textures are more, anything comparable or better than the recommended system settings would do.

 Minimum System RequirementsRecommended System Requirements
CPU8th Gen Intel Core i710th Gen Intel Core i7
RAM16GB32GB
Storage512GB SSD1TB SSD
Display15.6-inch FHD IPS (1920 x 1080)17.3-inch FHD IPS (1920 x 1080)
GPU3GB NVIDIA GeForce GTX 10506GB NVIDIA GeForce RTX 2060
BatteryUp to 4 hoursUp to 6 hours

10 Best Laptops for Architecture in 2022

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]Acer Swift X

  • CPU: 2.4GHz AMD Ryzen 7 5800U

  • RAM: 16GB

  • Storage: 512GB SSD

  • Display: 14-inch FHD IPS (1920 x 1080)

  • GPU: 4GB NVIDIA GeForce RTX 3050 Ti

  • Battery: Up to 12 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]Razer Blade 15

  • CPU: 1.9GHz Intel Core i7-11800H

  • RAM: 32GB

  • Storage: 1TB SSD

  • Display: 15.6-inch FHD G-Sync (2560 x 1440)

  • GPU: 10GB ‎NVIDIA GeForce RTX 3080

  • Battery: Up to 4 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]ASUS ZenBook Duo 14

  • CPU: 2.8GHz Intel Core i7-1165G7

  • RAM: 32GB

  • Storage: 1TB SSD

  • Display: 14-inch FHD NanoEdge Display (‎1920 x 1080)

  • GPU: 2GB NVIDIA GeForce MX450

  • Battery: Up to 11 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]HP Omen 17

  • CPU: 2.3GHz Intel Core i7-11800H

  • RAM: 16GB

  • Storage: 512GB SSD

  • Display: 17.3-inch FHD IPS (1920 x 1080)

  • GPU: GPU: 6GB NVIDIA GeForce RTX 3060

  • Battery: Up to 6 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]MSI Creator 15

  • CPU: 2.3GHz Intel Core i7-11800H

  • RAM: 16GB

  • Storage: 512GB SSD

  • Display: 15.6-inch OLED 4K DCI-P3 (3840 x 2160)

  • GPU: 6GB NVIDIA RTX 3060

  • Battery: Up to 10 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]Acer Predator Helios 300

  • CPU: 2.6GHz Intel Core i7-10750H

  • RAM: 16GB

  • Storage: 512GB SSD

  • Display: 15.6-inch FHD IPS (1920 x 1080)

  • GPU: 6GB NVIDIA RTX 2060

  • Battery: Up to 6 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]Lenovo ThinkPad P15s

  • CPU: 2.8GHz Intel Core i7-1165G7

  • RAM: 32GB

  • Storage: 1TB SSD

  • Display: 15.6-inch FHD IPS (1920 x 1080)

  • GPU: 4GB ‎NVIDIA Quadro T500

  • Battery: Up to 7.5 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]Microsoft Surface Book 3

  • CPU: 1.3GHz Intel Core i7-1065G7

  • RAM: 32GB

  • Storage: 1TB SSD

  • Display: 15.6-inch IPS PixelSense (3240 x 2160)

  • GPU: 6GB NVIDIA GTX 1660 Ti

  • Battery: Up to 17.5 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]Apple MacBook Pro

  • CPU: Apple M1 Pro chip 8-core

  • RAM: 16GB

  • Storage: 512GB SSD

  • Display: 14.2-inch Liquid Retina XDR (3024×1964)

  • GPU: Integrated 14-core GPU

  • Battery: Up to 17 hours

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10 Best Laptops for Architecture in 2022 [Expert Recommendations]Dell XPS 15 9500

  • CPU: 2.6GHz Intel Core i7-10750H

  • RAM: 16GB

  • Storage: 1TB SSD

  • Display: 15.6-inch UHD+ (3840 x 2400)

  • GPU: 4GB NVIDIA GTX 1650 Ti

  • Battery: Up to 12 hours

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Laptops suited for architecture usually cost a fortune. Therefore, our experts have personally tested and reviewed each one of the 10 laptops, based on rendering speeds, 3D modeling precision, simulation throughput, the correctness of the designs, and even the portability quotient.

Be it the external attributes or the internal processing conglomerate, we have analyzed every aspect of several premium notebooks before zeroing in on these 10 machines. Besides, a few laptops on the list are dedicated to academic and entry-level usage, something our experts have considered.

  • CPU: 2.4GHz AMD Ryzen 7 5800U
  • RAM: 16GB
  • Storage: 512GB SSD
  • Display: 14-inch FHD IPS (1920 x 1080)
  • GPU: 4GB NVIDIA GeForce RTX 3050 Ti
  • Battery: Up to 12 hours

Keeping the architectural relevance aside, the best thing about the Acer Swift X is its multifaceted availability. This means you can consider purchasing the AMD-powered version or the one with an Intel processor at the helm. Regardless of what you choose, the Swift X fits in as one of the better notebooks for aspiring architects, courtesy of the relevant specs sheet.

At the core, the reviewed model features the AMD Ryzen 7 5800U chipset, exhibiting Turbo Boost, and HyperThreading technologies. These attributes allow you to manage BIM-based applications like Revit with ease. Besides, the single-core turbo clock speed of up to 4.4GHz readily qualifies the Swift X as a decent notebook for scaling up 2D designs to 3D via Lumion and V-Ray renders. Assisting the mobile SoC with rendering is the RTX 3050 Ti GPU, which boasts 4GB VRAM.

The existing graphics card is also good enough for helping aspiring architects and students with realistic virtualization while allowing them to work with predefined samples. 2D and 3D modeling get an additional boost with the high-speed, 16GB RAM at the helm. Besides, the Swift X allows you to store completed projects, renders, and presets with ease, courtesy of the 512GB SSD. The dual-lane solid-state boot drive also supports quick start-ups and boots up the Windows 10 OS in virtually no time.

When it comes to the display, budding architects can really dig into the 14-inch IPS panel. In addition to the sharp viewing angles, you also get to experience the 16:9 aspect ratio, a feature that allows you to view columns, walls, and other architectural resources and proceeds, regardless of the dimension. Acer also brings home the ExaColor and Color Intelligence enhancements for furthering the visual presence of the Swift X.

Students or architecture can also reap the perks of the brilliant backlit keyboard with a dedicated Numpad, amplified speakers, and a durable yet light chassis that further amplifies the portability quotient. While the 3.06-pound notebook doesn’t come equipped with a standout thermal layout, the heat-dissipating vents do ensure proper cooling. As far as the connectivity suite is concerned, you get access to the Type-C, USB 3.0, and Type-A slots followed by Gig Ethernet, Bluetooth 5.2, and Wi-Fi 6 standards.

Coming to productivity, this notebook accommodates a standard HD webcam for handling a majority of your professional commitments. In addition to that, Acer also offers a respectable, 12 hours of battery backup. Overall, the Swift X has enough firepower to run almost every architectural application, without stutters, provided you are fine with the absence of AI-enhanced support and RTRT technology.

Pros
  • Fast RAM module
  • Ultrafast SSD unit courtesy of dual-lane support
  • Stellar display
Cons
  • Not meant for highly complex designs
  • CPU: 1.9GHz Intel Core i7-11800H
  • RAM: 32GB
  • Storage: 1TB SSD
  • Display: 15.6-inch FHD G-Sync (2560 x 1440)
  • GPU: 10GB ‎NVIDIA GeForce RTX 3080
  • Battery: Up to 4 hours

Out of all the laptops we reviewed, Razor Blade significantly outperformed. With its X, Y, & Z, Razer Blade 15 is surely our best laptop for architecture.

It’s a heavy-duty gaming laptop with Intel Core i7-11800H 8-Core, 32GB RAM provides the ultimate level of performance with up to 4.6GHz Max Turbo and 1TB SSD storage. 

Moreover, the NVIDIA 3rd generation GeForce RTX 3080 Graphics card has new RT cores, Tensor cores, and multiprocessors that trace incredibly realistic graphics. With such nasty specs, your work will go uninterrupted. The laptop’s feel is compact and premium due to the fact that it’s barely 0.7″ thin.

As an architect, you have to transfer large data files, and Razor Blade 15 comes with Thunderbolt 3, which transfers data 4 times the original thunderbolt interface.

Coming to the screen, at 15.6-Inches, with FHD 360Hz, QHD 240Hz, 4K variants, supplemented by Chroma RGB, which has over 16.8 million colors and unique lighting effects. This laptop has one of the most realistic and stellar screens which prevents excessive eye strain. 

A high-performance laptop usually underperforms on the cooling test, but Razer Blade 15 is built differently. 

With its innovative cooling system that consists of a vacuum-sealed copper vapor chamber, which effectively regulates the heat this beast exhales. 

Additionally, the keyboard is aesthetically built, with short travel distance keys and a Razer Chroma backlight, making the experience a fold higher by adding the aesthetic feel when the lights are off.

The laptop weighs around 4.4 lbs, slightly higher than other laptops, but good considering heavy usage laptops weigh more. Still, we believe it’s a great option for architects who move a lot & need something light.

Top all of this excellent performance & design with 4-hour battery life to last at least half of your workday, and voila, you have the best architecture laptop. We’ve got all the reasons to love Razer Blade 15.

Take it from us, it’s one of the best laptops for Architecture, and you won’t regret buying it. 

Pros
  • Octa-Core processor
  • 16GB VRAM for better rendering performances
  • Stellar display with Corning Gorilla Glass protection
  • 1ms response time for lag-free simulations
  • Innovative cooling tech
  • Class-leading Quadro RTX GPU
Cons
  • Only 1TB storage
  • Pricey
  • CPU: 2.8GHz Intel Core i7-1165G7
  • RAM: 32GB
  • Storage: 1TB SSD
  • Display: 14-inch FHD NanoEdge Display (‎1920 x 1080)
  • GPU: 2GB NVIDIA GeForce MX450
  • Battery: Up to 11 hours

Be it the sheer size of the device or the restrictive battery backup, the ASUS ZenBook Duo 14 is a workstation in the truest possible sense. Besides, this is one of the few notebooks in the retail space to feature desktop-grade hardware with almost no processing feature reminiscing consumer-grade internals.

Asus takes the professional experience to a whole new level with the Intel Core i7-1165G7 chipset. The featured processor is capable of turbo clocking at 4.7GHz Furthermore, the single-core processing performances are more than commendable, thereby helping the laptop with faster rendering.

However, in terms of core availability, it is still bested by the Intel Core i9 10th generation variants. 3D modeling, GPU acceleration, and GPU-assisted rendering with RTRT, and DLSS support are made possible by the NVIDIA GeForce MX450 GPU. The 896 CUDA processing cores ensure better modeling and viewport or UI rendering performances. Moreover, 2GB VRAM is more than sufficient for 2K textures.

ASUS also brings forth a new breed of Error-Correcting or ECC system memory into the mix. The 32GB RAM comes with an additional Error-Correcting chip that keeps memory corruption and crashes to a minimum. The server-grade system memory is upgradeable up to 64GB if desired.

Visualizations, app cache, previews, culminated projects, and Windows 10 Pro OS can be stored in the 1TB SSD module that features the RAID 0 technology.

As far as display is concerned, the massive 14-inch screen features 1920 x 1200 pixels, to be exact. However, as a professional, you need not worry about the color accuracy, as ASUS showcases the 97 percent DCI-P3 color gamut. The Pantone color-certified panel also makes room for a color depth of 8-bits, which is more than sufficient for designing exceptional workflows and even VR ready, complex designs.

The ASUS ZenBook Duo 14 redefines productivity further by pairing a backlit keyboard with decent key travel, a dual-functional and responsive touchpad, and a one-touch system lock feature for handling webcam, microphones, and snip tools with precision. It also makes way for an exceptional thermal layout, riding on the potential of the cooling fins and strategic vent placement. In addition to that, this workstation-grade notebook also brings decent-enough speakers to the party.

This laptop, obviously, is one of the lightest workstation options on the market and weighs almost 3.58 pounds. Then again, despite it being lightweight, there are no port and connectivity compromises with the ASUS ZenBook Duo 14 featuring USB 3.2, Thunderbolt 4, HDMI, Gig Ethernet, and top-notch wireless standards.

The battery, however, isn’t its strongest suit, and our experts could only churn out 5 hours on heavy usage. This minor bottleneck further validates the stead of the ASUS ZenBook Duo 14 as a high-end workstation or rather a desktop replacement for professional architects interested in Building Information Modeling or BIM workflows.

Pros
  • Workstation-grade processor
  • 2 Screens
  • Sizable Pantone-certified display
  • Exceptional port arrangement
Cons
  • GPU could be better
  • A Subpar battery even from Workstation standards
  • CPU: 2.3GHz Intel Core i7-11800H
  • RAM: 16GB
  • Storage: 512GB SSD
  • Display: 17.3-inch FHD IPS (1920 x 1080)
  • GPU: 6GB NVIDIA GeForce RTX 3060
  • Battery: Up to 6 hours

The HP Omen 17 should be your first choice if you plan to go berserk in the architecture work and you still want to enjoy playing some games. However, the device isn’t just about gaming but comes across as one of the more portable work laptops.

Under the hood, HP stacks in the Intel Core i7-11800H chipset, boasting of Turbo Boost and Hyper-threading technology. The Eight Core processor is known for decent single-core performances, with the maximum speed going up to 4.6GHz. Be it intricate 3D rendering tasks, via Corona renderer, or managing a barrage of third-party plugins, the existing chipset can be quite a handful.

Graphics-intensive 3D modeling or viewport rendering is perfectly handled by the NVIDIA GeForce RTX 3060 GPU. This Graphic card will be more than enough for any Architectural workflows that are needed from it.

As far as multitasking and handling massive rendering textures are concerned, HP comes equipped with 16GB RAM. In case you are relying on GPU acceleration with the V-Ray renderer at the helm, the 6GB Video RAM comes in handy for processing some of the more intricate textures.

This device comes with 512GB of SSD, which is not perfect but will do a good enough job for this price point and the rest of the specs this laptop possesses. The Windows 10 Os and software like the demanding BIM tools Revit, SketchUp, and ArchiCAD work much faster on the SSD, so the speed will definitely not be lacking.

HP ensures that the 17.3-inch Full HD workstation-level IPS display isn’t a pushover, the bigger display can help you with your workflow. However, we expected a matte display for better sunlight visibility while the Omen chose to persist with a glossy panel. Productivity is taken care of by the structural inclusions like the backlit keyboard, responsive trackpad, fingerprint sensor, B&O speakers, HD webcam, and serviceable microphones.

The Omen 17 also brings forth a decent thermal layout followed by a durable chassis, weighing around 6.15 pounds. There is a large number of ports, 2x USB 3.2 Gen2 ports are located on the right side of the laptop, while on the left side we can find while, USB 3.2 Gen2 interface, RJ45 port, a charging port, miniDP, HDMI, Thunderbolt 4. Connectivity is top-notch, with Wi-Fi 6, Gig Ethernet, and Bluetooth 5.0 standards to rely on.

Furthermore, the featured battery offers a 6-hour backup, which is clearly one of the better traits on this big display. Overall, if you seek a workstation-grade laptop that is a gaming laptop too at the same time at a decent price range, the HP Omen 17 should definitely be on your wishlist.

Pros
  • Workstation-grade GPU
  • Excellent port arrangement
  • A sizable chunk of system memory
  • Long-lasting battery
  • Good Build
Cons
  • Can Overheat
  • Storage could be larger
  • CPU: 2.3GHz Intel Core i7-11800H
  • RAM: 16GB
  • Storage: 512GB SSD
  • Display: 15.6-inch OLED 4K DCI-P3 (3840 x 2160)
  • GPU: 6GB NVIDIA GeForce RTX 3060
  • Battery: Up to 10 hours

Shifting to a more RTX-focused world, the MSI Creator 15 is a formidable notebook for professional architects and even the students who are progressively learning about CAD and BIM tools.

MSI brings forth the exceptional and sought-after Intel Core i7-11800H CPU, with eight cores to work with. The HyperThreading technology ensures that the processor has 16 independent logical cores to work with, especially for advanced 3D rendering. For handling plugins better, the single-core turbo clock speed of 4.6GHz is a resourceful attribute.

GPU-intensive tasks like optional rendering, video editing, and 3D modeling using Ray Tracing and AI-Enhanced graphics are possible with the RTX 3060 GPU at the helm. You also get access to 6GB VRAM for assisting the graphics card in case of GPU accelerated renders and processes. While the RTX 30-series GPU isn’t as accurate as of the Quadro processing units, it still gets the rendering and modeling job done perfectly.

Multitasking requirements are addressed by the dual-channel, 16GB RAM. However, our experts experienced slowness of rendering speeds despite this not being an ECC-powered memory. App caching, previews, and read & write speeds are nothing but exceptional with the 512GB SSD module in place. The Teton Glacier Solid State drive features the H10 Optane Memory technology for better throughputs and loads the Windows 10 OS, faster than a SATA SSD.

The featured UHD display is one of the highlights, featuring exceptional levels of color accuracy for better architectural touchups. The 15.6-inch panel offers a wide-angle viewing experience, allowing you to identify the minutest of structural elements with precision. Furthermore, the screen features anti-glare properties for keeping ocular strains at a fair distance.

Other innovative specs include a standard backlit keyboard, a larger touchpad with a silky finish, and an integrated fingerprint scanner. MSI is also accommodative of a webcam, microphone, and amplified speakers, for students who are supposed to attend online classes and lectures.

At 5.39 pounds, this is one of the medium-weighted professional notebooks on our list. Despite the sleek chassis, MSI Creator doesn’t compromise on the connectivity specs. Be it connecting external displays or transferring data, you get access to HDMI, Type-C, and other ports to work with. The battery on offer performs as per expectation and can last up to 10 hours before requiring a refill.

In conclusion, the MSI Creator 15 is a portable notebook with ample processing firepower for professional architects and students alike.

Pros
  • Stellar display
  • Fastest possible SSD
  • GPU with Ray-Tracing support
  • VR Ready notebook
Cons
  • Slower RAM
  • Middling speakers
  • CPU: 2.6GHz Intel Core i7-10750H
  • RAM: 16GB
  • Storage: 512GB SSD
  • Display: 15.6-inch FHD IPS (1920 x 1080)
  • GPU: 6GB NVIDIA GeForce RTX 2060
  • Battery: Up to 6 hours

Despite being tagged as a high-end gaming notebook, the Predator Helios 300 is a great architectural resource, considering the innovative GPU and a 10th gen processor.

Processing performances, especially the ones related to 3D rendering and simulation, are taken care of by the Intel Core i7-10750H chipset. In addition to the hexa-core architecture, the CPU is also capable of reaching turbo clock speeds of up to 5GHz. The 12-threaded CPU can offload some of the more intricate graphics-intensive tasks to the NVIDIA GeForce RTX 2060 GPU.

Rasterization and even Ray-Tracing rendering styles are supported by this graphics card with 6GB VRAM to rely on. Viewport 3D rendering and Wireframe modeling are also supported with 1920 CUDA processing cores on offer.

Although this variant comes with 16GB of onboard system memory, the dual-channel setup allows you to upgrade the same, if and when required. You also get a 512GB NVMe SSD storage module that allows you to store and load preview files, demanding apps, and the Windows 10 OS at lightning speeds.

The 15.6-inch screen is extremely color accurate and features the LED-backlit technology, more so as a power-efficient addition. The IPS panel features a more than a decent refresh rate of 144Hz. Then again, the higher refresh rate combined with a 3ms overdrive response time ensures faster image loading and better realistic simulations. Color grading for touch-ups via Illustrator and Photoshop is a highly productive experience, courtesy of the 72 percent NTSC color gamut.

Acer features a 4-zone backlit keyboard as a productivity-enhancing feature followed by amplified speakers with DTS X audio support, HD webcam, responsive trackpad, and serviceable microphones. Despite working for several hours at a stretch, the Predator Helios 300 doesn’t emanate a lot of heat with the efficient thermal layout and AeroBlade Fan technology at the helm.

The port arrangement is pretty standard, with Acer making way for Mini DP, USB Type-C, Type-A, and HDMI 2.0 slots. However, our experts were expecting a Thunderbolt 3 port for connecting external workflows at enviable speeds. What stands out is the elusive Wi-Fi 6 support for establishing the fastest possible internet connections.

At 5.07 pounds, the Acer Predator Helios 300 isn’t the lightest notebook on our list. Besides, the 6-hour, modest battery backup doesn’t contribute a lot to the portability quotient. To sum it up, Helios 300 is predominantly a gaming machine that can be considered for 3D architectural rendering and running BIM tools with decent efficiency and precision levels.

Pros
  • 10th gen processor
  • Upgradeable RAM
  • RTX 2060 GPU with RT cores
  • Wi-Fi 6 support
  • Color accurate display
  • Excellent keyboard
Cons
  • Comparably heavier
  • Restrictive storage capacity
  • CPU: 2.8GHz Intel Core i7-1165G7
  • RAM: 32GB
  • Storage: 1TB SSD
  • Display: 15.6-inch FHD (1920 x 1080)
  • GPU: 4GB ‎NVIDIA Quadro T500
  • Battery Life: Up to 7.5 hours

The ThinkPad P15s from Lenovo is a surprisingly efficient workstation-grade notebook, capable of modeling and rendering 2D and 3D architectural layouts with ease. This notebook has a lot of potential for students and entry-level professionals.

The rendering speeds are more than acceptable, with Lenovo making way for the Intel Core i7-1165G7 processor. The existing CPU can turbo clock at 4.7GHz, which ensures excellent single-core performances. Furthermore, there are 4 cores, 8 logical threads, and 8MB of cache memory to work with.

The CPU is further assisted by the NVIDIA Quadro T500 GPU, which comes with certified drivers and makes way for more accurate renders and models than consumer-grade graphics cards. Besides supporting GPU hardware acceleration, the featured processing unit comes with 4GB VRAM and 896 parallel processing CUDA cores.

Memory allocation is one of the major highlights of the ThinkPad P15s with this laptop featuring 32GB SODIMM RAM, a module that takes up less space and helps envision a sleeker chassis. In terms of storage, the 1TB SSD unit is quite a handful, speeding up the app and Windows 10 Pro OS loading and boot-ups.

Lenovo persists with a conventional 15.6-inch panel, featuring a cumulative display resolution of 1920 x 1080 pixels. The color-accurate screen is a charm to work with, and the modelers can precisely benefit from the 16:9 aspect ratio. In terms of professional productivity, the ThinkPad P15s is a virtual powerhouse and makes room for a backlit keyboard, fingerprint sensor, HD webcam, amplified speaker, and resourceful microphones.

Courtesy of the SODIMM RAM and innovative cooling tech, this laptop is one of the more portable workstations in the retail space. At 3.9 pounds, this ThinkPad is worth all the accolades and accommodates a decent enough port arrangement, including Thunderbolt 3, Type-C, USB 3.1, and more.

With a 7.5-hour backup to boast of, the battery on the ThinkPad P15s is certainly one of its strongest suits. Overall, this workstation-grade device from Lenovo is an excellent choice for the more mobile students who are into BIM and CAD tools for architecture.

Pros
  • Light and portable
  • 32GB RAM for accommodating complex 4K renders
  • Innovative port arrangement
  • Workstation-grade GPU
Cons
  • Not for high-end professionals
  • Low-power processor
  • CPU: 1.3GHz Intel Core i7-1065G7
  • RAM: 32GB
  • Storage: 1TB SSD
  • Display: 15.6-inch IPS PixelSense (3240 x 2160)
  • GPU: 6GB NVIDIA GeForce GTX 1660 Ti
  • Battery: Up to 17.5 hours

Microsoft Surface Book 3 is one of the best detachable notebooks for college students and even architectural professionals. Although there are several variants to choose from, according to requirements, budget, and processing meat, the most advanced version, as reviewed by the experts, is a force to reckon with.

Under the hood, Surface Book 3 features the Intel Core i7-1065G7 processor. The graphics-optimized chipset might be underpowered when compared to the H and HK-series of Intel CPUs but offers decent 3D modeling support. The turbo clock speed of 3.9GHz is one of the more reliable attributes, followed by 4 cores and 8 threads for better rendering experiences.

Assisting the CPU is the high-end NVIDIA GeForce GTX 1660 Ti GPU. Despite being a consumer-grade GPU without Ray-Tracing and Smart DLSS support, the graphics card is still equipped to handle V-Ray and I-Ray renderers. Viewport rendering and wireframe 3D modeling assistance are also offered in addition to standard GPU hardware acceleration.

Next in line is the 32GB RAM that clocks at an insane speed of 3733Mhz. Many demanding architectural tools like Rhino, Autodesk Revit, and 3D S Max can benefit from this ultrafast and sizable chunk of system memory. The 1TB SSD storage unit is handy but not as fast as the NVMe-compatible modules. In terms of OS, you get Windows 10 straight out of the box.

The 15-inch display is as vibrant as a laptop screen can get, courtesy of the overall resolution of 3240 x 2160 pixels. The innovative PixelSense panel is worth taking note of, bolstered further by multi-touch support.

Furthermore, Microsoft allows you to use the Surface Book 3 either as a table or a laptop with the innovative backlit, dockable keyboard to work with. Besides, you also get a dual-camera setup, studio-grade mics, front-firing speakers with Dolby Atmos enhancement, and an innovative TPM 2.0 unit for safeguarding privacy. 

This laptop, if and when paired with the keyboard, weighs close to 4.2 pounds. In addition to that, the cumulative battery backup is somewhere around the 17.5-hour mark, and our experts were able to churn out the same on light to moderate usage. Connectivity-wise, Microsoft offers USB Type-A, Type-C, Surface Connect slots, Wi-Fi 6, Bluetooth 5.0, and other innovative specs.

To sum it up, the Surface Book 3 allows you to model and render layouts on the move, courtesy of the exceptional processing conglomerate and unmatched portability.

Pros
  • 10th gen processor
  • GPU with Turing Architecture
  • Dependable battery
  • A massive chunk of RAM
  • Support multiple form factors
Cons
  • No Thunderbolt 3
  • The processor is slightly underpowered for high-end BIM tools
  • CPU: Apple M1 Pro chip 8-core
  • RAM: 16GB
  • Storage: 512GB SSD
  • Display: 14.2-inch Liquid Retina XDR (3024×1964)
  • GPU: Integrated 14-core GPU
  • Battery: Up to 17 hours

While we wouldn’t actually recommend a Apple MacBook Pro to the professional architects, due to the lack of upgradability, restrictions using software modules like Rhino, and Revit incompatibility, the latest Pro 14 is still a competent machine for the students and mid-levels modelers.

The Apple M1 Pro chip 8-core processor makes an appearance and lends exceptional modeling and rendering support and does an amazing job in doing it. Although the processor strikes the perfect balance between single-core performances and the number of logical cores to work with, it is ably assisted by Apple’s own Integrated 14-core GPU.

The graphics processing unit comes with a faster rendering pipeline and an improved cache hierarchy, thereby allowing the MacBook to render modeled 3D layouts onto the viewport without lags.

Apple comes equipped with 16GB RAM on the concerned model. The existing chunk of faster system memory is capable of handling previews and larger datasets with precision. Furthermore, the 512GB SSD module is fast and offers a decent storage capacity for students and even certain professionals. Most importantly, the macOS Catalina loads in a heartbeat, thereby qualifying this as one of the fastest MacBooks in the retail space.

The 14-inch screen deserves a special mention, owing to the overall native resolution of 3024×1964 pixels. Color grading, touch-ups, animation rendering quality is on the higher side with the P3 color gamut added to the repertoire. The IPS Retina display is probably the sharpest one around, boasting of true-to-life visuals and deepest possible blacks.

In case you are a desk-bound operative, the Magic keyboard is expected to serve you well. Besides, the force trackpad, integrated Touch ID support, and the functional Touch Bar with faster app access make life easier for the professionals. Next in line is the powerful six-speaker system followed by a top-notch webcam and studio-grade microphones.

The reviewed MacBook weighs closer to 3.5 pounds and comes with revolutionary cooling hardware. The port arrangement, on the other hand, is pretty straightforward with Apple focusing on four Thunderbolt 4 slots followed by USB 3.1 Gen 2 output. Besides, you get WiFi 5, Bluetooth 5.0, and other connectivity perks.

MacBook Pro 14 is best known for the respectable 17-hour battery backup, which further adds to the device’s credibility. Despite not being able to run Revit, MacBook Pro is accommodative of other BIM software like Sketchup. Besides, you can even use Rhino on the same, in case you are willing to compromise on the animation tools and work sessions. Besides, you can even use the KeyShot render as a plugin for the existing BIM and CAD tools.

Pros
  • Excellent processor
  • Four Thunderbolt 3 ports
  • Fantastic display
  • TouchID and TPM security
Cons
  • Pricey for the existing specs
  • Not compatible with Autodesk Revit
  • CPU: 2.6GHz Intel Core i7-10750H
  • RAM: 16GB
  • Storage: 1TB SSD
  • Display: 15.6-inch UHD+ (3840 x 2400)
  • GPU: 4GB NVIDIA GeForce GTX 1650 Ti
  • Battery: Up to 12 hours

The new Dell XPS 15 9500 is probably the best looking device on the list. Despite boasting of massive processing firepower, this laptop is best known for its stellar aesthetics and the brightest and most color-accurate display.

When it comes to processing power, Dell persists with the revolutionary and powerful Intel Core i7-10750H processor. 3D modeling speeds are faster than ever with a single-core clock speed of up to 5GHz. Besides, as rendering requires multiple cores, the existing chipset is worth relying on courtesy of 6 cores and 12 threads.

The NVIDIA GeForce GTX 1650 Ti comes equipped with 1024 CUDA cores and can work as a viewport rendering and 3D modeling resource. Besides, this processing component also supports GPU acceleration and can also hold its own when playing demanding games at 1080p is concerned.

The 16GB, ultrafast RAM can handle extensive datasets and renders without lags or hiccups. Besides, app caching, preview models, and concluded layouts could be stored on the 1TB solid-state drive. The NVMe compatible module ensures installed application programs like Revit, Blender, Cinema 4D, Lumion renderer, Illustrator, Premiere Pro, and CAD software set load faster than usual. Dell offers the Windows 10 Pro edition as the existing operating platform.

Nothing feels better than working on the vibrant 15.6-inch panel that features an overall resolution of 3840 x 2400 pixels. However, it isn’t just the brightness that makes an impression, as the XPS 15 9500 also boasts of a 94 percent DCI-P3 color gamut and a 100 percent aRGB palette.

Experiencing true-to-life visuals is possible with the VESA certified panel, further complemented by the Dolby Vision technology. Other display-based specs include touch support, anti-reflective paneling for better sunlight visibility, and the EyeSafe anti-glare technology. The protective Corning Gorilla Glass 6 panel also makes quite an impression.

Dell also stacks in a host of other essential features, including the backlit keyboard, a responsive trackpad that is 62 percent bigger as compared to the older variants, and an immersive acoustic experience owing to the Waves NX support and 3D surround experience. Dell also takes great care of the thermal layout and features dual pipes and stealth venting support for improved heat dissipation.

Furthermore, this is a finely crafted machine with only 4.5 pounds of heft to show for it. Despite Dell packing in every resourceful port, it is the Thunderbolt 3 that stands out as a data transfer and charging outlet, all at once. Although the company promises up to 12 hours of extended battery backup, our experts were able to get at least 9 hours on moderate, professional usage, and that too at UHD+ resolution.

In case you want a notebook that looks and feels class-apart without any performance-focused trade-offs, the Dell XPS 15 9500 is the laptop to consider.

Pros
  • Exceptional display
  • 10th gen processor
  • Gorilla Glass Protection 
  • Exceptional thermal layout
  • Ultrafast RAM
  • Brilliant aesthetics
Cons
  • Doesn’t support Ray tracing
  • Comes at a premium price tag

Mac vs Windows for Architectural Designs: Which One?

Personally, at Laptop251, we would suggest you go with a Windows laptop for architectural designs. Tools like AutoCAD, Revit, and SketchUp are far more stable on Windows 10 than on macOS. Besides, NVIDIA GPUs seem to work better with Rhino, 3DS Max, and other software sets than Radeon variants.

Apple MacBooks only offer a few proprietary CAD or BIM tools, and using minimally compatible ones isn’t expected to offer smoother outputs. Modern MacBooks also lack RAM and SSD upgradability, which is also a bottleneck, in case you are planning to scale up your professional advances. Then again, a MacBook, preferably the new Pro model, isn’t bad. It is simply a bit restrictive for professional usage.

Buying Guide – 6 Things to Consider When Buying a New Laptop For Architecture

It’s no secret: architecture laptops are expensive. But, at the same time, they’re a critical professional investment. By ensuring that your laptop is best suited to your needs, you will be able to purchase a piece that’s packed with value. This buying guide will help you do that. 

1. RAM

The RAM or Random Access Memory temporarily stores data that is present for quick retrieval. As an architect, you have to render bulky models frequently. Thus, having insufficient RAM will slow down the rendering of your next 3D.

Rendering models may use 4K textures that can take up to 64 GB of storage space, depending on the size of the project.

Going with a RAM between 12 and 16GB is recommended for AutoCAD. Although one can argue that 8GB will work fine for beginners, we suggest investing in future-proof value.

With either 12 or 16GB RAMs, you’ll be better off at all tasks, such as switching between tabs, between memory-intensive apps such as Rivet/AutoCAD, & and working long hours. 

2. CPU

The processor is the thinking organ of a computer. The faster the PC thinks, the faster it can carry out instructions. The processor also provides the power a laptop needs to do work.

An architect’s projects are demanding because of the multithreaded tasks and the need for quick rendering and visualization. For that to happen smoothly, you need a processor that has multiple cores to support the rigor. 

As a general rule, the number of cores is inversely proportional to the rendering time. Doubling the number of cores cuts the rendering time in half.

3. GPU

GPU or Graphics Processing Unit helps in speeding up the manipulation, creation, and modification of images.

While the GPU doesn’t affect rendering, it plays a significant role in 3D modeling. For instance, in the wireframe drawing. To simply put, GPU predominantly enhances the UI experience or Viewport associated with interpretation and modeling.

As a high-end architect, you are constantly surrounded by 2D and 3D models that require deleting or inserting new walls, windows, color palettes, etc., all of which are GPU-intensive tasks. 8GB NVIDIA GeForce RTX 3070 is one of the best & reliable inbuilt GPUs. It can also be bought separately. 

4. SSD 

An SSD (or Solid StateDrive) was considered a revolutionary advancement in data storage technology because it significantly increased the speed of data retrieval. 

Compared to the traditional HDD, the SSD, as the name suggests, does not contain any moving parts, making the retrieval much quicker. Also, the moving parts make the HDD prone to data loss in case of a fall, whereas SSD is much more durable.

5. Display

The display refers to the quality of pixels, the dimension, and the overall feel of the laptop’s screen. 

Architecture is all about looks and design. Working on a PC that makes exclusive designs look basic due to the lack of sharp colors can be an instant turn-off and a hurdle between you and your ability to work long hours.

Therefore, as an architect, avoid going below an FHD display (1920×1080). Going for an Ultra HD display is recommended: the colors are much sharper and crisper. 

As for the screen size: the bigger, the better. With more screen real estate, you will be able to add more details to your projects and work more comfortably for extensive hours. Going for 15.6-inch laptops and above is recommended.

Some additional comfort features include the anti-glare screen panel (protects your eyes) and touch screen capability (makes you more productive).

6. Weight

How light your laptop should depend on the type of professional you are. Do you move a lot? Or, do you have a dedicated desk where you work for the complete workday?

As a rule of thumb, if you move a lot, get a lighter laptop (preferably something around 2.5 lbs or below). Whereas, if you’re stationed, go with a workstation. 

Of course, weight affects how much technology is packed in a chassis. Usually, lighter laptops tend to be less powerful than heavier workstations. 

Our picks have both types.

Frequently Asked Questions

Can a gaming laptop be used for Architecture work?

Gaming laptops are known to be heavy-duty machines because usually good games require more powerful resources than typical day-to-day web browsing or video streaming usage. In general, they also offer better value than compared to “professional laptop” models. Will a heavy-duty gaming laptop be suitable for architecture use?
Absolutely!

Why is RAM the most important component for 3D rendering and modeling?

RAM or system memory affects the scene or texture complexity. As the CPU doesn’t store any data unless the cache memory is concerned, almost every texture, polygon, and render the feature in the RAM. Therefore, 16GB is more like a bare minimum, as if and when the textures and scenes, especially those related to particles, animation, and visualization, overwhelm the memory, they eventually page out, right to the HDD or SSD. This eventually slows down the processing performances.

How do you select storage modules as per laptop specifications for 3D modeling and rendering?

As a rule of thumb, you must consider laptops with SSD storage modules for achieving better caching speeds, in case you want to free the system memory for handling more intricate renders. However, if you aren’t into dynamic renders and SSD-powered computers are way beyond your budget, an HDD isn’t such a bad option. Then again, if you seek massive storage capacity for fitting in numerous layouts, apps, programs, and files, a dual storage module, i.e., SSD + HDD, much like the HP Zbook 15V, is a great possible option.

What is the actual role of GPU in rendering, and how does the VRAM fit in?

Put simply, the GPU helps display the rendered layout onto the viewport or the UI. However, when 3D modeling is concerned, GPU plays a pivotal role, especially via GPU hardware acceleration. Besides, if you are using a third-party renderer like V-Ray with the preferred software or BIM tool like Revit, GPU accelerated rendering eases proceedings for the CPU. The VRAM, however, helps display the rendering and wireframe modeling results. Therefore, a higher chunk of video RAM automatically translates into lag-free visualizations.

Why are Workstation notebooks better for architectural rendering?

Workstation-grade laptops come forth with Intel Xeon processors, ECC-graded RAM, and Quadro GPUs for better mathematical and probabilistic results. Therefore, the modeling, simulation, and rendering performances are way more accurate. Even the RAM, in select cases, paired with Xeon processors, has an Error-Correcting Chip in place for mitigating memory corruption and displaying accurate results at all times. However, these laptops aren’t the best bets for gaming as the ECC RAM, and Quadro GPU are slightly slower as compared to standard NVIDIA-tagged entities.

What is the preferred laptop display configuration for 3D rendering and architectural layouts?

Color grading is necessary if you consider using tools like AutoCAD, Rhino, and more. Therefore, a 17.3-inch sizable display with at least 99 percent of the sRGB gamut is desirable for architectural layouts. A Pantone or VESA certified panel might also come in handy, provided the screen is at least 1080p.

The Verdict

Each one of these 10 notebooks has the requisite firepower to yield exceptional architectural outputs, based on skill levels and budget.

  • If you are into 3D graphics designing and gaming then HP Omen 17 is a great choice, as it has a great GPU/CPU combo and a good battery life.
  • For portability seekers, Surface Book 3 is the perfect option to go with, whereas XPS 15 9500 is a great asset, in case you are invested in top-of-the-line aesthetics.

If you’re still unable to find a device, please check out our laptop finder.

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